0.05/0.10 % Problem : theBenchmark.p : TPTP v0.0.0. Released v0.0.0. 0.05/0.11 % Command : run_vampire %s %d 0.10/0.31 % Computer : n011.cluster.edu 0.10/0.31 % Model : x86_64 x86_64 0.10/0.31 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz 0.10/0.31 % Memory : 8042.1875MB 0.10/0.31 % OS : Linux 3.10.0-693.el7.x86_64 0.10/0.31 % CPULimit : 960 0.10/0.31 % WCLimit : 120 0.10/0.31 % DateTime : Thu Jul 2 07:51:16 EDT 2020 0.10/0.31 % CPUTime : 0.17/0.35 % (20393)lrs+1010_8_add=off:afp=100000:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afq=1.0:amm=off:anc=none:irw=on:nm=16:newcnf=on:nwc=1.1:nicw=on:stl=30:sp=reverse_arity:urr=on_13 on theBenchmark 0.17/0.37 % (20401)dis+1002_6_add=large:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afp=40000:afq=2.0:bsr=on:cond=on:irw=on:lma=on:nm=2:nwc=2.5:nicw=on:sp=reverse_arity:updr=off_2 on theBenchmark 0.17/0.37 % (20396)lrs+4_3_av=off:br=off:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:nm=0:newcnf=on:nwc=1:stl=30:sp=occurrence:urr=on_32 on theBenchmark 0.17/0.37 % (20394)ott+1002_8:1_add=off:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afr=on:afp=100000:afq=1.1:amm=off:anc=none:bd=off:bs=unit_only:fsr=off:gs=on:gsem=off:nm=32:nwc=10:sp=occurrence:urr=on:updr=off_14 on theBenchmark 0.17/0.37 % (20392)dis+10_128_acc=on:add=off:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afp=4000:afq=1.4:amm=off:bd=preordered:cond=on:fsr=off:fde=unused:gs=on:gsem=on:irw=on:lma=on:nm=64:nwc=1.2:nicw=on:sos=on:sp=occurrence:updr=off:uhcvi=on_2 on theBenchmark 0.17/0.38 % (20412)lrs+1002_1_add=large:csup=on:inj=on:fe=off:chr=on:foolp=on:cnfonf=eager:afr=on:afp=1000:afq=1.1:amm=sco:anc=none:er=known:fsr=off:gs=on:gsem=off:lma=on:nm=2:newcnf=on:nwc=2:stl=30:sd=1:ss=axioms:st=5.0:sp=reverse_arity:updr=off_50 on theBenchmark 0.17/0.38 % (20417)dis+1002_4_add=large:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afp=40000:afq=1.0:anc=none:cond=fast:fde=none:gs=on:gsaa=full_model:lma=on:lwlo=on:nm=0:nwc=1.5:sp=reverse_arity:tha=off_300 on theBenchmark 0.17/0.38 % (20404)ott+2_2_afp=10000:afq=1.4:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:amm=off:anc=none:gsp=input_only:gs=on:gsem=off:irw=on:lcm=predicate:nm=32:nwc=1.5:sos=on:sp=reverse_arity_7 on theBenchmark 0.17/0.38 % (20408)dis+1002_3:1_acc=model:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afr=on:afp=40000:afq=1.1:anc=none:ccuc=first:fsr=off:gsp=input_only:irw=on:nm=16:nwc=1:sos=all_8 on theBenchmark 0.17/0.38 % (20413)lrs+1011_5_add=large:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afp=1000:afq=1.2:anc=none:fsr=off:irw=on:lma=on:nm=64:newcnf=on:nwc=1:stl=30:sd=3:ss=axioms:st=2.0:sos=on:sac=on:sp=reverse_arity:urr=on:updr=off_130 on theBenchmark 0.17/0.38 % (20390)lrs-11_4:1_afp=4000:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afq=2.0:anc=none:br=off:gs=on:lwlo=on:nm=64:nwc=3:stl=30:urr=on_2 on theBenchmark 0.17/0.39 % (20411)dis+10_4_av=off:bsr=on:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:cond=fast:er=filter:fde=none:gsp=input_only:lcm=reverse:lma=on:nwc=4:sp=occurrence:urr=on_8 on theBenchmark 0.17/0.39 % (20398)dis+1_2:3_acc=on:add=large:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afp=40000:afq=2.0:amm=sco:anc=none:er=filter:fsr=off:gsp=input_only:gs=on:gsem=off:nm=64:newcnf=on:nwc=1_3 on theBenchmark 0.17/0.39 % (20405)lrs+1010_3:2_afr=on:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afp=100000:afq=1.1:anc=none:gsp=input_only:irw=on:lwlo=on:nm=2:newcnf=on:nwc=1.7:sac=on:sp=occurrence_300 on theBenchmark 0.17/0.39 % (20402)lrs+1010_3_av=off:fsr=off:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:gs=on:gsem=off:nm=2:newcnf=on:nwc=2:stl=30:sp=reverse_arity:urr=on:updr=off_9 on theBenchmark 0.17/0.39 % (20389)ott+1002_2_av=off:bd=preordered:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:irw=on:lma=on:nm=64:nwc=10:sp=reverse_arity:updr=off_2 on theBenchmark 0.17/0.39 % (20395)lrs+1011_5:1_acc=on:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:amm=off:anc=all_dependent:bd=off:ccuc=small_ones:fde=unused:gs=on:gsaa=full_model:gsem=off:lcm=predicate:lwlo=on:nm=6:newcnf=on:nwc=2.5:stl=30:sp=occurrence:updr=off_3 on theBenchmark 0.17/0.39 % (20409)lrs+10_12_add=off:afp=100000:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afq=1.4:amm=sco:anc=none:cond=on:lma=on:nm=64:nwc=1.3:stl=30:sac=on:urr=on_41 on theBenchmark 0.17/0.39 % (20400)dis-11_3_add=off:afp=40000:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afq=1.0:amm=sco:anc=none:gs=on:irw=on:lcm=reverse:nm=6:nwc=1:sd=4:ss=axioms:st=3.0:sos=on:sac=on_2 on theBenchmark 0.17/0.39 % (20403)lrs+1002_1_av=off:er=filter:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:fsr=off:gs=on:gsem=off:irw=on:lma=on:nm=4:nwc=1:stl=30:sd=3:ss=axioms:st=1.5:sos=on_1 on theBenchmark 0.17/0.39 % (20410)lrs-11_4:1_afp=4000:csup=on:inj=on:chr=on:foolp=on:cnfonf=lazy_gen:afq=2.0:anc=none:br=off:gs=on:lwlo=on:nm=64:nwc=3:stl=30:urr=on_30 on theBenchmark 0.17/0.40 % (20416)lrs-11_4:1_afp=4000:csup=on:inj=on:mXXn=1:foolp=on:e2e=on:cnfonf=eager:afq=2.0:anc=none:br=off:gs=on:lwlo=on:nm=64:nwc=3:stl=30:urr=on_186 on theBenchmark 0.17/0.40 % (20415)lrs+1_4_afp=100000:afq=1.2:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:anc=none:bd=off:cond=on:gs=on:gsem=off:nm=64:nwc=1:sd=2:ss=axioms:st=2.0:sos=all:updr=off_300 on theBenchmark 0.17/0.40 % (20418)dis-11_3_add=off:afp=40000:csup=on:inj=on:chr=on:e2e=on:prag=on:foolp=on:cnfonf=eager:afq=1.0:fde=all:amm=sco:anc=none:gs=on:irw=on:lcm=reverse:nm=6:nwc=1:sd=4:ss=axioms:st=3.0:sos=on:sac=on_50 on theBenchmark 0.17/0.40 % (20414)lrs+1010_8_add=off:afp=100000:csup=on:inj=off:foolp=on:chr=off:e2e=on:cnfonf=eager:afq=1.0:amm=off:anc=none:irw=on:nm=16:newcnf=on:nwc=1.1:nicw=on:stl=30:sp=reverse_arity:urr=on_13 on theBenchmark 0.17/0.41 % (20407)ott+11_20_afr=on:afp=100000:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afq=1.0:amm=sco:anc=all:bsr=on:irw=on:lma=on:nm=4:nwc=1.2:sac=on:sp=occurrence_6 on theBenchmark 0.17/0.41 % (20399)dis+10_128_acc=on:add=off:add=off:afp=4000:afq=1.4:amm=off:bd=preordered:cond=on:fsr=off:fde=unused:gs=on:gsem=on:irw=on:lma=on:nm=64:nwc=1.2:nicw=on:sos=on:sp=occurrence:updr=off:uhcvi=on_40 on theBenchmark 0.17/0.42 % (20406)lrs+1011_5:1_acc=on:csup=on:inj=on:e2e=on:prag=on:foolp=on:cnfonf=eager:amm=off:anc=all_dependent:bd=off:ccuc=small_ones:fde=unused:gs=on:gsaa=full_model:gsem=off:lcm=predicate:lwlo=on:nm=6:newcnf=on:nwc=2.5:stl=30:sp=occurrence:updr=off_30 on theBenchmark 0.17/0.42 % (20397)dis+1010_3:2_av=off:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:gsp=input_only:nm=2:nwc=1:sp=reverse_arity:urr=ec_only_29 on theBenchmark 0.17/0.43 % (20391)lrs+1011_8_add=large:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afp=100000:afq=1.1:er=filter:gsp=input_only:gs=on:gsem=on:lma=on:nm=6:nwc=1:stl=30:sd=2:ss=axioms:st=1.5:sos=on_3 on theBenchmark 7.82/1.42 % (20404)Time limit reached! 7.82/1.42 % (20404)------------------------------ 7.82/1.42 % (20404)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 7.82/1.42 % (20404)Termination reason: Time limit 7.82/1.42 % (20404)Termination phase: Property scanning 7.82/1.42 7.82/1.42 % (20404)Memory used [KB]: 3582 7.82/1.42 % (20404)Time elapsed: 1.0000 s 7.82/1.42 % (20404)------------------------------ 7.82/1.42 % (20404)------------------------------ 8.45/1.46 % (20426)dis+1011_10_add=large:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afr=on:afp=4000:afq=1.0:amm=off:anc=none:lma=on:nm=64:nwc=4:sac=on:sp=occurrence_75 on theBenchmark 10.26/1.73 % (20403)Time limit reached! 10.26/1.73 % (20403)------------------------------ 10.26/1.73 % (20403)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 10.26/1.73 % (20403)Termination reason: Time limit 10.26/1.73 % (20403)Termination phase: SInE selection 10.26/1.73 10.26/1.73 % (20403)Memory used [KB]: 3454 10.26/1.73 % (20403)Time elapsed: 0.400 s 10.26/1.73 % (20403)------------------------------ 10.26/1.73 % (20403)------------------------------ 10.98/1.79 % (20427)dis+1010_3:2_av=off:csup=on:prag=on:chr=on:foolp=on:bet=on:cnfonf=lazy_not_be_gen:gsp=input_only:nm=2:nwc=1:sp=reverse_arity:urr=ec_only_29 on theBenchmark 11.45/1.85 % (20414)Time limit reached! 11.45/1.85 % (20414)------------------------------ 11.45/1.85 % (20414)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 11.45/1.85 % (20414)Termination reason: Time limit 11.45/1.85 % (20414)Termination phase: Saturation 11.45/1.85 11.45/1.85 % (20414)Memory used [KB]: 12153 11.45/1.85 % (20414)Time elapsed: 1.507 s 11.45/1.85 % (20414)------------------------------ 11.45/1.85 % (20414)------------------------------ 12.05/1.92 % (20428)lrs+1011_8_add=large:csup=on:inj=on:prag=on:foolp=on:cnfonf=eager:afp=100000:afq=1.1:er=filter:gsp=input_only:gs=on:gsem=on:lma=on:nm=6:nwc=1:stl=30:sd=2:ss=axioms:st=1.5:sos=on_26 on theBenchmark 12.05/1.94 % (20401)Time limit reached! 12.05/1.94 % (20401)------------------------------ 12.05/1.94 % (20401)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 12.05/1.94 % (20401)Termination reason: Time limit 12.05/1.94 % (20401)Termination phase: Property scanning 12.05/1.94 12.05/1.94 % (20401)Memory used [KB]: 3454 12.05/1.94 % (20401)Time elapsed: 0.500 s 12.05/1.94 % (20401)------------------------------ 12.05/1.94 % (20401)------------------------------ 12.49/1.99 % (20429)lrs+1011_8_add=large:csup=on:fe=off:foolp=on:cnfonf=eager:afp=100000:afq=1.1:er=filter:gsp=input_only:gs=on:gsem=on:lma=on:nm=6:nwc=1:stl=30:sd=2:ss=axioms:st=1.5:sos=on_30 on theBenchmark 13.38/2.13 % (20395)Time limit reached! 13.38/2.13 % (20395)------------------------------ 13.38/2.13 % (20395)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 13.38/2.13 % (20395)Termination reason: Time limit 13.38/2.13 % (20395)Termination phase: Saturation 13.38/2.13 13.38/2.13 % (20395)Memory used [KB]: 13304 13.38/2.13 % (20395)Time elapsed: 0.600 s 13.38/2.13 % (20395)------------------------------ 13.38/2.13 % (20395)------------------------------ 13.88/2.18 % (20430)dis+1002_4_add=large:csup=on:narr=off:inj=on:prag=on:cbe=off:foolp=on:cnfonf=eager:afp=40000:afq=1.0:anc=none:cond=fast:fde=none:gs=on:gsaa=full_model:lma=on:lwlo=on:nm=0:nwc=1.5:sp=reverse_arity_27 on theBenchmark 14.51/2.26 % (20400)Time limit reached! 