0.03/0.13	% Problem    : theBenchmark.p : TPTP v0.0.0. Released v0.0.0.
0.03/0.13	% Command    : vampire --input_syntax tptp --proof tptp --output_axiom_names on --mode portfolio --schedule file --schedule_file /export/starexec/sandbox/solver/bin/quickGreedyProduceRating_steal_pow3.txt --cores 8 -m 12000 -t %d %s
0.14/0.34	% Computer : n005.cluster.edu
0.14/0.34	% Model    : x86_64 x86_64
0.14/0.34	% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
0.14/0.34	% Memory   : 8042.1875MB
0.14/0.34	% OS       : Linux 3.10.0-693.el7.x86_64
0.14/0.34	% CPULimit   : 300
0.14/0.34	% WCLimit    : 300
0.14/0.34	% DateTime   : Fri Jul  5 04:27:39 EDT 2024
0.14/0.34	% CPUTime    : 
0.14/0.36	This is a THF_ problem
0.14/0.36	Running vampire_ho --cores 8 --input_syntax tptp --proof tptp --output_axiom_names on --mode portfolio --schedule snake_tptp_hol -m 12000  -t 300 /export/starexec/sandbox/benchmark/theBenchmark.p
0.22/0.38	% (22560)dis+10_1:128_hud=1:i=96:si=on:rtra=on_0 on theBenchmark for (2999ds/96Mi)
0.22/0.38	% (22562)lrs+1002_1:128_au=on:c=on:fsr=off:piset=equals:i=34:si=on:rtra=on_0 on theBenchmark for (2999ds/34Mi)
0.22/0.38	% (22561)lrs+10_1:2_cnfonf=off:hud=1:inj=on:i=36:si=on:rtra=on_0 on theBenchmark for (2999ds/36Mi)
0.22/0.38	% (22564)dis+1002_1:128_acc=on:er=filter:i=17:si=on:rtra=on_0 on theBenchmark for (2999ds/17Mi)
0.22/0.38	% (22563)lrs+1002_1:1_au=on:s2a=on:s2agt=32:sgt=8:ss=axioms:i=385:si=on:rtra=on_0 on theBenchmark for (2999ds/385Mi)
0.22/0.38	% (22565)ott+1010_1:1_cnfonf=lazy_gen:fe=off:kws=inv_arity:plsq=on:plsqc=1:plsqr=32,1:prag=on:sp=const_frequency:i=74:si=on:rtra=on_0 on theBenchmark for (2999ds/74Mi)
0.22/0.38	% (22567)lrs+1002_1:14_au=on:bd=off:e2e=on:fde=unused:sac=on:sos=on:i=915:si=on:rtra=on_0 on theBenchmark for (2999ds/915Mi)
0.22/0.38	% (22566)dis+1004_1:1_cha=on:cs=on:fe=off:hud=1:i=4:si=on:rtra=on_0 on theBenchmark for (2999ds/4Mi)
0.22/0.38	% (22566)Instruction limit reached!
0.22/0.38	% (22566)------------------------------
0.22/0.38	% (22566)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.38	% (22566)Termination reason: Unknown
0.22/0.38	% (22566)Termination phase: Property scanning
0.22/0.38	
0.22/0.38	% (22566)Memory used [KB]: 1023
0.22/0.38	% (22566)Time elapsed: 0.004 s
0.22/0.38	% (22566)Instructions burned: 5 (million)
0.22/0.38	% (22566)------------------------------
0.22/0.38	% (22566)------------------------------
0.22/0.38	% (22567)Refutation not found, incomplete strategy
0.22/0.38	% (22567)------------------------------
0.22/0.38	% (22567)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.38	% (22567)Termination reason: Refutation not found, incomplete strategy
0.22/0.38	
0.22/0.38	
0.22/0.38	% (22567)Memory used [KB]: 5500
0.22/0.38	% (22567)Time elapsed: 0.005 s
0.22/0.38	% (22567)Instructions burned: 4 (million)
0.22/0.38	% (22567)------------------------------
0.22/0.38	% (22567)------------------------------
0.22/0.39	% (22564)Instruction limit reached!
0.22/0.39	% (22564)------------------------------
0.22/0.39	% (22564)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.39	% (22564)Termination reason: Unknown
0.22/0.39	% (22564)Termination phase: Saturation
0.22/0.39	
0.22/0.39	% (22564)Memory used [KB]: 5628
0.22/0.39	% (22564)Time elapsed: 0.012 s
0.22/0.39	% (22564)Instructions burned: 18 (million)
0.22/0.39	% (22564)------------------------------
0.22/0.39	% (22564)------------------------------
0.22/0.39	% (22561)Refutation not found, incomplete strategy
0.22/0.39	% (22561)------------------------------
0.22/0.39	% (22561)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.39	% (22561)Termination reason: Refutation not found, incomplete strategy
0.22/0.39	
0.22/0.39	
0.22/0.39	% (22561)Memory used [KB]: 5628
0.22/0.39	% (22561)Time elapsed: 0.016 s
0.22/0.39	% (22561)Instructions burned: 24 (million)
0.22/0.39	% (22561)------------------------------
0.22/0.39	% (22561)------------------------------
0.22/0.40	% (22568)dis+21_1:8_apa=on:cnfonf=off:fd=off:fsr=off:hud=0:ins=1:kws=inv_frequency:nwc=10.0:ss=axioms:st=5.0:i=21:si=on:rtra=on_0 on theBenchmark for (2999ds/21Mi)
0.22/0.40	% (22569)lrs-3_1:1024_cbe=off:chr=on:tnu=1:i=7:si=on:rtra=on_0 on theBenchmark for (2999ds/7Mi)
0.22/0.40	% (22562)Instruction limit reached!
0.22/0.40	% (22562)------------------------------
0.22/0.40	% (22562)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.40	% (22562)Termination reason: Unknown
0.22/0.40	% (22562)Termination phase: Saturation
0.22/0.40	
0.22/0.40	% (22562)Memory used [KB]: 5756
0.22/0.40	% (22562)Time elapsed: 0.023 s
0.22/0.40	% (22562)Instructions burned: 34 (million)
0.22/0.40	% (22562)------------------------------
0.22/0.40	% (22562)------------------------------
0.22/0.40	% (22569)Instruction limit reached!
0.22/0.40	% (22569)------------------------------
0.22/0.40	% (22569)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.40	% (22569)Termination reason: Unknown
0.22/0.40	% (22569)Termination phase: Saturation
0.22/0.40	
0.22/0.40	% (22569)Memory used [KB]: 5500
0.22/0.40	% (22569)Time elapsed: 0.006 s
0.22/0.40	% (22569)Instructions burned: 7 (million)
0.22/0.40	% (22569)------------------------------
0.22/0.40	% (22569)------------------------------
0.22/0.41	% (22570)dis+2_1:1_bd=off:e2e=on:hud=1:nm=3:piset=or:prag=on:s2a=on:sp=const_max:i=1021:si=on:rtra=on_0 on theBenchmark for (2999ds/1021Mi)
0.22/0.41	% (22571)lrs-1004_1:1_au=on:bsd=on:cbe=off:cnfonf=off:fe=axiom:fsd=on:i=71:si=on:rtra=on_0 on theBenchmark for (2999ds/71Mi)
0.22/0.41	% (22568)Instruction limit reached!
0.22/0.41	% (22568)------------------------------
0.22/0.41	% (22568)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.41	% (22568)Termination reason: Unknown
0.22/0.41	% (22568)Termination phase: Saturation
0.22/0.41	
0.22/0.41	% (22568)Memory used [KB]: 5628
0.22/0.41	% (22568)Time elapsed: 0.041 s
0.22/0.41	% (22568)Instructions burned: 21 (million)
0.22/0.41	% (22568)------------------------------
0.22/0.41	% (22568)------------------------------
0.22/0.42	% (22572)lrs-1010_1:50_au=on:awrs=converge:awrsf=430:bet=on:cbe=off:cha=on:nm=20:sac=on:i=9:si=on:rtra=on_0 on theBenchmark for (2999ds/9Mi)
0.22/0.42	% (22573)lrs+1010_1:1_au=on:s2a=on:sd=1:sgt=50:ss=axioms:i=1044:si=on:rtra=on_0 on theBenchmark for (2999ds/1044Mi)
0.22/0.42	% (22572)Instruction limit reached!
0.22/0.42	% (22572)------------------------------
0.22/0.42	% (22572)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.42	% (22572)Termination reason: Unknown
0.22/0.42	% (22572)Termination phase: Saturation
0.22/0.42	
0.22/0.42	% (22572)Memory used [KB]: 5500
0.22/0.42	% (22572)Time elapsed: 0.007 s
0.22/0.42	% (22572)Instructions burned: 9 (million)
0.22/0.42	% (22572)------------------------------
0.22/0.42	% (22572)------------------------------
0.22/0.43	% (22565)Instruction limit reached!
0.22/0.43	% (22565)------------------------------
0.22/0.43	% (22565)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.43	% (22565)Termination reason: Unknown
0.22/0.43	% (22565)Termination phase: Saturation
0.22/0.43	
0.22/0.43	% (22565)Memory used [KB]: 5884
0.22/0.43	% (22565)Time elapsed: 0.049 s
0.22/0.43	% (22565)Instructions burned: 75 (million)
0.22/0.43	% (22565)------------------------------
0.22/0.43	% (22565)------------------------------
0.22/0.43	% (22574)dis+10_1:1_ixr=off:plsq=on:plsqc=1:plsqr=32,1:s2a=on:i=128:si=on:rtra=on_0 on theBenchmark for (2999ds/128Mi)
0.22/0.44	% (22577)lrs+21_1:1_cond=on:e2e=on:i=61:si=on:rtra=on_0 on theBenchmark for (2999ds/61Mi)
0.22/0.44	% (22581)lrs+1004_1:128_cond=on:e2e=on:sp=weighted_frequency:i=14:si=on:rtra=on_0 on theBenchmark for (2999ds/14Mi)
0.22/0.45	% (22560)Instruction limit reached!
0.22/0.45	% (22560)------------------------------
0.22/0.45	% (22560)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.45	% (22560)Termination reason: Unknown
0.22/0.45	% (22560)Termination phase: Saturation
0.22/0.45	
0.22/0.45	% (22560)Memory used [KB]: 6012
0.22/0.45	% (22560)Time elapsed: 0.067 s
0.22/0.45	% (22560)Instructions burned: 97 (million)
0.22/0.45	% (22560)------------------------------
0.22/0.45	% (22560)------------------------------
0.22/0.45	% (22581)Instruction limit reached!
0.22/0.45	% (22581)------------------------------
0.22/0.45	% (22581)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.45	% (22581)Termination reason: Unknown
0.22/0.45	% (22581)Termination phase: Saturation
0.22/0.45	
0.22/0.45	% (22581)Memory used [KB]: 5500
0.22/0.45	% (22581)Time elapsed: 0.009 s
0.22/0.45	% (22581)Instructions burned: 14 (million)
0.22/0.45	% (22581)------------------------------
0.22/0.45	% (22581)------------------------------
0.22/0.45	% (22571)Instruction limit reached!
0.22/0.45	% (22571)------------------------------
0.22/0.45	% (22571)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.45	% (22571)Termination reason: Unknown
0.22/0.45	% (22571)Termination phase: Saturation
0.22/0.45	
0.22/0.45	% (22571)Memory used [KB]: 5884
0.22/0.45	% (22571)Time elapsed: 0.046 s
0.22/0.45	% (22571)Instructions burned: 71 (million)
0.22/0.45	% (22571)------------------------------
0.22/0.45	% (22571)------------------------------
0.22/0.46	% (22589)lrs+2_5:1_cnfonf=lazy_not_be_gen:hud=10:inj=on:ntd=on:tnu=1:i=2:si=on:rtra=on_0 on theBenchmark for (2999ds/2Mi)
0.22/0.46	% (22589)Instruction limit reached!
