0.00/0.03 % Problem : theBenchmark.p : TPTP v0.0.0. Released v0.0.0. 0.00/0.04 % Command : vampire --mode casc -m 90000 -t %d %s 0.02/0.24 % Computer : n147.star.cs.uiowa.edu 0.02/0.24 % Model : x86_64 x86_64 0.02/0.24 % CPU : Intel(R) Xeon(R) CPU E5-2609 0 @ 2.40GHz 0.02/0.24 % Memory : 32218.625MB 0.02/0.24 % OS : Linux 3.10.0-693.2.2.el7.x86_64 0.02/0.24 % CPULimit : 300 0.02/0.24 % DateTime : Sat Jul 14 05:16:39 CDT 2018 0.02/0.24 % CPUTime : 0.02/0.24 Hi Geoff, go and have some cold beer while I am trying to solve this very hard problem! 0.02/0.24 % remaining time: 2999 next slice time: 3 0.07/0.27 dis+1002_4_gs=on:inst=on:nm=64:nwc=1.3:sas=z3:sac=on:sfr=on:smm=off:ssnc=none:sp=occurrence:tha=off:thf=on:updr=off_1 on theBenchmark 0.44/0.67 % (20730)Time limit reached! 0.44/0.67 % ------------------------------ 0.44/0.67 % Version: Vampire 4.1 for CASC J8 Entry 0.44/0.67 % Termination reason: Time limit 0.44/0.67 % Termination phase: Saturation 0.44/0.67 0.44/0.67 % Memory used [KB]: 9466 0.44/0.67 % Time elapsed: 0.400 s 0.44/0.67 % ------------------------------ 0.44/0.67 % ------------------------------ 0.44/0.67 % remaining time: 2995 next slice time: 3 0.44/0.67 lrs+1_24_bs=unit_only:fsr=off:gs=on:gsem=on:inst=on:nm=64:nwc=3:sas=z3:stl=30:sac=on:sdd=large:sfr=on:ssfp=4000:ssfq=2.0:ssnc=none:sp=reverse_arity:thf=on:updr=off_1 on theBenchmark 0.49/1.07 % (20731)Time limit reached! 0.49/1.07 % ------------------------------ 0.49/1.07 % Version: Vampire 4.1 for CASC J8 Entry 0.49/1.07 % Termination reason: Time limit 0.49/1.07 % Termination phase: Saturation 0.49/1.07 0.49/1.07 % Memory used [KB]: 7675 0.49/1.07 % Time elapsed: 0.400 s 0.49/1.07 % ------------------------------ 0.49/1.07 % ------------------------------ 0.49/1.07 % remaining time: 2991 next slice time: 5 0.49/1.08 lrs+11_4:1_cond=on:gs=on:gsem=on:irw=on:lma=on:nm=64:nwc=1.7:sas=z3:stl=30:sdd=large:ssfp=100000:ssfq=1.2:smm=off:ssnc=none:tha=off_3 on theBenchmark 1.41/1.68 % (20732)Time limit reached! 1.41/1.68 % ------------------------------ 1.41/1.68 % Version: Vampire 4.1 for CASC J8 Entry 1.41/1.68 % Termination reason: Time limit 1.41/1.68 % Termination phase: Saturation 1.41/1.68 1.41/1.68 % Memory used [KB]: 7164 1.41/1.68 % Time elapsed: 0.600 s 1.41/1.68 % ------------------------------ 1.41/1.68 % ------------------------------ 1.41/1.68 % remaining time: 2985 next slice time: 9 1.41/1.68 dis+10_2:1_gs=on:gsem=off:irw=on:lcm=reverse:lma=on:nm=2:nwc=1.3:nicw=on:sas=z3:sac=on:sdd=off:sfr=on:ssfp=1000:ssfq=1.1:smm=sco:ssnc=none:sp=occurrence:tha=off:updr=off_7 on theBenchmark 2.40/2.68 % (20750)Time limit reached! 2.40/2.68 % ------------------------------ 2.40/2.68 % Version: Vampire 4.1 for CASC J8 Entry 2.40/2.68 % Termination reason: Time limit 2.40/2.68 % Termination phase: Saturation 2.40/2.68 2.40/2.68 % Memory used [KB]: 29679 2.40/2.68 % Time elapsed: 1.0000 s 2.40/2.68 % ------------------------------ 2.40/2.68 % ------------------------------ 2.40/2.68 % remaining time: 2975 next slice time: 10 2.40/2.68 dis+11_2:1_bd=off:fsr=off:gs=on:gsem=off:nwc=1:sas=z3:sos=all:ssac=none:sdd=large:sfr=on:ssfp=40000:ssfq=1.0:ssnc=none:sp=reverse_arity:tha=off:updr=off_9 on theBenchmark 4.50/3.78 % (20768)Time limit reached! 4.50/3.78 % ------------------------------ 4.50/3.78 % Version: Vampire 4.1 for CASC J8 Entry 4.50/3.78 % Termination reason: Time limit 4.50/3.78 % Termination phase: Saturation 4.50/3.78 4.50/3.78 % Memory used [KB]: 5117 4.50/3.78 % Time elapsed: 1.100 s 4.50/3.78 % ------------------------------ 4.50/3.78 % ------------------------------ 4.50/3.79 % remaining time: 2964 next slice time: 40 4.50/3.79 lrs+10_1_cond=on:fsr=off:gs=on:gsem=on:inst=on:lwlo=on:nm=64:nwc=2:stl=30:sdd=large:sfr=on:ssfp=1000:ssfq=1.2:smm=sco:ssnc=none:updr=off_38 on theBenchmark 8.56/7.89 % (20786)Time limit reached! 8.56/7.89 % ------------------------------ 8.56/7.89 % Version: Vampire 4.1 for CASC J8 Entry 8.56/7.89 % Termination reason: Time limit 8.56/7.89 % Termination phase: Saturation 8.56/7.89 8.56/7.89 % Memory used [KB]: 118079 8.56/7.89 % Time elapsed: 4.100 s 8.56/7.89 % ------------------------------ 8.56/7.89 % ------------------------------ 8.63/7.90 % remaining time: 2923 next slice time: 10 8.63/7.90 lrs+1010_2:1_bd=off:cond=on:er=filter:gs=on:gsem=on:inw=on:irw=on:lma=on:nm=0:nwc=1.3:sas=z3:stl=30:sdd=large:sfr=on:ssfp=1000:ssfq=2.0:smm=off:ssnc=none:sp=reverse_arity:updr=off_8 on theBenchmark 9.73/9.00 % (20855)Time limit reached! 9.73/9.00 % ------------------------------ 9.73/9.00 % Version: Vampire 4.1 for CASC J8 Entry 9.73/9.00 % Termination reason: Time limit 9.73/9.00 % Termination phase: Saturation 9.73/9.00 9.73/9.00 % Memory used [KB]: 18549 9.73/9.00 % Time elapsed: 1.100 s 9.73/9.00 % ------------------------------ 9.73/9.00 % ------------------------------ 9.75/9.00 % remaining time: 2912 next slice time: 162 9.75/9.00 dis+1_24_bs=on:fsr=off:irw=on:lcm=reverse:lwlo=on:nm=64:nwc=1:spl=off:sp=occurrence:urr=on_154 on theBenchmark 26.03/25.30 % (20873)Time limit reached! 26.03/25.30 % ------------------------------ 26.03/25.30 % Version: Vampire 4.1 for CASC J8 Entry 26.03/25.30 % Termination reason: Time limit 26.03/25.30 % Termination phase: Saturation 26.03/25.30 26.03/25.30 % Memory used [KB]: 362936 26.03/25.30 % Time elapsed: 16.300 s 26.03/25.30 % ------------------------------ 26.03/25.30 % ------------------------------ 26.12/25.34 % remaining time: 2749 next slice time: 6 26.12/25.34 lrs-11_3_bd=off:cond=on:gs=on:gsem=off:irw=on:inst=on:nm=4:nwc=3:sas=z3:stl=30:sdd=off:sfr=on:ssfp=100000:ssfq=1.4:ssnc=none:sp=occurrence:tha=off:updr=off_4 on theBenchmark 26.80/26.04 % (21149)Time limit reached! 26.80/26.04 % ------------------------------ 26.80/26.04 % Version: Vampire 4.1 for CASC J8 Entry 26.80/26.04 % Termination reason: Time limit 26.80/26.04 % Termination phase: Saturation 26.80/26.04 26.80/26.04 % Memory used [KB]: 5884 26.80/26.04 % Time elapsed: 0.700 s 26.80/26.04 % ------------------------------ 26.80/26.04 % ------------------------------ 26.80/26.04 % remaining time: 2742 next slice time: 6 26.80/26.05 dis+10_4_cond=on:inw=on:irw=on:lcm=predicate:lma=on:nm=6:nwc=1:sas=z3:sos=all:sdd=large:sfr=on:ssfp=10000:ssfq=1.0:ssnc=none:sp=occurrence:tha=off:updr=off_4 on theBenchmark 27.52/26.75 % (21167)Time limit reached! 27.52/26.75 % ------------------------------ 27.52/26.75 % Version: Vampire 4.1 for CASC J8 Entry 27.52/26.75 % Termination reason: Time limit 27.52/26.75 % Termination phase: Saturation 27.52/26.75 27.52/26.75 % Memory used [KB]: 7931 27.52/26.75 % Time elapsed: 0.700 s 27.52/26.75 % ------------------------------ 27.52/26.75 % ------------------------------ 27.52/26.75 % remaining time: 2734 next slice time: 11 27.52/26.75 ott+1010_3:1_bs=unit_only:ccuc=small_ones:fsr=off:irw=on:nm=0:newcnf=on:nwc=1.1:nicw=on:sos=on:ssac=none:sscc=model:sdd=off:ssfp=10000:ssfq=1.4:ssnc=none:sp=reverse_arity:tha=off_10 on theBenchmark 28.71/27.95 % (21185)Time limit reached! 28.71/27.95 % ------------------------------ 28.71/27.95 % Version: Vampire 4.1 for CASC J8 Entry 28.71/27.95 % Termination reason: Time limit 28.71/27.95 % Termination phase: Saturation 28.71/27.95 28.71/27.95 % Memory used [KB]: 24306 28.71/27.95 % Time elapsed: 1.200 s 28.71/27.95 % ------------------------------ 28.71/27.95 % ------------------------------ 28.71/27.95 % remaining time: 2722 next slice time: 6 28.71/27.95 lrs+11_8:1_gs=on:inst=on:lcm=reverse:lma=on:nm=64:nwc=2:sas=z3:stl=30:sdd=off:sfr=on:ssfp=40000:ssfq=2.0:smm=sco:ssnc=none:sp=occurrence:updr=off_4 on theBenchmark 29.44/28.65 % (21203)Time limit reached! 29.44/28.65 % ------------------------------ 29.44/28.65 % Version: Vampire 4.1 for CASC J8 Entry 29.44/28.65 % Termination reason: Time limit 29.44/28.65 % Termination phase: Saturation 29.44/28.65 29.44/28.65 % Memory used [KB]: 15735 29.44/28.65 % Time elapsed: 0.700 s 29.44/28.65 % ------------------------------ 29.44/28.65 % ------------------------------ 29.44/28.66 % remaining time: 2715 next slice time: 6 29.44/28.66 dis+11_3:1_inw=on:inst=on:nm=64:nwc=1:sas=z3:sos=all:ssfp=40000:ssfq=1.1:smm=sco:ssnc=none:sp=reverse_arity:updr=off_4 on theBenchmark 30.14/29.36 % (21221)Time limit reached! 