14.51/2.26 % (20400)------------------------------ 14.51/2.26 % (20400)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 14.51/2.26 % (20400)Termination reason: Time limit 14.51/2.26 % (20400)Termination phase: Property scanning 14.51/2.26 14.51/2.26 % (20400)Memory used [KB]: 3709 14.51/2.26 % (20400)Time elapsed: 0.500 s 14.51/2.26 % (20400)------------------------------ 14.51/2.26 % (20400)------------------------------ 14.98/2.34 % (20431)dis+1_3_add=large:afp=4000:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afq=1.0:anc=none:gs=on:gsem=off:inw=on:lcm=reverse:lwlo=on:nm=64:nwc=1:sos=all:sac=on:uwa=all:updr=off:uhcvi=on_125 on theBenchmark 15.49/2.36 % (20392)Time limit reached! 15.49/2.36 % (20392)------------------------------ 15.49/2.36 % (20392)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 15.49/2.36 % (20392)Termination reason: Time limit 15.49/2.36 % (20392)Termination phase: Property scanning 15.49/2.36 15.49/2.36 % (20392)Memory used [KB]: 3454 15.49/2.36 % (20392)Time elapsed: 0.500 s 15.49/2.36 % (20392)------------------------------ 15.49/2.36 % (20392)------------------------------ 15.53/2.39 % (20432)dis+1010_3:1_av=off:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:irw=on:nm=32:nwc=1:sos=all:urr=ec_only:updr=off_77 on theBenchmark 16.06/2.50 % (20389)Time limit reached! 16.06/2.50 % (20389)------------------------------ 16.06/2.50 % (20389)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 16.06/2.50 % (20389)Termination reason: Time limit 16.06/2.50 % (20389)Termination phase: Saturation 16.06/2.50 16.06/2.50 % (20389)Memory used [KB]: 4477 16.06/2.50 % (20389)Time elapsed: 0.500 s 16.06/2.50 % (20389)------------------------------ 16.06/2.50 % (20389)------------------------------ 16.06/2.51 % (20390)Time limit reached! 16.06/2.51 % (20390)------------------------------ 16.06/2.51 % (20390)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 16.06/2.51 % (20390)Termination reason: Time limit 16.06/2.51 % (20390)Termination phase: Saturation 16.06/2.51 16.06/2.51 % (20390)Memory used [KB]: 13560 16.06/2.51 % (20390)Time elapsed: 0.500 s 16.06/2.51 % (20390)------------------------------ 16.06/2.51 % (20390)------------------------------ 16.79/2.56 % (20433)lrs+1011_5:4_acc=on:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:add=large:afr=on:afp=10000:afq=2.0:amm=sco:anc=none:bsr=on:ccuc=first:cond=on:fde=unused:gs=on:gsaa=from_current:gsem=off:irw=on:nm=2:newcnf=on:nwc=1.2:stl=30:sos=on:sac=on:sp=reverse_arity:updr=off_126 on theBenchmark 17.19/2.61 % (20434)lrs+1002_1_add=large:csup=on:narr=off:inj=on:fe=off:chr=on:foolp=on:cnfonf=eager:afr=on:afp=1000:afq=1.1:amm=sco:anc=none:er=known:fsr=off:gs=on:gsem=off:lma=on:nm=2:newcnf=on:nwc=2:stl=30:sd=1:ss=axioms:st=5.0:sp=reverse_arity:updr=off_50 on theBenchmark 17.19/2.62 % (20398)Time limit reached! 17.19/2.62 % (20398)------------------------------ 17.19/2.62 % (20398)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 17.19/2.62 % (20398)Termination reason: Time limit 17.19/2.62 % (20398)Termination phase: Saturation 17.19/2.62 17.19/2.62 % (20398)Memory used [KB]: 13560 17.19/2.62 % (20398)Time elapsed: 0.600 s 17.19/2.62 % (20398)------------------------------ 17.19/2.62 % (20398)------------------------------ 17.64/2.68 % (20435)lrs-3_4:1_afp=1000:afq=1.4:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:amm=sco:fde=none:gs=on:lcm=reverse:lma=on:nwc=1.5:stl=30:sd=1:ss=axioms:sp=reverse_arity:urr=on:updr=off:uhcvi=on_11 on theBenchmark 18.50/2.80 % (20391)Time limit reached! 18.50/2.80 % (20391)------------------------------ 18.50/2.80 % (20391)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 18.50/2.80 % (20391)Termination reason: Time limit 18.50/2.80 % (20391)Termination phase: Function definition elimination 18.50/2.80 18.50/2.80 % (20391)Memory used [KB]: 3709 18.50/2.80 % (20391)Time elapsed: 0.600 s 18.50/2.80 % (20391)------------------------------ 18.50/2.80 % (20391)------------------------------ 19.25/2.88 % (20436)ott+11_2:1_add=large:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afp=40000:afq=2.0:amm=sco:anc=none:br=off:cond=on:irw=on:nwc=1:sd=2:ss=axioms:st=2.0:sos=all:urr=on:updr=off_9 on theBenchmark 20.75/3.07 % (20408)Time limit reached! 20.75/3.07 % (20408)------------------------------ 20.75/3.07 % (20408)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 20.75/3.07 % (20408)Termination reason: Time limit 20.75/3.07 20.75/3.07 % (20408)Memory used [KB]: 10746 20.75/3.07 % (20408)Time elapsed: 2.726 s 20.75/3.07 % (20408)------------------------------ 20.75/3.07 % (20408)------------------------------ 21.47/3.18 % (20437)lrs+1011_8_add=large:csup=off:foolp=on:cnfonf=eager:afp=100000:afq=1.1:er=filter:gsp=input_only:gs=on:gsem=on:lma=on:nm=6:nwc=1:stl=30:sd=2:ss=axioms:st=1.5:sos=on_13 on theBenchmark 23.89/3.45 % (20397)Time limit reached! 23.89/3.45 % (20397)------------------------------ 23.89/3.45 % (20397)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 23.89/3.45 % (20397)Termination reason: Time limit 23.89/3.45 % (20397)Termination phase: Saturation 23.89/3.45 23.89/3.45 % (20397)Memory used [KB]: 8443 23.89/3.45 % (20397)Time elapsed: 3.100 s 23.89/3.45 % (20397)------------------------------ 23.89/3.45 % (20397)------------------------------ 23.89/3.46 % (20393)Time limit reached! 23.89/3.46 % (20393)------------------------------ 23.89/3.46 % (20393)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 23.89/3.46 % (20393)Termination reason: Time limit 23.89/3.46 23.89/3.46 % (20393)Memory used [KB]: 12281 23.89/3.46 % (20393)Time elapsed: 3.105 s 23.89/3.46 % (20393)------------------------------ 23.89/3.46 % (20393)------------------------------ 24.18/3.50 % (20402)Time limit reached! 24.18/3.50 % (20402)------------------------------ 24.18/3.50 % (20402)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 24.18/3.50 % (20402)Termination reason: Time limit 24.18/3.50 24.18/3.50 % (20402)Memory used [KB]: 12537 24.18/3.50 % (20402)Time elapsed: 3.150 s 24.18/3.50 % (20402)------------------------------ 24.18/3.50 % (20402)------------------------------ 24.18/3.51 % (20438)lrs+1011_2:1_av=off:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:irw=on:lwlo=on:nm=16:newcnf=on:nwc=2:sd=4:ss=axioms:st=3.0:sp=occurrence_300 on theBenchmark 24.18/3.52 % (20439)dis+1011_4_av=off:cond=on:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:irw=on:lma=on:nm=2:nwc=1:sos=all:sp=occurrence_5 on theBenchmark 24.18/3.53 % (20394)Time limit reached! 24.18/3.53 % (20394)------------------------------ 24.18/3.53 % (20394)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 24.18/3.53 % (20394)Termination reason: Time limit 24.18/3.53 24.18/3.53 % (20394)Memory used [KB]: 16758 24.18/3.53 % (20394)Time elapsed: 3.183 s 24.18/3.53 % (20394)------------------------------ 24.18/3.53 % (20394)------------------------------ 24.70/3.56 % (20440)lrs+10_3:1_av=off:bsr=on:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:cond=on:er=known:gs=on:lcm=reverse:nm=32:nwc=4:stl=30:sp=occurrence:urr=on:updr=off_73 on theBenchmark 24.70/3.58 % (20406)Time limit reached! 24.70/3.58 % (20406)------------------------------ 24.70/3.58 % (20406)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 24.70/3.58 % (20441)dis+10_1_add=off:afp=4000:csup=on:inj=on:chr=on:e2e=on:foolp=on:cnfonf=eager:afq=1.2:anc=none:br=off:cond=on:gs=on:irw=on:lcm=reverse:nwc=10:sd=10:ss=axioms:sos=theory:sac=on:sp=occurrence:urr=on_12 on theBenchmark 24.70/3.58 % (20406)Termination reason: Time limit 24.70/3.58 24.70/3.58 % (20406)Memory used [KB]: 39914 24.70/3.58 % (20406)Time elapsed: 3.225 s 24.70/3.58 % (20406)------------------------------ 24.70/3.58 % (20406)------------------------------ 24.70/3.59 % (20407)Time limit reached! 24.70/3.59 % (20407)------------------------------ 24.70/3.59 % (20407)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 24.70/3.59 % (20407)Termination reason: Time limit 24.70/3.59 % (20407)Termination phase: Saturation 24.70/3.59 24.70/3.59 % (20407)Memory used [KB]: 10618 24.70/3.59 % (20407)Time elapsed: 0.900 s 24.70/3.59 % (20407)------------------------------ 24.70/3.59 % (20407)------------------------------ 25.13/3.64 % (20442)lrs+4_3_av=off:bd=preordered:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:bs=unit_only:cond=fast:fde=unused:gsp=input_only:gs=on:gsem=on:lma=on:lwlo=on:nm=6:nwc=1:stl=60:sp=occurrence:uhcvi=on_481 on theBenchmark 25.45/3.66 % (20443)lrs+1002_1_av=off:fde=unused:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:lwlo=on:nm=16:nwc=4:sp=occurrence_300 on theBenchmark 25.96/3.77 % (20396)Time limit reached! 25.96/3.77 % (20396)------------------------------ 25.96/3.77 % (20396)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 25.96/3.77 % (20396)Termination reason: Time limit 25.96/3.77 25.96/3.77 % (20396)Memory used [KB]: 8827 25.96/3.77 % (20396)Time elapsed: 3.416 s 25.96/3.77 % (20396)------------------------------ 25.96/3.77 % (20396)------------------------------ 26.18/3.81 % (20444)ott+1002_2_av=off:bd=preordered:csup=on:inj=on:chr=on:foolp=on:cnfonf=lazy_not_gen_be_off:bet=on:sup=off:irw=on:lma=on:nm=64:nwc=10:sp=reverse_arity:updr=off_70 on theBenchmark 29.20/4.14 % (20411)Time limit reached! 29.20/4.14 % (20411)------------------------------ 29.20/4.14 % (20411)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 29.20/4.14 % (20411)Termination reason: Time limit 29.20/4.14 29.20/4.14 % (20411)Memory used [KB]: 13560 29.20/4.14 % (20411)Time elapsed: 3.782 s 29.20/4.14 % (20411)------------------------------ 29.20/4.14 % (20411)------------------------------ 29.60/4.19 % (20410)Time limit reached! 29.60/4.19 % (20410)------------------------------ 29.60/4.19 % (20410)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 29.60/4.19 % (20410)Termination reason: Time limit 29.60/4.19 29.60/4.19 % (20410)Memory used [KB]: 69849 29.60/4.19 % (20410)Time elapsed: 3.775 s 29.60/4.19 % (20410)------------------------------ 29.60/4.19 % (20410)------------------------------ 29.60/4.24 % (20445)lrs-11_4:1_afp=4000:csup=on:inj=on:bet=on:foolp=on:cnfonf=lazy_not_gen_be_off:afq=2.0:anc=none:br=off:gs=on:lwlo=on:nm=64:nwc=3:stl=30:urr=on_45 on theBenchmark 30.54/4.34 % (20446)lrs+1011_8_add=large:csup=on:e2e=on:prag=on:mXXn=1:cnfonf=lazy_simp:afp=100000:afq=1.1:er=filter:gsp=input_only:gs=on:gsem=on:lma=on:nm=6:nwc=1:stl=30:sd=2:ss=axioms:st=1.5:sos=on_19 on theBenchmark 33.06/4.64 % (20399)Time limit reached! 