0.22/0.46	% (22589)------------------------------
0.22/0.46	% (22589)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.46	% (22589)Termination reason: Unknown
0.22/0.46	% (22589)Termination phase: Property scanning
0.22/0.46	
0.22/0.46	% (22589)Memory used [KB]: 1023
0.22/0.46	% (22589)Time elapsed: 0.004 s
0.22/0.46	% (22589)Instructions burned: 2 (million)
0.22/0.46	% (22589)------------------------------
0.22/0.46	% (22589)------------------------------
0.22/0.47	% (22592)lrs+1002_1:1_aac=none:au=on:cnfonf=lazy_gen:plsq=on:plsqc=1:plsqr=4203469,65536:i=1041:si=on:rtra=on_0 on theBenchmark for (2999ds/1041Mi)
0.22/0.48	% (22594)lrs+10_1:128_cnfonf=lazy_not_gen_be_off:hud=1:ins=1:i=11:si=on:rtra=on_0 on theBenchmark for (2999ds/11Mi)
0.22/0.49	% (22594)Instruction limit reached!
0.22/0.49	% (22594)------------------------------
0.22/0.49	% (22594)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.49	% (22594)Termination reason: Unknown
0.22/0.49	% (22594)Termination phase: Saturation
0.22/0.49	
0.22/0.49	% (22577)Instruction limit reached!
0.22/0.49	% (22577)------------------------------
0.22/0.49	% (22577)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.49	% (22577)Termination reason: Unknown
0.22/0.49	% (22577)Termination phase: Saturation
0.22/0.49	
0.22/0.49	% (22577)Memory used [KB]: 5756
0.22/0.49	% (22577)Time elapsed: 0.051 s
0.22/0.49	% (22577)Instructions burned: 61 (million)
0.22/0.49	% (22577)------------------------------
0.22/0.49	% (22577)------------------------------
0.22/0.49	% (22594)Memory used [KB]: 5500
0.22/0.49	% (22594)Time elapsed: 0.012 s
0.22/0.49	% (22594)Instructions burned: 11 (million)
0.22/0.49	% (22594)------------------------------
0.22/0.49	% (22594)------------------------------
0.22/0.49	% (22602)lrs+10_1:1_au=on:cnfonf=off:sd=1:sgt=16:ss=axioms:i=140:si=on:rtra=on_0 on theBenchmark for (2999ds/140Mi)
0.22/0.50	% (22602)Refutation not found, incomplete strategy
0.22/0.50	% (22602)------------------------------
0.22/0.50	% (22602)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.50	% (22602)Termination reason: Refutation not found, incomplete strategy
0.22/0.50	
0.22/0.50	
0.22/0.50	% (22602)Memory used [KB]: 5628
0.22/0.50	% (22602)Time elapsed: 0.009 s
0.22/0.50	% (22602)Instructions burned: 10 (million)
0.22/0.50	% (22602)------------------------------
0.22/0.50	% (22602)------------------------------
0.22/0.50	% (22604)lrs+1002_1:4_au=on:av=off:bsr=on:cbe=off:nm=2:i=56:si=on:rtra=on_0 on theBenchmark for (2998ds/56Mi)
0.22/0.51	% (22603)dis+1002_1:1_bd=preordered:c=on:cbe=off:cnfonf=lazy_not_gen_be_off:hud=10:ixr=off:prag=on:i=26:si=on:rtra=on_0 on theBenchmark for (2998ds/26Mi)
0.22/0.52	% (22574)Instruction limit reached!
0.22/0.52	% (22574)------------------------------
0.22/0.52	% (22574)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.52	% (22574)Termination reason: Unknown
0.22/0.52	% (22574)Termination phase: Saturation
0.22/0.52	
0.22/0.52	% (22574)Memory used [KB]: 5884
0.22/0.52	% (22574)Time elapsed: 0.088 s
0.22/0.52	% (22574)Instructions burned: 128 (million)
0.22/0.52	% (22574)------------------------------
0.22/0.52	% (22574)------------------------------
0.22/0.52	% (22603)Instruction limit reached!
0.22/0.52	% (22603)------------------------------
0.22/0.52	% (22603)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.52	% (22603)Termination reason: Unknown
0.22/0.52	% (22603)Termination phase: Saturation
0.22/0.52	
0.22/0.52	% (22603)Memory used [KB]: 5628
0.22/0.52	% (22603)Time elapsed: 0.016 s
0.22/0.52	% (22603)Instructions burned: 27 (million)
0.22/0.52	% (22603)------------------------------
0.22/0.52	% (22603)------------------------------
0.22/0.52	% (22605)lrs+1002_1:1_au=on:bd=off:e2e=on:sd=2:sos=on:ss=axioms:i=275:si=on:rtra=on_0 on theBenchmark for (2998ds/275Mi)
0.22/0.52	% (22605)Refutation not found, incomplete strategy
0.22/0.52	% (22605)------------------------------
0.22/0.52	% (22605)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.52	% (22605)Termination reason: Refutation not found, incomplete strategy
0.22/0.52	
0.22/0.52	
0.22/0.52	% (22605)Memory used [KB]: 5500
0.22/0.52	% (22605)Time elapsed: 0.003 s
0.22/0.52	% (22605)Instructions burned: 4 (million)
0.22/0.52	% (22605)------------------------------
0.22/0.52	% (22605)------------------------------
0.22/0.53	% (22606)lrs+10_1:1_bet=on:cnfonf=off:fd=off:hud=5:inj=on:i=3:si=on:rtra=on_0 on theBenchmark for (2998ds/3Mi)
0.22/0.53	% (22606)Instruction limit reached!
0.22/0.53	% (22606)------------------------------
0.22/0.53	% (22606)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.53	% (22606)Termination reason: Unknown
0.22/0.53	% (22606)Termination phase: Function definition elimination
0.22/0.53	
0.22/0.53	% (22606)Memory used [KB]: 1023
0.22/0.53	% (22606)Time elapsed: 0.004 s
0.22/0.53	% (22606)Instructions burned: 4 (million)
0.22/0.53	% (22606)------------------------------
0.22/0.53	% (22606)------------------------------
0.22/0.53	% (22607)lrs+10_1:1_cnfonf=lazy_not_be_gen:ntd=on:sp=const_min:ss=axioms:sup=off:i=19:si=on:rtra=on_0 on theBenchmark for (2998ds/19Mi)
0.22/0.53	% (22604)Instruction limit reached!
0.22/0.53	% (22604)------------------------------
0.22/0.53	% (22604)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.53	% (22604)Termination reason: Unknown
0.22/0.53	% (22604)Termination phase: Saturation
0.22/0.53	
0.22/0.53	% (22604)Memory used [KB]: 1279
0.22/0.53	% (22604)Time elapsed: 0.032 s
0.22/0.53	% (22604)Instructions burned: 56 (million)
0.22/0.53	% (22604)------------------------------
0.22/0.53	% (22604)------------------------------
0.22/0.54	% (22609)lrs+1010_1:128_av=off:cbe=off:cnfonf=lazy_simp:fsr=off:ntd=on:ss=axioms:st=1.5:i=44:si=on:rtra=on_0 on theBenchmark for (2998ds/44Mi)
0.22/0.54	% (22607)Instruction limit reached!
0.22/0.54	% (22607)------------------------------
0.22/0.54	% (22607)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
0.22/0.55	% (22607)Termination reason: Unknown
0.22/0.55	% (22607)Termination phase: Saturation
0.22/0.55	
0.22/0.55	% (22607)Memory used [KB]: 5628
0.22/0.55	% (22607)Time elapsed: 0.013 s
0.22/0.55	% (22607)Instructions burned: 19 (million)
0.22/0.55	% (22607)------------------------------
0.22/0.55	% (22607)------------------------------
0.22/0.55	% (22611)lrs+10_7:1_cnfonf=lazy_gen:fe=off:nwc=5.0:plsq=on:i=62:si=on:rtra=on_0 on theBenchmark for (2998ds/62Mi)
1.57/0.55	% (22609)Refutation not found, incomplete strategy
1.57/0.55	% (22609)------------------------------
1.57/0.55	% (22609)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
1.57/0.55	% (22609)Termination reason: Refutation not found, incomplete strategy
1.57/0.55	
1.57/0.55	
1.57/0.55	% (22609)Memory used [KB]: 1151
1.57/0.55	% (22609)Time elapsed: 0.014 s
1.57/0.55	% (22609)Instructions burned: 23 (million)
1.57/0.55	% (22609)------------------------------
1.57/0.55	% (22609)------------------------------
1.57/0.56	% (22610)lrs+1002_1:8_bd=off:fd=off:hud=10:tnu=1:i=191:si=on:rtra=on_0 on theBenchmark for (2998ds/191Mi)
1.57/0.56	% (22612)lrs+1002_1:1_au=on:cbe=off:cnfonf=conj_eager:cond=on:hi=on:i=105:si=on:rtra=on_0 on theBenchmark for (2998ds/105Mi)
1.57/0.57	% (22613)ott+21_1:1_apa=on:au=on:cnfonf=off:sos=on:i=3:si=on:rtra=on_0 on theBenchmark for (2998ds/3Mi)
1.57/0.57	% (22613)Instruction limit reached!
1.57/0.57	% (22613)------------------------------
1.57/0.57	% (22613)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
1.57/0.57	% (22613)Termination reason: Unknown
1.57/0.57	% (22613)Termination phase: Property scanning
1.57/0.57	
1.57/0.57	% (22613)Memory used [KB]: 1023
1.57/0.57	% (22613)Time elapsed: 0.004 s
1.57/0.57	% (22613)Instructions burned: 5 (million)
1.57/0.57	% (22613)------------------------------
1.57/0.57	% (22613)------------------------------
1.69/0.58	% (22611)Instruction limit reached!
1.69/0.58	% (22611)------------------------------
1.69/0.58	% (22611)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
1.69/0.58	% (22611)Termination reason: Unknown
1.69/0.58	% (22611)Termination phase: Saturation
1.69/0.58	
1.69/0.58	% (22611)Memory used [KB]: 5756
1.69/0.58	% (22611)Time elapsed: 0.035 s
1.69/0.58	% (22611)Instructions burned: 62 (million)
1.69/0.58	% (22611)------------------------------
1.69/0.58	% (22611)------------------------------
1.69/0.59	% (22614)dis+1010_1:4_atotf=0.2:c=on:cbe=off:cnfonf=lazy_simp:fe=off:ins=2:ntd=on:s2a=on:s2at=5.0:sgt=5:ss=axioms:st=1.5:i=238:si=on:rtra=on_0 on theBenchmark for (2998ds/238Mi)
1.69/0.59	% (22563)Refutation not found, non-redundant clauses discarded% (22563)------------------------------
1.69/0.59	% (22563)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
1.69/0.59	% (22563)Termination reason: Refutation not found, non-redundant clauses discarded
1.69/0.59	
1.69/0.59	% (22563)Memory used [KB]: 6524
1.69/0.59	% (22563)Time elapsed: 0.202 s
1.69/0.59	% (22563)Instructions burned: 382 (million)
1.69/0.59	% (22563)------------------------------
1.69/0.59	% (22563)------------------------------
1.69/0.60	% (22615)lrs+2_1:1_apa=on:au=on:bd=preordered:cnfonf=off:cs=on:ixr=off:sos=on:i=3:si=on:rtra=on_0 on theBenchmark for (2997ds/3Mi)
1.69/0.60	% (22615)Instruction limit reached!
1.69/0.60	% (22615)------------------------------
1.69/0.60	% (22615)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
1.69/0.60	% (22615)Termination reason: Unknown
1.69/0.60	% (22615)Termination phase: Property scanning
1.69/0.60	
1.69/0.60	% (22615)Memory used [KB]: 1023
1.69/0.60	% (22615)Time elapsed: 0.003 s
1.69/0.60	% (22615)Instructions burned: 4 (million)
1.69/0.60	% (22615)------------------------------
1.69/0.60	% (22615)------------------------------
1.69/0.62	% (22617)dis+1010_2:3_amm=off:fd=preordered:ixr=off:nm=0:pe=on:piset=equals:prag=on:sac=on:tgt=ground:i=149:si=on:rtra=on_0 on theBenchmark for (2997ds/149Mi)
1.69/0.62	% (22612)Instruction limit reached!
1.69/0.62	% (22612)------------------------------
1.69/0.62	% (22612)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
1.69/0.62	% (22612)Termination reason: Unknown
1.69/0.62	% (22612)Termination phase: Saturation
1.69/0.62	
1.69/0.62	% (22612)Memory used [KB]: 5884
1.69/0.62	% (22612)Time elapsed: 0.059 s
1.69/0.62	% (22612)Instructions burned: 106 (million)
1.69/0.62	% (22612)------------------------------
1.69/0.62	% (22612)------------------------------
1.69/0.62	% (22616)lrs+10_1:1_c=on:cnfonf=conj_eager:fd=off:fe=off:kws=frequency:spb=intro:i=4:si=on:rtra=on_0 on theBenchmark for (2997ds/4Mi)
1.69/0.62	% (22616)Instruction limit reached!
