0.08/0.12	% Problem    : theBenchmark.p : TPTP v0.0.0. Released v0.0.0.
0.08/0.13	% Command    : do_CVC4 %s
0.13/0.33	% Computer   : n005.cluster.edu
0.13/0.33	% Model      : x86_64 x86_64
0.13/0.33	% CPU        : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
0.13/0.33	% Memory     : 8042.1875MB
0.13/0.33	% OS         : Linux 3.10.0-693.el7.x86_64
0.13/0.33	% CPULimit   : 180
0.13/0.33	% DateTime   : Thu Aug 29 11:07:48 EDT 2019
0.13/0.34	% CPUTime    : 
0.18/0.46	%----Proving TH0_NAR
0.18/0.47	------- cvc4-thf casc 27 : /export/starexec/sandbox2/benchmark/theBenchmark.p at 180...
0.18/0.47	--- Run --uf-ho --ho-elim --no-ho-elim-store-ax --full-saturate-quant at 20...
0.44/0.62	% SZS status Theorem for theBenchmark
0.44/0.62	% SZS output start Proof for theBenchmark
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_666 |u_(-> a a Bool)|) (BOUND_VARIABLE_672 |u_(-> a a Bool)|) (Xx a) (Xy a) (BOUND_VARIABLE_658 |u_(-> a Bool)|)) (or (not (forall ((BOUND_VARIABLE_695 |u_(-> a Bool)|)) (or (not (forall ((Xw a)) (or (and (not (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 BOUND_VARIABLE_666 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 BOUND_VARIABLE_666 Xx) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 Xw)) )) (not (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 BOUND_VARIABLE_672 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 BOUND_VARIABLE_672 Xx) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 Xw)) ))) (ho_1 BOUND_VARIABLE_695 Xw)) )) (not (forall ((Xu a) (Xv a)) (or (and (not (forall ((BOUND_VARIABLE_722 |u_(-> a Bool)|)) (or (not (forall ((Xw a)) (or (not (ho_1 (ho_2 BOUND_VARIABLE_672 Xu) Xw)) (ho_1 BOUND_VARIABLE_722 Xw)) )) (not (forall ((Xu0 a) (Xv0 a)) (or (not (ho_1 (ho_2 BOUND_VARIABLE_672 Xu0) Xv0)) (not (ho_1 BOUND_VARIABLE_722 Xu0)) (ho_1 BOUND_VARIABLE_722 Xv0)) )) (ho_1 BOUND_VARIABLE_722 Xv)) )) (not (forall ((BOUND_VARIABLE_700 |u_(-> a Bool)|)) (or (not (forall ((Xw a)) (or (not (ho_1 (ho_2 BOUND_VARIABLE_666 Xu) Xw)) (ho_1 BOUND_VARIABLE_700 Xw)) )) (not (forall ((Xu0 a) (Xv0 a)) (or (not (ho_1 BOUND_VARIABLE_700 Xu0)) (not (ho_1 (ho_2 BOUND_VARIABLE_666 Xu0) Xv0)) (ho_1 BOUND_VARIABLE_700 Xv0)) )) (ho_1 BOUND_VARIABLE_700 Xv)) ))) (not (ho_1 BOUND_VARIABLE_695 Xu)) (ho_1 BOUND_VARIABLE_695 Xv)) )) (ho_1 BOUND_VARIABLE_695 Xy)) )) (not (forall ((Xu a) (Xv a)) (or (and (not (ho_1 (ho_2 BOUND_VARIABLE_672 Xu) Xv)) (not (ho_1 (ho_2 BOUND_VARIABLE_666 Xu) Xv))) (not (ho_1 BOUND_VARIABLE_658 Xu)) (ho_1 BOUND_VARIABLE_658 Xv)) )) (not (forall ((Xw a)) (or (and (not (ho_1 (ho_2 BOUND_VARIABLE_672 Xx) Xw)) (not (ho_1 (ho_2 BOUND_VARIABLE_666 Xx) Xw))) (ho_1 BOUND_VARIABLE_658 Xw)) )) (ho_1 BOUND_VARIABLE_658 Xy)) )
0.44/0.62	  ( skv_3 skv_4 skv_5 skv_6 skv_7 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (and (not (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 Xw)) )) (not (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 Xw)) ))) (ho_1 skv_7 Xw)) )
0.44/0.62	  ( skv_8 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (and (not (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 Xw)) )) (not (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 Xw)) ))) (ho_1 (ho_2 skv_3 skv_5) Xw)) )
0.44/0.62	  ( skv_9 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (and (not (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 Xw)) )) (not (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 Xw)) ))) (ho_1 (ho_2 skv_4 skv_5) Xw)) )
0.44/0.62	  ( skv_10 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_7 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_7 Xv)) )
0.44/0.62	  ( skv_11 skv_12 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_7 Xw0)) )
0.44/0.62	  ( skv_13 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_8)) )