30.14/29.36 % ------------------------------ 30.14/29.36 % Version: Vampire 4.1 for CASC J8 Entry 30.14/29.36 % Termination reason: Time limit 30.14/29.36 % Termination phase: Saturation 30.14/29.36 30.14/29.36 % Memory used [KB]: 6268 30.14/29.36 % Time elapsed: 0.700 s 30.14/29.36 % ------------------------------ 30.14/29.36 % ------------------------------ 30.14/29.36 % remaining time: 2708 next slice time: 3 30.14/29.36 dis+10_24_lma=on:nm=64:nwc=1:sas=z3:sac=on:sdd=large:smm=off:ssnc=none:sp=occurrence_1 on theBenchmark 30.52/29.76 % (21222)Time limit reached! 30.52/29.76 % ------------------------------ 30.52/29.76 % Version: Vampire 4.1 for CASC J8 Entry 30.52/29.76 % Termination reason: Time limit 30.52/29.76 % Termination phase: Saturation 30.52/29.76 30.52/29.76 % Memory used [KB]: 16758 30.52/29.76 % Time elapsed: 0.400 s 30.52/29.76 % ------------------------------ 30.52/29.76 % ------------------------------ 30.52/29.76 % remaining time: 2704 next slice time: 11 30.52/29.76 lrs+1002_5_gs=on:gsem=on:irw=on:nm=64:nwc=1:sas=z3:stl=30:sos=on:sfr=on:ssfp=10000:ssfq=1.1:smm=off:ssnc=none:tha=off:updr=off_10 on theBenchmark 31.73/30.96 % (21240)Time limit reached! 31.73/30.96 % ------------------------------ 31.73/30.96 % Version: Vampire 4.1 for CASC J8 Entry 31.73/30.96 % Termination reason: Time limit 31.73/30.96 % Termination phase: Saturation 31.73/30.96 31.73/30.96 % Memory used [KB]: 35180 31.73/30.96 % Time elapsed: 1.200 s 31.73/30.96 % ------------------------------ 31.73/30.96 % ------------------------------ 31.73/30.97 % remaining time: 2692 next slice time: 3 31.73/30.97 dis+11_3_cond=on:fsr=off:gs=on:lcm=reverse:lma=on:lwlo=on:nm=64:nwc=1:sas=z3:sos=all:sac=on:sdd=off:ssfp=40000:ssfq=1.4:smm=sco:ssnc=none:sp=occurrence:tha=off:updr=off_1 on theBenchmark 32.13/31.37 % (21258)Time limit reached! 32.13/31.37 % ------------------------------ 32.13/31.37 % Version: Vampire 4.1 for CASC J8 Entry 32.13/31.37 % Termination reason: Time limit 32.13/31.37 % Termination phase: Saturation 32.13/31.37 32.13/31.37 % Memory used [KB]: 5756 32.13/31.37 % Time elapsed: 0.400 s 32.13/31.37 % ------------------------------ 32.13/31.37 % ------------------------------ 32.13/31.37 % remaining time: 2688 next slice time: 22 32.13/31.37 dis+11_4_fsr=off:gs=on:inst=on:lma=on:nm=64:nwc=1:sac=on:ssfp=4000:ssfq=1.1:smm=sco:ssnc=none:sp=reverse_arity:thf=on:urr=on:updr=off_20 on theBenchmark 34.44/33.67 % (21259)Time limit reached! 34.44/33.67 % ------------------------------ 34.44/33.67 % Version: Vampire 4.1 for CASC J8 Entry 34.44/33.67 % Termination reason: Time limit 34.44/33.67 % Termination phase: Saturation 34.44/33.67 34.44/33.67 % Memory used [KB]: 115520 34.44/33.67 % Time elapsed: 2.300 s 34.44/33.67 % ------------------------------ 34.44/33.67 % ------------------------------ 34.44/33.68 % remaining time: 2665 next slice time: 11 34.44/33.68 dis-10_3:1_cond=on:inw=on:nm=2:newcnf=on:nwc=1:sos=on:spl=off:tha=off:updr=off_10 on theBenchmark 35.66/34.88 % (21294)Time limit reached! 35.66/34.88 % ------------------------------ 35.66/34.88 % Version: Vampire 4.1 for CASC J8 Entry 35.66/34.88 % Termination reason: Time limit 35.66/34.88 % Termination phase: Saturation 35.66/34.88 35.66/34.88 % Memory used [KB]: 20724 35.66/34.88 % Time elapsed: 1.200 s 35.66/34.88 % ------------------------------ 35.66/34.88 % ------------------------------ 35.66/34.89 % remaining time: 2653 next slice time: 10 35.66/34.89 lrs+4_32_bd=off:fsr=off:gs=on:gsem=on:nm=64:nwc=1:sas=z3:stl=30:sos=on:sac=on:sdd=large:sfr=on:ssfp=40000:ssfq=1.0:smm=off:ssnc=none:sp=occurrence:tha=off:thf=on:updr=off_9 on theBenchmark 36.84/35.99 % (21329)Time limit reached! 36.84/35.99 % ------------------------------ 36.84/35.99 % Version: Vampire 4.1 for CASC J8 Entry 36.84/35.99 % Termination reason: Time limit 36.84/35.99 % Termination phase: Saturation 36.84/35.99 36.84/35.99 % Memory used [KB]: 14328 36.84/35.99 % Time elapsed: 1.100 s 36.84/35.99 % ------------------------------ 36.84/35.99 % ------------------------------ 36.84/35.99 % remaining time: 2642 next slice time: 10 36.84/35.99 dis-11_3_gs=on:gsem=on:inw=on:inst=on:lcm=reverse:lma=on:lwlo=on:nm=64:nwc=1:spl=off:sp=occurrence:thf=on_8 on theBenchmark 37.85/37.09 % (21347)Time limit reached! 37.85/37.09 % ------------------------------ 37.85/37.09 % Version: Vampire 4.1 for CASC J8 Entry 37.85/37.09 % Termination reason: Time limit 37.85/37.09 % Termination phase: Saturation 37.85/37.09 37.85/37.09 % Memory used [KB]: 46438 37.85/37.09 % Time elapsed: 1.100 s 37.85/37.09 % ------------------------------ 37.85/37.09 % ------------------------------ 37.95/37.10 % remaining time: 2631 next slice time: 19 37.95/37.10 lrs+4_10_cond=on:irw=on:nwc=1:stl=30:sd=10:ss=axioms:st=3.0:sos=all:spl=off:sp=occurrence:updr=off_18 on theBenchmark 39.98/39.10 % (21365)Time limit reached! 39.98/39.10 % ------------------------------ 39.98/39.10 % Version: Vampire 4.1 for CASC J8 Entry 39.98/39.10 % Termination reason: Time limit 39.98/39.10 % Termination phase: Saturation 39.98/39.10 39.98/39.10 % Memory used [KB]: 12025 39.98/39.10 % Time elapsed: 2.0000 s 39.98/39.10 % ------------------------------ 39.98/39.10 % ------------------------------ 39.98/39.10 % remaining time: 2611 next slice time: 6 39.98/39.10 dis+1010_3_gs=on:gsem=on:inw=on:irw=on:nm=64:nwc=3:sac=on:sdd=large:sfr=on:ssfp=10000:ssfq=1.4:smm=sco:ssnc=none:tha=off_4 on theBenchmark 40.60/39.80 % (21400)Time limit reached! 40.60/39.80 % ------------------------------ 40.60/39.80 % Version: Vampire 4.1 for CASC J8 Entry 40.60/39.80 % Termination reason: Time limit 40.60/39.80 % Termination phase: Saturation 40.60/39.80 40.60/39.80 % Memory used [KB]: 22387 40.60/39.80 % Time elapsed: 0.700 s 40.60/39.80 % ------------------------------ 40.60/39.80 % ------------------------------ 40.60/39.80 % remaining time: 2604 next slice time: 32 40.60/39.80 lrs-11_1_br=off:cond=on:gs=on:lwlo=on:nm=64:nwc=4:sas=z3:stl=30:sac=on:sfr=on:ssfp=40000:ssfq=1.2:smm=sco:ssnc=none:sp=reverse_arity:urr=on:updr=off_30 on theBenchmark 43.87/43.08 % (21401)Time limit reached! 43.87/43.08 % ------------------------------ 43.87/43.08 % Version: Vampire 4.1 for CASC J8 Entry 43.87/43.08 % Termination reason: Time limit 43.87/43.08 % Termination phase: Saturation 43.87/43.08 43.87/43.08 % Memory used [KB]: 62173 43.87/43.08 % Time elapsed: 3.300 s 43.87/43.08 % ------------------------------ 43.87/43.08 % ------------------------------ 43.97/43.09 % remaining time: 2571 next slice time: 15 43.97/43.09 dis+11_4_cond=on:inw=on:irw=on:lma=on:lwlo=on:nm=64:nwc=1:sas=z3:sos=on:sfr=on:ssfp=100000:ssfq=1.0:smm=off:ssnc=none:tha=off_14 on theBenchmark 45.50/44.67 % (21470)Time limit reached! 45.50/44.67 % ------------------------------ 45.50/44.67 % Version: Vampire 4.1 for CASC J8 Entry 45.50/44.67 % Termination reason: Time limit 45.50/44.67 % Termination phase: Saturation 45.50/44.67 45.50/44.67 % Memory used [KB]: 7419 45.50/44.67 % Time elapsed: 1.600 s 45.50/44.67 % ------------------------------ 45.50/44.67 % ------------------------------ 45.50/44.67 % remaining time: 2555 next slice time: 4 45.50/44.67 lrs+1011_3:1_cond=on:irw=on:nm=32:nwc=1:stl=30:sdd=large:ssfp=10000:ssfq=1.4:smm=sco:ssnc=none:sp=reverse_arity:urr=on:updr=off_2 on theBenchmark 46.01/45.15 % (21488)Time limit reached! 46.01/45.15 % ------------------------------ 46.01/45.15 % Version: Vampire 4.1 for CASC J8 Entry 46.01/45.15 % Termination reason: Time limit 46.01/45.15 % Termination phase: Saturation 46.01/45.15 46.01/45.15 % Memory used [KB]: 18933 46.01/45.15 % Time elapsed: 0.500 s 46.01/45.15 % ------------------------------ 46.01/45.15 % ------------------------------ 46.01/45.15 % remaining time: 2551 next slice time: 12 46.01/45.16 dis+1011_1_ccuc=small_ones:cond=on:fsr=off:gs=on:gsem=off:lma=on:nm=64:nwc=1:nicw=on:sos=all:sac=on:ssac=none:sscc=on:sdd=large:sfr=on:ssfp=1000:ssfq=1.2:smm=sco:tha=off:thf=on_11 on theBenchmark 47.29/46.43 % (21506)Time limit reached! 47.29/46.43 % ------------------------------ 47.29/46.43 % Version: Vampire 4.1 for CASC J8 Entry 47.29/46.43 % Termination reason: Time limit 47.29/46.43 % Termination phase: Saturation 47.29/46.43 47.29/46.43 % Memory used [KB]: 30447 47.29/46.43 % Time elapsed: 1.300 s 47.29/46.43 % ------------------------------ 47.29/46.43 % ------------------------------ 47.29/46.44 % remaining time: 2538 next slice time: 5 47.29/46.44 lrs+1010_5:4_bd=off:bsr=on:gs=on:gsem=off:inw=on:nm=2:nwc=4:sas=z3:stl=30:sdd=large:sfr=on:ssfp=40000:ssfq=2.0:smm=sco:ssnc=none:sp=reverse_arity_3 on theBenchmark 47.90/47.02 % (21524)Time limit reached! 