1.69/0.62	% (22616)------------------------------
1.69/0.62	% (22616)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
1.69/0.62	% (22616)Termination reason: Unknown
1.69/0.62	% (22616)Termination phase: Function definition elimination
1.69/0.62	
1.69/0.62	% (22616)Memory used [KB]: 1023
1.69/0.62	% (22616)Time elapsed: 0.003 s
1.69/0.62	% (22616)Instructions burned: 4 (million)
1.69/0.62	% (22616)------------------------------
1.69/0.62	% (22616)------------------------------
1.69/0.62	% (22610)Instruction limit reached!
1.69/0.62	% (22610)------------------------------
1.69/0.62	% (22610)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
1.69/0.62	% (22610)Termination reason: Unknown
1.69/0.62	% (22610)Termination phase: Saturation
1.69/0.62	
1.69/0.62	% (22610)Memory used [KB]: 6396
1.69/0.62	% (22610)Time elapsed: 0.091 s
1.69/0.62	% (22610)Instructions burned: 191 (million)
1.69/0.62	% (22610)------------------------------
1.69/0.62	% (22610)------------------------------
1.69/0.63	% (22620)lrs+21_1:16_au=on:bd=off:piset=and:i=39:si=on:rtra=on_0 on theBenchmark for (2997ds/39Mi)
1.69/0.63	% (22618)dis+10_1:1_avsq=on:cnfonf=off:e2e=on:nm=32:i=150:si=on:rtra=on_0 on theBenchmark for (2997ds/150Mi)
1.69/0.64	% (22619)ott+1002_1:1_apa=on:au=on:bd=off:cnfonf=off:fd=off:sos=on:sp=weighted_frequency:i=199:si=on:rtra=on_0 on theBenchmark for (2997ds/199Mi)
1.69/0.64	% (22619)Refutation not found, incomplete strategy
1.69/0.64	% (22619)------------------------------
1.69/0.64	% (22619)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
1.69/0.64	% (22619)Termination reason: Refutation not found, incomplete strategy
1.69/0.64	
1.69/0.64	
1.69/0.64	% (22619)Memory used [KB]: 5628
1.69/0.64	% (22619)Time elapsed: 0.008 s
1.69/0.64	% (22619)Instructions burned: 10 (million)
1.69/0.64	% (22619)------------------------------
1.69/0.64	% (22619)------------------------------
2.14/0.65	% (22618)Refutation not found, incomplete strategy
2.14/0.65	% (22618)------------------------------
2.14/0.65	% (22618)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.14/0.65	% (22618)Termination reason: Refutation not found, incomplete strategy
2.14/0.65	
2.14/0.65	
2.14/0.65	% (22618)Memory used [KB]: 5628
2.14/0.65	% (22618)Time elapsed: 0.017 s
2.14/0.65	% (22618)Instructions burned: 30 (million)
2.14/0.65	% (22618)------------------------------
2.14/0.65	% (22618)------------------------------
2.14/0.66	% (22620)Instruction limit reached!
2.14/0.66	% (22620)------------------------------
2.14/0.66	% (22620)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.14/0.66	% (22620)Termination reason: Unknown
2.14/0.66	% (22620)Termination phase: Saturation
2.14/0.66	
2.14/0.66	% (22620)Memory used [KB]: 5756
2.14/0.66	% (22620)Time elapsed: 0.024 s
2.14/0.66	% (22620)Instructions burned: 39 (million)
2.14/0.66	% (22620)------------------------------
2.14/0.66	% (22620)------------------------------
2.14/0.66	% (22621)lrs+10_1:1_e2e=on:sd=1:sgt=8:ss=axioms:i=721:si=on:rtra=on_0 on theBenchmark for (2997ds/721Mi)
2.14/0.66	% (22621)Refutation not found, incomplete strategy
2.14/0.66	% (22621)------------------------------
2.14/0.66	% (22621)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.14/0.66	% (22621)Termination reason: Refutation not found, incomplete strategy
2.14/0.66	
2.14/0.66	
2.14/0.66	% (22621)Memory used [KB]: 5500
2.14/0.66	% (22621)Time elapsed: 0.005 s
2.14/0.66	% (22621)Instructions burned: 4 (million)
2.14/0.66	% (22621)------------------------------
2.14/0.66	% (22621)------------------------------
2.31/0.67	% (22622)lrs+1002_1:8_av=off:fd=off:hud=5:tnu=1:i=3:si=on:rtra=on_0 on theBenchmark for (2997ds/3Mi)
2.31/0.67	% (22622)Instruction limit reached!
2.31/0.67	% (22622)------------------------------
2.31/0.67	% (22622)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.31/0.67	% (22622)Termination reason: Unknown
2.31/0.67	% (22622)Termination phase: Property scanning
2.31/0.67	
2.31/0.67	% (22622)Memory used [KB]: 1023
2.31/0.67	% (22622)Time elapsed: 0.004 s
2.31/0.67	% (22622)Instructions burned: 4 (million)
2.31/0.67	% (22622)------------------------------
2.31/0.67	% (22622)------------------------------
2.31/0.67	% (22623)lrs+1002_1:1_anc=all_dependent:au=on:cbe=off:fde=unused:ntd=on:i=18:si=on:rtra=on_0 on theBenchmark for (2997ds/18Mi)
2.31/0.68	% (22624)lrs+10_1:1_au=on:c=on:sac=on:slsq=on:slsqc=2:i=218:si=on:rtra=on_0 on theBenchmark for (2997ds/218Mi)
2.31/0.68	% (22623)Instruction limit reached!
2.31/0.68	% (22623)------------------------------
2.31/0.68	% (22623)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.31/0.68	% (22623)Termination reason: Unknown
2.31/0.68	% (22623)Termination phase: Saturation
2.31/0.68	
2.31/0.68	% (22623)Memory used [KB]: 5628
2.31/0.68	% (22623)Time elapsed: 0.035 s
2.31/0.68	% (22623)Instructions burned: 19 (million)
2.31/0.68	% (22623)------------------------------
2.31/0.68	% (22623)------------------------------
2.31/0.68	% (22625)dis+10_1:1_cnfonf=lazy_not_gen:fsr=off:kws=precedence:nwc=5.0:s2a=on:ss=axioms:st=1.5:i=448:si=on:rtra=on_0 on theBenchmark for (2997ds/448Mi)
2.31/0.69	% (22614)Instruction limit reached!
2.31/0.69	% (22614)------------------------------
2.31/0.69	% (22614)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.31/0.69	% (22614)Termination reason: Unknown
2.31/0.69	% (22614)Termination phase: Saturation
2.31/0.69	
2.31/0.69	% (22614)Memory used [KB]: 5884
2.31/0.69	% (22614)Time elapsed: 0.108 s
2.31/0.69	% (22614)Instructions burned: 239 (million)
2.31/0.69	% (22614)------------------------------
2.31/0.69	% (22614)------------------------------
2.31/0.70	% (22626)lrs+2_1:1_cnfonf=lazy_not_gen_be_off:cs=on:fe=off:hud=10:inj=on:ins=3:plsq=on:plsqc=1:sd=10:ss=axioms:tnu=1:i=6:si=on:rtra=on_0 on theBenchmark for (2996ds/6Mi)
2.31/0.70	% (22625)Refutation not found, incomplete strategy
2.31/0.70	% (22625)------------------------------
2.31/0.70	% (22625)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.31/0.70	% (22625)Termination reason: Refutation not found, incomplete strategy
2.31/0.70	
2.31/0.70	
2.31/0.70	% (22625)Memory used [KB]: 5628
2.31/0.70	% (22625)Time elapsed: 0.038 s
2.31/0.70	% (22625)Instructions burned: 25 (million)
2.31/0.70	% (22625)------------------------------
2.31/0.70	% (22625)------------------------------
2.31/0.70	% (22626)Instruction limit reached!
2.31/0.70	% (22626)------------------------------
2.31/0.70	% (22626)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.31/0.70	% (22626)Termination reason: Unknown
2.31/0.70	% (22626)Termination phase: Saturation
2.31/0.70	
2.31/0.70	% (22626)Memory used [KB]: 5500
2.31/0.70	% (22626)Time elapsed: 0.005 s
2.31/0.70	% (22626)Instructions burned: 6 (million)
2.31/0.70	% (22626)------------------------------
2.31/0.70	% (22626)------------------------------
2.31/0.70	% (22627)lrs+10_1:1_cnfonf=off:cs=on:hud=3:prag=on:sup=off:i=9:si=on:rtra=on_0 on theBenchmark for (2996ds/9Mi)
2.31/0.70	% (22627)Instruction limit reached!
2.31/0.70	% (22627)------------------------------
2.31/0.70	% (22627)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.31/0.70	% (22627)Termination reason: Unknown
2.31/0.70	% (22627)Termination phase: Saturation
2.31/0.70	
2.31/0.71	% (22627)Memory used [KB]: 5500
2.31/0.71	% (22627)Time elapsed: 0.004 s
2.31/0.71	% (22627)Instructions burned: 10 (million)
2.31/0.71	% (22627)------------------------------
2.31/0.71	% (22627)------------------------------
2.31/0.71	% (22617)Instruction limit reached!
2.31/0.71	% (22617)------------------------------
2.31/0.71	% (22617)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.31/0.71	% (22617)Termination reason: Unknown
2.31/0.71	% (22617)Termination phase: Saturation
2.31/0.71	
2.31/0.71	% (22617)Memory used [KB]: 5884
2.31/0.71	% (22617)Time elapsed: 0.090 s
2.31/0.71	% (22617)Instructions burned: 149 (million)
2.31/0.71	% (22617)------------------------------
2.31/0.71	% (22617)------------------------------
2.31/0.71	% (22592)First to succeed.
2.31/0.71	% (22630)lrs+10_1:1_au=on:inj=on:i=2:si=on:rtra=on_0 on theBenchmark for (2996ds/2Mi)
2.31/0.71	% (22628)lrs+10_1:1_acc=on:amm=sco:cs=on:tgt=full:i=16:si=on:rtra=on_0 on theBenchmark for (2996ds/16Mi)
2.31/0.71	% (22630)Instruction limit reached!
2.31/0.71	% (22630)------------------------------
2.31/0.71	% (22630)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.31/0.71	% (22630)Termination reason: Unknown
2.31/0.71	% (22630)Termination phase: Property scanning
2.31/0.71	
2.31/0.71	% (22630)Memory used [KB]: 1023
2.31/0.71	% (22630)Time elapsed: 0.002 s
2.31/0.71	% (22630)Instructions burned: 3 (million)
2.31/0.71	% (22630)------------------------------
2.31/0.71	% (22630)------------------------------
2.80/0.72	% (22629)lrs+1010_1:1_au=on:cbe=off:nm=2:ntd=on:sd=2:ss=axioms:st=5.0:i=40:si=on:rtra=on_0 on theBenchmark for (2996ds/40Mi)
2.80/0.72	% (22592)Refutation found. Thanks to Tanya!
2.80/0.72	% SZS status Theorem for theBenchmark
2.80/0.72	% SZS output start Proof for theBenchmark
2.80/0.72	thf(type_def_5, type, reg: $tType).
2.80/0.72	thf(func_def_0, type, reg: $tType).
2.80/0.72	thf(func_def_1, type, c: reg > reg > $o).
2.80/0.72	thf(func_def_2, type, dc: reg > reg > $o).
2.80/0.72	thf(func_def_3, type, p: reg > reg > $o).
2.80/0.72	thf(func_def_4, type, eq: reg > reg > $o).
2.80/0.72	thf(func_def_5, type, o: reg > reg > $o).
2.80/0.72	thf(func_def_6, type, po: reg > reg > $o).
2.80/0.72	thf(func_def_7, type, ec: reg > reg > $o).
2.80/0.72	thf(func_def_8, type, pp: reg > reg > $o).
2.80/0.72	thf(func_def_9, type, tpp: reg > reg > $o).
2.80/0.72	thf(func_def_10, type, ntpp: reg > reg > $o).
2.80/0.72	thf(func_def_12, type, catalunya: reg).
2.80/0.72	thf(func_def_13, type, france: reg).