33.06/4.64 % (20399)------------------------------ 33.06/4.64 % (20399)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 33.06/4.64 % (20399)Termination reason: Time limit 33.06/4.64 33.06/4.64 % (20399)Memory used [KB]: 44519 33.06/4.64 % (20399)Time elapsed: 4.232 s 33.06/4.64 % (20399)------------------------------ 33.06/4.64 % (20399)------------------------------ 33.06/4.66 % (20409)Time limit reached! 33.06/4.66 % (20409)------------------------------ 33.06/4.66 % (20409)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 33.06/4.66 % (20409)Termination reason: Time limit 33.06/4.66 33.06/4.66 % (20409)Memory used [KB]: 15479 33.06/4.66 % (20409)Time elapsed: 4.305 s 33.06/4.66 % (20409)------------------------------ 33.06/4.66 % (20409)------------------------------ 33.51/4.71 % (20435)Time limit reached! 33.51/4.71 % (20435)------------------------------ 33.51/4.71 % (20435)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 33.51/4.71 % (20435)Termination reason: Time limit 33.51/4.71 % (20435)Termination phase: Saturation 33.51/4.71 33.51/4.71 % (20435)Memory used [KB]: 17270 33.51/4.71 % (20435)Time elapsed: 1.300 s 33.51/4.71 % (20435)------------------------------ 33.51/4.71 % (20435)------------------------------ 33.99/4.76 % (20448)dis+1002_7_acc=on:afp=4000:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afq=2.0:amm=sco:anc=none:cond=fast:fsr=off:gsp=input_only:gs=on:gsem=on:lma=on:nm=6:newcnf=on:nwc=1.1:nicw=on:sos=on:sac=on:sp=reverse_arity:urr=ec_only:updr=off_73 on theBenchmark 33.99/4.76 % (20449)dis+11_24_afp=40000:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:afq=1.1:amm=sco:anc=none:bs=on:gs=on:gsem=off:lcm=predicate:lma=on:nm=2:nwc=1:sos=on:sac=on:updr=off_91 on theBenchmark 34.08/4.77 % (20447)dis+1011_4_av=off:cond=on:piset=false_true_not:csup=on:inj=on:chr=on:foolp=on:cnfonf=eager:irw=on:lma=on:nm=2:nwc=1:sos=all:sp=occurrence_5 on theBenchmark 34.61/4.88 % (20427)Time limit reached! 34.61/4.88 % (20427)------------------------------ 34.61/4.88 % (20427)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 34.61/4.88 % (20427)Termination reason: Time limit 34.61/4.88 34.61/4.88 % (20427)Memory used [KB]: 7547 34.61/4.88 % (20427)Time elapsed: 3.125 s 34.61/4.88 % (20427)------------------------------ 34.61/4.88 % (20427)------------------------------ 35.22/4.95 % (20450)lrs+1010_8_add=off:afp=100000:afq=1.0:amm=off:anc=none:csup=on:foolp=on:ptlr=on:irw=on:nm=16:newcnf=on:nwc=1.1:nicw=on:stl=30:sp=reverse_arity:urr=on_13 on theBenchmark 35.22/4.96 % (20441)Time limit reached! 35.22/4.96 % (20441)------------------------------ 35.22/4.96 % (20441)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 35.22/4.96 % (20441)Termination reason: Time limit 35.22/4.96 % (20441)Termination phase: Saturation 35.22/4.96 35.22/4.96 % (20441)Memory used [KB]: 19317 35.22/4.96 % (20441)Time elapsed: 1.400 s 35.22/4.96 % (20441)------------------------------ 35.22/4.96 % (20441)------------------------------ 35.22/5.00 % (20426)Refutation found. Thanks to Tanya! 35.22/5.00 % SZS status Theorem for theBenchmark 35.22/5.01 % SZS output start Proof for theBenchmark 35.22/5.01 tff(func_def_3, type, ->: ('$tType' * '$tType') > '$tType'). 35.22/5.01 tff(func_def_4, type, in: '$i' -> '$i' -> '$o'). 35.22/5.01 tff(func_def_5, type, exu: ('$i' -> '$o') -> '$o'). 35.22/5.01 tff(func_def_6, type, vAPP: !>[X0: $ttype, X1: $ttype]:(X0 -> X1 * X0) > X1). 35.22/5.01 tff(func_def_10, type, setadjoin: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_12, type, powerset: '$i' -> '$i'). 35.22/5.01 tff(func_def_14, type, setunion: '$i' -> '$i'). 35.22/5.01 tff(func_def_23, type, descr: ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_25, type, dsetconstr: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_30, type, prop2set: '$o' -> '$i'). 35.22/5.01 tff(func_def_40, type, nonempty: '$i' -> '$o'). 35.22/5.01 tff(func_def_73, type, set2prop: '$i' -> '$o'). 35.22/5.01 tff(func_def_92, type, subset: '$i' -> '$i' -> '$o'). 35.22/5.01 tff(func_def_93, type, disjoint: '$i' -> '$i' -> '$o'). 35.22/5.01 tff(func_def_94, type, setsmeet: '$i' -> '$i' -> '$o'). 35.22/5.01 tff(func_def_118, type, binunion: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_126, type, binintersect: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_139, type, regular: '$i' -> '$o'). 35.22/5.01 tff(func_def_140, type, setminus: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_151, type, symdiff: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_157, type, iskpair: '$i' -> '$o'). 35.22/5.01 tff(func_def_162, type, kpair: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_164, type, cartprod: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_181, type, singleton: '$i' -> '$o'). 35.22/5.01 tff(func_def_183, type, ex1: '$i' -> ('$i' -> '$o') -> '$o'). 35.22/5.01 tff(func_def_188, type, atmost1p: '$i' -> '$o'). 35.22/5.01 tff(func_def_189, type, atleast2p: '$i' -> '$o'). 35.22/5.01 tff(func_def_190, type, atmost2p: '$i' -> '$o'). 35.22/5.01 tff(func_def_191, type, upairsetp: '$i' -> '$o'). 35.22/5.01 tff(func_def_195, type, kfst: '$i' -> '$i'). 35.22/5.01 tff(func_def_207, type, ksnd: '$i' -> '$i'). 35.22/5.01 tff(func_def_217, type, breln: '$i' -> '$i' -> '$i' -> '$o'). 35.22/5.01 tff(func_def_218, type, dpsetconstr: '$i' -> '$i' -> ('$i' -> '$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_226, type, func: '$i' -> '$i' -> '$i' -> '$o'). 35.22/5.01 tff(func_def_227, type, funcSet: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_230, type, ap: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_236, type, lam: '$i' -> '$i' -> ('$i' -> '$i') -> '$i'). 35.22/5.01 tff(func_def_263, type, if: '$i' -> '$o' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_314, type, vEPSILON: !>[X0: $ttype]:(X0 -> '$o') -> X0). 35.22/5.01 tff(func_def_317, type, vEQ: !>[X0: $ttype]:X0 -> X0 -> '$o'). 35.22/5.01 tff(func_def_318, type, vPI: !>[X0: $ttype]:(X0 -> '$o') -> '$o'). 35.22/5.01 tff(func_def_319, type, iCOMB: !>[X2: $ttype]:X2 -> X2). 35.22/5.01 tff(func_def_320, type, cCOMB: !>[X0: $ttype, X1: $ttype, X2: $ttype]:(X0 -> X1 -> X2) -> X1 -> X0 -> X2). 35.22/5.01 tff(func_def_321, type, bCOMB: !>[X0: $ttype, X1: $ttype, X2: $ttype]:(X1 -> X2) -> (X0 -> X1) -> X0 -> X2). 35.22/5.01 tff(func_def_322, type, sCOMB: !>[X0: $ttype, X1: $ttype, X2: $ttype]:(X0 -> X1 -> X2) -> (X0 -> X1) -> X0 -> X2). 35.22/5.01 tff(func_def_323, type, kCOMB: !>[X1: $ttype, X2: $ttype]:X1 -> X2 -> X1). 35.22/5.01 tff(func_def_324, type, vIMP: '$o' -> '$o' -> '$o'). 35.22/5.01 tff(func_def_325, type, vAND: '$o' -> '$o' -> '$o'). 35.22/5.01 tff(func_def_326, type, vNOT: '$o' -> '$o'). 35.22/5.01 tff(func_def_327, type, vSIGMA: !>[X0: $ttype]:(X0 -> '$o') -> '$o'). 35.22/5.01 tff(func_def_328, type, vIFF: '$o' -> '$o' -> '$o'). 35.22/5.01 tff(func_def_329, type, vOR: '$o' -> '$o' -> '$o'). 35.22/5.01 tff(func_def_335, type, sK5: '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_336, type, sK6: '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_337, type, sK7: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_338, type, sK8: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_339, type, sK9: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_340, type, sK10: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_341, type, sK11: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_342, type, sK12: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_343, type, sK13: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_344, type, sK14: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_345, type, sK15: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_346, type, sK16: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_347, type, sK17: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_348, type, sK18: '$i' -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_349, type, sK19: ('$i' -> '$o') -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_350, type, sK20: ('$i' -> '$o') -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_351, type, sK21: ('$i' -> '$o') -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_352, type, sK22: ('$i' -> '$o') -> '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_353, type, sK23: '$i' -> ('$i' -> '$o') -> '$i' -> '$i'). 35.22/5.01 tff(func_def_354, type, sK24: '$i' -> '$i' -> ('$i' -> '$i') -> '$i'). 35.22/5.01 tff(func_def_355, type, sK25: '$i' -> '$i' -> ('$i' -> '$i') -> '$i'). 35.22/5.01 tff(func_def_356, type, sK26: '$i' -> '$i' -> ('$i' -> '$i') -> '$i'). 35.22/5.01 tff(func_def_357, type, sK27: '$i' -> '$i' -> ('$i' -> '$i') -> '$i'). 35.22/5.01 tff(func_def_358, type, sK28: '$i' -> '$i' -> ('$i' -> '$i') -> '$i'). 35.22/5.01 tff(func_def_359, type, sK29: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_360, type, sK30: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_361, type, sK31: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_362, type, sK32: '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_363, type, sK33: '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_364, type, sK34: '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_365, type, sK35: '$i' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_366, type, sK36: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_367, type, sK37: '$o' -> '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_368, type, sK38: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_369, type, sK39: ('$i' -> '$o') -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_370, type, sK40: ('$i' -> '$o') -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_371, type, sK41: ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_372, type, sK42: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_373, type, sK43: ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_374, type, sK44: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_375, type, sK45: ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_376, type, sK46: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_377, type, sK47: ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_378, type, sK48: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_379, type, sK49: ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_380, type, sK50: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_381, type, sK51: ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_382, type, sK52: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_383, type, sK53: ('$i' -> '$o') -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_384, type, sK54: ('$i' -> '$o') -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_385, type, sK55: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_386, type, sK56: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_387, type, sK57: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_388, type, sK58: ('$i' -> '$i' -> '$o') -> '$i' -> '$i'). 