47.90/47.02 % ------------------------------ 47.90/47.02 % Version: Vampire 4.1 for CASC J8 Entry 47.90/47.02 % Termination reason: Time limit 47.90/47.02 % Termination phase: Saturation 47.90/47.02 47.90/47.02 % Memory used [KB]: 13560 47.90/47.02 % Time elapsed: 0.600 s 47.90/47.02 % ------------------------------ 47.90/47.02 % ------------------------------ 47.90/47.02 % remaining time: 2532 next slice time: 27 47.90/47.02 dis+11_5_gs=on:gsem=off:inw=on:lcm=reverse:lma=on:nm=64:newcnf=on:nwc=1:sas=z3:sos=on:sdd=off:sfr=on:ssfp=4000:ssfq=1.4:ssnc=none:sp=occurrence:tha=off:updr=off_25 on theBenchmark 50.71/49.80 % (21542)Time limit reached! 50.71/49.80 % ------------------------------ 50.71/49.80 % Version: Vampire 4.1 for CASC J8 Entry 50.71/49.80 % Termination reason: Time limit 50.71/49.80 % Termination phase: Saturation 50.71/49.80 50.71/49.80 % Memory used [KB]: 10106 50.71/49.80 % Time elapsed: 2.800 s 50.71/49.80 % ------------------------------ 50.71/49.80 % ------------------------------ 50.71/49.80 % remaining time: 2504 next slice time: 44 50.71/49.80 ott+1010_5:4_bsr=on:ccuc=small_ones:fsr=off:inw=on:inst=on:lma=on:nm=16:nwc=1.1:ssac=none:sscc=on:sdd=off:ssfp=100000:ssfq=1.2:smm=sco:ssnc=none:sp=reverse_arity:updr=off_41 on theBenchmark 55.16/54.28 % (21577)Time limit reached! 55.16/54.28 % ------------------------------ 55.16/54.28 % Version: Vampire 4.1 for CASC J8 Entry 55.16/54.28 % Termination reason: Time limit 55.16/54.28 % Termination phase: Saturation 55.16/54.28 55.16/54.28 % Memory used [KB]: 97866 55.16/54.28 % Time elapsed: 4.500 s 55.16/54.28 % ------------------------------ 55.16/54.28 % ------------------------------ 55.16/54.29 % remaining time: 2459 next slice time: 15 55.16/54.29 ott+1011_4_gs=on:irw=on:lma=on:nm=2:nwc=10:nicw=on:sdd=off:sfr=on:ssfp=100000:ssfq=1.1:ssnc=none:tha=off:urr=on_14 on theBenchmark 56.75/55.87 % (21774)Time limit reached! 56.75/55.87 % ------------------------------ 56.75/55.87 % Version: Vampire 4.1 for CASC J8 Entry 56.75/55.87 % Termination reason: Time limit 56.75/55.87 % Termination phase: Saturation 56.75/55.87 56.75/55.87 % Memory used [KB]: 75990 56.75/55.87 % Time elapsed: 1.600 s 56.75/55.87 % ------------------------------ 56.75/55.87 % ------------------------------ 56.75/55.88 % remaining time: 2443 next slice time: 60 56.75/55.88 lrs+1002_2:3_fsr=off:gs=on:gsem=on:lwlo=on:nm=64:nwc=2:stl=30:sac=on:sdd=large:ssfp=10000:ssfq=1.2:smm=sco:ssnc=none:updr=off_57 on theBenchmark 62.88/61.98 % (21792)Time limit reached! 62.88/61.98 % ------------------------------ 62.88/61.98 % Version: Vampire 4.1 for CASC J8 Entry 62.88/61.98 % Termination reason: Time limit 62.88/61.98 % Termination phase: Saturation 62.88/61.98 62.88/61.98 % Memory used [KB]: 154027 62.88/61.98 % Time elapsed: 6.100 s 62.88/61.98 % ------------------------------ 62.88/61.98 % ------------------------------ 62.88/61.99 % remaining time: 2382 next slice time: 13 62.88/62.00 lrs+1011_2_bd=off:bs=unit_only:fsr=off:irw=on:lma=on:nm=64:newcnf=on:nwc=1.2:sas=z3:stl=30:ssfp=10000:ssfq=2.0:ssnc=none:sp=occurrence:tha=off_12 on theBenchmark 64.38/63.39 % (21895)Time limit reached! 64.38/63.39 % ------------------------------ 64.38/63.39 % Version: Vampire 4.1 for CASC J8 Entry 64.38/63.39 % Termination reason: Time limit 64.38/63.39 % Termination phase: Saturation 64.38/63.39 64.38/63.39 % Memory used [KB]: 22259 64.38/63.39 % Time elapsed: 1.400 s 64.38/63.39 % ------------------------------ 64.38/63.39 % ------------------------------ 64.38/63.40 % remaining time: 2368 next slice time: 51 64.38/63.40 dis+1010_5:1_cond=on:gs=on:gsem=on:irw=on:nm=64:nwc=1:sas=z3:sos=on:ssfp=4000:ssfq=1.1:smm=off:ssnc=none:sp=occurrence:thf=on:urr=on_48 on theBenchmark 69.60/68.60 % (21930)Time limit reached! 69.60/68.60 % ------------------------------ 69.60/68.60 % Version: Vampire 4.1 for CASC J8 Entry 69.60/68.60 % Termination reason: Time limit 69.60/68.60 % Termination phase: Saturation 69.60/68.60 69.60/68.60 % Memory used [KB]: 15095 69.60/68.60 % Time elapsed: 5.200 s 69.60/68.60 % ------------------------------ 69.60/68.60 % ------------------------------ 69.60/68.60 % remaining time: 2316 next slice time: 75 69.60/68.60 dis+1010_8_bs=unit_only:fsr=off:gs=on:gsem=off:inw=on:lwlo=on:nm=16:nwc=1:sas=z3:sos=on:sfr=on:ssfp=1000:ssfq=1.4:smm=off:ssnc=none:sp=reverse_arity:tha=off:urr=ec_only_71 on theBenchmark 77.24/76.20 % (22019)Time limit reached! 77.24/76.20 % ------------------------------ 77.24/76.20 % Version: Vampire 4.1 for CASC J8 Entry 77.24/76.20 % Termination reason: Time limit 77.24/76.20 % Termination phase: Saturation 77.24/76.20 77.24/76.20 % Memory used [KB]: 65116 77.24/76.20 % Time elapsed: 7.600 s 77.24/76.20 % ------------------------------ 77.24/76.20 % ------------------------------ 77.24/76.21 % remaining time: 2240 next slice time: 56 77.24/76.21 lrs-1_5:1_cond=on:er=filter:fsr=off:gs=on:gsem=on:inw=on:irw=on:inst=on:lcm=predicate:lma=on:nm=64:newcnf=on:nwc=1.1:stl=30:sos=all:sscc=model:sdd=large:ssfp=4000:ssfq=2.0:sp=occurrence_53 on theBenchmark 78.35/77.38 % Refutation found. Thanks to Tanya! 78.35/77.38 % SZS status Theorem for theBenchmark 78.35/77.38 % SZS output start Proof for theBenchmark 78.35/77.38 tff(type_def_6, type, uni: $tType). 78.35/77.38 tff(type_def_7, type, ty: $tType). 78.35/77.38 tff(type_def_8, type, bool1: $tType). 78.35/77.38 tff(type_def_9, type, tuple02: $tType). 78.35/77.38 tff(type_def_10, type, tree1: $tType). 78.35/77.38 tff(type_def_11, type, list_tree: $tType). 78.35/77.38 tff(func_def_0, type, witness1: ty > uni). 78.35/77.38 tff(func_def_1, type, int: ty). 78.35/77.38 tff(func_def_2, type, real: ty). 78.35/77.38 tff(func_def_3, type, bool: ty). 78.35/77.38 tff(func_def_4, type, true1: bool1). 78.35/77.38 tff(func_def_5, type, false1: bool1). 78.35/77.38 tff(func_def_6, type, match_bool1: (ty * bool1 * uni * uni) > uni). 78.35/77.38 tff(func_def_7, type, tuple0: ty). 78.35/77.38 tff(func_def_8, type, tuple03: tuple02). 78.35/77.38 tff(func_def_9, type, qtmark: ty). 78.35/77.38 tff(func_def_10, type, list: ty > ty). 78.35/77.38 tff(func_def_11, type, nil: ty > uni). 78.35/77.38 tff(func_def_12, type, cons: (ty * uni * uni) > uni). 78.35/77.38 tff(func_def_13, type, match_list1: (ty * ty * uni * uni * uni) > uni). 78.35/77.38 tff(func_def_14, type, cons_proj_11: (ty * uni) > uni). 78.35/77.38 tff(func_def_15, type, cons_proj_21: (ty * uni) > uni). 78.35/77.38 tff(func_def_16, type, infix_plpl: (ty * uni * uni) > uni). 78.35/77.38 tff(func_def_17, type, length2: (ty * uni) > $int). 78.35/77.38 tff(func_def_18, type, map: (ty * ty) > ty). 78.35/77.38 tff(func_def_19, type, get: (ty * ty * uni * uni) > uni). 78.35/77.38 tff(func_def_20, type, set: (ty * ty * uni * uni * uni) > uni). 78.35/77.38 tff(func_def_21, type, const: (ty * ty * uni) > uni). 78.35/77.38 tff(func_def_22, type, array: ty > ty). 78.35/77.38 tff(func_def_23, type, mk_array1: (ty * $int * uni) > uni). 78.35/77.38 tff(func_def_24, type, length3: (ty * uni) > $int). 78.35/77.38 tff(func_def_25, type, elts: (ty * uni) > uni). 78.35/77.38 tff(func_def_26, type, get2: (ty * uni * $int) > uni). 78.35/77.38 tff(func_def_27, type, t2tb: $int > uni). 78.35/77.38 tff(func_def_28, type, tb2t: uni > $int). 78.35/77.38 tff(func_def_29, type, set2: (ty * uni * $int * uni) > uni). 78.35/77.38 tff(func_def_30, type, make1: (ty * $int * uni) > uni). 78.35/77.38 tff(func_def_31, type, tree: ty). 78.35/77.38 tff(func_def_32, type, empty1: tree1). 78.35/77.38 tff(func_def_33, type, node1: (tree1 * tree1) > tree1). 78.35/77.38 tff(func_def_34, type, match_tree1: (ty * tree1 * uni * uni) > uni). 78.35/77.38 tff(func_def_35, type, node_proj_11: tree1 > tree1). 78.35/77.38 tff(func_def_36, type, node_proj_21: tree1 > tree1). 78.35/77.38 tff(func_def_37, type, size1: tree1 > $int). 78.35/77.38 tff(func_def_38, type, t2tb1: list_tree > uni). 78.35/77.38 tff(func_def_39, type, tb2t1: uni > list_tree). 78.35/77.38 tff(func_def_40, type, t2tb2: tree1 > uni). 78.35/77.38 tff(func_def_41, type, tb2t2: uni > tree1). 