2.80/0.72	thf(func_def_14, type, spain: reg).
2.80/0.72	thf(func_def_15, type, paris: reg).
2.80/0.72	thf(func_def_28, type, ph1: !>[X0: $tType]:(X0)).
2.80/0.72	thf(func_def_29, type, sK2: reg).
2.80/0.72	thf(func_def_30, type, sK3: reg).
2.80/0.72	thf(func_def_31, type, sK4: reg).
2.80/0.72	thf(func_def_32, type, sK5: reg).
2.80/0.72	thf(func_def_33, type, sK6: reg).
2.80/0.72	thf(func_def_34, type, sK7: reg).
2.80/0.72	thf(func_def_35, type, sK8: reg).
2.80/0.72	thf(func_def_36, type, sK9: reg).
2.80/0.72	thf(func_def_37, type, sK10: reg).
2.80/0.72	thf(func_def_38, type, sK11: reg).
2.80/0.72	thf(func_def_39, type, sK12: reg).
2.80/0.72	thf(func_def_40, type, sK13: reg).
2.80/0.72	thf(func_def_41, type, sK14: reg).
2.80/0.72	thf(func_def_42, type, sK15: reg).
2.80/0.72	thf(func_def_43, type, sK16: reg).
2.80/0.72	thf(func_def_44, type, sK17: reg > reg).
2.80/0.72	thf(func_def_45, type, sK18: reg).
2.80/0.72	thf(f3902,plain,(
2.80/0.72	  $false),
2.80/0.72	  inference(avatar_sat_refutation,[],[f90,f899,f1245,f3118,f3624,f3901])).
2.80/0.72	thf(f3901,plain,(
2.80/0.72	  ~spl0_1 | ~spl0_13),
2.80/0.72	  inference(avatar_contradiction_clause,[],[f3900])).
2.80/0.72	thf(f3900,plain,(
2.80/0.72	  $false | (~spl0_1 | ~spl0_13)),
2.80/0.72	  inference(trivial_inequality_removal,[],[f3899])).
2.80/0.72	thf(f3899,plain,(
2.80/0.72	  ($true = $false) | (~spl0_1 | ~spl0_13)),
2.80/0.72	  inference(boolean_simplification,[],[f3898])).
2.80/0.72	thf(f3898,plain,(
2.80/0.72	  ($false = ((c @ sK9 @ sK5) => $true)) | (~spl0_1 | ~spl0_13)),
2.80/0.72	  inference(forward_demodulation,[],[f3897,f3634])).
2.80/0.72	thf(f3634,plain,(
2.80/0.72	  ((c @ sK9 @ france) = $true) | ~spl0_13),
2.80/0.72	  inference(boolean_simplification,[],[f3629])).
2.80/0.72	thf(f3629,plain,(
2.80/0.72	  ($true = ($true => (c @ sK9 @ france))) | ~spl0_13),
2.80/0.72	  inference(superposition,[],[f99,f895])).
2.80/0.72	thf(f895,plain,(
2.80/0.72	  ((c @ france @ sK9) = $true) | ~spl0_13),
2.80/0.72	  inference(avatar_component_clause,[],[f894])).
2.80/0.72	thf(f894,plain,(
2.80/0.72	  spl0_13 <=> ((c @ france @ sK9) = $true)),
2.80/0.72	  introduced(avatar_definition,[new_symbols(naming,[spl0_13])])).
2.80/0.72	thf(f99,plain,(
2.80/0.72	  ( ! [X2 : reg,X1 : reg] : ((((c @ X2 @ X1) => (c @ X1 @ X2)) = $true)) )),
2.80/0.72	  inference(beta_eta_normalization,[],[f98])).
2.80/0.72	thf(f98,plain,(
2.80/0.72	  ( ! [X2 : reg,X1 : reg] : (($true = ((^[Y0 : reg]: ((c @ Y0 @ X1) => (c @ X1 @ Y0))) @ X2))) )),
2.80/0.72	  inference(pi_clausification,[],[f97])).
2.80/0.72	thf(f97,plain,(
2.80/0.72	  ( ! [X1 : reg] : (($true = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ X1) => (c @ X1 @ Y0)))))) )),
2.80/0.72	  inference(beta_eta_normalization,[],[f96])).
2.80/0.72	thf(f96,plain,(
2.80/0.72	  ( ! [X1 : reg] : (($true = ((^[Y0 : reg]: (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y0 @ Y1))))) @ X1))) )),
2.80/0.72	  inference(pi_clausification,[],[f52])).
2.80/0.72	thf(f52,plain,(
2.80/0.72	  ($true = (!! @ reg @ (^[Y0 : reg]: (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y0 @ Y1)))))))),
2.80/0.72	  inference(cnf_transformation,[],[f25])).
2.80/0.72	thf(f25,plain,(
2.80/0.72	  ($true = (!! @ reg @ (^[Y0 : reg]: (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y0 @ Y1)))))))),
2.80/0.72	  inference(fool_elimination,[],[f24])).
2.80/0.72	thf(f24,plain,(
2.80/0.72	  ! [X0 : reg,X1 : reg] : ((c @ X0 @ X1) => (c @ X1 @ X0))),
2.80/0.72	  inference(rectify,[],[f10])).
2.80/0.72	thf(f10,axiom,(
2.80/0.72	  ! [X0 : reg,X1 : reg] : ((c @ X0 @ X1) => (c @ X1 @ X0))),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',c_symmetric)).
2.80/0.72	thf(f3897,plain,(
2.80/0.72	  (((c @ sK9 @ sK5) => (c @ sK9 @ france)) = $false) | ~spl0_1),
2.80/0.72	  inference(beta_eta_normalization,[],[f3894])).
2.80/0.72	thf(f3894,plain,(
2.80/0.72	  (((^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))) @ sK9) = $false) | ~spl0_1),
2.80/0.72	  inference(sigma_clausification,[],[f3723])).
2.80/0.72	thf(f3723,plain,(
2.80/0.72	  ($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))))) | ~spl0_1),
2.80/0.72	  inference(trivial_inequality_removal,[],[f3722])).
2.80/0.72	thf(f3722,plain,(
2.80/0.72	  ($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))))) | ($true = $false) | ~spl0_1),
2.80/0.72	  inference(boolean_simplification,[],[f3721])).
2.80/0.72	thf(f3721,plain,(
2.80/0.72	  (($false & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))))) = $true) | ($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))))) | ~spl0_1),
2.80/0.72	  inference(superposition,[],[f3703,f130])).
2.80/0.72	thf(f130,plain,(
2.80/0.72	  ( ! [X1 : reg] : (($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ X1) => (c @ Y0 @ spain))))) | ((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ X1) => (c @ Y0 @ france)))) = $false)) )),
2.80/0.72	  inference(binary_proxy_clausification,[],[f129])).
2.80/0.72	thf(f129,plain,(
2.80/0.72	  ( ! [X1 : reg] : ((((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ X1) => (c @ Y0 @ spain)))) & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ X1) => (c @ Y0 @ france))))) = $false)) )),
2.80/0.72	  inference(beta_eta_normalization,[],[f128])).
2.80/0.72	thf(f128,plain,(
2.80/0.72	  ( ! [X1 : reg] : (($false = ((^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ france)))))) @ X1))) )),
2.80/0.72	  inference(pi_clausification,[],[f121])).
2.80/0.72	thf(f121,plain,(
2.80/0.72	  ((?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ france))))))) = $false)),
2.80/0.72	  inference(not_proxy_clausification,[],[f116])).
2.80/0.72	thf(f116,plain,(
2.80/0.72	  ((~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ france)))))))) = $true)),
2.80/0.72	  inference(boolean_simplification,[],[f115])).
2.80/0.72	thf(f115,plain,(
2.80/0.72	  (($true & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ france))))))))) = $true)),
2.80/0.72	  inference(backward_demodulation,[],[f74,f114])).
2.80/0.72	thf(f114,plain,(
2.80/0.72	  ((c @ spain @ france) = $true)),
2.80/0.72	  inference(binary_proxy_clausification,[],[f74])).
2.80/0.72	thf(f74,plain,(
2.80/0.72	  ($true = ((c @ spain @ france) & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ france))))))))))),
2.80/0.72	  inference(beta_eta_normalization,[],[f70])).
2.80/0.72	thf(f70,plain,(
2.80/0.72	  ($true = ((^[Y0 : reg]: ((^[Y1 : reg]: ((c @ Y0 @ Y1) & (~ ((^[Y2 : reg]: ((^[Y3 : reg]: (?? @ reg @ (^[Y4 : reg]: (((^[Y5 : reg]: ((^[Y6 : reg]: (!! @ reg @ (^[Y7 : reg]: ((c @ Y7 @ Y5) => (c @ Y7 @ Y6))))))) @ Y4 @ Y2) & ((^[Y5 : reg]: ((^[Y6 : reg]: (!! @ reg @ (^[Y7 : reg]: ((c @ Y7 @ Y5) => (c @ Y7 @ Y6))))))) @ Y4 @ Y3))))))) @ Y0 @ Y1)))))) @ spain @ france))),
2.80/0.72	  inference(definition_unfolding,[],[f48,f66])).
2.80/0.72	thf(f66,plain,(
2.80/0.72	  (ec = (^[Y0 : reg]: ((^[Y1 : reg]: ((c @ Y0 @ Y1) & (~ ((^[Y2 : reg]: ((^[Y3 : reg]: (?? @ reg @ (^[Y4 : reg]: (((^[Y5 : reg]: ((^[Y6 : reg]: (!! @ reg @ (^[Y7 : reg]: ((c @ Y7 @ Y5) => (c @ Y7 @ Y6))))))) @ Y4 @ Y2) & ((^[Y5 : reg]: ((^[Y6 : reg]: (!! @ reg @ (^[Y7 : reg]: ((c @ Y7 @ Y5) => (c @ Y7 @ Y6))))))) @ Y4 @ Y3))))))) @ Y0 @ Y1)))))))),
2.80/0.72	  inference(definition_unfolding,[],[f55,f64])).
2.80/0.72	thf(f64,plain,(
2.80/0.72	  (o = (^[Y0 : reg]: ((^[Y1 : reg]: (?? @ reg @ (^[Y2 : reg]: (((^[Y3 : reg]: ((^[Y4 : reg]: (!! @ reg @ (^[Y5 : reg]: ((c @ Y5 @ Y3) => (c @ Y5 @ Y4))))))) @ Y2 @ Y0) & ((^[Y3 : reg]: ((^[Y4 : reg]: (!! @ reg @ (^[Y5 : reg]: ((c @ Y5 @ Y3) => (c @ Y5 @ Y4))))))) @ Y2 @ Y1))))))))),
2.80/0.72	  inference(definition_unfolding,[],[f49,f53,f53])).
2.80/0.72	thf(f53,plain,(
2.80/0.72	  (p = (^[Y0 : reg]: ((^[Y1 : reg]: (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y0) => (c @ Y2 @ Y1))))))))),
2.80/0.72	  inference(cnf_transformation,[],[f47])).
2.80/0.72	thf(f47,plain,(
2.80/0.72	  (p = (^[Y0 : reg]: ((^[Y1 : reg]: (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y0) => (c @ Y2 @ Y1))))))))),
2.80/0.72	  inference(fool_elimination,[],[f46])).
2.80/0.72	thf(f46,plain,(
2.80/0.72	  (p = (^[X0 : reg, X1 : reg] : (! [X2 : reg] : ((c @ X2 @ X0) => (c @ X2 @ X1)))))),
2.80/0.72	  inference(rectify,[],[f2])).
2.80/0.72	thf(f2,axiom,(
2.80/0.72	  (p = (^[X0 : reg, X1 : reg] : (! [X2 : reg] : ((c @ X2 @ X0) => (c @ X2 @ X1)))))),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',p)).
2.80/0.72	thf(f49,plain,(
2.80/0.72	  (o = (^[Y0 : reg]: ((^[Y1 : reg]: (?? @ reg @ (^[Y2 : reg]: ((p @ Y2 @ Y0) & (p @ Y2 @ Y1))))))))),
2.80/0.72	  inference(cnf_transformation,[],[f35])).
2.80/0.72	thf(f35,plain,(
2.80/0.72	  (o = (^[Y0 : reg]: ((^[Y1 : reg]: (?? @ reg @ (^[Y2 : reg]: ((p @ Y2 @ Y0) & (p @ Y2 @ Y1))))))))),
2.80/0.72	  inference(fool_elimination,[],[f34])).