0.44/0.62	  ( skv_14 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xu a) (Xv a)) (let ((_let_0 (ho_2 skv_4 skv_5))) (or (not (ho_1 _let_0 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 _let_0 Xv))) )
0.44/0.62	  ( skv_15 skv_16 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xu a) (Xv a)) (let ((_let_0 (ho_2 skv_3 skv_5))) (or (not (ho_1 _let_0 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 _let_0 Xv))) )
0.44/0.62	  ( skv_17 skv_18 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_7 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_7 Xv)) )
0.44/0.62	  ( skv_19 skv_20 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xu a) (Xv a)) (let ((_let_0 (ho_2 skv_3 skv_5))) (or (not (ho_1 _let_0 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 _let_0 Xv))) )
0.44/0.62	  ( skv_21 skv_22 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_14 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_14 Xv)) )
0.44/0.62	  ( skv_23 skv_24 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xu a) (Xv a)) (let ((_let_0 (ho_2 skv_4 skv_5))) (or (not (ho_1 _let_0 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 _let_0 Xv))) )
0.44/0.62	  ( skv_25 skv_26 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_7 Xw0)) )
0.44/0.62	  ( skv_27 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xu a) (Xv a)) (or (and (not (forall ((BOUND_VARIABLE_722 |u_(-> a Bool)|)) (or (not (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_4 Xu) Xw)) (ho_1 BOUND_VARIABLE_722 Xw)) )) (not (forall ((Xu0 a) (Xv0 a)) (or (not (ho_1 (ho_2 skv_4 Xu0) Xv0)) (not (ho_1 BOUND_VARIABLE_722 Xu0)) (ho_1 BOUND_VARIABLE_722 Xv0)) )) (ho_1 BOUND_VARIABLE_722 Xv)) )) (not (forall ((BOUND_VARIABLE_700 |u_(-> a Bool)|)) (or (not (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_3 Xu) Xw)) (ho_1 BOUND_VARIABLE_700 Xw)) )) (not (forall ((Xu0 a) (Xv0 a)) (or (not (ho_1 BOUND_VARIABLE_700 Xu0)) (not (ho_1 (ho_2 skv_3 Xu0) Xv0)) (ho_1 BOUND_VARIABLE_700 Xv0)) )) (ho_1 BOUND_VARIABLE_700 Xv)) ))) (not (ho_1 skv_7 Xu)) (ho_1 skv_7 Xv)) )
0.44/0.62	  ( skv_28 skv_29 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_8)) )
0.44/0.62	  ( skv_30 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_6)) )
0.44/0.62	  ( skv_31 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_6)) )
0.44/0.62	  ( skv_32 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_29)) )
0.44/0.62	  ( skv_33 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_29)) )
0.44/0.62	  ( skv_34 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_4 skv_28) Xw)) (ho_1 skv_7 Xw)) )
0.44/0.62	  ( skv_35 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_5)) )
0.44/0.62	  ( skv_36 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_5)) )
0.44/0.62	  ( skv_37 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_11)) )
0.44/0.62	  ( skv_38 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_11)) )
0.44/0.62	  ( skv_39 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_12)) )
0.44/0.62	  ( skv_40 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_12)) )
0.44/0.62	  ( skv_41 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_13)) )
0.44/0.62	  ( skv_42 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_13)) )
0.44/0.62	  ( skv_43 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_19)) )
0.44/0.62	  ( skv_44 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_19)) )
0.44/0.62	  ( skv_45 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_20)) )
0.44/0.62	  ( skv_46 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_20)) )
0.44/0.62	  ( skv_47 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_27)) )
0.44/0.62	  ( skv_48 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_27)) )