78.35/77.38 tff(func_def_47, type, sK0: $int). 78.35/77.38 tff(func_def_48, type, sK1: list_tree). 78.35/77.38 tff(func_def_49, type, sK2: $int). 78.35/77.38 tff(func_def_50, type, sK3: list_tree). 78.35/77.38 tff(func_def_51, type, sK4: list_tree). 78.35/77.38 tff(func_def_52, type, sK5: tree1). 78.35/77.38 tff(func_def_53, type, sK6: list_tree). 78.35/77.38 tff(func_def_54, type, sK7: list_tree). 78.35/77.38 tff(func_def_55, type, sK8: list_tree). 78.35/77.38 tff(func_def_56, type, sK9: tree1 > tree1). 78.35/77.38 tff(func_def_57, type, sK10: tree1 > tree1). 78.35/77.38 tff(func_def_58, type, sK11: tree1 > tree1). 78.35/77.38 tff(func_def_59, type, sK12: tree1 > tree1). 78.35/77.38 tff(func_def_60, type, sK13: tree1 > tree1). 78.35/77.38 tff(func_def_61, type, sK14: (ty * uni) > uni). 78.35/77.38 tff(func_def_62, type, sK15: (ty * uni) > uni). 78.35/77.38 tff(func_def_63, type, sK16: (ty * uni) > uni). 78.35/77.38 tff(func_def_64, type, sK17: (ty * uni * uni) > uni). 78.35/77.38 tff(func_def_65, type, sK18: (ty * uni * uni) > uni). 78.35/77.38 tff(func_def_66, type, sK19: (ty * uni * uni) > uni). 78.35/77.38 tff(pred_def_1, type, sort1: (ty * uni) > $o). 78.35/77.38 tff(pred_def_2, type, mem: (ty * uni * uni) > $o). 78.35/77.38 tff(pred_def_3, type, distinct: (ty * uni) > $o). 78.35/77.38 tff(pred_def_4, type, all_trees1: ($int * list_tree) > $o). 78.35/77.38 tff(f2,axiom,( 78.35/77.38 ! [X0 : ty,X3 : uni,X4 : uni] : cons_proj_21(X0,cons(X0,X3,X4)) = X4), 78.35/77.38 file('/export/starexec/sandbox/benchmark/theBenchmark.p',cons_proj_2_def1)). 78.35/77.38 tff(f7,axiom,( 78.35/77.38 ! [X0 : ty,X6 : uni] : (distinct(X0,X6) => (nil(X0) = X6 | ? [X9 : uni,X5 : uni] : (sort1(X0,X9) & sort1(list(X0),X5) & distinct(X0,X5) & cons(X0,X9,X5) = X6 & ~mem(X0,X9,X5)) | ? [X9 : uni] : (sort1(X0,X9) & cons(X0,X9,nil(X0)) = X6)))), 78.35/77.38 file('/export/starexec/sandbox/benchmark/theBenchmark.p',distinct_inversion)). 78.35/77.38 tff(f13,conjecture,( 78.35/77.38 ! [X17 : $int,X13 : list_tree,X18 : $int,X14 : list_tree] : (($lesseq(0,X17) & all_trees1(X17,X13) & $lesseq(0,X18) & all_trees1(X18,X14)) => ! [X19 : list_tree] : (distinct(tree,t2tb1(X19)) => ! [X9 : tree1,X10 : list_tree] : (tb2t1(cons(tree,t2tb2(X9),t2tb1(X10))) = X19 => (distinct(tree,t2tb1(X10)) => ! [X20 : list_tree] : ((! [X21 : tree1] : (? [X5 : tree1,X22 : tree1] : (mem(tree,t2tb2(X22),t2tb1(X14)) & mem(tree,t2tb2(X5),t2tb1(X10)) & node1(X5,X22) = X21) <=> mem(tree,t2tb2(X21),t2tb1(X20))) & distinct(tree,t2tb1(X20))) => (distinct(tree,t2tb1(X14)) => ! [X23 : list_tree] : ((! [X21 : tree1] : (? [X22 : tree1] : (node1(X9,X22) = X21 & mem(tree,t2tb2(X22),t2tb1(X14))) <=> mem(tree,t2tb2(X21),t2tb1(X23))) & distinct(tree,t2tb1(X23))) => distinct(tree,infix_plpl(tree,t2tb1(X23),t2tb1(X20))))))))))), 78.35/77.38 file('/export/starexec/sandbox/benchmark/theBenchmark.p',wP_parameter_combine)). 78.35/77.38 tff(f14,negated_conjecture,( 78.35/77.38 ~! [X17 : $int,X13 : list_tree,X18 : $int,X14 : list_tree] : (($lesseq(0,X17) & all_trees1(X17,X13) & $lesseq(0,X18) & all_trees1(X18,X14)) => ! [X19 : list_tree] : (distinct(tree,t2tb1(X19)) => ! [X9 : tree1,X10 : list_tree] : (tb2t1(cons(tree,t2tb2(X9),t2tb1(X10))) = X19 => (distinct(tree,t2tb1(X10)) => ! [X20 : list_tree] : ((! [X21 : tree1] : (? [X5 : tree1,X22 : tree1] : (mem(tree,t2tb2(X22),t2tb1(X14)) & mem(tree,t2tb2(X5),t2tb1(X10)) & node1(X5,X22) = X21) <=> mem(tree,t2tb2(X21),t2tb1(X20))) & distinct(tree,t2tb1(X20))) => (distinct(tree,t2tb1(X14)) => ! [X23 : list_tree] : ((! [X21 : tree1] : (? [X22 : tree1] : (node1(X9,X22) = X21 & mem(tree,t2tb2(X22),t2tb1(X14))) <=> mem(tree,t2tb2(X21),t2tb1(X23))) & distinct(tree,t2tb1(X23))) => distinct(tree,infix_plpl(tree,t2tb1(X23),t2tb1(X20))))))))))), 78.35/77.38 inference(negated_conjecture,[],[f13])). 78.35/77.38 tff(f19,axiom,( 78.35/77.38 ! [X3 : tree1,X4 : tree1] : node_proj_11(node1(X3,X4)) = X3), 78.35/77.38 file('/export/starexec/sandbox/benchmark/theBenchmark.p',node_proj_1_def1)). 78.35/77.38 tff(f23,axiom,( 78.35/77.38 ! [X0 : ty,X2 : uni,X25 : uni] : nil(X0) != cons(X0,X2,X25)), 78.35/77.38 file('/export/starexec/sandbox/benchmark/theBenchmark.p',nil_Cons1)). 78.35/77.38 tff(f29,axiom,( 78.35/77.38 ! [X0 : ty,X9 : uni] : (sort1(X0,X9) => (~mem(X0,X9,nil(X0)) & ! [X10 : uni,X11 : uni] : (sort1(X0,X10) => (mem(X0,X9,cons(X0,X10,X11)) <=> (X9 = X10 | mem(X0,X9,X11))))))), 78.35/77.38 file('/export/starexec/sandbox/benchmark/theBenchmark.p',mem_def)). 78.35/77.38 tff(f30,axiom,( 78.35/77.38 ! [X24 : uni] : t2tb2(tb2t2(X24)) = X24), 78.35/77.38 file('/export/starexec/sandbox/benchmark/theBenchmark.p',bridgeR2)). 78.35/77.38 tff(f55,axiom,( 78.35/77.38 ! [X9 : tree1] : sort1(tree,t2tb2(X9))), 78.35/77.38 file('/export/starexec/sandbox/benchmark/theBenchmark.p',t2tb_sort2)). 78.35/77.38 tff(f65,axiom,( 78.35/77.38 ! [X0 : ty,X3 : uni,X4 : uni] : (sort1(X0,X3) => cons_proj_11(X0,cons(X0,X3,X4)) = X3)), 78.35/77.38 file('/export/starexec/sandbox/benchmark/theBenchmark.p',cons_proj_1_def1)). 78.35/77.38 tff(f73,axiom,( 78.35/77.38 ! [X24 : uni] : t2tb1(tb2t1(X24)) = X24), 78.35/77.38 file('/export/starexec/sandbox/benchmark/theBenchmark.p',bridgeR1)). 78.35/77.38 tff(f74,axiom,( 78.35/77.38 ! [X0 : ty,X13 : uni,X14 : uni] : (distinct(X0,X13) => (distinct(X0,X14) => (! [X9 : uni] : (sort1(X0,X9) => (mem(X0,X9,X13) => ~mem(X0,X9,X14))) => distinct(X0,infix_plpl(X0,X13,X14)))))), 78.35/77.38 file('/export/starexec/sandbox/benchmark/theBenchmark.p',distinct_append)). 78.35/77.38 tff(f78,plain,( 78.35/77.38 ~! [X17 : $int,X13 : list_tree,X18 : $int,X14 : list_tree] : ((~$less(X17,0) & all_trees1(X17,X13) & ~$less(X18,0) & all_trees1(X18,X14)) => ! [X19 : list_tree] : (distinct(tree,t2tb1(X19)) => ! [X9 : tree1,X10 : list_tree] : (tb2t1(cons(tree,t2tb2(X9),t2tb1(X10))) = X19 => (distinct(tree,t2tb1(X10)) => ! [X20 : list_tree] : ((! [X21 : tree1] : (? [X5 : tree1,X22 : tree1] : (mem(tree,t2tb2(X22),t2tb1(X14)) & mem(tree,t2tb2(X5),t2tb1(X10)) & node1(X5,X22) = X21) <=> mem(tree,t2tb2(X21),t2tb1(X20))) & distinct(tree,t2tb1(X20))) => (distinct(tree,t2tb1(X14)) => ! [X23 : list_tree] : ((! [X21 : tree1] : (? [X22 : tree1] : (node1(X9,X22) = X21 & mem(tree,t2tb2(X22),t2tb1(X14))) <=> mem(tree,t2tb2(X21),t2tb1(X23))) & distinct(tree,t2tb1(X23))) => distinct(tree,infix_plpl(tree,t2tb1(X23),t2tb1(X20))))))))))), 78.35/77.38 inference(evaluation,[],[f14])). 78.35/77.38 tff(f100,plain,( 78.35/77.38 ~! [X0 : $int,X1 : list_tree,X2 : $int,X3 : list_tree] : ((~$less(X0,0) & all_trees1(X0,X1) & ~$less(X2,0) & all_trees1(X2,X3)) => ! [X4 : list_tree] : (distinct(tree,t2tb1(X4)) => ! [X5 : tree1,X6 : list_tree] : (tb2t1(cons(tree,t2tb2(X5),t2tb1(X6))) = X4 => (distinct(tree,t2tb1(X6)) => ! [X7 : list_tree] : ((! [X8 : tree1] : (? [X9 : tree1,X10 : tree1] : (mem(tree,t2tb2(X10),t2tb1(X3)) & mem(tree,t2tb2(X9),t2tb1(X6)) & node1(X9,X10) = X8) <=> mem(tree,t2tb2(X8),t2tb1(X7))) & distinct(tree,t2tb1(X7))) => (distinct(tree,t2tb1(X3)) => ! [X11 : list_tree] : ((! [X12 : tree1] : (? [X13 : tree1] : (node1(X5,X13) = X12 & mem(tree,t2tb2(X13),t2tb1(X3))) <=> mem(tree,t2tb2(X12),t2tb1(X11))) & distinct(tree,t2tb1(X11))) => distinct(tree,infix_plpl(tree,t2tb1(X11),t2tb1(X7))))))))))), 78.35/77.38 inference(rectify,[],[f78])). 78.35/77.38 tff(f104,plain,( 78.35/77.38 ! [X0 : tree1] : sort1(tree,t2tb2(X0))), 78.35/77.38 inference(rectify,[],[f55])). 78.35/77.38 tff(f107,plain,( 78.35/77.38 ! [X0 : uni] : t2tb2(tb2t2(X0)) = X0), 78.35/77.38 inference(rectify,[],[f30])). 78.35/77.38 tff(f109,plain,( 78.35/77.38 ! [X0 : uni] : t2tb1(tb2t1(X0)) = X0), 78.35/77.38 inference(rectify,[],[f73])). 78.35/77.38 tff(f120,plain,( 78.35/77.38 ! [X0 : tree1,X1 : tree1] : node_proj_11(node1(X0,X1)) = X0), 78.35/77.38 inference(rectify,[],[f19])). 78.35/77.38 tff(f129,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni] : (distinct(X0,X1) => (nil(X0) = X1 | ? [X2 : uni,X3 : uni] : (sort1(X0,X2) & sort1(list(X0),X3) & distinct(X0,X3) & cons(X0,X2,X3) = X1 & ~mem(X0,X2,X3)) | ? [X4 : uni] : (sort1(X0,X4) & cons(X0,X4,nil(X0)) = X1)))), 78.35/77.38 inference(rectify,[],[f7])). 78.35/77.38 tff(f130,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni] : (sort1(X0,X1) => (~mem(X0,X1,nil(X0)) & ! [X2 : uni,X3 : uni] : (sort1(X0,X2) => (mem(X0,X1,cons(X0,X2,X3)) <=> (X1 = X2 | mem(X0,X1,X3))))))), 78.35/77.38 inference(rectify,[],[f29])). 