2.80/0.72	thf(f34,plain,(
2.80/0.72	  (o = (^[X0 : reg, X1 : reg] : (? [X2 : reg] : ((p @ X2 @ X1) & (p @ X2 @ X0)))))),
2.80/0.72	  inference(rectify,[],[f4])).
2.80/0.72	thf(f4,axiom,(
2.80/0.72	  (o = (^[X0 : reg, X1 : reg] : (? [X2 : reg] : ((p @ X2 @ X1) & (p @ X2 @ X0)))))),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',o)).
2.80/0.72	thf(f55,plain,(
2.80/0.72	  (ec = (^[Y0 : reg]: ((^[Y1 : reg]: ((c @ Y0 @ Y1) & (~ (o @ Y0 @ Y1)))))))),
2.80/0.72	  inference(cnf_transformation,[],[f37])).
2.80/0.72	thf(f37,plain,(
2.80/0.72	  (ec = (^[Y0 : reg]: ((^[Y1 : reg]: ((c @ Y0 @ Y1) & (~ (o @ Y0 @ Y1)))))))),
2.80/0.72	  inference(fool_elimination,[],[f36])).
2.80/0.72	thf(f36,plain,(
2.80/0.72	  ((^[X0 : reg, X1 : reg] : (~(o @ X0 @ X1) & (c @ X0 @ X1))) = ec)),
2.80/0.72	  inference(rectify,[],[f6])).
2.80/0.72	thf(f6,axiom,(
2.80/0.72	  ((^[X0 : reg, X1 : reg] : (~(o @ X0 @ X1) & (c @ X0 @ X1))) = ec)),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',ec)).
2.80/0.72	thf(f48,plain,(
2.80/0.72	  ((ec @ spain @ france) = $true)),
2.80/0.72	  inference(cnf_transformation,[],[f27])).
2.80/0.72	thf(f27,plain,(
2.80/0.72	  ((ec @ spain @ france) = $true)),
2.80/0.72	  inference(fool_elimination,[],[f26])).
2.80/0.72	thf(f26,plain,(
2.80/0.72	  (ec @ spain @ france)),
2.80/0.72	  inference(rectify,[],[f12])).
2.80/0.72	thf(f12,axiom,(
2.80/0.72	  (ec @ spain @ france)),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',ax2)).
2.80/0.72	thf(f3703,plain,(
2.80/0.72	  (((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ spain)))) & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))))) = $true) | ~spl0_1),
2.80/0.72	  inference(beta_eta_normalization,[],[f3701])).
2.80/0.72	thf(f3701,plain,(
2.80/0.72	  (((^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))) @ sK5) = $true) | ~spl0_1),
2.80/0.72	  inference(sigma_clausification,[],[f3685])).
2.80/0.72	thf(f3685,plain,(
2.80/0.72	  ($true = (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))))) | ~spl0_1),
2.80/0.72	  inference(not_proxy_clausification,[],[f3643])).
2.80/0.72	thf(f3643,plain,(
2.80/0.72	  ($false = (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris))))))))) | ~spl0_1),
2.80/0.72	  inference(boolean_simplification,[],[f3642])).
2.80/0.72	thf(f3642,plain,(
2.80/0.72	  ($false = ($true & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))))))) | ~spl0_1),
2.80/0.72	  inference(backward_demodulation,[],[f626,f3635])).
2.80/0.72	thf(f3635,plain,(
2.80/0.72	  ($true = (c @ spain @ paris)) | ~spl0_1),
2.80/0.72	  inference(not_proxy_clausification,[],[f86])).
2.80/0.72	thf(f86,plain,(
2.80/0.72	  ((~ (c @ spain @ paris)) = $false) | ~spl0_1),
2.80/0.72	  inference(avatar_component_clause,[],[f85])).
2.80/0.72	thf(f85,plain,(
2.80/0.72	  spl0_1 <=> ((~ (c @ spain @ paris)) = $false)),
2.80/0.72	  introduced(avatar_definition,[new_symbols(naming,[spl0_1])])).
2.80/0.72	thf(f626,plain,(
2.80/0.72	  ($false = ((c @ spain @ paris) & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris))))))))))),
2.80/0.72	  inference(boolean_simplification,[],[f625])).
2.80/0.72	thf(f625,plain,(
2.80/0.72	  ((((c @ spain @ paris) & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris))))))))) & $true) = $false)),
2.80/0.72	  inference(forward_demodulation,[],[f192,f114])).
2.80/0.72	thf(f192,plain,(
2.80/0.72	  ($false = (((c @ spain @ paris) & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris))))))))) & (c @ spain @ france)))),
2.80/0.72	  inference(boolean_simplification,[],[f191])).
2.80/0.72	thf(f191,plain,(
2.80/0.72	  ((((c @ spain @ paris) & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris))))))))) & ((c @ spain @ france) & $true)) = $false)),
2.80/0.72	  inference(boolean_simplification,[],[f180])).
2.80/0.72	thf(f180,plain,(
2.80/0.72	  ((((c @ spain @ paris) & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris))))))))) & ((c @ spain @ france) & (~ $false))) = $false)),
2.80/0.72	  inference(superposition,[],[f172,f121])).
2.80/0.72	thf(f172,plain,(
2.80/0.72	  ( ! [X1 : reg] : (((((c @ X1 @ paris) & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ X1)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris))))))))) & ((c @ X1 @ france) & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ X1)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ france)))))))))) = $false)) )),
2.80/0.72	  inference(beta_eta_normalization,[],[f171])).
2.80/0.72	thf(f171,plain,(
2.80/0.72	  ( ! [X1 : reg] : (($false = ((^[Y0 : reg]: (((c @ Y0 @ paris) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ paris))))))))) & ((c @ Y0 @ france) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ france))))))))))) @ X1))) )),
2.80/0.72	  inference(pi_clausification,[],[f162])).
2.80/0.72	thf(f162,plain,(
2.80/0.72	  ((?? @ reg @ (^[Y0 : reg]: (((c @ Y0 @ paris) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ paris))))))))) & ((c @ Y0 @ france) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ france)))))))))))) = $false)),
2.80/0.72	  inference(not_proxy_clausification,[],[f155])).
2.80/0.72	thf(f155,plain,(
2.80/0.72	  ((~ (?? @ reg @ (^[Y0 : reg]: (((c @ Y0 @ paris) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ paris))))))))) & ((c @ Y0 @ france) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ france))))))))))))) = $true)),
2.80/0.72	  inference(boolean_simplification,[],[f154])).
2.80/0.72	thf(f154,plain,(
2.80/0.72	  (($true & (~ (?? @ reg @ (^[Y0 : reg]: (((c @ Y0 @ paris) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ paris))))))))) & ((c @ Y0 @ france) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ france)))))))))))))) = $true)),
2.80/0.72	  inference(backward_demodulation,[],[f76,f153])).
2.80/0.72	thf(f153,plain,(
2.80/0.72	  (((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ paris) => (c @ Y0 @ france)))) & (~ (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ france) => (c @ Y0 @ paris)))))) = $true)),
2.80/0.72	  inference(binary_proxy_clausification,[],[f76])).
2.80/0.72	thf(f76,plain,(
2.80/0.72	  ((((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ paris) => (c @ Y0 @ france)))) & (~ (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ france) => (c @ Y0 @ paris)))))) & (~ (?? @ reg @ (^[Y0 : reg]: (((c @ Y0 @ paris) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ paris))))))))) & ((c @ Y0 @ france) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ france)))))))))))))) = $true)),
2.80/0.72	  inference(beta_eta_normalization,[],[f73])).
2.80/0.72	thf(f73,plain,(
2.80/0.72	  ($true = ((^[Y0 : reg]: ((^[Y1 : reg]: (((^[Y2 : reg]: ((^[Y3 : reg]: (((^[Y4 : reg]: ((^[Y5 : reg]: (!! @ reg @ (^[Y6 : reg]: ((c @ Y6 @ Y4) => (c @ Y6 @ Y5))))))) @ Y2 @ Y3) & (~ ((^[Y4 : reg]: ((^[Y5 : reg]: (!! @ reg @ (^[Y6 : reg]: ((c @ Y6 @ Y4) => (c @ Y6 @ Y5))))))) @ Y3 @ Y2)))))) @ Y0 @ Y1) & (~ (?? @ reg @ (^[Y2 : reg]: (((^[Y3 : reg]: ((^[Y4 : reg]: ((c @ Y3 @ Y4) & (~ ((^[Y5 : reg]: ((^[Y6 : reg]: (?? @ reg @ (^[Y7 : reg]: (((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y5) & ((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y6))))))) @ Y3 @ Y4)))))) @ Y2 @ Y0) & ((^[Y3 : reg]: ((^[Y4 : reg]: ((c @ Y3 @ Y4) & (~ ((^[Y5 : reg]: ((^[Y6 : reg]: (?? @ reg @ (^[Y7 : reg]: (((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y5) & ((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y6))))))) @ Y3 @ Y4)))))) @ Y2 @ Y1))))))))) @ paris @ france))),
2.80/0.72	  inference(definition_unfolding,[],[f58,f69])).
2.80/0.72	thf(f69,plain,(
2.80/0.72	  (ntpp = (^[Y0 : reg]: ((^[Y1 : reg]: (((^[Y2 : reg]: ((^[Y3 : reg]: (((^[Y4 : reg]: ((^[Y5 : reg]: (!! @ reg @ (^[Y6 : reg]: ((c @ Y6 @ Y4) => (c @ Y6 @ Y5))))))) @ Y2 @ Y3) & (~ ((^[Y4 : reg]: ((^[Y5 : reg]: (!! @ reg @ (^[Y6 : reg]: ((c @ Y6 @ Y4) => (c @ Y6 @ Y5))))))) @ Y3 @ Y2)))))) @ Y0 @ Y1) & (~ (?? @ reg @ (^[Y2 : reg]: (((^[Y3 : reg]: ((^[Y4 : reg]: ((c @ Y3 @ Y4) & (~ ((^[Y5 : reg]: ((^[Y6 : reg]: (?? @ reg @ (^[Y7 : reg]: (((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y5) & ((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y6))))))) @ Y3 @ Y4)))))) @ Y2 @ Y0) & ((^[Y3 : reg]: ((^[Y4 : reg]: ((c @ Y3 @ Y4) & (~ ((^[Y5 : reg]: ((^[Y6 : reg]: (?? @ reg @ (^[Y7 : reg]: (((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y5) & ((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y6))))))) @ Y3 @ Y4)))))) @ Y2 @ Y1))))))))))),
2.80/0.72	  inference(definition_unfolding,[],[f51,f67,f66,f66])).
2.80/0.72	thf(f67,plain,(
2.80/0.72	  (pp = (^[Y0 : reg]: ((^[Y1 : reg]: (((^[Y2 : reg]: ((^[Y3 : reg]: (!! @ reg @ (^[Y4 : reg]: ((c @ Y4 @ Y2) => (c @ Y4 @ Y3))))))) @ Y0 @ Y1) & (~ ((^[Y2 : reg]: ((^[Y3 : reg]: (!! @ reg @ (^[Y4 : reg]: ((c @ Y4 @ Y2) => (c @ Y4 @ Y3))))))) @ Y1 @ Y0)))))))),
2.80/0.72	  inference(definition_unfolding,[],[f62,f53,f53])).
2.80/0.72	thf(f62,plain,(
2.80/0.72	  (pp = (^[Y0 : reg]: ((^[Y1 : reg]: ((p @ Y0 @ Y1) & (~ (p @ Y1 @ Y0)))))))),
2.80/0.72	  inference(cnf_transformation,[],[f29])).
2.80/0.72	thf(f29,plain,(
2.80/0.72	  (pp = (^[Y0 : reg]: ((^[Y1 : reg]: ((p @ Y0 @ Y1) & (~ (p @ Y1 @ Y0)))))))),
2.80/0.72	  inference(fool_elimination,[],[f28])).
2.80/0.72	thf(f28,plain,(
2.80/0.72	  ((^[X0 : reg, X1 : reg] : (~(p @ X1 @ X0) & (p @ X0 @ X1))) = pp)),
2.80/0.72	  inference(rectify,[],[f7])).