35.22/5.01 tff(func_def_389, type, sK59: ('$i' -> '$i' -> '$o') -> '$i' -> '$i'). 35.22/5.01 tff(func_def_390, type, sK60: '$i' -> ('$i' -> '$i' -> '$o') -> '$i' -> '$i'). 35.22/5.01 tff(func_def_391, type, sK61: '$i' -> ('$i' -> '$i' -> '$o') -> '$i' -> '$i'). 35.22/5.01 tff(func_def_392, type, sK62: '$i' -> ('$i' -> '$i' -> '$o') -> '$i' -> '$i'). 35.22/5.01 tff(func_def_393, type, sK63: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_394, type, sK64: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_395, type, sK65: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_396, type, sK66: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_397, type, sK67: '$i' -> '$i' -> '$i'). 35.22/5.01 tff(func_def_398, type, sK68: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_399, type, sK69: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_400, type, sK70: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_401, type, sK71: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_402, type, sK72: '$i' -> ('$i' -> '$o') -> '$i'). 35.22/5.01 tff(func_def_403, type, sK73: '$i' -> '$i' -> '$i'). 36.05/5.02 tff(func_def_404, type, sK74: '$i' -> ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_405, type, sK75: '$i' -> ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_406, type, sK76: '$i' -> ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_407, type, sK77: '$i' -> ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_408, type, sK78: ('$i' -> '$o') -> ('$i' -> '$o') -> '$i' -> '$i' -> '$i'). 36.05/5.02 tff(func_def_409, type, sK79: ('$i' -> '$o') -> ('$i' -> '$o') -> '$i' -> '$i' -> '$i'). 36.05/5.02 tff(func_def_410, type, sK80: '$i' -> '$i'). 36.05/5.02 tff(func_def_411, type, sK81: '$i' -> '$i' -> '$i'). 36.05/5.02 tff(func_def_412, type, sK82: '$i' -> '$i' -> '$i'). 36.05/5.02 tff(func_def_413, type, sK83: '$i' -> '$i' -> '$i'). 36.05/5.02 tff(func_def_414, type, sK84: '$i' -> '$i' -> '$i' -> '$i'). 36.05/5.02 tff(func_def_415, type, sK85: '$i' -> ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_416, type, sK86: ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_417, type, sK87: '$i' -> ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_418, type, sK88: ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_419, type, sK89: '$i' -> ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_420, type, sK90: '$i' -> ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_421, type, sK91: '$i' -> ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_422, type, sK92: '$i' -> '$i'). 36.05/5.02 tff(func_def_423, type, sK93: '$i' -> '$i'). 36.05/5.02 tff(func_def_424, type, sK94: '$i' -> '$i'). 36.05/5.02 tff(func_def_425, type, sK95: ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_426, type, sK96: ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_427, type, sK97: ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_428, type, sK98: ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_429, type, sK99: '$i' -> ('$i' -> '$o') -> '$i'). 36.05/5.02 tff(func_def_430, type, sK100: '$i' -> '$i'). 36.05/5.02 tff(func_def_431, type, sK101: '$i' -> '$i'). 36.05/5.02 tff(func_def_432, type, sK102: '$i' -> '$i'). 36.05/5.02 tff(f105,axiom,( 36.05/5.02 (binunionE = ! [X3,X4,X1] : (in @ X1 @ (binunion @ X3 @ X4) => (in @ X1 @ X4 | in @ X1 @ X3)))), 36.05/5.02 file('/export/starexec/sandbox2/benchmark/theBenchmark.p',binunionE)). 36.05/5.02 tff(f120,axiom,( 36.05/5.02 (setminusI = ! [X3,X4,X1] : (in @ X1 @ X3 => (~in @ X1 @ X4 => in @ X1 @ (setminus @ X3 @ X4))))), 36.05/5.02 file('/export/starexec/sandbox2/benchmark/theBenchmark.p',setminusI)). 36.05/5.02 tff(f122,axiom,( 36.05/5.02 (setminusER = ! [X3,X4,X1] : (in @ X1 @ (setminus @ X3 @ X4) => ~in @ X1 @ X4))), 36.05/5.02 file('/export/starexec/sandbox2/benchmark/theBenchmark.p',setminusER)). 36.05/5.02 tff(f276,conjecture,( 36.05/5.02 setextAx => (emptysetAx => (setadjoinAx => (powersetAx => (setunionAx => (omega0Ax => (omegaSAx => (omegaIndAx => (replAx => (foundationAx => (wellorderingAx => (descrp => (dsetconstrI => (dsetconstrEL => (dsetconstrER => (exuE1 => (prop2setE => (emptysetE => (emptysetimpfalse => (notinemptyset => (exuE3e => (setext => (emptyI => (noeltsimpempty => (setbeta => (nonemptyE1 => (nonemptyI => (nonemptyI1 => (setadjoinIL => (emptyinunitempty => (setadjoinIR => (setadjoinE => (setadjoinOr => (setoftrueEq => (powersetI => (emptyinPowerset => (emptyInPowerset => (powersetE => (setunionI => (setunionE => (subPowSU => (exuE2 => (nonemptyImpWitness => (uniqinunit => (notinsingleton => (eqinunit => (singletonsswitch => (upairsetE => (upairsetIL => (upairsetIR => (emptyE1 => (vacuousDall => (quantDeMorgan1 => (quantDeMorgan2 => (quantDeMorgan3 => (quantDeMorgan4 => (prop2setI => (prop2set2propI => (notdexE => (notdallE => (exuI1 => (exuI3 => (exuI2 => (inCongP => (in__Cong => (exuE3u => (exu__Cong => (emptyset__Cong => (setadjoin__Cong => (powerset__Cong => (setunion__Cong => (omega__Cong => (exuEu => (descr__Cong => (dsetconstr__Cong => (subsetI1 => (eqimpsubset2 => (eqimpsubset1 => (subsetI2 => (emptysetsubset => (subsetE => (subsetE2 => (notsubsetI => (notequalI1 => (notequalI2 => (subsetRefl => (subsetTrans => (setadjoinSub => (setadjoinSub2 => (subset2powerset => (setextsub => (subsetemptysetimpeq => (powersetI1 => (powersetE1 => (inPowerset => (powersetsubset => (sepInPowerset => (sepSubset => (binunionIL => (upairset2IR => (binunionIR => (binunionEcases => (binunionE => (binunionLsub => (binunionRsub => (binintersectI => (binintersectSubset5 => (binintersectEL => (binintersectLsub => (binintersectSubset2 => (binintersectSubset3 => (binintersectER => (disjointsetsI1 => (binintersectRsub => (binintersectSubset4 => (binintersectSubset1 => (bs114d => (setminusI => (setminusEL => (setminusER => (setminusSubset2 => (setminusERneg => (setminusELneg => (setminusILneg => (setminusIRneg => (setminusLsub => (setminusSubset1 => (symdiffE => (symdiffI1 => (symdiffI2 => (symdiffIneg1 => (symdiffIneg2 => (secondinupair => (setukpairIL => (setukpairIR => (kpairiskpair => (kpairp => (singletonsubset => (singletoninpowerset => (singletoninpowunion => (upairset2E => (upairsubunion => (upairinpowunion => (ubforcartprodlem1 => (ubforcartprodlem2 => (ubforcartprodlem3 => (cartprodpairin => (cartprodmempair1 => (cartprodmempair => (setunionE2 => (setunionsingleton1 => (setunionsingleton2 => (setunionsingleton => (singletonprop => (ex1E1 => (ex1I => (ex1I2 => (singletonsuniq => (setukpairinjL1 => (kfstsingleton => (theprop => (kfstpairEq => (cartprodfstin => (setukpairinjL2 => (setukpairinjL => (setukpairinjR11 => (setukpairinjR12 => (setukpairinjR1 => (upairequniteq => (setukpairinjR2 => (setukpairinjR => (ksndsingleton => (ksndpairEq => (kpairsurjEq => (cartprodsndin => (cartprodpairmemEL => (cartprodpairmemER => (cartprodmempaircEq => (cartprodfstpairEq => (cartprodsndpairEq => (cartprodpairsurjEq => (dpsetconstrI => (dpsetconstrSub => (setOfPairsIsBReln => (dpsetconstrERa => (dpsetconstrEL1 => (dpsetconstrEL2 => (dpsetconstrER => (funcImageSingleton => (apProp => (app => (infuncsetfunc => (ap2p => (funcinfuncset => (lamProp => (lamp => (lam2p => (brelnall1 => (brelnall2 => (ex1E2 => (funcGraphProp1 => (funcGraphProp3 => (funcGraphProp2 => (funcextLem => (funcGraphProp4 => (subbreln => (eqbreln => (funcext => (funcext2 => (ap2apEq1 => (ap2apEq2 => (beta1 => (eta1 => (lam2lamEq => (beta2 => (eta2 => (iffalseProp1 => (iffalseProp2 => (iftrueProp1 => (iftrueProp2 => (ifSingleton => (ifp => (theeq => (iftrue => (iffalse => (iftrueorfalse => (binintersectT_lem => (binunionT_lem => (powersetT_lem => (setminusT_lem => (complementT_lem => (setextT => (subsetTI => (powersetTI1 => (powersetTE1 => (complementTI1 => (complementTE1 => (binintersectTELcontra => (binintersectTERcontra => (contrasubsetT => (contrasubsetT1 => (contrasubsetT2 => (contrasubsetT3 => (doubleComplementI1 => (doubleComplementE1 => (doubleComplementSub1 => (doubleComplementSub2 => (doubleComplementEq => (complementTnotintersectT => (complementImpComplementIntersect => (complementSubsetComplementIntersect => (complementInPowersetComplementIntersect => (contraSubsetComplement => (complementTcontraSubset => (binunionTILcontra => (binunionTIRcontra => (inIntersectImpInUnion => (inIntersectImpInUnion2 => (inIntersectImpInIntersectUnions => (intersectInPowersetIntersectUnions => (inComplementUnionImpNotIn1 => (inComplementUnionImpInComplement1 => (binunionTE => (binunionTEcontra => (demorgan2a1 => (complementUnionInPowersetComplement => (demorgan2a2 => (demorgan1a => (demorgan1b => (demorgan1 => (demorgan2a => ! [X3,X11] : (in @ X11 @ (powerset @ X3) => ! [X16] : (in @ X16 @ (powerset @ X3) => ! [X1] : (in @ X1 @ X3 => (in @ X1 @ (setminus @ X3 @ X11) => (in @ X1 @ (setminus @ X3 @ X16) => in @ X1 @ (setminus @ X3 @ (binunion @ X11 @ X16)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))), 36.05/5.02 file('/export/starexec/sandbox2/benchmark/theBenchmark.p',demorgan2b2)). 