78.35/77.38 tff(f135,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni,X2 : uni] : nil(X0) != cons(X0,X1,X2)), 78.35/77.38 inference(rectify,[],[f23])). 78.35/77.38 tff(f140,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni,X2 : uni] : cons_proj_21(X0,cons(X0,X1,X2)) = X2), 78.35/77.38 inference(rectify,[],[f2])). 78.35/77.38 tff(f146,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni,X2 : uni] : (distinct(X0,X1) => (distinct(X0,X2) => (! [X3 : uni] : (sort1(X0,X3) => (mem(X0,X3,X1) => ~mem(X0,X3,X2))) => distinct(X0,infix_plpl(X0,X1,X2)))))), 78.35/77.38 inference(rectify,[],[f74])). 78.35/77.38 tff(f150,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni,X2 : uni] : (sort1(X0,X1) => cons_proj_11(X0,cons(X0,X1,X2)) = X1)), 78.35/77.38 inference(rectify,[],[f65])). 78.35/77.38 tff(f170,plain,( 78.35/77.38 ? [X0 : $int,X1 : list_tree,X2 : $int,X3 : list_tree] : (? [X4 : list_tree] : (? [X5 : tree1,X6 : list_tree] : ((? [X7 : list_tree] : ((? [X11 : list_tree] : (~distinct(tree,infix_plpl(tree,t2tb1(X11),t2tb1(X7))) & (! [X12 : tree1] : (? [X13 : tree1] : (node1(X5,X13) = X12 & mem(tree,t2tb2(X13),t2tb1(X3))) <=> mem(tree,t2tb2(X12),t2tb1(X11))) & distinct(tree,t2tb1(X11)))) & distinct(tree,t2tb1(X3))) & (! [X8 : tree1] : (? [X9 : tree1,X10 : tree1] : (mem(tree,t2tb2(X10),t2tb1(X3)) & mem(tree,t2tb2(X9),t2tb1(X6)) & node1(X9,X10) = X8) <=> mem(tree,t2tb2(X8),t2tb1(X7))) & distinct(tree,t2tb1(X7)))) & distinct(tree,t2tb1(X6))) & tb2t1(cons(tree,t2tb2(X5),t2tb1(X6))) = X4) & distinct(tree,t2tb1(X4))) & (~$less(X0,0) & all_trees1(X0,X1) & ~$less(X2,0) & all_trees1(X2,X3)))), 78.35/77.38 inference(ennf_transformation,[],[f100])). 78.35/77.38 tff(f171,plain,( 78.35/77.38 ? [X0 : $int,X1 : list_tree,X2 : $int,X3 : list_tree] : (? [X4 : list_tree] : (? [X5 : tree1,X6 : list_tree] : (? [X7 : list_tree] : (? [X11 : list_tree] : (~distinct(tree,infix_plpl(tree,t2tb1(X11),t2tb1(X7))) & ! [X12 : tree1] : (? [X13 : tree1] : (node1(X5,X13) = X12 & mem(tree,t2tb2(X13),t2tb1(X3))) <=> mem(tree,t2tb2(X12),t2tb1(X11))) & distinct(tree,t2tb1(X11))) & distinct(tree,t2tb1(X3)) & ! [X8 : tree1] : (? [X9 : tree1,X10 : tree1] : (mem(tree,t2tb2(X10),t2tb1(X3)) & mem(tree,t2tb2(X9),t2tb1(X6)) & node1(X9,X10) = X8) <=> mem(tree,t2tb2(X8),t2tb1(X7))) & distinct(tree,t2tb1(X7))) & distinct(tree,t2tb1(X6)) & tb2t1(cons(tree,t2tb2(X5),t2tb1(X6))) = X4) & distinct(tree,t2tb1(X4))) & ~$less(X0,0) & all_trees1(X0,X1) & ~$less(X2,0) & all_trees1(X2,X3))), 78.35/77.38 inference(flattening,[],[f170])). 78.35/77.38 tff(f173,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni] : ((nil(X0) = X1 | ? [X2 : uni,X3 : uni] : (sort1(X0,X2) & sort1(list(X0),X3) & distinct(X0,X3) & cons(X0,X2,X3) = X1 & ~mem(X0,X2,X3)) | ? [X4 : uni] : (sort1(X0,X4) & cons(X0,X4,nil(X0)) = X1)) | ~distinct(X0,X1))), 78.35/77.38 inference(ennf_transformation,[],[f129])). 78.35/77.38 tff(f174,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni] : (nil(X0) = X1 | ? [X2 : uni,X3 : uni] : (sort1(X0,X2) & sort1(list(X0),X3) & distinct(X0,X3) & cons(X0,X2,X3) = X1 & ~mem(X0,X2,X3)) | ? [X4 : uni] : (sort1(X0,X4) & cons(X0,X4,nil(X0)) = X1) | ~distinct(X0,X1))), 78.35/77.38 inference(flattening,[],[f173])). 78.35/77.38 tff(f175,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni] : ((~mem(X0,X1,nil(X0)) & ! [X2 : uni,X3 : uni] : ((mem(X0,X1,cons(X0,X2,X3)) <=> (X1 = X2 | mem(X0,X1,X3))) | ~sort1(X0,X2))) | ~sort1(X0,X1))), 78.35/77.38 inference(ennf_transformation,[],[f130])). 78.35/77.38 tff(f180,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni,X2 : uni] : (((distinct(X0,infix_plpl(X0,X1,X2)) | ? [X3 : uni] : ((mem(X0,X3,X2) & mem(X0,X3,X1)) & sort1(X0,X3))) | ~distinct(X0,X2)) | ~distinct(X0,X1))), 78.35/77.38 inference(ennf_transformation,[],[f146])). 78.35/77.38 tff(f181,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni,X2 : uni] : (distinct(X0,infix_plpl(X0,X1,X2)) | ? [X3 : uni] : (mem(X0,X3,X2) & mem(X0,X3,X1) & sort1(X0,X3)) | ~distinct(X0,X2) | ~distinct(X0,X1))), 78.35/77.38 inference(flattening,[],[f180])). 78.35/77.38 tff(f185,plain,( 78.35/77.38 ! [X0 : ty,X1 : uni,X2 : uni] : (cons_proj_11(X0,cons(X0,X1,X2)) = X1 | ~sort1(X0,X1))), 78.35/77.38 inference(ennf_transformation,[],[f150])). 78.35/77.38 tff(f201,plain,( 78.35/77.38 ( ! [X12:tree1] : (~mem(tree,t2tb2(X12),t2tb1(sK8)) | node1(sK5,sK11(X12)) = X12) )), 78.35/77.38 inference(cnf_transformation,[],[f171])). 78.35/77.38 tff(f203,plain,( 78.35/77.38 ( ! [X8:tree1] : (~mem(tree,t2tb2(X8),t2tb1(sK7)) | node1(sK9(X8),sK10(X8)) = X8) )), 78.35/77.38 inference(cnf_transformation,[],[f171])). 78.35/77.38 tff(f204,plain,( 78.35/77.38 ( ! [X8:tree1] : (mem(tree,t2tb2(sK9(X8)),t2tb1(sK6)) | ~mem(tree,t2tb2(X8),t2tb1(sK7))) )), 78.35/77.38 inference(cnf_transformation,[],[f171])). 78.35/77.38 tff(f206,plain,( 78.35/77.38 distinct(tree,t2tb1(sK8))), 78.35/77.38 inference(cnf_transformation,[],[f171])). 78.35/77.38 tff(f207,plain,( 78.35/77.38 ~distinct(tree,infix_plpl(tree,t2tb1(sK8),t2tb1(sK7)))), 78.35/77.38 inference(cnf_transformation,[],[f171])). 78.35/77.38 tff(f208,plain,( 78.35/77.38 distinct(tree,t2tb1(sK7))), 78.35/77.38 inference(cnf_transformation,[],[f171])). 78.35/77.38 tff(f210,plain,( 78.35/77.38 tb2t1(cons(tree,t2tb2(sK5),t2tb1(sK6))) = sK4), 78.35/77.38 inference(cnf_transformation,[],[f171])). 78.35/77.38 tff(f212,plain,( 78.35/77.38 distinct(tree,t2tb1(sK4))), 78.35/77.38 inference(cnf_transformation,[],[f171])). 78.35/77.38 tff(f224,plain,( 78.35/77.38 ( ! [X0:tree1] : (sort1(tree,t2tb2(X0))) )), 78.35/77.38 inference(cnf_transformation,[],[f104])). 78.35/77.38 tff(f228,plain,( 78.35/77.38 ( ! [X0:uni] : (t2tb2(tb2t2(X0)) = X0) )), 78.35/77.38 inference(cnf_transformation,[],[f107])). 78.35/77.38 tff(f230,plain,( 78.35/77.38 ( ! [X0:uni] : (t2tb1(tb2t1(X0)) = X0) )), 78.35/77.38 inference(cnf_transformation,[],[f109])). 78.35/77.38 tff(f244,plain,( 78.35/77.38 ( ! [X0:tree1,X1:tree1] : (node_proj_11(node1(X0,X1)) = X0) )), 78.35/77.38 inference(cnf_transformation,[],[f120])). 78.35/77.38 tff(f259,plain,( 78.35/77.38 ( ! [X0:ty,X1:uni] : (~distinct(X0,X1) | cons(X0,sK14(X0,X1),nil(X0)) = X1 | ~mem(X0,sK15(X0,X1),sK16(X0,X1)) | nil(X0) = X1) )), 78.35/77.38 inference(cnf_transformation,[],[f174])). 78.35/77.38 tff(f260,plain,( 78.35/77.38 ( ! [X0:ty,X1:uni] : (~distinct(X0,X1) | cons(X0,sK14(X0,X1),nil(X0)) = X1 | cons(X0,sK15(X0,X1),sK16(X0,X1)) = X1 | nil(X0) = X1) )), 78.35/77.38 inference(cnf_transformation,[],[f174])). 78.35/77.38 tff(f263,plain,( 78.35/77.38 ( ! [X0:ty,X1:uni] : (~distinct(X0,X1) | cons(X0,sK14(X0,X1),nil(X0)) = X1 | sort1(X0,sK15(X0,X1)) | nil(X0) = X1) )), 78.35/77.38 inference(cnf_transformation,[],[f174])). 78.35/77.38 tff(f264,plain,( 78.35/77.38 ( ! [X2:uni,X0:ty,X3:uni,X1:uni] : (~sort1(X0,X1) | ~sort1(X0,X2) | mem(X0,X1,X3) | X1 = X2 | ~mem(X0,X1,cons(X0,X2,X3))) )), 78.35/77.38 inference(cnf_transformation,[],[f175])). 78.35/77.38 tff(f266,plain,( 78.35/77.38 ( ! [X2:uni,X0:ty,X3:uni,X1:uni] : (~sort1(X0,X1) | ~sort1(X0,X2) | X1 != X2 | mem(X0,X1,cons(X0,X2,X3))) )), 78.35/77.38 inference(cnf_transformation,[],[f175])). 78.35/77.38 tff(f267,plain,( 78.35/77.38 ( ! [X0:ty,X1:uni] : (~sort1(X0,X1) | ~mem(X0,X1,nil(X0))) )), 78.35/77.38 inference(cnf_transformation,[],[f175])). 78.35/77.38 tff(f275,plain,( 78.35/77.38 ( ! [X2:uni,X0:ty,X1:uni] : (nil(X0) != cons(X0,X1,X2)) )), 78.35/77.38 inference(cnf_transformation,[],[f135])). 78.35/77.38 tff(f280,plain,( 78.35/77.38 ( ! [X2:uni,X0:ty,X1:uni] : (cons_proj_21(X0,cons(X0,X1,X2)) = X2) )), 78.35/77.38 inference(cnf_transformation,[],[f140])). 78.35/77.38 tff(f288,plain,( 78.35/77.38 ( ! [X2:uni,X0:ty,X1:uni] : (~distinct(X0,X1) | ~distinct(X0,X2) | mem(X0,sK17(X0,X1,X2),X1) | distinct(X0,infix_plpl(X0,X1,X2))) )), 78.35/77.38 inference(cnf_transformation,[],[f181])). 78.35/77.38 tff(f289,plain,( 78.35/77.38 ( ! [X2:uni,X0:ty,X1:uni] : (~distinct(X0,X1) | ~distinct(X0,X2) | mem(X0,sK17(X0,X1,X2),X2) | distinct(X0,infix_plpl(X0,X1,X2))) )), 78.35/77.38 inference(cnf_transformation,[],[f181])). 78.35/77.38 tff(f293,plain,( 78.35/77.38 ( ! [X2:uni,X0:ty,X1:uni] : (~sort1(X0,X1) | cons_proj_11(X0,cons(X0,X1,X2)) = X1) )), 78.35/77.38 inference(cnf_transformation,[],[f185])). 