2.80/0.72	thf(f7,axiom,(
2.80/0.72	  ((^[X0 : reg, X1 : reg] : (~(p @ X1 @ X0) & (p @ X0 @ X1))) = pp)),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',pp)).
2.80/0.72	thf(f51,plain,(
2.80/0.72	  (ntpp = (^[Y0 : reg]: ((^[Y1 : reg]: ((pp @ Y0 @ Y1) & (~ (?? @ reg @ (^[Y2 : reg]: ((ec @ Y2 @ Y0) & (ec @ Y2 @ Y1))))))))))),
2.80/0.72	  inference(cnf_transformation,[],[f33])).
2.80/0.72	thf(f33,plain,(
2.80/0.72	  (ntpp = (^[Y0 : reg]: ((^[Y1 : reg]: ((pp @ Y0 @ Y1) & (~ (?? @ reg @ (^[Y2 : reg]: ((ec @ Y2 @ Y0) & (ec @ Y2 @ Y1))))))))))),
2.80/0.72	  inference(fool_elimination,[],[f32])).
2.80/0.72	thf(f32,plain,(
2.80/0.72	  (ntpp = (^[X0 : reg, X1 : reg] : (~? [X2 : reg] : ((ec @ X2 @ X1) & (ec @ X2 @ X0)) & (pp @ X0 @ X1))))),
2.80/0.72	  inference(rectify,[],[f9])).
2.80/0.72	thf(f9,axiom,(
2.80/0.72	  (ntpp = (^[X0 : reg, X1 : reg] : (~? [X2 : reg] : ((ec @ X2 @ X1) & (ec @ X2 @ X0)) & (pp @ X0 @ X1))))),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',ntpp)).
2.80/0.72	thf(f58,plain,(
2.80/0.72	  ((ntpp @ paris @ france) = $true)),
2.80/0.72	  inference(cnf_transformation,[],[f39])).
2.80/0.72	thf(f39,plain,(
2.80/0.72	  ((ntpp @ paris @ france) = $true)),
2.80/0.72	  inference(fool_elimination,[],[f38])).
2.80/0.72	thf(f38,plain,(
2.80/0.72	  (ntpp @ paris @ france)),
2.80/0.72	  inference(rectify,[],[f16])).
2.80/0.72	thf(f16,axiom,(
2.80/0.72	  (ntpp @ paris @ france)),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',ax3)).
2.80/0.72	thf(f3624,plain,(
2.80/0.72	  ~spl0_2 | ~spl0_14),
2.80/0.72	  inference(avatar_contradiction_clause,[],[f3623])).
2.80/0.72	thf(f3623,plain,(
2.80/0.72	  $false | (~spl0_2 | ~spl0_14)),
2.80/0.72	  inference(trivial_inequality_removal,[],[f3622])).
2.80/0.72	thf(f3622,plain,(
2.80/0.72	  ($true = $false) | (~spl0_2 | ~spl0_14)),
2.80/0.72	  inference(backward_demodulation,[],[f3558,f3621])).
2.80/0.72	thf(f3621,plain,(
2.80/0.72	  ((c @ sK9 @ france) = $false) | (~spl0_2 | ~spl0_14)),
2.80/0.72	  inference(boolean_simplification,[],[f3620])).
2.80/0.72	thf(f3620,plain,(
2.80/0.72	  ($false = ($true => (c @ sK9 @ france))) | (~spl0_2 | ~spl0_14)),
2.80/0.72	  inference(forward_demodulation,[],[f3619,f1530])).
2.80/0.72	thf(f1530,plain,(
2.80/0.72	  ((c @ sK9 @ sK5) = $true) | ~spl0_14),
2.80/0.72	  inference(not_proxy_clausification,[],[f898])).
2.80/0.72	thf(f898,plain,(
2.80/0.72	  ((~ (c @ sK9 @ sK5)) = $false) | ~spl0_14),
2.80/0.72	  inference(avatar_component_clause,[],[f897])).
2.80/0.72	thf(f897,plain,(
2.80/0.72	  spl0_14 <=> ((~ (c @ sK9 @ sK5)) = $false)),
2.80/0.72	  introduced(avatar_definition,[new_symbols(naming,[spl0_14])])).
2.80/0.72	thf(f3619,plain,(
2.80/0.72	  (((c @ sK9 @ sK5) => (c @ sK9 @ france)) = $false) | ~spl0_2),
2.80/0.72	  inference(beta_eta_normalization,[],[f3616])).
2.80/0.72	thf(f3616,plain,(
2.80/0.72	  (((^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))) @ sK9) = $false) | ~spl0_2),
2.80/0.72	  inference(sigma_clausification,[],[f3343])).
2.80/0.72	thf(f3343,plain,(
2.80/0.72	  ($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))))) | ~spl0_2),
2.80/0.72	  inference(trivial_inequality_removal,[],[f3342])).
2.80/0.72	thf(f3342,plain,(
2.80/0.72	  ($true = $false) | ($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))))) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f3341])).
2.80/0.72	thf(f3341,plain,(
2.80/0.72	  (($false & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))))) = $true) | ($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))))) | ~spl0_2),
2.80/0.72	  inference(superposition,[],[f3329,f130])).
2.80/0.72	thf(f3329,plain,(
2.80/0.72	  (((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ spain)))) & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))))) = $true) | ~spl0_2),
2.80/0.72	  inference(beta_eta_normalization,[],[f3327])).
2.80/0.72	thf(f3327,plain,(
2.80/0.72	  (((^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))) @ sK5) = $true) | ~spl0_2),
2.80/0.72	  inference(sigma_clausification,[],[f3311])).
2.80/0.72	thf(f3311,plain,(
2.80/0.72	  ($true = (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))))) | ~spl0_2),
2.80/0.72	  inference(not_proxy_clausification,[],[f3170])).
2.80/0.72	thf(f3170,plain,(
2.80/0.72	  ($false = (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris))))))))) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f3169])).
2.80/0.72	thf(f3169,plain,(
2.80/0.72	  ($false = ($true & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))))))) | ~spl0_2),
2.80/0.72	  inference(backward_demodulation,[],[f626,f3168])).
2.80/0.72	thf(f3168,plain,(
2.80/0.72	  ($true = (c @ spain @ paris)) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f3162])).
2.80/0.72	thf(f3162,plain,(
2.80/0.72	  ($true = ($true => (c @ spain @ paris))) | ~spl0_2),
2.80/0.72	  inference(superposition,[],[f99,f3157])).
2.80/0.72	thf(f3157,plain,(
2.80/0.72	  ($true = (c @ paris @ spain)) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f3150])).
2.80/0.72	thf(f3150,plain,(
2.80/0.72	  ($true = ($true => (c @ paris @ spain))) | ~spl0_2),
2.80/0.72	  inference(superposition,[],[f141,f3126])).
2.80/0.72	thf(f3126,plain,(
2.80/0.72	  ((c @ paris @ catalunya) = $true) | ~spl0_2),
2.80/0.72	  inference(trivial_inequality_removal,[],[f3125])).
2.80/0.72	thf(f3125,plain,(
2.80/0.72	  ((c @ paris @ catalunya) = $true) | ($true = $false) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f3124])).
2.80/0.72	thf(f3124,plain,(
2.80/0.72	  ((~ $false) = $false) | ((c @ paris @ catalunya) = $true) | ~spl0_2),
2.80/0.72	  inference(superposition,[],[f89,f100])).
2.80/0.72	thf(f100,plain,(
2.80/0.72	  ( ! [X2 : reg,X1 : reg] : (((c @ X2 @ X1) = $false) | ((c @ X1 @ X2) = $true)) )),
2.80/0.72	  inference(binary_proxy_clausification,[],[f99])).
2.80/0.72	thf(f89,plain,(
2.80/0.72	  ((~ (c @ catalunya @ paris)) = $false) | ~spl0_2),
2.80/0.72	  inference(avatar_component_clause,[],[f88])).
2.80/0.72	thf(f88,plain,(
2.80/0.72	  spl0_2 <=> ((~ (c @ catalunya @ paris)) = $false)),
2.80/0.72	  introduced(avatar_definition,[new_symbols(naming,[spl0_2])])).
2.80/0.72	thf(f141,plain,(
2.80/0.72	  ( ! [X1 : reg] : (($true = ((c @ X1 @ catalunya) => (c @ X1 @ spain)))) )),
2.80/0.72	  inference(beta_eta_normalization,[],[f139])).
2.80/0.72	thf(f139,plain,(
2.80/0.72	  ( ! [X1 : reg] : (($true = ((^[Y0 : reg]: ((c @ Y0 @ catalunya) => (c @ Y0 @ spain))) @ X1))) )),
2.80/0.72	  inference(pi_clausification,[],[f138])).
2.80/0.72	thf(f138,plain,(
2.80/0.72	  ($true = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ catalunya) => (c @ Y0 @ spain)))))),
2.80/0.72	  inference(boolean_simplification,[],[f137])).
2.80/0.72	thf(f137,plain,(
2.80/0.72	  (((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ catalunya) => (c @ Y0 @ spain)))) & $true) = $true)),
2.80/0.72	  inference(backward_demodulation,[],[f134,f135])).
2.80/0.72	thf(f135,plain,(
2.80/0.72	  ((~ (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ spain) => (c @ Y0 @ catalunya))))) = $true)),
2.80/0.72	  inference(binary_proxy_clausification,[],[f134])).
2.80/0.72	thf(f134,plain,(
2.80/0.72	  ($true = ((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ catalunya) => (c @ Y0 @ spain)))) & (~ (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ spain) => (c @ Y0 @ catalunya)))))))),
2.80/0.72	  inference(boolean_simplification,[],[f133])).
2.80/0.72	thf(f133,plain,(
2.80/0.72	  ((((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ catalunya) => (c @ Y0 @ spain)))) & (~ (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ spain) => (c @ Y0 @ catalunya)))))) & $true) = $true)),
2.80/0.72	  inference(backward_demodulation,[],[f77,f131])).
2.80/0.72	thf(f131,plain,(
2.80/0.72	  ((?? @ reg @ (^[Y0 : reg]: (((c @ Y0 @ spain) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ spain))))))))) & ((c @ Y0 @ catalunya) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ catalunya)))))))))))) = $true)),
2.80/0.72	  inference(binary_proxy_clausification,[],[f77])).
2.80/0.72	thf(f77,plain,(
2.80/0.72	  ($true = (((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ catalunya) => (c @ Y0 @ spain)))) & (~ (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ spain) => (c @ Y0 @ catalunya)))))) & (?? @ reg @ (^[Y0 : reg]: (((c @ Y0 @ spain) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ spain))))))))) & ((c @ Y0 @ catalunya) & (~ (?? @ reg @ (^[Y1 : reg]: ((!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ Y0)))) & (!! @ reg @ (^[Y2 : reg]: ((c @ Y2 @ Y1) => (c @ Y2 @ catalunya))))))))))))))),
2.80/0.72	  inference(beta_eta_normalization,[],[f71])).
2.80/0.72	thf(f71,plain,(
2.80/0.72	  (((^[Y0 : reg]: ((^[Y1 : reg]: (((^[Y2 : reg]: ((^[Y3 : reg]: (((^[Y4 : reg]: ((^[Y5 : reg]: (!! @ reg @ (^[Y6 : reg]: ((c @ Y6 @ Y4) => (c @ Y6 @ Y5))))))) @ Y2 @ Y3) & (~ ((^[Y4 : reg]: ((^[Y5 : reg]: (!! @ reg @ (^[Y6 : reg]: ((c @ Y6 @ Y4) => (c @ Y6 @ Y5))))))) @ Y3 @ Y2)))))) @ Y0 @ Y1) & (?? @ reg @ (^[Y2 : reg]: (((^[Y3 : reg]: ((^[Y4 : reg]: ((c @ Y3 @ Y4) & (~ ((^[Y5 : reg]: ((^[Y6 : reg]: (?? @ reg @ (^[Y7 : reg]: (((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y5) & ((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y6))))))) @ Y3 @ Y4)))))) @ Y2 @ Y1) & ((^[Y3 : reg]: ((^[Y4 : reg]: ((c @ Y3 @ Y4) & (~ ((^[Y5 : reg]: ((^[Y6 : reg]: (?? @ reg @ (^[Y7 : reg]: (((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y5) & ((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y6))))))) @ Y3 @ Y4)))))) @ Y2 @ Y0)))))))) @ catalunya @ spain) = $true)),
2.80/0.72	  inference(definition_unfolding,[],[f50,f68])).