36.05/5.02 tff(f277,negated_conjecture,( 36.05/5.02 ~(setextAx => (emptysetAx => (setadjoinAx => (powersetAx => (setunionAx => (omega0Ax => (omegaSAx => (omegaIndAx => (replAx => (foundationAx => (wellorderingAx => (descrp => (dsetconstrI => (dsetconstrEL => (dsetconstrER => (exuE1 => (prop2setE => (emptysetE => (emptysetimpfalse => (notinemptyset => (exuE3e => (setext => (emptyI => (noeltsimpempty => (setbeta => (nonemptyE1 => (nonemptyI => (nonemptyI1 => (setadjoinIL => (emptyinunitempty => (setadjoinIR => (setadjoinE => (setadjoinOr => (setoftrueEq => (powersetI => (emptyinPowerset => (emptyInPowerset => (powersetE => (setunionI => (setunionE => (subPowSU => (exuE2 => (nonemptyImpWitness => (uniqinunit => (notinsingleton => (eqinunit => (singletonsswitch => (upairsetE => (upairsetIL => (upairsetIR => (emptyE1 => (vacuousDall => (quantDeMorgan1 => (quantDeMorgan2 => (quantDeMorgan3 => (quantDeMorgan4 => (prop2setI => (prop2set2propI => (notdexE => (notdallE => (exuI1 => (exuI3 => (exuI2 => (inCongP => (in__Cong => (exuE3u => (exu__Cong => (emptyset__Cong => (setadjoin__Cong => (powerset__Cong => (setunion__Cong => (omega__Cong => (exuEu => (descr__Cong => (dsetconstr__Cong => (subsetI1 => (eqimpsubset2 => (eqimpsubset1 => (subsetI2 => (emptysetsubset => (subsetE => (subsetE2 => (notsubsetI => (notequalI1 => (notequalI2 => (subsetRefl => (subsetTrans => (setadjoinSub => (setadjoinSub2 => (subset2powerset => (setextsub => (subsetemptysetimpeq => (powersetI1 => (powersetE1 => (inPowerset => (powersetsubset => (sepInPowerset => (sepSubset => (binunionIL => (upairset2IR => (binunionIR => (binunionEcases => (binunionE => (binunionLsub => (binunionRsub => (binintersectI => (binintersectSubset5 => (binintersectEL => (binintersectLsub => (binintersectSubset2 => (binintersectSubset3 => (binintersectER => (disjointsetsI1 => (binintersectRsub => (binintersectSubset4 => (binintersectSubset1 => (bs114d => (setminusI => (setminusEL => (setminusER => (setminusSubset2 => (setminusERneg => (setminusELneg => (setminusILneg => (setminusIRneg => (setminusLsub => (setminusSubset1 => (symdiffE => (symdiffI1 => (symdiffI2 => (symdiffIneg1 => (symdiffIneg2 => (secondinupair => (setukpairIL => (setukpairIR => (kpairiskpair => (kpairp => (singletonsubset => (singletoninpowerset => (singletoninpowunion => (upairset2E => (upairsubunion => (upairinpowunion => (ubforcartprodlem1 => (ubforcartprodlem2 => (ubforcartprodlem3 => (cartprodpairin => (cartprodmempair1 => (cartprodmempair => (setunionE2 => (setunionsingleton1 => (setunionsingleton2 => (setunionsingleton => (singletonprop => (ex1E1 => (ex1I => (ex1I2 => (singletonsuniq => (setukpairinjL1 => (kfstsingleton => (theprop => (kfstpairEq => (cartprodfstin => (setukpairinjL2 => (setukpairinjL => (setukpairinjR11 => (setukpairinjR12 => (setukpairinjR1 => (upairequniteq => (setukpairinjR2 => (setukpairinjR => (ksndsingleton => (ksndpairEq => (kpairsurjEq => (cartprodsndin => (cartprodpairmemEL => (cartprodpairmemER => (cartprodmempaircEq => (cartprodfstpairEq => (cartprodsndpairEq => (cartprodpairsurjEq => (dpsetconstrI => (dpsetconstrSub => (setOfPairsIsBReln => (dpsetconstrERa => (dpsetconstrEL1 => (dpsetconstrEL2 => (dpsetconstrER => (funcImageSingleton => (apProp => (app => (infuncsetfunc => (ap2p => (funcinfuncset => (lamProp => (lamp => (lam2p => (brelnall1 => (brelnall2 => (ex1E2 => (funcGraphProp1 => (funcGraphProp3 => (funcGraphProp2 => (funcextLem => (funcGraphProp4 => (subbreln => (eqbreln => (funcext => (funcext2 => (ap2apEq1 => (ap2apEq2 => (beta1 => (eta1 => (lam2lamEq => (beta2 => (eta2 => (iffalseProp1 => (iffalseProp2 => (iftrueProp1 => (iftrueProp2 => (ifSingleton => (ifp => (theeq => (iftrue => (iffalse => (iftrueorfalse => (binintersectT_lem => (binunionT_lem => (powersetT_lem => (setminusT_lem => (complementT_lem => (setextT => (subsetTI => (powersetTI1 => (powersetTE1 => (complementTI1 => (complementTE1 => (binintersectTELcontra => (binintersectTERcontra => (contrasubsetT => (contrasubsetT1 => (contrasubsetT2 => (contrasubsetT3 => (doubleComplementI1 => (doubleComplementE1 => (doubleComplementSub1 => (doubleComplementSub2 => (doubleComplementEq => (complementTnotintersectT => (complementImpComplementIntersect => (complementSubsetComplementIntersect => (complementInPowersetComplementIntersect => (contraSubsetComplement => (complementTcontraSubset => (binunionTILcontra => (binunionTIRcontra => (inIntersectImpInUnion => (inIntersectImpInUnion2 => (inIntersectImpInIntersectUnions => (intersectInPowersetIntersectUnions => (inComplementUnionImpNotIn1 => (inComplementUnionImpInComplement1 => (binunionTE => (binunionTEcontra => (demorgan2a1 => (complementUnionInPowersetComplement => (demorgan2a2 => (demorgan1a => (demorgan1b => (demorgan1 => (demorgan2a => ! [X3,X11] : (in @ X11 @ (powerset @ X3) => ! [X16] : (in @ X16 @ (powerset @ X3) => ! [X1] : (in @ X1 @ X3 => (in @ X1 @ (setminus @ X3 @ X11) => (in @ X1 @ (setminus @ X3 @ X16) => in @ X1 @ (setminus @ X3 @ (binunion @ X11 @ X16))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))), 36.05/5.02 inference(negated_conjecture,[],[f276])). 36.05/5.02 tff(f278,plain,( 36.05/5.02 ~(setextAx => (emptysetAx => (setadjoinAx => (powersetAx => (setunionAx => (omega0Ax => (omegaSAx => (omegaIndAx => (replAx => (foundationAx => (wellorderingAx => (descrp => (dsetconstrI => (dsetconstrEL => (dsetconstrER => (exuE1 => (prop2setE => (emptysetE => (emptysetimpfalse => (notinemptyset => (exuE3e => (setext => (emptyI => (noeltsimpempty => (setbeta => (nonemptyE1 => (nonemptyI => (nonemptyI1 => (setadjoinIL => (emptyinunitempty => (setadjoinIR => (setadjoinE => (setadjoinOr => (setoftrueEq => (powersetI => (emptyinPowerset => (emptyInPowerset => (powersetE => (setunionI => (setunionE => (subPowSU => (exuE2 => (nonemptyImpWitness => (uniqinunit => (notinsingleton => (eqinunit => (singletonsswitch => (upairsetE => (upairsetIL => (upairsetIR => (emptyE1 => (vacuousDall => (quantDeMorgan1 => (quantDeMorgan2 => (quantDeMorgan3 => (quantDeMorgan4 => (prop2setI => (prop2set2propI => (notdexE => (notdallE => (exuI1 => (exuI3 => (exuI2 => (inCongP => (in__Cong => (exuE3u => (exu__Cong => (emptyset__Cong => (setadjoin__Cong => (powerset__Cong => (setunion__Cong => (omega__Cong => (exuEu => (descr__Cong => (dsetconstr__Cong => (subsetI1 => (eqimpsubset2 => (eqimpsubset1 => (subsetI2 => (emptysetsubset => (subsetE => (subsetE2 => (notsubsetI => (notequalI1 => (notequalI2 => (subsetRefl => (subsetTrans => (setadjoinSub => (setadjoinSub2 => (subset2powerset => (setextsub => (subsetemptysetimpeq => (powersetI1 => (powersetE1 => (inPowerset => 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(intersectInPowersetIntersectUnions => (inComplementUnionImpNotIn1 => (inComplementUnionImpInComplement1 => (binunionTE => (binunionTEcontra => (demorgan2a1 => (complementUnionInPowersetComplement => (demorgan2a2 => (demorgan1a => (demorgan1b => (demorgan1 => (demorgan2a => ! [X0,X1] : (in @ X1 @ (powerset @ X0) => ! [X2] : (in @ X2 @ (powerset @ X0) => ! [X3] : (in @ X3 @ X0 => (in @ X3 @ (setminus @ X0 @ X1) => (in @ X3 @ (setminus @ X0 @ X2) => in @ X3 @ (setminus @ X0 @ (binunion @ X1 @ X2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))), 36.05/5.03 inference(rectify,[],[f277])). 36.05/5.03 tff(f279,plain,( 36.05/5.03 ~((setextAx = $true) => ((emptysetAx = $true) => ((setadjoinAx = $true) => ((powersetAx = $true) => ((setunionAx = $true) => ((omega0Ax = $true) => ((omegaSAx = $true) => ((omegaIndAx = $true) => ((replAx = $true) => ((foundationAx = $true) => ((wellorderingAx = $true) => ((descrp = $true) => ((dsetconstrI = $true) => ((dsetconstrEL = $true) => ((dsetconstrER = $true) => ((exuE1 = $true) => ((prop2setE = $true) => ((emptysetE = $true) => ((emptysetimpfalse = $true) => ((notinemptyset = $true) 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[X0,X1] : ((in @ X1 @ (powerset @ X0) = $true) => ! [X2] : ((in @ X2 @ (powerset @ X0) = $true) => ! [X3] : ((in @ X3 @ X0 = $true) => ((in @ X3 @ (setminus @ X0 @ X1) = $true) => ((in @ X3 @ (setminus @ X0 @ X2) = $true) => (in @ X3 @ (setminus @ X0 @ (binunion @ X1 @ X2)) = $true)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))), 36.05/5.03 inference(fool_elimination,[],[f278])). 36.05/5.03 tff(f642,plain,( 36.05/5.03 (setminusI = ! 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= $true)) & (ksndpairEq = $true)) & (ksndsingleton = $true)) & (setukpairinjR = $true)) & (setukpairinjR2 = $true)) & (upairequniteq = $true)) & (setukpairinjR1 = $true)) & (setukpairinjR12 = $true)) & (setukpairinjR11 = $true)) & (setukpairinjL = $true)) & (setukpairinjL2 = $true)) & (cartprodfstin = $true)) & (kfstpairEq = $true)) & (theprop = $true)) & (kfstsingleton = $true)) & (setukpairinjL1 = $true)) & (singletonsuniq = $true)) & (ex1I2 = $true)) & (ex1I = $true)) & (ex1E1 = $true)) & (singletonprop = $true)) & (setunionsingleton = $true)) & (setunionsingleton2 = $true)) & (setunionsingleton1 = $true)) & (setunionE2 = $true)) & (cartprodmempair = $true)) & (cartprodmempair1 = $true)) & (cartprodpairin = $true)) & (ubforcartprodlem3 = $true)) & (ubforcartprodlem2 = $true)) & (ubforcartprodlem1 = $true)) & (upairinpowunion = $true)) & (upairsubunion = $true)) & (upairset2E = $true)) & (singletoninpowunion = $true)) & (singletoninpowerset = $true)) & (singletonsubset = $true)) & (kpairp = $true)) & (kpairiskpair = $true)) & (setukpairIR = $true)) & (setukpairIL = $true)) & (secondinupair = $true)) & (symdiffIneg2 = $true)) & (symdiffIneg1 = $true)) & (symdiffI2 = $true)) & (symdiffI1 = $true)) & (symdiffE = $true)) & (setminusSubset1 = $true)) & (setminusLsub = $true)) & (setminusIRneg = $true)) & (setminusILneg = $true)) & (setminusELneg = $true)) & (setminusERneg = $true)) & (setminusSubset2 = $true)) & (setminusER = $true)) & (setminusEL = $true)) & (setminusI = $true)) & (bs114d = $true)) & (binintersectSubset1 = $true)) & (binintersectSubset4 = $true)) & (binintersectRsub = $true)) & (disjointsetsI1 = $true)) & (binintersectER = $true)) & (binintersectSubset3 = $true)) & (binintersectSubset2 = $true)) & (binintersectLsub = $true)) & (binintersectEL = $true)) & (binintersectSubset5 = $true)) & (binintersectI = $true)) & (binunionRsub = $true)) & (binunionLsub = $true)) & (binunionE = $true)) & (binunionEcases = $true)) & (binunionIR = $true)) & (upairset2IR = $true)) & (binunionIL = $true)) & (sepSubset = $true)) & (sepInPowerset = $true)) & (powersetsubset = $true)) & (inPowerset = $true)) & (powersetE1 = $true)) & (powersetI1 = $true)) & (subsetemptysetimpeq = $true)) & (setextsub = $true)) & (subset2powerset = $true)) & (setadjoinSub2 = $true)) & (setadjoinSub = $true)) & (subsetTrans = $true)) & (subsetRefl = $true)) & (notequalI2 = $true)) & (notequalI1 = $true)) & (notsubsetI = $true)) & (subsetE2 = $true)) & (subsetE = $true)) & (emptysetsubset = $true)) & (subsetI2 = $true)) & (eqimpsubset1 = $true)) & (eqimpsubset2 = $true)) & (subsetI1 = $true)) & (dsetconstr__Cong = $true)) & (descr__Cong = $true)) & (exuEu = $true)) & (omega__Cong = $true)) & (setunion__Cong = $true)) & (powerset__Cong = $true)) & (setadjoin__Cong = $true)) & (emptyset__Cong = $true)) & (exu__Cong = $true)) & (exuE3u = $true)) & (in__Cong = $true)) & (inCongP = $true)) & (exuI2 = $true)) & (exuI3 = $true)) & (exuI1 = $true)) & (notdallE = $true)) & (notdexE = $true)) & (prop2set2propI = $true)) & (prop2setI = $true)) & (quantDeMorgan4 = $true)) & (quantDeMorgan3 = $true)) & (quantDeMorgan2 = $true)) & (quantDeMorgan1 = $true)) & (vacuousDall = $true)) & (emptyE1 = $true)) & (upairsetIR = $true)) & (upairsetIL = $true)) & (upairsetE = $true)) & (singletonsswitch = $true)) & (eqinunit = $true)) & (notinsingleton = $true)) & (uniqinunit = $true)) & (nonemptyImpWitness = $true)) & (exuE2 = $true)) & (subPowSU = $true)) & (setunionE = $true)) & (setunionI = $true)) & (powersetE = $true)) & (emptyInPowerset = $true)) & (emptyinPowerset = $true)) & (powersetI = $true)) & (setoftrueEq = $true)) & (setadjoinOr = $true)) & (setadjoinE = $true)) & (setadjoinIR = $true)) & (emptyinunitempty = $true)) & (setadjoinIL = $true)) & (nonemptyI1 = $true)) & (nonemptyI = $true)) & (nonemptyE1 = $true)) & (setbeta = $true)) & (noeltsimpempty = $true)) & (emptyI = $true)) & (setext = $true)) & (exuE3e = $true)) & (notinemptyset = $true)) & (emptysetimpfalse = $true)) & (emptysetE = $true)) & (prop2setE = $true)) & (exuE1 = $true)) & (dsetconstrER = $true)) & (dsetconstrEL = $true)) & (dsetconstrI = $true)) & (descrp = $true)) & (wellorderingAx = $true)) & (foundationAx = $true)) & (replAx = $true)) & (omegaIndAx = $true)) & (omegaSAx = $true)) & (omega0Ax = $true)) & (setunionAx = $true)) & (powersetAx = $true)) & (setadjoinAx = $true)) & (emptysetAx = $true)) & (setextAx = $true)), 36.05/5.03 inference(ennf_transformation,[],[f279])). 36.05/5.03 tff(f825,plain,( 36.05/5.03 ? [X0,X1] : (? [X2] : (? [X3] : ((in @ X3 @ (setminus @ X0 @ (binunion @ X1 @ X2)) != $true) & (in @ X3 @ (setminus @ X0 @ X2) = $true) & (in @ X3 @ (setminus @ X0 @ X1) = $true) & (in @ X3 @ X0 = $true)) & (in @ X2 @ (powerset @ X0) = $true)) & (in @ X1 @ (powerset @ X0) = $true)) & (demorgan2a = $true) & (demorgan1 = $true) & (demorgan1b = $true) & (demorgan1a = $true) & (demorgan2a2 = $true) & (complementUnionInPowersetComplement = $true) & (demorgan2a1 = $true) & (binunionTEcontra = $true) & (binunionTE = $true) & (inComplementUnionImpInComplement1 = $true) & (inComplementUnionImpNotIn1 = $true) & (intersectInPowersetIntersectUnions = $true) & (inIntersectImpInIntersectUnions = $true) & (inIntersectImpInUnion2 = $true) & (inIntersectImpInUnion = $true) & (binunionTIRcontra = $true) & (binunionTILcontra = $true) & (complementTcontraSubset = $true) & (contraSubsetComplement = $true) & (complementInPowersetComplementIntersect = $true) & (complementSubsetComplementIntersect = $true) & (complementImpComplementIntersect = $true) & (complementTnotintersectT = $true) & (doubleComplementEq = $true) & (doubleComplementSub2 = $true) & (doubleComplementSub1 = $true) & (doubleComplementE1 = $true) & (doubleComplementI1 = $true) & (contrasubsetT3 = $true) & (contrasubsetT2 = $true) & (contrasubsetT1 = $true) & (contrasubsetT = $true) & (binintersectTERcontra = $true) & (binintersectTELcontra = $true) & (complementTE1 = $true) & (complementTI1 = $true) & (powersetTE1 = $true) & (powersetTI1 = $true) & (subsetTI = $true) & (setextT = $true) & (complementT_lem = $true) & (setminusT_lem = $true) & (powersetT_lem = $true) & (binunionT_lem = $true) & (binintersectT_lem = $true) & (iftrueorfalse = $true) & (iffalse = $true) & (iftrue = $true) & (theeq = $true) & (ifp = $true) & (ifSingleton = $true) & (iftrueProp2 = $true) & (iftrueProp1 = $true) & (iffalseProp2 = $true) & (iffalseProp1 = $true) & (eta2 = $true) & (beta2 = $true) & (lam2lamEq = $true) & (eta1 = $true) & (beta1 = $true) & (ap2apEq2 = $true) & (ap2apEq1 = $true) & (funcext2 = $true) & (funcext = $true) & (eqbreln = $true) & (subbreln = $true) & (funcGraphProp4 = $true) & (funcextLem = $true) & (funcGraphProp2 = $true) & (funcGraphProp3 = $true) & (funcGraphProp1 = $true) & (ex1E2 = $true) & (brelnall2 = $true) & (brelnall1 = $true) & (lam2p = $true) & (lamp = $true) & (lamProp = $true) & (funcinfuncset = $true) & (ap2p = $true) & (infuncsetfunc = $true) & (app = $true) & (apProp = $true) & (funcImageSingleton = $true) & (dpsetconstrER = $true) & (dpsetconstrEL2 = $true) & (dpsetconstrEL1 = $true) & (dpsetconstrERa = $true) & (setOfPairsIsBReln = $true) & (dpsetconstrSub = $true) & (dpsetconstrI = $true) & (cartprodpairsurjEq = $true) & (cartprodsndpairEq = $true) & (cartprodfstpairEq = $true) & (cartprodmempaircEq = $true) & (cartprodpairmemER = $true) & (cartprodpairmemEL = $true) & (cartprodsndin = $true) & (kpairsurjEq = $true) & (ksndpairEq = $true) & (ksndsingleton = $true) & (setukpairinjR = $true) & (setukpairinjR2 = $true) & (upairequniteq = $true) & (setukpairinjR1 = $true) & (setukpairinjR12 = $true) & (setukpairinjR11 = $true) & (setukpairinjL = $true) & (setukpairinjL2 = $true) & (cartprodfstin = $true) & (kfstpairEq = $true) & (theprop = $true) & (kfstsingleton = $true) & (setukpairinjL1 = $true) & (singletonsuniq = $true) & (ex1I2 = $true) & (ex1I = $true) & (ex1E1 = $true) & (singletonprop = $true) & (setunionsingleton = $true) & (setunionsingleton2 = $true) & (setunionsingleton1 = $true) & (setunionE2 = $true) & (cartprodmempair = $true) & (cartprodmempair1 = $true) & (cartprodpairin = $true) & (ubforcartprodlem3 = $true) & (ubforcartprodlem2 = $true) & (ubforcartprodlem1 = $true) & (upairinpowunion = $true) & (upairsubunion = $true) & (upairset2E = $true) & (singletoninpowunion = $true) & (singletoninpowerset = $true) & (singletonsubset = $true) & (kpairp = $true) & (kpairiskpair = $true) & (setukpairIR = $true) & (setukpairIL = $true) & (secondinupair = $true) & (symdiffIneg2 = $true) & (symdiffIneg1 = $true) & (symdiffI2 = $true) & (symdiffI1 = $true) & (symdiffE = $true) & (setminusSubset1 = $true) & (setminusLsub = $true) & (setminusIRneg = $true) & (setminusILneg = $true) & (setminusELneg = $true) & (setminusERneg = $true) & (setminusSubset2 = $true) & (setminusER = $true) & (setminusEL = $true) & (setminusI = $true) & (bs114d = $true) & (binintersectSubset1 = $true) & (binintersectSubset4 = $true) & (binintersectRsub = $true) & (disjointsetsI1 = $true) & (binintersectER = $true) & (binintersectSubset3 = $true) & (binintersectSubset2 = $true) & (binintersectLsub = $true) & (binintersectEL = $true) & (binintersectSubset5 = $true) & (binintersectI = $true) & (binunionRsub = $true) & (binunionLsub = $true) & (binunionE = $true) & (binunionEcases = $true) & (binunionIR = $true) & (upairset2IR = $true) & (binunionIL = $true) & (sepSubset = $true) & (sepInPowerset = $true) & (powersetsubset = $true) & (inPowerset = $true) & (powersetE1 = $true) & (powersetI1 = $true) & (subsetemptysetimpeq = $true) & (setextsub = $true) & (subset2powerset = $true) & (setadjoinSub2 = $true) & (setadjoinSub = $true) & (subsetTrans = $true) & (subsetRefl = $true) & (notequalI2 = $true) & (notequalI1 = $true) & (notsubsetI = $true) & (subsetE2 = $true) & (subsetE = $true) & (emptysetsubset = $true) & (subsetI2 = $true) & (eqimpsubset1 = $true) & (eqimpsubset2 = $true) & (subsetI1 = $true) & (dsetconstr__Cong = $true) & (descr__Cong = $true) & (exuEu = $true) & (omega__Cong = $true) & (setunion__Cong = $true) & (powerset__Cong = $true) & (setadjoin__Cong = $true) & (emptyset__Cong = $true) & (exu__Cong = $true) & (exuE3u = $true) & (in__Cong = $true) & (inCongP = $true) & (exuI2 = $true) & (exuI3 = $true) & (exuI1 = $true) & (notdallE = $true) & (notdexE = $true) & (prop2set2propI = $true) & (prop2setI = $true) & (quantDeMorgan4 = $true) & (quantDeMorgan3 = $true) & (quantDeMorgan2 = $true) & (quantDeMorgan1 = $true) & (vacuousDall = $true) & (emptyE1 = $true) & (upairsetIR = $true) & (upairsetIL = $true) & (upairsetE = $true) & (singletonsswitch = $true) & (eqinunit = $true) & (notinsingleton = $true) & (uniqinunit = $true) & (nonemptyImpWitness = $true) & (exuE2 = $true) & (subPowSU = $true) & (setunionE = $true) & (setunionI = $true) & (powersetE = $true) & (emptyInPowerset = $true) & (emptyinPowerset = $true) & (powersetI = $true) & (setoftrueEq = $true) & (setadjoinOr = $true) & (setadjoinE = $true) & (setadjoinIR = $true) & (emptyinunitempty = $true) & (setadjoinIL = $true) & (nonemptyI1 = $true) & (nonemptyI = $true) & (nonemptyE1 = $true) & (setbeta = $true) & (noeltsimpempty = $true) & (emptyI = $true) & (setext = $true) & (exuE3e = $true) & (notinemptyset = $true) & (emptysetimpfalse = $true) & (emptysetE = $true) & (prop2setE = $true) & (exuE1 = $true) & (dsetconstrER = $true) & (dsetconstrEL = $true) & (dsetconstrI = $true) & (descrp = $true) & (wellorderingAx = $true) & (foundationAx = $true) & (replAx = $true) & (omegaIndAx = $true) & (omegaSAx = $true) & (omega0Ax = $true) & (setunionAx = $true) & (powersetAx = $true) & (setadjoinAx = $true) & (emptysetAx = $true) & (setextAx = $true)), 36.05/5.03 inference(flattening,[],[f824])). 36.05/5.03 tff(f826,plain,( 36.05/5.03 ? [X0,X1] : (? [X2] : (? [X3] : ((in @ X3 @ (setminus @ X0 @ (binunion @ X1 @ X2)) != $true) & (in @ X3 @ (setminus @ X0 @ X2) = $true) & (in @ X3 @ (setminus @ X0 @ X1) = $true) & (in @ X3 @ X0 = $true)) & (in @ X2 @ (powerset @ X0) = $true)) & (in @ X1 @ (powerset @ X0) = $true)) => (? [X2] : (? [X3] : ((in @ X3 @ (setminus @ sK0 @ (binunion @ sK1 @ X2)) != $true) & (in @ X3 @ (setminus @ sK0 @ X2) = $true) & (in @ X3 @ (setminus @ sK0 @ sK1) = $true) & (in @ X3 @ sK0 = $true)) & (in @ X2 @ (powerset @ sK0) = $true)) & (in @ sK1 @ (powerset @ sK0) = $true))), 36.05/5.03 introduced(choice_axiom,[])). 36.05/5.03 tff(f827,plain,( 36.05/5.03 ? [X2] : (? [X3] : ((in @ X3 @ (setminus @ sK0 @ (binunion @ sK1 @ X2)) != $true) & (in @ X3 @ (setminus @ sK0 @ X2) = $true) & (in @ X3 @ (setminus @ sK0 @ sK1) = $true) & (in @ X3 @ sK0 = $true)) & (in @ X2 @ (powerset @ sK0) = $true)) => (? [X3] : ((in @ X3 @ (setminus @ sK0 @ (binunion @ sK1 @ sK2)) != $true) & (in @ X3 @ (setminus @ sK0 @ sK2) = $true) & (in @ X3 @ (setminus @ sK0 @ sK1) = $true) & (in @ X3 @ sK0 = $true)) & (in @ sK2 @ (powerset @ sK0) = $true))), 36.05/5.03 introduced(choice_axiom,[])). 