78.35/77.38 tff(f322,plain,( 78.35/77.38 ( ! [X2:uni,X0:ty,X3:uni] : (~sort1(X0,X2) | ~sort1(X0,X2) | mem(X0,X2,cons(X0,X2,X3))) )), 78.35/77.38 inference(equality_resolution,[],[f266])). 78.35/77.38 tff(f326,plain,( 78.35/77.38 ( ! [X2:uni,X0:ty,X3:uni] : (~sort1(X0,X2) | mem(X0,X2,cons(X0,X2,X3))) )), 78.35/77.38 inference(duplicate_literal_removal,[],[f322])). 78.35/77.38 tff(f359,plain,( 78.35/77.38 spl20_8 <=> distinct(tree,t2tb1(sK4))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_8])])). 78.35/77.38 tff(f360,plain,( 78.35/77.38 distinct(tree,t2tb1(sK4)) | ~spl20_8), 78.35/77.38 inference(AVATAR_component_clause,[],[f359])). 78.35/77.38 tff(f361,plain,( 78.35/77.38 spl20_8), 78.35/77.38 inference(AVATAR_split_clause,[],[f212,f359])). 78.35/77.38 tff(f373,plain,( 78.35/77.38 spl20_12 <=> tb2t1(cons(tree,t2tb2(sK5),t2tb1(sK6))) = sK4), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_12])])). 78.35/77.38 tff(f374,plain,( 78.35/77.38 tb2t1(cons(tree,t2tb2(sK5),t2tb1(sK6))) = sK4 | ~spl20_12), 78.35/77.38 inference(AVATAR_component_clause,[],[f373])). 78.35/77.38 tff(f375,plain,( 78.35/77.38 spl20_12), 78.35/77.38 inference(AVATAR_split_clause,[],[f210,f373])). 78.35/77.38 tff(f384,plain,( 78.35/77.38 spl20_17 <=> ~distinct(tree,t2tb1(sK7))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_17])])). 78.35/77.38 tff(f387,plain,( 78.35/77.38 spl20_16 <=> distinct(tree,t2tb1(sK7))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_16])])). 78.35/77.38 tff(f389,plain,( 78.35/77.38 spl20_16), 78.35/77.38 inference(AVATAR_split_clause,[],[f208,f387])). 78.35/77.38 tff(f394,plain,( 78.35/77.38 spl20_19 <=> ~distinct(tree,infix_plpl(tree,t2tb1(sK8),t2tb1(sK7)))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_19])])). 78.35/77.38 tff(f395,plain,( 78.35/77.38 ~distinct(tree,infix_plpl(tree,t2tb1(sK8),t2tb1(sK7))) | ~spl20_19), 78.35/77.38 inference(AVATAR_component_clause,[],[f394])). 78.35/77.38 tff(f396,plain,( 78.35/77.38 ~spl20_19), 78.35/77.38 inference(AVATAR_split_clause,[],[f207,f394])). 78.35/77.38 tff(f398,plain,( 78.35/77.38 spl20_21 <=> ~distinct(tree,t2tb1(sK8))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_21])])). 78.35/77.38 tff(f401,plain,( 78.35/77.38 spl20_20 <=> distinct(tree,t2tb1(sK8))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_20])])). 78.35/77.38 tff(f403,plain,( 78.35/77.38 spl20_20), 78.35/77.38 inference(AVATAR_split_clause,[],[f206,f401])). 78.35/77.38 tff(f483,plain,( 78.35/77.38 cons(tree,sK14(tree,t2tb1(sK4)),nil(tree)) = t2tb1(sK4) | sort1(tree,sK15(tree,t2tb1(sK4))) | nil(tree) = t2tb1(sK4) | ~spl20_8), 78.35/77.38 inference(resolution,[],[f360,f263])). 78.35/77.38 tff(f492,plain,( 78.35/77.38 spl20_35 <=> nil(tree) != t2tb1(sK4)), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_35])])). 78.35/77.38 tff(f495,plain,( 78.35/77.38 spl20_34 <=> nil(tree) = t2tb1(sK4)), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_34])])). 78.35/77.38 tff(f501,plain,( 78.35/77.38 spl20_37 <=> ~mem(tree,sK15(tree,t2tb1(sK4)),sK16(tree,t2tb1(sK4)))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_37])])). 78.35/77.38 tff(f502,plain,( 78.35/77.38 ~mem(tree,sK15(tree,t2tb1(sK4)),sK16(tree,t2tb1(sK4))) | ~spl20_37), 78.35/77.38 inference(AVATAR_component_clause,[],[f501])). 78.35/77.38 tff(f514,plain,( 78.35/77.38 spl20_40 <=> cons(tree,sK15(tree,t2tb1(sK4)),sK16(tree,t2tb1(sK4))) = t2tb1(sK4)), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_40])])). 78.35/77.38 tff(f515,plain,( 78.35/77.38 cons(tree,sK15(tree,t2tb1(sK4)),sK16(tree,t2tb1(sK4))) = t2tb1(sK4) | ~spl20_40), 78.35/77.38 inference(AVATAR_component_clause,[],[f514])). 78.35/77.38 tff(f525,plain,( 78.35/77.38 spl20_45 <=> ~sort1(tree,sK15(tree,t2tb1(sK4)))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_45])])). 78.35/77.38 tff(f528,plain,( 78.35/77.38 spl20_44 <=> sort1(tree,sK15(tree,t2tb1(sK4)))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_44])])). 78.35/77.38 tff(f529,plain,( 78.35/77.38 sort1(tree,sK15(tree,t2tb1(sK4))) | ~spl20_44), 78.35/77.38 inference(AVATAR_component_clause,[],[f528])). 78.35/77.38 tff(f535,plain,( 78.35/77.38 spl20_46 <=> cons(tree,sK14(tree,t2tb1(sK4)),nil(tree)) = t2tb1(sK4)), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_46])])). 78.35/77.38 tff(f536,plain,( 78.35/77.38 cons(tree,sK14(tree,t2tb1(sK4)),nil(tree)) = t2tb1(sK4) | ~spl20_46), 78.35/77.38 inference(AVATAR_component_clause,[],[f535])). 78.35/77.38 tff(f540,plain,( 78.35/77.38 spl20_34 | spl20_44 | spl20_46 | ~spl20_8), 78.35/77.38 inference(AVATAR_split_clause,[],[f483,f359,f535,f528,f495])). 78.35/77.38 tff(f563,plain,( 78.35/77.38 spl20_48 <=> nil(tree) = t2tb1(sK6)), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_48])])). 78.35/77.38 tff(f564,plain,( 78.35/77.38 nil(tree) = t2tb1(sK6) | ~spl20_48), 78.35/77.38 inference(AVATAR_component_clause,[],[f563])). 78.35/77.38 tff(f899,plain,( 78.35/77.38 ~distinct(tree,t2tb1(sK8)) | ~distinct(tree,t2tb1(sK7)) | mem(tree,sK17(tree,t2tb1(sK8),t2tb1(sK7)),t2tb1(sK8)) | ~spl20_19), 78.35/77.38 inference(resolution,[],[f395,f288])). 78.35/77.38 tff(f900,plain,( 78.35/77.38 ~distinct(tree,t2tb1(sK8)) | ~distinct(tree,t2tb1(sK7)) | mem(tree,sK17(tree,t2tb1(sK8),t2tb1(sK7)),t2tb1(sK7)) | ~spl20_19), 78.35/77.38 inference(resolution,[],[f395,f289])). 78.35/77.38 tff(f912,plain,( 78.35/77.38 spl20_108 <=> mem(tree,sK17(tree,t2tb1(sK8),t2tb1(sK7)),t2tb1(sK8))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_108])])). 78.35/77.38 tff(f913,plain,( 78.35/77.38 mem(tree,sK17(tree,t2tb1(sK8),t2tb1(sK7)),t2tb1(sK8)) | ~spl20_108), 78.35/77.38 inference(AVATAR_component_clause,[],[f912])). 78.35/77.38 tff(f914,plain,( 78.35/77.38 spl20_108 | ~spl20_17 | ~spl20_21 | spl20_19), 78.35/77.38 inference(AVATAR_split_clause,[],[f899,f394,f398,f384,f912])). 78.35/77.38 tff(f916,plain,( 78.35/77.38 spl20_111 <=> ~mem(tree,sK17(tree,t2tb1(sK8),t2tb1(sK7)),t2tb1(sK7))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_111])])). 78.35/77.38 tff(f919,plain,( 78.35/77.38 spl20_110 <=> mem(tree,sK17(tree,t2tb1(sK8),t2tb1(sK7)),t2tb1(sK7))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_110])])). 78.35/77.38 tff(f920,plain,( 78.35/77.38 mem(tree,sK17(tree,t2tb1(sK8),t2tb1(sK7)),t2tb1(sK7)) | ~spl20_110), 78.35/77.38 inference(AVATAR_component_clause,[],[f919])). 78.35/77.38 tff(f921,plain,( 78.35/77.38 spl20_110 | ~spl20_17 | ~spl20_21 | spl20_19), 78.35/77.38 inference(AVATAR_split_clause,[],[f900,f394,f398,f384,f919])). 78.35/77.38 tff(f922,plain,( 78.35/77.38 cons(tree,t2tb2(sK5),t2tb1(sK6)) = t2tb1(sK4) | ~spl20_12), 78.35/77.38 inference(superposition,[],[f230,f374])). 78.35/77.38 tff(f935,plain,( 78.35/77.38 spl20_114 <=> cons(tree,t2tb2(sK5),t2tb1(sK6)) = t2tb1(sK4)), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_114])])). 78.35/77.38 tff(f936,plain,( 78.35/77.38 cons(tree,t2tb2(sK5),t2tb1(sK6)) = t2tb1(sK4) | ~spl20_114), 78.35/77.38 inference(AVATAR_component_clause,[],[f935])). 78.35/77.38 tff(f937,plain,( 78.35/77.38 spl20_114 | ~spl20_12), 78.35/77.38 inference(AVATAR_split_clause,[],[f922,f373,f935])). 78.35/77.38 tff(f967,plain,( 78.35/77.38 ( ! [X0:uni] : (~mem(tree,X0,t2tb1(sK8)) | node1(sK5,sK11(tb2t2(X0))) = tb2t2(X0)) )), 78.35/77.38 inference(superposition,[],[f201,f228])). 78.35/77.38 tff(f980,plain,( 78.35/77.38 ( ! [X0:uni] : (~mem(tree,X0,t2tb1(sK7)) | node1(sK9(tb2t2(X0)),sK10(tb2t2(X0))) = tb2t2(X0)) )), 78.35/77.38 inference(superposition,[],[f203,f228])). 78.35/77.38 tff(f1248,plain,( 78.35/77.38 ( ! [X11:uni] : (cons_proj_11(tree,cons(tree,sK15(tree,t2tb1(sK4)),X11)) = sK15(tree,t2tb1(sK4))) ) | ~spl20_44), 78.35/77.38 inference(resolution,[],[f529,f293])). 78.35/77.38 tff(f1458,plain,( 78.35/77.38 ( ! [X1:uni] : (~mem(tree,X1,t2tb1(sK4)) | ~sort1(tree,X1) | ~sort1(tree,t2tb2(sK5)) | mem(tree,X1,t2tb1(sK6)) | t2tb2(sK5) = X1) ) | ~spl20_114), 78.35/77.38 inference(superposition,[],[f264,f936])). 78.35/77.38 tff(f1460,plain,( 78.35/77.38 nil(tree) != t2tb1(sK4) | ~spl20_114), 78.35/77.38 inference(superposition,[],[f275,f936])). 78.35/77.38 tff(f1462,plain,( 78.35/77.38 cons_proj_21(tree,t2tb1(sK4)) = t2tb1(sK6) | ~spl20_114), 78.35/77.38 inference(superposition,[],[f280,f936])). 78.35/77.38 tff(f1478,plain,( 78.35/77.38 spl20_139 <=> ~sort1(tree,t2tb2(sK5))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_139])])). 