2.80/0.72	thf(f68,plain,(
2.80/0.72	  (tpp = (^[Y0 : reg]: ((^[Y1 : reg]: (((^[Y2 : reg]: ((^[Y3 : reg]: (((^[Y4 : reg]: ((^[Y5 : reg]: (!! @ reg @ (^[Y6 : reg]: ((c @ Y6 @ Y4) => (c @ Y6 @ Y5))))))) @ Y2 @ Y3) & (~ ((^[Y4 : reg]: ((^[Y5 : reg]: (!! @ reg @ (^[Y6 : reg]: ((c @ Y6 @ Y4) => (c @ Y6 @ Y5))))))) @ Y3 @ Y2)))))) @ Y0 @ Y1) & (?? @ reg @ (^[Y2 : reg]: (((^[Y3 : reg]: ((^[Y4 : reg]: ((c @ Y3 @ Y4) & (~ ((^[Y5 : reg]: ((^[Y6 : reg]: (?? @ reg @ (^[Y7 : reg]: (((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y5) & ((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y6))))))) @ Y3 @ Y4)))))) @ Y2 @ Y1) & ((^[Y3 : reg]: ((^[Y4 : reg]: ((c @ Y3 @ Y4) & (~ ((^[Y5 : reg]: ((^[Y6 : reg]: (?? @ reg @ (^[Y7 : reg]: (((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y5) & ((^[Y8 : reg]: ((^[Y9 : reg]: (!! @ reg @ (^[Y10 : reg]: ((c @ Y10 @ Y8) => (c @ Y10 @ Y9))))))) @ Y7 @ Y6))))))) @ Y3 @ Y4)))))) @ Y2 @ Y0)))))))))),
2.80/0.72	  inference(definition_unfolding,[],[f59,f67,f66,f66])).
2.80/0.72	thf(f59,plain,(
2.80/0.72	  (tpp = (^[Y0 : reg]: ((^[Y1 : reg]: ((pp @ Y0 @ Y1) & (?? @ reg @ (^[Y2 : reg]: ((ec @ Y2 @ Y1) & (ec @ Y2 @ Y0)))))))))),
2.80/0.72	  inference(cnf_transformation,[],[f41])).
2.80/0.72	thf(f41,plain,(
2.80/0.72	  (tpp = (^[Y0 : reg]: ((^[Y1 : reg]: ((pp @ Y0 @ Y1) & (?? @ reg @ (^[Y2 : reg]: ((ec @ Y2 @ Y1) & (ec @ Y2 @ Y0)))))))))),
2.80/0.72	  inference(fool_elimination,[],[f40])).
2.80/0.72	thf(f40,plain,(
2.80/0.72	  ((^[X0 : reg, X1 : reg] : (? [X2 : reg] : ((ec @ X2 @ X0) & (ec @ X2 @ X1)) & (pp @ X0 @ X1))) = tpp)),
2.80/0.72	  inference(rectify,[],[f8])).
2.80/0.72	thf(f8,axiom,(
2.80/0.72	  ((^[X0 : reg, X1 : reg] : (? [X2 : reg] : ((ec @ X2 @ X0) & (ec @ X2 @ X1)) & (pp @ X0 @ X1))) = tpp)),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',tpp)).
2.80/0.72	thf(f50,plain,(
2.80/0.72	  ((tpp @ catalunya @ spain) = $true)),
2.80/0.72	  inference(cnf_transformation,[],[f19])).
2.80/0.72	thf(f19,plain,(
2.80/0.72	  ((tpp @ catalunya @ spain) = $true)),
2.80/0.72	  inference(fool_elimination,[],[f18])).
2.80/0.72	thf(f18,plain,(
2.80/0.72	  (tpp @ catalunya @ spain)),
2.80/0.72	  inference(rectify,[],[f13])).
2.80/0.72	thf(f13,axiom,(
2.80/0.72	  (tpp @ catalunya @ spain)),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',ax1)).
2.80/0.72	thf(f3558,plain,(
2.80/0.72	  ((c @ sK9 @ france) = $true) | (~spl0_2 | ~spl0_14)),
2.80/0.72	  inference(boolean_simplification,[],[f3552])).
2.80/0.72	thf(f3552,plain,(
2.80/0.72	  ($true = ($true => (c @ sK9 @ france))) | (~spl0_2 | ~spl0_14)),
2.80/0.72	  inference(superposition,[],[f1670,f3394])).
2.80/0.72	thf(f3394,plain,(
2.80/0.72	  ($true = (c @ sK9 @ paris)) | (~spl0_2 | ~spl0_14)),
2.80/0.72	  inference(boolean_simplification,[],[f3376])).
2.80/0.72	thf(f3376,plain,(
2.80/0.72	  ($true = ($true => (c @ sK9 @ paris))) | (~spl0_2 | ~spl0_14)),
2.80/0.72	  inference(superposition,[],[f3355,f1530])).
2.80/0.72	thf(f3355,plain,(
2.80/0.72	  ( ! [X1 : reg] : ((((c @ X1 @ sK5) => (c @ X1 @ paris)) = $true)) ) | ~spl0_2),
2.80/0.72	  inference(beta_eta_normalization,[],[f3354])).
2.80/0.72	thf(f3354,plain,(
2.80/0.72	  ( ! [X1 : reg] : ((((^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))) @ X1) = $true)) ) | ~spl0_2),
2.80/0.72	  inference(pi_clausification,[],[f3345])).
2.80/0.72	thf(f3345,plain,(
2.80/0.72	  ((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris)))) = $true) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f3344])).
2.80/0.72	thf(f3344,plain,(
2.80/0.72	  (($true & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))))) = $true) | ~spl0_2),
2.80/0.72	  inference(backward_demodulation,[],[f3329,f3340])).
2.80/0.72	thf(f3340,plain,(
2.80/0.72	  ($true = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ spain))))) | ~spl0_2),
2.80/0.72	  inference(binary_proxy_clausification,[],[f3329])).
2.80/0.72	thf(f1670,plain,(
2.80/0.72	  ( ! [X1 : reg] : ((((c @ X1 @ paris) => (c @ X1 @ france)) = $true)) )),
2.80/0.72	  inference(beta_eta_normalization,[],[f1667])).
2.80/0.72	thf(f1667,plain,(
2.80/0.72	  ( ! [X1 : reg] : ((((^[Y0 : reg]: ((c @ Y0 @ paris) => (c @ Y0 @ france))) @ X1) = $true)) )),
2.80/0.72	  inference(pi_clausification,[],[f248])).
2.80/0.72	thf(f248,plain,(
2.80/0.72	  ($true = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ paris) => (c @ Y0 @ france)))))),
2.80/0.72	  inference(binary_proxy_clausification,[],[f153])).
2.80/0.72	thf(f3118,plain,(
2.80/0.72	  ~spl0_1 | ~spl0_14),
2.80/0.72	  inference(avatar_contradiction_clause,[],[f3117])).
2.80/0.72	thf(f3117,plain,(
2.80/0.72	  $false | (~spl0_1 | ~spl0_14)),
2.80/0.72	  inference(trivial_inequality_removal,[],[f3116])).
2.80/0.72	thf(f3116,plain,(
2.80/0.72	  ($true = $false) | (~spl0_1 | ~spl0_14)),
2.80/0.72	  inference(boolean_simplification,[],[f3115])).
2.80/0.72	thf(f3115,plain,(
2.80/0.72	  ($true = (~ $true)) | (~spl0_1 | ~spl0_14)),
2.80/0.72	  inference(forward_demodulation,[],[f3114,f2988])).
2.80/0.72	thf(f2988,plain,(
2.80/0.72	  ($true = (c @ sK9 @ paris)) | (~spl0_1 | ~spl0_14)),
2.80/0.72	  inference(boolean_simplification,[],[f2983])).
2.80/0.72	thf(f2983,plain,(
2.80/0.72	  ($true = ($true => (c @ sK9 @ paris))) | (~spl0_1 | ~spl0_14)),
2.80/0.72	  inference(superposition,[],[f2964,f1530])).
2.80/0.72	thf(f2964,plain,(
2.80/0.72	  ( ! [X1 : reg] : ((((c @ X1 @ sK5) => (c @ X1 @ paris)) = $true)) ) | ~spl0_1),
2.80/0.72	  inference(beta_eta_normalization,[],[f2963])).
2.80/0.72	thf(f2963,plain,(
2.80/0.72	  ( ! [X1 : reg] : ((((^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))) @ X1) = $true)) ) | ~spl0_1),
2.80/0.72	  inference(pi_clausification,[],[f2954])).
2.80/0.72	thf(f2954,plain,(
2.80/0.72	  ((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris)))) = $true) | ~spl0_1),
2.80/0.72	  inference(boolean_simplification,[],[f2953])).
2.80/0.72	thf(f2953,plain,(
2.80/0.72	  (($true & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))))) = $true) | ~spl0_1),
2.80/0.72	  inference(backward_demodulation,[],[f2936,f2949])).
2.80/0.72	thf(f2949,plain,(
2.80/0.72	  ($true = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ spain))))) | ~spl0_1),
2.80/0.72	  inference(binary_proxy_clausification,[],[f2936])).
2.80/0.72	thf(f2936,plain,(
2.80/0.72	  (((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ spain)))) & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))))) = $true) | ~spl0_1),
2.80/0.72	  inference(beta_eta_normalization,[],[f2934])).
2.80/0.72	thf(f2934,plain,(
2.80/0.72	  (((^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))) @ sK5) = $true) | ~spl0_1),
2.80/0.72	  inference(sigma_clausification,[],[f2910])).
2.80/0.72	thf(f2910,plain,(
2.80/0.72	  ($true = (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))))) | ~spl0_1),
2.80/0.72	  inference(not_proxy_clausification,[],[f2865])).
2.80/0.72	thf(f2865,plain,(
2.80/0.72	  ($false = (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris))))))))) | ~spl0_1),
2.80/0.72	  inference(boolean_simplification,[],[f2863])).
2.80/0.72	thf(f2863,plain,(
2.80/0.72	  ($false = ($true & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))))))) | ~spl0_1),
2.80/0.72	  inference(backward_demodulation,[],[f626,f2858])).
2.80/0.72	thf(f2858,plain,(
2.80/0.72	  ($true = (c @ spain @ paris)) | ~spl0_1),
2.80/0.72	  inference(not_proxy_clausification,[],[f86])).
2.80/0.72	thf(f3114,plain,(
2.80/0.72	  ((~ (c @ sK9 @ paris)) = $true) | (~spl0_1 | ~spl0_14)),
2.80/0.72	  inference(boolean_simplification,[],[f3105])).
2.80/0.72	thf(f3105,plain,(
2.80/0.72	  (((c @ sK9 @ paris) => $false) = $true) | (~spl0_1 | ~spl0_14)),
2.80/0.72	  inference(superposition,[],[f1670,f3103])).
2.80/0.72	thf(f3103,plain,(
2.80/0.72	  ((c @ sK9 @ france) = $false) | (~spl0_1 | ~spl0_14)),
2.80/0.72	  inference(boolean_simplification,[],[f3102])).
2.80/0.72	thf(f3102,plain,(
2.80/0.72	  ($false = ($true => (c @ sK9 @ france))) | (~spl0_1 | ~spl0_14)),
2.80/0.72	  inference(forward_demodulation,[],[f3100,f1530])).
2.80/0.72	thf(f3100,plain,(
2.80/0.72	  (((c @ sK9 @ sK5) => (c @ sK9 @ france)) = $false) | ~spl0_1),
2.80/0.72	  inference(beta_eta_normalization,[],[f3098])).
2.80/0.72	thf(f3098,plain,(
2.80/0.72	  (((^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))) @ sK9) = $false) | ~spl0_1),
2.80/0.72	  inference(sigma_clausification,[],[f2952])).
2.80/0.72	thf(f2952,plain,(
2.80/0.72	  ($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))))) | ~spl0_1),
2.80/0.72	  inference(trivial_inequality_removal,[],[f2951])).
2.80/0.72	thf(f2951,plain,(
2.80/0.72	  ($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))))) | ($true = $false) | ~spl0_1),
2.80/0.72	  inference(boolean_simplification,[],[f2950])).
2.80/0.72	thf(f2950,plain,(
2.80/0.72	  (($false & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))))) = $true) | ($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))))) | ~spl0_1),
2.80/0.72	  inference(superposition,[],[f2936,f130])).