36.05/5.03 tff(f828,plain,( 36.05/5.03 ? [X3] : ((in @ X3 @ (setminus @ sK0 @ (binunion @ sK1 @ sK2)) != $true) & (in @ X3 @ (setminus @ sK0 @ sK2) = $true) & (in @ X3 @ (setminus @ sK0 @ sK1) = $true) & (in @ X3 @ sK0 = $true)) => ((in @ sK3 @ (setminus @ sK0 @ (binunion @ sK1 @ sK2)) != $true) & (in @ sK3 @ (setminus @ sK0 @ sK2) = $true) & (in @ sK3 @ (setminus @ sK0 @ sK1) = $true) & (in @ sK3 @ sK0 = $true))), 36.05/5.03 introduced(choice_axiom,[])). 36.05/5.03 tff(f829,plain,( 36.05/5.03 ((((in @ sK3 @ (setminus @ sK0 @ (binunion @ sK1 @ sK2)) != $true) & (in @ sK3 @ (setminus @ sK0 @ sK2) = $true) & (in @ sK3 @ (setminus @ sK0 @ sK1) = $true) & (in @ sK3 @ sK0 = $true)) & (in @ sK2 @ (powerset @ sK0) = $true)) & (in @ sK1 @ (powerset @ sK0) = $true)) & (demorgan2a = $true) & (demorgan1 = $true) & (demorgan1b = $true) & (demorgan1a = $true) & (demorgan2a2 = $true) & (complementUnionInPowersetComplement = $true) & (demorgan2a1 = $true) & (binunionTEcontra = $true) & (binunionTE = $true) & (inComplementUnionImpInComplement1 = $true) & (inComplementUnionImpNotIn1 = $true) & (intersectInPowersetIntersectUnions = $true) & (inIntersectImpInIntersectUnions = $true) & (inIntersectImpInUnion2 = $true) & (inIntersectImpInUnion = $true) & (binunionTIRcontra = $true) & (binunionTILcontra = $true) & (complementTcontraSubset = $true) & (contraSubsetComplement = $true) & (complementInPowersetComplementIntersect = $true) & (complementSubsetComplementIntersect = $true) & (complementImpComplementIntersect = $true) & (complementTnotintersectT = $true) & (doubleComplementEq = $true) & (doubleComplementSub2 = $true) & (doubleComplementSub1 = $true) & (doubleComplementE1 = $true) & (doubleComplementI1 = $true) & (contrasubsetT3 = $true) & (contrasubsetT2 = $true) & (contrasubsetT1 = $true) & (contrasubsetT = $true) & (binintersectTERcontra = $true) & (binintersectTELcontra = $true) & (complementTE1 = $true) & (complementTI1 = $true) & (powersetTE1 = $true) & (powersetTI1 = $true) & (subsetTI = $true) & (setextT = $true) & (complementT_lem = $true) & (setminusT_lem = $true) & (powersetT_lem = $true) & (binunionT_lem = $true) & (binintersectT_lem = $true) & (iftrueorfalse = $true) & (iffalse = $true) & (iftrue = $true) & (theeq = $true) & (ifp = $true) & (ifSingleton = $true) & (iftrueProp2 = $true) & (iftrueProp1 = $true) & (iffalseProp2 = $true) & (iffalseProp1 = $true) & (eta2 = $true) & (beta2 = $true) & (lam2lamEq = $true) & (eta1 = $true) & (beta1 = $true) & (ap2apEq2 = $true) & (ap2apEq1 = $true) & (funcext2 = $true) & (funcext = $true) & (eqbreln = $true) & (subbreln = $true) & (funcGraphProp4 = $true) & (funcextLem = $true) & (funcGraphProp2 = $true) & (funcGraphProp3 = $true) & (funcGraphProp1 = $true) & (ex1E2 = $true) & (brelnall2 = $true) & (brelnall1 = $true) & (lam2p = $true) & (lamp = $true) & (lamProp = $true) & (funcinfuncset = $true) & (ap2p = $true) & (infuncsetfunc = $true) & (app = $true) & (apProp = $true) & (funcImageSingleton = $true) & (dpsetconstrER = $true) & (dpsetconstrEL2 = $true) & (dpsetconstrEL1 = $true) & (dpsetconstrERa = $true) & (setOfPairsIsBReln = $true) & (dpsetconstrSub = $true) & (dpsetconstrI = $true) & (cartprodpairsurjEq = $true) & (cartprodsndpairEq = $true) & (cartprodfstpairEq = $true) & (cartprodmempaircEq = $true) & (cartprodpairmemER = $true) & (cartprodpairmemEL = $true) & (cartprodsndin = $true) & (kpairsurjEq = $true) & (ksndpairEq = $true) & (ksndsingleton = $true) & (setukpairinjR = $true) & (setukpairinjR2 = $true) & (upairequniteq = $true) & (setukpairinjR1 = $true) & (setukpairinjR12 = $true) & (setukpairinjR11 = $true) & (setukpairinjL = $true) & (setukpairinjL2 = $true) & (cartprodfstin = $true) & (kfstpairEq = $true) & (theprop = $true) & (kfstsingleton = $true) & (setukpairinjL1 = $true) & (singletonsuniq = $true) & (ex1I2 = $true) & (ex1I = $true) & (ex1E1 = $true) & (singletonprop = $true) & (setunionsingleton = $true) & (setunionsingleton2 = $true) & (setunionsingleton1 = $true) & (setunionE2 = $true) & (cartprodmempair = $true) & (cartprodmempair1 = $true) & (cartprodpairin = $true) & (ubforcartprodlem3 = $true) & (ubforcartprodlem2 = $true) & (ubforcartprodlem1 = $true) & (upairinpowunion = $true) & (upairsubunion = $true) & (upairset2E = $true) & (singletoninpowunion = $true) & (singletoninpowerset = $true) & (singletonsubset = $true) & (kpairp = $true) & (kpairiskpair = $true) & (setukpairIR = $true) & (setukpairIL = $true) & (secondinupair = $true) & (symdiffIneg2 = $true) & (symdiffIneg1 = $true) & (symdiffI2 = $true) & (symdiffI1 = $true) & (symdiffE = $true) & (setminusSubset1 = $true) & (setminusLsub = $true) & (setminusIRneg = $true) & (setminusILneg = $true) & (setminusELneg = $true) & (setminusERneg = $true) & (setminusSubset2 = $true) & (setminusER = $true) & (setminusEL = $true) & (setminusI = $true) & (bs114d = $true) & (binintersectSubset1 = $true) & (binintersectSubset4 = $true) & (binintersectRsub = $true) & (disjointsetsI1 = $true) & (binintersectER = $true) & (binintersectSubset3 = $true) & (binintersectSubset2 = $true) & (binintersectLsub = $true) & (binintersectEL = $true) & (binintersectSubset5 = $true) & (binintersectI = $true) & (binunionRsub = $true) & (binunionLsub = $true) & (binunionE = $true) & (binunionEcases = $true) & (binunionIR = $true) & (upairset2IR = $true) & (binunionIL = $true) & (sepSubset = $true) & (sepInPowerset = $true) & (powersetsubset = $true) & (inPowerset = $true) & (powersetE1 = $true) & (powersetI1 = $true) & (subsetemptysetimpeq = $true) & (setextsub = $true) & (subset2powerset = $true) & (setadjoinSub2 = $true) & (setadjoinSub = $true) & (subsetTrans = $true) & (subsetRefl = $true) & (notequalI2 = $true) & (notequalI1 = $true) & (notsubsetI = $true) & (subsetE2 = $true) & (subsetE = $true) & (emptysetsubset = $true) & (subsetI2 = $true) & (eqimpsubset1 = $true) & (eqimpsubset2 = $true) & (subsetI1 = $true) & (dsetconstr__Cong = $true) & (descr__Cong = $true) & (exuEu = $true) & (omega__Cong = $true) & (setunion__Cong = $true) & (powerset__Cong = $true) & (setadjoin__Cong = $true) & (emptyset__Cong = $true) & (exu__Cong = $true) & (exuE3u = $true) & (in__Cong = $true) & (inCongP = $true) & (exuI2 = $true) & (exuI3 = $true) & (exuI1 = $true) & (notdallE = $true) & (notdexE = $true) & (prop2set2propI = $true) & (prop2setI = $true) & (quantDeMorgan4 = $true) & (quantDeMorgan3 = $true) & (quantDeMorgan2 = $true) & (quantDeMorgan1 = $true) & (vacuousDall = $true) & (emptyE1 = $true) & (upairsetIR = $true) & (upairsetIL = $true) & (upairsetE = $true) & (singletonsswitch = $true) & (eqinunit = $true) & (notinsingleton = $true) & (uniqinunit = $true) & (nonemptyImpWitness = $true) & (exuE2 = $true) & (subPowSU = $true) & (setunionE = $true) & (setunionI = $true) & (powersetE = $true) & (emptyInPowerset = $true) & (emptyinPowerset = $true) & (powersetI = $true) & (setoftrueEq = $true) & (setadjoinOr = $true) & (setadjoinE = $true) & (setadjoinIR = $true) & (emptyinunitempty = $true) & (setadjoinIL = $true) & (nonemptyI1 = $true) & (nonemptyI = $true) & (nonemptyE1 = $true) & (setbeta = $true) & (noeltsimpempty = $true) & (emptyI = $true) & (setext = $true) & (exuE3e = $true) & (notinemptyset = $true) & (emptysetimpfalse = $true) & (emptysetE = $true) & (prop2setE = $true) & (exuE1 = $true) & (dsetconstrER = $true) & (dsetconstrEL = $true) & (dsetconstrI = $true) & (descrp = $true) & (wellorderingAx = $true) & (foundationAx = $true) & (replAx = $true) & (omegaIndAx = $true) & (omegaSAx = $true) & (omega0Ax = $true) & (setunionAx = $true) & (powersetAx = $true) & (setadjoinAx = $true) & (emptysetAx = $true) & (setextAx = $true)), 36.05/5.03 inference(skolemisation,[status(esa),new_symbols(skolem,[sK0,sK1,sK2,sK3])],[f825,f828,f827,f826])). 36.05/5.03 tff(f932,plain,( 36.05/5.03 (binunionE = $true)), 36.05/5.03 inference(cnf_transformation,[],[f829])). 36.05/5.03 tff(f947,plain,( 36.05/5.03 (setminusI = $true)), 36.05/5.03 inference(cnf_transformation,[],[f829])). 36.05/5.03 tff(f949,plain,( 36.05/5.03 (setminusER = $true)), 36.05/5.03 inference(cnf_transformation,[],[f829])). 36.05/5.03 tff(f1103,plain,( 36.05/5.03 (in @ sK3 @ sK0 = $true)), 36.05/5.03 inference(cnf_transformation,[],[f829])). 36.05/5.03 tff(f1104,plain,( 36.05/5.03 (in @ sK3 @ (setminus @ sK0 @ sK1) = $true)), 36.05/5.03 inference(cnf_transformation,[],[f829])). 36.05/5.03 tff(f1105,plain,( 36.05/5.03 (in @ sK3 @ (setminus @ sK0 @ sK2) = $true)), 36.05/5.03 inference(cnf_transformation,[],[f829])). 36.05/5.03 tff(f1106,plain,( 36.05/5.03 (in @ sK3 @ (setminus @ sK0 @ (binunion @ sK1 @ sK2)) != $true)), 36.05/5.03 inference(cnf_transformation,[],[f829])). 36.05/5.03 tff(f1291,plain,( 36.05/5.03 (vPI('$i') @ (bCOMB @ vPI('$i') @ (bCOMB @ (bCOMB @ vPI('$i')) @ (sCOMB @ (bCOMB @ bCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ vIMP) @ in))) @ (sCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ bCOMB) @ (bCOMB @ (bCOMB @ vIMP) @ (bCOMB @ (bCOMB @ vNOT) @ in)))) @ (cCOMB @ (bCOMB @ bCOMB @ (bCOMB @ bCOMB @ in)) @ (cCOMB @ setminus)))))) = setminusI)), 36.05/5.03 inference(cnf_transformation,[],[f643])). 36.05/5.04 tff(f1352,plain,( 36.05/5.04 (vPI('$i') @ (bCOMB @ vPI('$i') @ (bCOMB @ (bCOMB @ vPI('$i')) @ (sCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ sCOMB) @ (bCOMB @ (bCOMB @ (bCOMB @ vIMP)) @ (cCOMB @ (bCOMB @ bCOMB @ (bCOMB @ bCOMB @ in)) @ (cCOMB @ binunion))))) @ (sCOMB @ (bCOMB @ bCOMB @ (bCOMB @ cCOMB @ (bCOMB @ (bCOMB @ vOR) @ in))) @ in)))) = binunionE)), 36.05/5.04 inference(cnf_transformation,[],[f765])). 36.05/5.04 tff(f1353,plain,( 36.05/5.04 (vPI('$i') @ (bCOMB @ vPI('$i') @ (bCOMB @ (bCOMB @ vPI('$i')) @ (sCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ cCOMB) @ (bCOMB @ (bCOMB @ (bCOMB @ vIMP)) @ (cCOMB @ (bCOMB @ bCOMB @ (bCOMB @ bCOMB @ in)) @ (cCOMB @ setminus))))) @ (bCOMB @ (bCOMB @ vNOT) @ in)))) = setminusER)), 36.05/5.04 inference(cnf_transformation,[],[f767])). 36.05/5.04 tff(f1566,plain,( 36.05/5.04 (vPI('$i') @ (bCOMB @ vPI('$i') @ (bCOMB @ (bCOMB @ vPI('$i')) @ (sCOMB @ (bCOMB @ bCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ vIMP) @ in))) @ (sCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ bCOMB) @ (bCOMB @ (bCOMB @ vIMP) @ (bCOMB @ (bCOMB @ vNOT) @ in)))) @ (cCOMB @ (bCOMB @ bCOMB @ (bCOMB @ bCOMB @ in)) @ (cCOMB @ setminus)))))) = $true)), 36.05/5.04 inference(definition_unfolding,[],[f1291,f947])). 