78.35/77.38 tff(f1479,plain,( 78.35/77.38 ~sort1(tree,t2tb2(sK5)) | ~spl20_139), 78.35/77.38 inference(AVATAR_component_clause,[],[f1478])). 78.35/77.38 tff(f1481,plain,( 78.35/77.38 spl20_140 <=> ! [X1 : uni] : (~mem(tree,X1,t2tb1(sK4)) | t2tb2(sK5) = X1 | mem(tree,X1,t2tb1(sK6)) | ~sort1(tree,X1))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_140])])). 78.35/77.38 tff(f1482,plain,( 78.35/77.38 ( ! [X1:uni] : (mem(tree,X1,t2tb1(sK6)) | t2tb2(sK5) = X1 | ~mem(tree,X1,t2tb1(sK4)) | ~sort1(tree,X1)) ) | ~spl20_140), 78.35/77.38 inference(AVATAR_component_clause,[],[f1481])). 78.35/77.38 tff(f1483,plain,( 78.35/77.38 ~spl20_139 | spl20_140 | ~spl20_114), 78.35/77.38 inference(AVATAR_split_clause,[],[f1458,f935,f1481,f1478])). 78.35/77.38 tff(f1492,plain,( 78.35/77.38 spl20_144 <=> cons_proj_21(tree,t2tb1(sK4)) = t2tb1(sK6)), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_144])])). 78.35/77.38 tff(f1493,plain,( 78.35/77.38 cons_proj_21(tree,t2tb1(sK4)) = t2tb1(sK6) | ~spl20_144), 78.35/77.38 inference(AVATAR_component_clause,[],[f1492])). 78.35/77.38 tff(f1494,plain,( 78.35/77.38 spl20_144 | ~spl20_114), 78.35/77.38 inference(AVATAR_split_clause,[],[f1462,f935,f1492])). 78.35/77.38 tff(f1502,plain,( 78.35/77.38 $false | ~spl20_139), 78.35/77.38 inference(resolution,[],[f1479,f224])). 78.35/77.38 tff(f1503,plain,( 78.35/77.38 spl20_139), 78.35/77.38 inference(AVATAR_contradiction_clause,[],[f1502,f1478])). 78.35/77.38 tff(f1617,plain,( 78.35/77.38 cons_proj_21(tree,t2tb1(sK4)) = sK16(tree,t2tb1(sK4)) | ~spl20_40), 78.35/77.38 inference(superposition,[],[f280,f515])). 78.35/77.38 tff(f1621,plain,( 78.35/77.38 mem(tree,sK15(tree,t2tb1(sK4)),t2tb1(sK4)) | ~sort1(tree,sK15(tree,t2tb1(sK4))) | ~spl20_40), 78.35/77.38 inference(superposition,[],[f326,f515])). 78.35/77.38 tff(f1637,plain,( 78.35/77.38 t2tb1(sK6) = sK16(tree,t2tb1(sK4)) | (~spl20_40 | ~spl20_144)), 78.35/77.38 inference(forward_demodulation,[],[f1617,f1493])). 78.35/77.38 tff(f1642,plain,( 78.35/77.38 spl20_166 <=> t2tb1(sK6) = sK16(tree,t2tb1(sK4))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_166])])). 78.35/77.38 tff(f1643,plain,( 78.35/77.38 t2tb1(sK6) = sK16(tree,t2tb1(sK4)) | ~spl20_166), 78.35/77.38 inference(AVATAR_component_clause,[],[f1642])). 78.35/77.38 tff(f1649,plain,( 78.35/77.38 spl20_168 <=> mem(tree,sK15(tree,t2tb1(sK4)),t2tb1(sK4))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_168])])). 78.35/77.38 tff(f1650,plain,( 78.35/77.38 mem(tree,sK15(tree,t2tb1(sK4)),t2tb1(sK4)) | ~spl20_168), 78.35/77.38 inference(AVATAR_component_clause,[],[f1649])). 78.35/77.38 tff(f1651,plain,( 78.35/77.38 ~spl20_45 | spl20_168 | ~spl20_40), 78.35/77.38 inference(AVATAR_split_clause,[],[f1621,f514,f1649,f525])). 78.35/77.38 tff(f1690,plain,( 78.35/77.38 nil(tree) = cons_proj_21(tree,t2tb1(sK4)) | ~spl20_46), 78.35/77.38 inference(superposition,[],[f280,f536])). 78.35/77.38 tff(f1714,plain,( 78.35/77.38 spl20_174 <=> nil(tree) = cons_proj_21(tree,t2tb1(sK4))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_174])])). 78.35/77.38 tff(f1715,plain,( 78.35/77.38 nil(tree) = cons_proj_21(tree,t2tb1(sK4)) | ~spl20_174), 78.35/77.38 inference(AVATAR_component_clause,[],[f1714])). 78.35/77.38 tff(f1716,plain,( 78.35/77.38 spl20_174 | ~spl20_46), 78.35/77.38 inference(AVATAR_split_clause,[],[f1690,f535,f1714])). 78.35/77.38 tff(f1742,plain,( 78.35/77.38 ~spl20_35 | ~spl20_114), 78.35/77.38 inference(AVATAR_split_clause,[],[f1460,f935,f492])). 78.35/77.38 tff(f1848,plain,( 78.35/77.38 spl20_196 <=> cons(tree,sK15(tree,t2tb1(sK4)),t2tb1(sK6)) = t2tb1(sK4)), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_196])])). 78.35/77.38 tff(f1849,plain,( 78.35/77.38 cons(tree,sK15(tree,t2tb1(sK4)),t2tb1(sK6)) = t2tb1(sK4) | ~spl20_196), 78.35/77.38 inference(AVATAR_component_clause,[],[f1848])). 78.35/77.38 tff(f1850,plain,( 78.35/77.38 ~mem(tree,sK15(tree,t2tb1(sK4)),t2tb1(sK6)) | (~spl20_37 | ~spl20_166)), 78.35/77.38 inference(backward_demodulation,[],[f1643,f502])). 78.35/77.38 tff(f1867,plain,( 78.35/77.38 spl20_199 <=> ~mem(tree,sK15(tree,t2tb1(sK4)),t2tb1(sK6))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_199])])). 78.35/77.38 tff(f1868,plain,( 78.35/77.38 ~mem(tree,sK15(tree,t2tb1(sK4)),t2tb1(sK6)) | ~spl20_199), 78.35/77.38 inference(AVATAR_component_clause,[],[f1867])). 78.35/77.38 tff(f1869,plain,( 78.35/77.38 ~spl20_199 | spl20_37 | ~spl20_166), 78.35/77.38 inference(AVATAR_split_clause,[],[f1850,f1642,f501,f1867])). 78.35/77.38 tff(f1878,plain,( 78.35/77.38 cons(tree,sK15(tree,t2tb1(sK4)),t2tb1(sK6)) = t2tb1(sK4) | (~spl20_40 | ~spl20_166)), 78.35/77.38 inference(forward_demodulation,[],[f515,f1643])). 78.35/77.38 tff(f1906,plain,( 78.35/77.38 nil(tree) = t2tb1(sK6) | (~spl20_144 | ~spl20_174)), 78.35/77.38 inference(backward_demodulation,[],[f1715,f1493])). 78.35/77.38 tff(f1907,plain,( 78.35/77.38 spl20_48 | ~spl20_144 | ~spl20_174), 78.35/77.38 inference(AVATAR_split_clause,[],[f1906,f1714,f1492,f563])). 78.35/77.38 tff(f2025,plain,( 78.35/77.38 cons(tree,sK14(tree,t2tb1(sK4)),nil(tree)) = t2tb1(sK4) | ~mem(tree,sK15(tree,t2tb1(sK4)),sK16(tree,t2tb1(sK4))) | nil(tree) = t2tb1(sK4) | ~spl20_8), 78.35/77.38 inference(resolution,[],[f360,f259])). 78.35/77.38 tff(f2026,plain,( 78.35/77.38 cons(tree,sK14(tree,t2tb1(sK4)),nil(tree)) = t2tb1(sK4) | cons(tree,sK15(tree,t2tb1(sK4)),sK16(tree,t2tb1(sK4))) = t2tb1(sK4) | nil(tree) = t2tb1(sK4) | ~spl20_8), 78.35/77.38 inference(resolution,[],[f360,f260])). 78.35/77.38 tff(f2705,plain,( 78.35/77.38 spl20_34 | spl20_40 | spl20_46 | ~spl20_8), 78.35/77.38 inference(AVATAR_split_clause,[],[f2026,f359,f535,f514,f495])). 78.35/77.38 tff(f2706,plain,( 78.35/77.38 spl20_34 | ~spl20_37 | spl20_46 | ~spl20_8), 78.35/77.38 inference(AVATAR_split_clause,[],[f2025,f359,f535,f501,f495])). 78.35/77.38 tff(f3181,plain,( 78.35/77.38 spl20_166 | ~spl20_40 | ~spl20_144), 78.35/77.38 inference(AVATAR_split_clause,[],[f1637,f1492,f514,f1642])). 78.35/77.38 tff(f3187,plain,( 78.35/77.38 spl20_196 | ~spl20_40 | ~spl20_166), 78.35/77.38 inference(AVATAR_split_clause,[],[f1878,f1642,f514,f1848])). 78.35/77.38 tff(f3790,plain,( 78.35/77.38 node1(sK5,sK11(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7))))) = tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7))) | ~spl20_108), 78.35/77.38 inference(resolution,[],[f967,f913])). 78.35/77.38 tff(f3813,plain,( 78.35/77.38 spl20_358 <=> node1(sK5,sK11(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7))))) = tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_358])])). 78.35/77.38 tff(f3814,plain,( 78.35/77.38 node1(sK5,sK11(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7))))) = tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7))) | ~spl20_358), 78.35/77.38 inference(AVATAR_component_clause,[],[f3813])). 78.35/77.38 tff(f3815,plain,( 78.35/77.38 spl20_358 | ~spl20_108), 78.35/77.38 inference(AVATAR_split_clause,[],[f3790,f912,f3813])). 78.35/77.38 tff(f3818,plain,( 78.35/77.38 node1(sK9(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))),sK10(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7))))) = tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7))) | ~spl20_110), 78.35/77.38 inference(resolution,[],[f980,f920])). 78.35/77.38 tff(f3841,plain,( 78.35/77.38 spl20_360 <=> node1(sK9(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))),sK10(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7))))) = tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_360])])). 78.35/77.38 tff(f3842,plain,( 78.35/77.38 node1(sK9(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))),sK10(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7))))) = tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7))) | ~spl20_360), 78.35/77.38 inference(AVATAR_component_clause,[],[f3841])). 78.35/77.38 tff(f3843,plain,( 78.35/77.38 spl20_360 | ~spl20_110), 78.35/77.38 inference(AVATAR_split_clause,[],[f3818,f919,f3841])). 78.35/77.38 tff(f6789,plain,( 78.35/77.38 cons_proj_11(tree,t2tb1(sK4)) = sK15(tree,t2tb1(sK4)) | (~spl20_44 | ~spl20_196)), 78.35/77.38 inference(superposition,[],[f1248,f1849])). 78.35/77.38 tff(f6809,plain,( 78.35/77.38 spl20_558 <=> cons_proj_11(tree,t2tb1(sK4)) = sK15(tree,t2tb1(sK4))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_558])])). 