2.80/0.72	thf(f1245,plain,(
2.80/0.72	  spl0_14 | ~spl0_2),
2.80/0.72	  inference(avatar_split_clause,[],[f1244,f88,f897])).
2.80/0.72	thf(f1244,plain,(
2.80/0.72	  ((~ (c @ sK9 @ sK5)) = $false) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f1243])).
2.80/0.72	thf(f1243,plain,(
2.80/0.72	  (((c @ sK9 @ sK5) => $false) = $false) | ~spl0_2),
2.80/0.72	  inference(backward_demodulation,[],[f1222,f1236])).
2.80/0.72	thf(f1236,plain,(
2.80/0.72	  ((c @ sK9 @ france) = $false) | ~spl0_2),
2.80/0.72	  inference(binary_proxy_clausification,[],[f1222])).
2.80/0.72	thf(f1222,plain,(
2.80/0.72	  (((c @ sK9 @ sK5) => (c @ sK9 @ france)) = $false) | ~spl0_2),
2.80/0.72	  inference(beta_eta_normalization,[],[f1220])).
2.80/0.72	thf(f1220,plain,(
2.80/0.72	  (((^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))) @ sK9) = $false) | ~spl0_2),
2.80/0.72	  inference(sigma_clausification,[],[f1079])).
2.80/0.72	thf(f1079,plain,(
2.80/0.72	  ($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))))) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f1076])).
2.80/0.72	thf(f1076,plain,(
2.80/0.72	  ($false = ($true & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france)))))) | ~spl0_2),
2.80/0.72	  inference(superposition,[],[f129,f1069])).
2.80/0.72	thf(f1069,plain,(
2.80/0.72	  ($true = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ spain))))) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f1068])).
2.80/0.72	thf(f1068,plain,(
2.80/0.72	  (((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ spain)))) & $true) = $true) | ~spl0_2),
2.80/0.72	  inference(backward_demodulation,[],[f1042,f1066])).
2.80/0.72	thf(f1066,plain,(
2.80/0.72	  ((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris)))) = $true) | ~spl0_2),
2.80/0.72	  inference(binary_proxy_clausification,[],[f1042])).
2.80/0.72	thf(f1042,plain,(
2.80/0.72	  (((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ spain)))) & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))))) = $true) | ~spl0_2),
2.80/0.72	  inference(beta_eta_normalization,[],[f1040])).
2.80/0.72	thf(f1040,plain,(
2.80/0.72	  (((^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))) @ sK5) = $true) | ~spl0_2),
2.80/0.72	  inference(sigma_clausification,[],[f1020])).
2.80/0.72	thf(f1020,plain,(
2.80/0.72	  ($true = (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))))) | ~spl0_2),
2.80/0.72	  inference(not_proxy_clausification,[],[f959])).
2.80/0.72	thf(f959,plain,(
2.80/0.72	  ($false = (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris))))))))) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f958])).
2.80/0.72	thf(f958,plain,(
2.80/0.72	  ($false = ($true & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))))))) | ~spl0_2),
2.80/0.72	  inference(backward_demodulation,[],[f626,f957])).
2.80/0.72	thf(f957,plain,(
2.80/0.72	  ($true = (c @ spain @ paris)) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f951])).
2.80/0.72	thf(f951,plain,(
2.80/0.72	  ($true = ($true => (c @ spain @ paris))) | ~spl0_2),
2.80/0.72	  inference(superposition,[],[f99,f929])).
2.80/0.72	thf(f929,plain,(
2.80/0.72	  ($true = (c @ paris @ spain)) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f925])).
2.80/0.72	thf(f925,plain,(
2.80/0.72	  ($true = ($true => (c @ paris @ spain))) | ~spl0_2),
2.80/0.72	  inference(superposition,[],[f141,f907])).
2.80/0.72	thf(f907,plain,(
2.80/0.72	  ((c @ paris @ catalunya) = $true) | ~spl0_2),
2.80/0.72	  inference(trivial_inequality_removal,[],[f906])).
2.80/0.72	thf(f906,plain,(
2.80/0.72	  ($true = $false) | ((c @ paris @ catalunya) = $true) | ~spl0_2),
2.80/0.72	  inference(boolean_simplification,[],[f905])).
2.80/0.72	thf(f905,plain,(
2.80/0.72	  ((c @ paris @ catalunya) = $true) | ((~ $false) = $false) | ~spl0_2),
2.80/0.72	  inference(superposition,[],[f89,f100])).
2.80/0.72	thf(f899,plain,(
2.80/0.72	  spl0_13 | spl0_14 | ~spl0_1),
2.80/0.72	  inference(avatar_split_clause,[],[f892,f85,f897,f894])).
2.80/0.72	thf(f892,plain,(
2.80/0.72	  ((c @ france @ sK9) = $true) | ((~ (c @ sK9 @ sK5)) = $false) | ~spl0_1),
2.80/0.72	  inference(boolean_simplification,[],[f888])).
2.80/0.72	thf(f888,plain,(
2.80/0.72	  (((c @ sK9 @ sK5) => $false) = $false) | ((c @ france @ sK9) = $true) | ~spl0_1),
2.80/0.72	  inference(superposition,[],[f879,f100])).
2.80/0.72	thf(f879,plain,(
2.80/0.72	  (((c @ sK9 @ sK5) => (c @ sK9 @ france)) = $false) | ~spl0_1),
2.80/0.72	  inference(beta_eta_normalization,[],[f876])).
2.80/0.72	thf(f876,plain,(
2.80/0.72	  (((^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))) @ sK9) = $false) | ~spl0_1),
2.80/0.72	  inference(sigma_clausification,[],[f713])).
2.80/0.72	thf(f713,plain,(
2.80/0.72	  ($false = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france))))) | ~spl0_1),
2.80/0.72	  inference(boolean_simplification,[],[f712])).
2.80/0.72	thf(f712,plain,(
2.80/0.72	  ($false = ($true & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ france)))))) | ~spl0_1),
2.80/0.72	  inference(superposition,[],[f129,f704])).
2.80/0.72	thf(f704,plain,(
2.80/0.72	  ($true = (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ spain))))) | ~spl0_1),
2.80/0.72	  inference(boolean_simplification,[],[f703])).
2.80/0.72	thf(f703,plain,(
2.80/0.72	  (((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ spain)))) & $true) = $true) | ~spl0_1),
2.80/0.72	  inference(backward_demodulation,[],[f692,f701])).
2.80/0.72	thf(f701,plain,(
2.80/0.72	  ((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris)))) = $true) | ~spl0_1),
2.80/0.72	  inference(binary_proxy_clausification,[],[f692])).
2.80/0.72	thf(f692,plain,(
2.80/0.72	  (((!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ spain)))) & (!! @ reg @ (^[Y0 : reg]: ((c @ Y0 @ sK5) => (c @ Y0 @ paris))))) = $true) | ~spl0_1),
2.80/0.72	  inference(beta_eta_normalization,[],[f690])).
2.80/0.72	thf(f690,plain,(
2.80/0.72	  (((^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))) @ sK5) = $true) | ~spl0_1),
2.80/0.72	  inference(sigma_clausification,[],[f678])).
2.80/0.72	thf(f678,plain,(
2.80/0.72	  ($true = (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))))) | ~spl0_1),
2.80/0.72	  inference(not_proxy_clausification,[],[f648])).
2.80/0.72	thf(f648,plain,(
2.80/0.72	  ($false = (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris))))))))) | ~spl0_1),
2.80/0.72	  inference(boolean_simplification,[],[f645])).
2.80/0.72	thf(f645,plain,(
2.80/0.72	  ($false = ($true & (~ (?? @ reg @ (^[Y0 : reg]: ((!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ spain)))) & (!! @ reg @ (^[Y1 : reg]: ((c @ Y1 @ Y0) => (c @ Y1 @ paris)))))))))) | ~spl0_1),
2.80/0.72	  inference(backward_demodulation,[],[f626,f641])).
2.80/0.72	thf(f641,plain,(
2.80/0.72	  ($true = (c @ spain @ paris)) | ~spl0_1),
2.80/0.72	  inference(not_proxy_clausification,[],[f86])).
2.80/0.72	thf(f90,plain,(
2.80/0.72	  spl0_1 | spl0_2),
2.80/0.72	  inference(avatar_split_clause,[],[f83,f88,f85])).
2.80/0.72	thf(f83,plain,(
2.80/0.72	  ((~ (c @ spain @ paris)) = $false) | ((~ (c @ catalunya @ paris)) = $false)),
2.80/0.72	  inference(binary_proxy_clausification,[],[f80])).
2.80/0.72	thf(f80,plain,(
2.80/0.72	  (((~ (c @ catalunya @ paris)) & (~ (c @ spain @ paris))) = $false)),
2.80/0.72	  inference(not_proxy_clausification,[],[f75])).
2.80/0.72	thf(f75,plain,(
2.80/0.72	  ((~ ((~ (c @ catalunya @ paris)) & (~ (c @ spain @ paris)))) = $true)),
2.80/0.72	  inference(beta_eta_normalization,[],[f72])).
2.80/0.72	thf(f72,plain,(
2.80/0.72	  ((~ (((^[Y0 : reg]: ((^[Y1 : reg]: (~ (c @ Y0 @ Y1))))) @ catalunya @ paris) & ((^[Y0 : reg]: ((^[Y1 : reg]: (~ (c @ Y0 @ Y1))))) @ spain @ paris))) = $true)),
2.80/0.72	  inference(definition_unfolding,[],[f57,f61,f61])).
2.80/0.72	thf(f61,plain,(
2.80/0.72	  (dc = (^[Y0 : reg]: ((^[Y1 : reg]: (~ (c @ Y0 @ Y1))))))),
2.80/0.72	  inference(cnf_transformation,[],[f23])).
2.80/0.72	thf(f23,plain,(
2.80/0.72	  (dc = (^[Y0 : reg]: ((^[Y1 : reg]: (~ (c @ Y0 @ Y1))))))),
2.80/0.72	  inference(fool_elimination,[],[f22])).
2.80/0.72	thf(f22,plain,(
2.80/0.72	  ((^[X0 : reg, X1 : reg] : (~(c @ X0 @ X1))) = dc)),
2.80/0.72	  inference(rectify,[],[f1])).
2.80/0.72	thf(f1,axiom,(
2.80/0.72	  ((^[X0 : reg, X1 : reg] : (~(c @ X0 @ X1))) = dc)),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',dc)).
2.80/0.72	thf(f57,plain,(
2.80/0.72	  ((~ ((dc @ catalunya @ paris) & (dc @ spain @ paris))) = $true)),
2.80/0.72	  inference(cnf_transformation,[],[f45])).
2.80/0.72	thf(f45,plain,(
2.80/0.72	  ((~ ((dc @ catalunya @ paris) & (dc @ spain @ paris))) = $true)),
2.80/0.72	  inference(fool_elimination,[],[f44])).
2.80/0.72	thf(f44,plain,(
2.80/0.72	  ~((dc @ spain @ paris) & (dc @ catalunya @ paris))),
2.80/0.72	  inference(rectify,[],[f15])).
2.80/0.72	thf(f15,negated_conjecture,(
2.80/0.72	  ~((dc @ spain @ paris) & (dc @ catalunya @ paris))),
2.80/0.72	  inference(negated_conjecture,[],[f14])).
2.80/0.72	thf(f14,conjecture,(
2.80/0.72	  (dc @ spain @ paris) & (dc @ catalunya @ paris)),
2.80/0.72	  file('/export/starexec/sandbox/benchmark/theBenchmark.p',con)).
2.80/0.72	% SZS output end Proof for theBenchmark
2.80/0.72	% (22592)------------------------------
2.80/0.72	% (22592)Version: Vampire 4.7 (commit 934bd2fae on 2023-06-16 16:02:25 +0100)
2.80/0.72	% (22592)Termination reason: Refutation
2.80/0.72	
2.80/0.72	% (22592)Memory used [KB]: 6524
2.80/0.72	% (22592)Time elapsed: 0.252 s
2.80/0.72	% (22592)Instructions burned: 402 (million)
2.80/0.72	% (22592)------------------------------
2.80/0.72	% (22592)------------------------------
2.80/0.72	% (22559)Success in time 0.357 s
2.80/0.72	% Vampire---4.8 exiting
2.80/0.72	EOF