36.05/5.04 tff(f1627,plain,( 36.05/5.04 (vPI('$i') @ (bCOMB @ vPI('$i') @ (bCOMB @ (bCOMB @ vPI('$i')) @ (sCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ sCOMB) @ (bCOMB @ (bCOMB @ (bCOMB @ vIMP)) @ (cCOMB @ (bCOMB @ bCOMB @ (bCOMB @ bCOMB @ in)) @ (cCOMB @ binunion))))) @ (sCOMB @ (bCOMB @ bCOMB @ (bCOMB @ cCOMB @ (bCOMB @ (bCOMB @ vOR) @ in))) @ in)))) = $true)), 36.05/5.04 inference(definition_unfolding,[],[f1352,f932])). 36.05/5.04 tff(f1628,plain,( 36.05/5.04 (vPI('$i') @ (bCOMB @ vPI('$i') @ (bCOMB @ (bCOMB @ vPI('$i')) @ (sCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ cCOMB) @ (bCOMB @ (bCOMB @ (bCOMB @ vIMP)) @ (cCOMB @ (bCOMB @ bCOMB @ (bCOMB @ bCOMB @ in)) @ (cCOMB @ setminus))))) @ (bCOMB @ (bCOMB @ vNOT) @ in)))) = $true)), 36.05/5.04 inference(definition_unfolding,[],[f1353,f949])). 36.05/5.04 tff(f1907,plain,( 36.05/5.04 ( ! [X1] : ((bCOMB @ vPI('$i') @ (bCOMB @ (bCOMB @ vPI('$i')) @ (sCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ cCOMB) @ (bCOMB @ (bCOMB @ (bCOMB @ vIMP)) @ (cCOMB @ (bCOMB @ bCOMB @ (bCOMB @ bCOMB @ in)) @ (cCOMB @ setminus))))) @ (bCOMB @ (bCOMB @ vNOT) @ in))) @ X1 = $true)) )), 36.05/5.04 inference(pi_clausification,[],[f1628])). 36.05/5.04 tff(f1908,plain,( 36.05/5.04 ( ! [X1] : ((vPI('$i') @ (bCOMB @ vPI('$i') @ (sCOMB @ (bCOMB @ cCOMB @ (bCOMB @ (bCOMB @ vIMP) @ (bCOMB @ (bCOMB @ (in @ X1)) @ (cCOMB @ setminus)))) @ (bCOMB @ vNOT @ (in @ X1)))) = $true)) )), 36.05/5.04 inference(combinator_demodulation,[],[f1907])). 36.05/5.04 tff(f1909,plain,( 36.05/5.04 ( ! [X2,X1] : ((bCOMB @ vPI('$i') @ (sCOMB @ (bCOMB @ cCOMB @ (bCOMB @ (bCOMB @ vIMP) @ (bCOMB @ (bCOMB @ (in @ X1)) @ (cCOMB @ setminus)))) @ (bCOMB @ vNOT @ (in @ X1))) @ X2 = $true)) )), 36.05/5.04 inference(pi_clausification,[],[f1908])). 36.05/5.04 tff(f1910,plain,( 36.05/5.04 ( ! [X2,X1] : ((vPI('$i') @ (cCOMB @ (bCOMB @ vIMP @ (bCOMB @ (in @ X1) @ (cCOMB @ setminus @ X2))) @ (vNOT @ (in @ X1 @ X2))) = $true)) )), 36.05/5.04 inference(combinator_demodulation,[],[f1909])). 36.05/5.04 tff(f1911,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((cCOMB @ (bCOMB @ vIMP @ (bCOMB @ (in @ X1) @ (cCOMB @ setminus @ X2))) @ (vNOT @ (in @ X1 @ X2)) @ X3 = $true)) )), 36.05/5.04 inference(pi_clausification,[],[f1910])). 36.05/5.04 tff(f1912,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((vIMP @ (in @ X1 @ (setminus @ X3 @ X2)) @ (vNOT @ (in @ X1 @ X2)) = $true)) )), 36.05/5.04 inference(combinator_demodulation,[],[f1911])). 36.05/5.04 tff(f1913,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((in @ X1 @ (setminus @ X3 @ X2) = $false) | (vNOT @ (in @ X1 @ X2) = $true)) )), 36.05/5.04 inference(binary_proxy_clausification,[],[f1912])). 36.05/5.04 tff(f1914,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((in @ X1 @ (setminus @ X3 @ X2) = $false) | (in @ X1 @ X2 = $false)) )), 36.05/5.04 inference(not_proxy_clausification,[],[f1913])). 36.05/5.04 tff(f1915,plain,( 36.05/5.04 ( ! [X1] : ((bCOMB @ vPI('$i') @ (bCOMB @ (bCOMB @ vPI('$i')) @ (sCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ sCOMB) @ (bCOMB @ (bCOMB @ (bCOMB @ vIMP)) @ (cCOMB @ (bCOMB @ bCOMB @ (bCOMB @ bCOMB @ in)) @ (cCOMB @ binunion))))) @ (sCOMB @ (bCOMB @ bCOMB @ (bCOMB @ cCOMB @ (bCOMB @ (bCOMB @ vOR) @ in))) @ in))) @ X1 = $true)) )), 36.05/5.04 inference(pi_clausification,[],[f1627])). 36.05/5.04 tff(f1916,plain,( 36.05/5.04 ( ! [X1] : ((vPI('$i') @ (bCOMB @ vPI('$i') @ (sCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ vIMP) @ (bCOMB @ (bCOMB @ (in @ X1)) @ (cCOMB @ binunion)))) @ (bCOMB @ (cCOMB @ (bCOMB @ vOR @ (in @ X1))) @ (in @ X1)))) = $true)) )), 36.05/5.04 inference(combinator_demodulation,[],[f1915])). 36.05/5.04 tff(f1917,plain,( 36.05/5.04 ( ! [X2,X1] : ((bCOMB @ vPI('$i') @ (sCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ vIMP) @ (bCOMB @ (bCOMB @ (in @ X1)) @ (cCOMB @ binunion)))) @ (bCOMB @ (cCOMB @ (bCOMB @ vOR @ (in @ X1))) @ (in @ X1))) @ X2 = $true)) )), 36.05/5.04 inference(pi_clausification,[],[f1916])). 36.05/5.04 tff(f1918,plain,( 36.05/5.04 ( ! [X2,X1] : ((vPI('$i') @ (sCOMB @ (bCOMB @ vIMP @ (bCOMB @ (in @ X1) @ (cCOMB @ binunion @ X2))) @ (cCOMB @ (bCOMB @ vOR @ (in @ X1)) @ (in @ X1 @ X2))) = $true)) )), 36.05/5.04 inference(combinator_demodulation,[],[f1917])). 36.05/5.04 tff(f1919,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((sCOMB @ (bCOMB @ vIMP @ (bCOMB @ (in @ X1) @ (cCOMB @ binunion @ X2))) @ (cCOMB @ (bCOMB @ vOR @ (in @ X1)) @ (in @ X1 @ X2)) @ X3 = $true)) )), 36.05/5.04 inference(pi_clausification,[],[f1918])). 36.05/5.04 tff(f1920,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((vIMP @ (in @ X1 @ (binunion @ X3 @ X2)) @ (vOR @ (in @ X1 @ X3) @ (in @ X1 @ X2)) = $true)) )), 36.05/5.04 inference(combinator_demodulation,[],[f1919])). 36.05/5.04 tff(f1921,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((in @ X1 @ (binunion @ X3 @ X2) = $false) | (vOR @ (in @ X1 @ X3) @ (in @ X1 @ X2) = $true)) )), 36.05/5.04 inference(binary_proxy_clausification,[],[f1920])). 36.05/5.04 tff(f1922,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((in @ X1 @ (binunion @ X3 @ X2) = $false) | (in @ X1 @ X3 = $true) | (in @ X1 @ X2 = $true)) )), 36.05/5.04 inference(binary_proxy_clausification,[],[f1921])). 36.05/5.04 tff(f2641,plain,( 36.05/5.04 ( ! [X1] : ((bCOMB @ vPI('$i') @ (bCOMB @ (bCOMB @ vPI('$i')) @ (sCOMB @ (bCOMB @ bCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ vIMP) @ in))) @ (sCOMB @ (bCOMB @ sCOMB @ (bCOMB @ (bCOMB @ bCOMB) @ (bCOMB @ (bCOMB @ vIMP) @ (bCOMB @ (bCOMB @ vNOT) @ in)))) @ (cCOMB @ (bCOMB @ bCOMB @ (bCOMB @ bCOMB @ in)) @ (cCOMB @ setminus))))) @ X1 = $true)) )), 36.05/5.04 inference(pi_clausification,[],[f1566])). 36.05/5.04 tff(f2642,plain,( 36.05/5.04 ( ! [X1] : ((vPI('$i') @ (bCOMB @ vPI('$i') @ (bCOMB @ (sCOMB @ (bCOMB @ vIMP @ (in @ X1))) @ (sCOMB @ (bCOMB @ bCOMB @ (bCOMB @ vIMP @ (bCOMB @ vNOT @ (in @ X1)))) @ (bCOMB @ (bCOMB @ (in @ X1)) @ (cCOMB @ setminus))))) = $true)) )), 36.05/5.04 inference(combinator_demodulation,[],[f2641])). 36.05/5.04 tff(f2643,plain,( 36.05/5.04 ( ! [X2,X1] : ((bCOMB @ vPI('$i') @ (bCOMB @ (sCOMB @ (bCOMB @ vIMP @ (in @ X1))) @ (sCOMB @ (bCOMB @ bCOMB @ (bCOMB @ vIMP @ (bCOMB @ vNOT @ (in @ X1)))) @ (bCOMB @ (bCOMB @ (in @ X1)) @ (cCOMB @ setminus)))) @ X2 = $true)) )), 36.05/5.04 inference(pi_clausification,[],[f2642])). 36.05/5.04 tff(f2644,plain,( 36.05/5.04 ( ! [X2,X1] : ((vPI('$i') @ (sCOMB @ (bCOMB @ vIMP @ (in @ X1)) @ (bCOMB @ (vIMP @ (vNOT @ (in @ X1 @ X2))) @ (bCOMB @ (in @ X1) @ (cCOMB @ setminus @ X2)))) = $true)) )), 36.05/5.04 inference(combinator_demodulation,[],[f2643])). 36.05/5.04 tff(f2645,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((sCOMB @ (bCOMB @ vIMP @ (in @ X1)) @ (bCOMB @ (vIMP @ (vNOT @ (in @ X1 @ X2))) @ (bCOMB @ (in @ X1) @ (cCOMB @ setminus @ X2))) @ X3 = $true)) )), 36.05/5.04 inference(pi_clausification,[],[f2644])). 36.05/5.04 tff(f2646,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((vIMP @ (in @ X1 @ X3) @ (vIMP @ (vNOT @ (in @ X1 @ X2)) @ (in @ X1 @ (setminus @ X3 @ X2))) = $true)) )), 36.05/5.04 inference(combinator_demodulation,[],[f2645])). 36.05/5.04 tff(f2647,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((in @ X1 @ X3 = $false) | (vIMP @ (vNOT @ (in @ X1 @ X2)) @ (in @ X1 @ (setminus @ X3 @ X2)) = $true)) )), 36.05/5.04 inference(binary_proxy_clausification,[],[f2646])). 36.05/5.04 tff(f2648,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((in @ X1 @ X3 = $false) | (vNOT @ (in @ X1 @ X2) = $false) | (in @ X1 @ (setminus @ X3 @ X2) = $true)) )), 36.05/5.04 inference(binary_proxy_clausification,[],[f2647])). 36.05/5.04 tff(f2649,plain,( 36.05/5.04 ( ! [X2,X3,X1] : ((in @ X1 @ (setminus @ X3 @ X2) = $true) | (in @ X1 @ X2 = $true) | (in @ X1 @ X3 = $false)) )), 36.05/5.04 inference(not_proxy_clausification,[],[f2648])). 36.05/5.04 tff(f6157,plain,( 36.05/5.04 ($false = $true) | (in @ sK3 @ sK1 = $false)), 36.05/5.04 inference(superposition,[],[f1104,f1914])). 36.05/5.04 tff(f6158,plain,( 36.05/5.04 ($false = $true) | (in @ sK3 @ sK2 = $false)), 36.05/5.04 inference(superposition,[],[f1105,f1914])). 36.05/5.04 tff(f6180,plain,( 36.05/5.04 (in @ sK3 @ sK2 = $false)), 36.05/5.04 inference(trivial_inequality_removal,[],[f6158])). 36.05/5.04 tff(f6181,plain,( 36.05/5.04 (in @ sK3 @ sK1 = $false)), 36.05/5.04 inference(trivial_inequality_removal,[],[f6157])). 36.05/5.04 tff(f9471,plain,( 36.05/5.04 ($true != $true) | (in @ sK3 @ (binunion @ sK1 @ sK2) = $true) | (in @ sK3 @ sK0 = $false)), 36.05/5.04 inference(superposition,[],[f1106,f2649])). 36.05/5.04 tff(f9476,plain,( 36.05/5.04 (in @ sK3 @ (binunion @ sK1 @ sK2) = $true) | (in @ sK3 @ sK0 = $false)), 36.05/5.04 inference(trivial_inequality_removal,[],[f9471])). 36.05/5.04 tff(f9483,plain,( 36.05/5.04 ($false = $true) | (in @ sK3 @ (binunion @ sK1 @ sK2) = $true)), 36.05/5.04 inference(forward_demodulation,[],[f9476,f1103])). 36.05/5.04 tff(f9484,plain,( 36.05/5.04 (in @ sK3 @ (binunion @ sK1 @ sK2) = $true)), 36.05/5.04 inference(trivial_inequality_removal,[],[f9483])). 36.05/5.04 tff(f9486,plain,( 36.05/5.04 ($false = $true) | (in @ sK3 @ sK1 = $true) | (in @ sK3 @ sK2 = $true)), 36.05/5.04 inference(superposition,[],[f9484,f1922])). 36.05/5.04 tff(f9497,plain,( 36.05/5.04 (in @ sK3 @ sK1 = $true) | (in @ sK3 @ sK2 = $true)), 36.05/5.04 inference(trivial_inequality_removal,[],[f9486])). 36.05/5.04 tff(f9498,plain,( 36.05/5.04 ($false = $true) | (in @ sK3 @ sK2 = $true)), 36.05/5.04 inference(forward_demodulation,[],[f9497,f6181])). 36.05/5.04 tff(f9499,plain,( 36.05/5.04 (in @ sK3 @ sK2 = $true)), 36.05/5.04 inference(trivial_inequality_removal,[],[f9498])). 36.05/5.04 tff(f9500,plain,( 36.05/5.04 ($false = $true)), 36.05/5.04 inference(forward_demodulation,[],[f9499,f6180])). 36.05/5.04 tff(f9501,plain,( 36.05/5.04 $false), 36.05/5.04 inference(trivial_inequality_removal,[],[f9500])). 36.05/5.04 % SZS output end Proof for theBenchmark 36.05/5.04 % (20426)------------------------------ 36.05/5.04 % (20426)Version: Vampire 4.5.0 (commit 7ae30c7f on 2020-06-30 15:57:20 +0100) 36.05/5.04 % (20426)Termination reason: Refutation 36.05/5.04 36.05/5.04 % (20426)Memory used [KB]: 15735 36.05/5.04 % (20426)Time elapsed: 3.557 s 36.05/5.04 % (20426)------------------------------ 36.05/5.04 % (20426)------------------------------ 36.05/5.04 % (20386)Success in time 4.714 s 36.05/5.05 EOF