78.35/77.38 tff(f6810,plain,( 78.35/77.38 cons_proj_11(tree,t2tb1(sK4)) = sK15(tree,t2tb1(sK4)) | ~spl20_558), 78.35/77.38 inference(AVATAR_component_clause,[],[f6809])). 78.35/77.38 tff(f6811,plain,( 78.35/77.38 spl20_558 | ~spl20_44 | ~spl20_196), 78.35/77.38 inference(AVATAR_split_clause,[],[f6789,f1848,f528,f6809])). 78.35/77.38 tff(f6830,plain,( 78.35/77.38 mem(tree,cons_proj_11(tree,t2tb1(sK4)),t2tb1(sK4)) | (~spl20_168 | ~spl20_558)), 78.35/77.38 inference(backward_demodulation,[],[f6810,f1650])). 78.35/77.38 tff(f6832,plain,( 78.35/77.38 ~mem(tree,cons_proj_11(tree,t2tb1(sK4)),t2tb1(sK6)) | (~spl20_199 | ~spl20_558)), 78.35/77.38 inference(backward_demodulation,[],[f6810,f1868])). 78.35/77.38 tff(f6846,plain,( 78.35/77.38 spl20_563 <=> ~mem(tree,cons_proj_11(tree,t2tb1(sK4)),t2tb1(sK4))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_563])])). 78.35/77.38 tff(f6849,plain,( 78.35/77.38 spl20_562 <=> mem(tree,cons_proj_11(tree,t2tb1(sK4)),t2tb1(sK4))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_562])])). 78.35/77.38 tff(f6851,plain,( 78.35/77.38 spl20_562 | ~spl20_168 | ~spl20_558), 78.35/77.38 inference(AVATAR_split_clause,[],[f6830,f6809,f1649,f6849])). 78.35/77.38 tff(f6856,plain,( 78.35/77.38 spl20_565 <=> ~mem(tree,cons_proj_11(tree,t2tb1(sK4)),t2tb1(sK6))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_565])])). 78.35/77.38 tff(f6857,plain,( 78.35/77.38 ~mem(tree,cons_proj_11(tree,t2tb1(sK4)),t2tb1(sK6)) | ~spl20_565), 78.35/77.38 inference(AVATAR_component_clause,[],[f6856])). 78.35/77.38 tff(f6858,plain,( 78.35/77.38 ~spl20_565 | spl20_199 | ~spl20_558), 78.35/77.38 inference(AVATAR_split_clause,[],[f6832,f6809,f1867,f6856])). 78.35/77.38 tff(f7695,plain,( 78.35/77.38 spl20_591 <=> ~sort1(tree,cons_proj_11(tree,t2tb1(sK4)))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_591])])). 78.35/77.38 tff(f8669,plain,( 78.35/77.38 cons_proj_11(tree,t2tb1(sK4)) = t2tb2(sK5) | ~mem(tree,cons_proj_11(tree,t2tb1(sK4)),t2tb1(sK4)) | ~sort1(tree,cons_proj_11(tree,t2tb1(sK4))) | (~spl20_140 | ~spl20_565)), 78.35/77.38 inference(resolution,[],[f1482,f6857])). 78.35/77.38 tff(f8692,plain,( 78.35/77.38 spl20_602 <=> cons_proj_11(tree,t2tb1(sK4)) = t2tb2(sK5)), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_602])])). 78.35/77.38 tff(f8693,plain,( 78.35/77.38 cons_proj_11(tree,t2tb1(sK4)) = t2tb2(sK5) | ~spl20_602), 78.35/77.38 inference(AVATAR_component_clause,[],[f8692])). 78.35/77.38 tff(f8694,plain,( 78.35/77.38 ~spl20_591 | ~spl20_563 | spl20_602 | ~spl20_140 | spl20_565), 78.35/77.38 inference(AVATAR_split_clause,[],[f8669,f6856,f1481,f8692,f6846,f7695])). 78.35/77.38 tff(f8695,plain,( 78.35/77.38 cons_proj_11(tree,t2tb1(sK4)) != sK15(tree,t2tb1(sK4)) | sort1(tree,cons_proj_11(tree,t2tb1(sK4))) | ~sort1(tree,sK15(tree,t2tb1(sK4)))), 78.35/77.38 introduced(theory_axiom,[])). 78.35/77.38 tff(f8700,plain,( 78.35/77.38 spl20_604 <=> t2tb2(sK5) = sK15(tree,t2tb1(sK4))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_604])])). 78.35/77.38 tff(f8701,plain,( 78.35/77.38 t2tb2(sK5) = sK15(tree,t2tb1(sK4)) | ~spl20_604), 78.35/77.38 inference(AVATAR_component_clause,[],[f8700])). 78.35/77.38 tff(f8703,plain,( 78.35/77.38 t2tb2(sK5) = sK15(tree,t2tb1(sK4)) | (~spl20_558 | ~spl20_602)), 78.35/77.38 inference(backward_demodulation,[],[f8693,f6810])). 78.35/77.38 tff(f8729,plain,( 78.35/77.38 spl20_604 | ~spl20_558 | ~spl20_602), 78.35/77.38 inference(AVATAR_split_clause,[],[f8703,f8692,f6809,f8700])). 78.35/77.38 tff(f8733,plain,( 78.35/77.38 spl20_606 <=> mem(tree,t2tb2(sK5),t2tb1(sK6))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_606])])). 78.35/77.38 tff(f8736,plain,( 78.35/77.38 spl20_607 <=> ~mem(tree,t2tb2(sK5),t2tb1(sK6))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_607])])). 78.35/77.38 tff(f9720,plain,( 78.35/77.38 node_proj_11(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))) = sK5 | ~spl20_358), 78.35/77.38 inference(superposition,[],[f244,f3814])). 78.35/77.38 tff(f9756,plain,( 78.35/77.38 spl20_614 <=> node_proj_11(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))) = sK5), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_614])])). 78.35/77.38 tff(f9757,plain,( 78.35/77.38 node_proj_11(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))) = sK5 | ~spl20_614), 78.35/77.38 inference(AVATAR_component_clause,[],[f9756])). 78.35/77.38 tff(f9758,plain,( 78.35/77.38 spl20_614 | ~spl20_358), 78.35/77.38 inference(AVATAR_split_clause,[],[f9720,f3813,f9756])). 78.35/77.38 tff(f12115,plain,( 78.35/77.38 node_proj_11(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))) = sK9(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))) | ~spl20_360), 78.35/77.38 inference(superposition,[],[f244,f3842])). 78.35/77.38 tff(f12134,plain,( 78.35/77.38 sK5 = sK9(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))) | (~spl20_360 | ~spl20_614)), 78.35/77.38 inference(forward_demodulation,[],[f12115,f9757])). 78.35/77.38 tff(f12139,plain,( 78.35/77.38 spl20_784 <=> sK5 = sK9(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7))))), 78.35/77.38 introduced(AVATAR_definition,[new_symbols(naming,[spl20_784])])). 78.35/77.38 tff(f12140,plain,( 78.35/77.38 sK5 = sK9(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))) | ~spl20_784), 78.35/77.38 inference(AVATAR_component_clause,[],[f12139])). 78.35/77.38 tff(f12141,plain,( 78.35/77.38 spl20_784 | ~spl20_360 | ~spl20_614), 78.35/77.38 inference(AVATAR_split_clause,[],[f12134,f9756,f3841,f12139])). 78.35/77.38 tff(f41976,plain,( 78.35/77.38 ~mem(tree,t2tb2(sK5),t2tb1(sK6)) | (~spl20_37 | ~spl20_166 | ~spl20_604)), 78.35/77.38 inference(forward_demodulation,[],[f1850,f8701])). 78.35/77.38 tff(f41977,plain,( 78.35/77.38 ~spl20_607 | spl20_37 | ~spl20_166 | ~spl20_604), 78.35/77.38 inference(AVATAR_split_clause,[],[f41976,f8700,f1642,f501,f8736])). 78.35/77.38 tff(f42357,plain,( 78.35/77.38 ( ! [X8:tree1] : (mem(tree,t2tb2(sK9(X8)),nil(tree)) | ~mem(tree,t2tb2(X8),t2tb1(sK7))) ) | ~spl20_48), 78.35/77.38 inference(forward_demodulation,[],[f204,f564])). 78.35/77.38 tff(f42624,plain,( 78.35/77.38 ( ! [X0:tree1] : (~mem(tree,t2tb2(X0),t2tb1(sK7)) | ~sort1(tree,t2tb2(sK9(X0)))) ) | ~spl20_48), 78.35/77.38 inference(resolution,[],[f42357,f267])). 78.35/77.38 tff(f42885,plain,( 78.35/77.38 ( ! [X0:uni] : (~mem(tree,X0,t2tb1(sK7)) | ~sort1(tree,t2tb2(sK9(tb2t2(X0))))) ) | ~spl20_48), 78.35/77.38 inference(superposition,[],[f42624,f228])). 78.35/77.38 tff(f43173,plain,( 78.35/77.38 ~sort1(tree,t2tb2(sK9(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))))) | (~spl20_48 | ~spl20_110)), 78.35/77.38 inference(resolution,[],[f42885,f920])). 78.35/77.38 tff(f43195,plain,( 78.35/77.38 ~sort1(tree,t2tb2(sK5)) | (~spl20_48 | ~spl20_110 | ~spl20_784)), 78.35/77.38 inference(forward_demodulation,[],[f43173,f12140])). 78.35/77.38 tff(f43196,plain,( 78.35/77.38 ~spl20_139 | ~spl20_48 | ~spl20_110 | ~spl20_784), 78.35/77.38 inference(AVATAR_split_clause,[],[f43195,f12139,f919,f563,f1478])). 78.35/77.38 tff(f49266,plain,( 78.35/77.38 mem(tree,t2tb2(sK5),t2tb1(sK6)) | ~mem(tree,t2tb2(tb2t2(sK17(tree,t2tb1(sK8),t2tb1(sK7)))),t2tb1(sK7)) | ~spl20_784), 78.35/77.38 inference(superposition,[],[f204,f12140])). 78.35/77.38 tff(f49267,plain,( 78.35/77.38 ~mem(tree,sK17(tree,t2tb1(sK8),t2tb1(sK7)),t2tb1(sK7)) | mem(tree,t2tb2(sK5),t2tb1(sK6)) | ~spl20_784), 78.35/77.38 inference(forward_demodulation,[],[f49266,f228])). 78.35/77.38 tff(f49268,plain,( 78.35/77.38 spl20_606 | ~spl20_111 | ~spl20_784), 78.35/77.38 inference(AVATAR_split_clause,[],[f49267,f12139,f916,f8733])). 78.35/77.38 tff(f49269,plain,( 78.35/77.38 $false), 78.35/77.38 inference(AVATAR_sat_refutation,[],[f361,f375,f389,f396,f403,f540,f914,f921,f937,f1483,f1494,f1503,f1651,f1716,f1742,f1869,f1907,f2705,f2706,f3181,f3187,f3815,f3843,f6811,f6851,f6858,f8694,f8695,f8729,f9758,f12141,f41977,f43196,f49268])). 78.35/77.38 % SZS output end Proof for theBenchmark 78.35/77.38 % ------------------------------ 78.35/77.38 % Version: Vampire 4.1 for CASC J8 Entry 78.35/77.38 % Termination reason: Refutation 78.35/77.38 78.35/77.38 % Memory used [KB]: 22771 78.35/77.38 % Time elapsed: 1.171 s 78.35/77.38 % ------------------------------ 78.35/77.38 % ------------------------------ 78.45/77.39 % Success in time 77.15 s 78.45/77.39 EOF