0.44/0.62	  ( skv_49 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_722 |u_(-> a Bool)|)) (or (not (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_4 skv_28) Xw)) (ho_1 BOUND_VARIABLE_722 Xw)) )) (not (forall ((Xu0 a) (Xv0 a)) (or (not (ho_1 (ho_2 skv_4 Xu0) Xv0)) (not (ho_1 BOUND_VARIABLE_722 Xu0)) (ho_1 BOUND_VARIABLE_722 Xv0)) )) (ho_1 BOUND_VARIABLE_722 skv_29)) )
0.44/0.62	  ( skv_50 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_3 skv_28) Xw)) (ho_1 skv_7 Xw)) )
0.44/0.62	  ( skv_51 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_3 skv_28) Xw)) (ho_1 skv_33 Xw)) )
0.44/0.62	  ( skv_52 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_15)) )
0.44/0.62	  ( skv_53 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_15)) )
0.44/0.62	  ( skv_54 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_21)) )
0.44/0.62	  ( skv_55 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_21)) )
0.44/0.62	  ( skv_56 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_23)) )
0.44/0.62	  ( skv_57 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_23)) )
0.44/0.62	  ( skv_58 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (and (not (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 Xw)) )) (not (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 Xw)) ))) (ho_1 skv_31 Xw)) )
0.44/0.62	  ( skv_59 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (and (not (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 Xw)) )) (not (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 Xw)) ))) (ho_1 skv_32 Xw)) )
0.44/0.62	  ( skv_60 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_22)) )
0.44/0.62	  ( skv_61 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_22)) )
0.44/0.62	  ( skv_62 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_16)) )
0.44/0.62	  ( skv_63 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_16)) )
0.44/0.62	  ( skv_64 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_24)) )
0.44/0.62	  ( skv_65 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_24)) )
0.44/0.62	  ( skv_66 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_35)) )
0.44/0.62	  ( skv_67 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_35)) )
0.44/0.62	  ( skv_68 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_3 skv_28) Xw)) (ho_1 (ho_2 skv_3 skv_5) Xw)) )
0.44/0.62	  ( skv_69 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_3 skv_28) Xw)) (ho_1 (ho_2 skv_4 skv_5) Xw)) )
0.44/0.62	  ( skv_70 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_3 skv_28) Xw)) (ho_1 skv_34 Xw)) )
0.44/0.62	  ( skv_71 )
0.44/0.62	)
0.44/0.62	(skolem (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_3 skv_28) Xw)) (ho_1 skv_50 Xw)) )
0.44/0.62	  ( skv_72 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((BOUND_VARIABLE_695 |u_(-> a Bool)|)) (or (not (forall ((Xw a)) (or (and (not (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 Xw)) )) (not (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 Xw)) ))) (ho_1 BOUND_VARIABLE_695 Xw)) )) (not (forall ((Xu a) (Xv a)) (or (and (not (forall ((BOUND_VARIABLE_722 |u_(-> a Bool)|)) (or (not (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_4 Xu) Xw)) (ho_1 BOUND_VARIABLE_722 Xw)) )) (not (forall ((Xu0 a) (Xv0 a)) (or (not (ho_1 (ho_2 skv_4 Xu0) Xv0)) (not (ho_1 BOUND_VARIABLE_722 Xu0)) (ho_1 BOUND_VARIABLE_722 Xv0)) )) (ho_1 BOUND_VARIABLE_722 Xv)) )) (not (forall ((BOUND_VARIABLE_700 |u_(-> a Bool)|)) (or (not (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_3 Xu) Xw)) (ho_1 BOUND_VARIABLE_700 Xw)) )) (not (forall ((Xu0 a) (Xv0 a)) (or (not (ho_1 BOUND_VARIABLE_700 Xu0)) (not (ho_1 (ho_2 skv_3 Xu0) Xv0)) (ho_1 BOUND_VARIABLE_700 Xv0)) )) (ho_1 BOUND_VARIABLE_700 Xv)) ))) (not (ho_1 BOUND_VARIABLE_695 Xu)) (ho_1 BOUND_VARIABLE_695 Xv)) )) (ho_1 BOUND_VARIABLE_695 skv_6)) )
0.44/0.62	  ( skv_7 )
0.44/0.62	  ( (ho_2 skv_3 skv_5) )
0.44/0.62	  ( (ho_2 skv_4 skv_5) )
0.44/0.62	  ( skv_31 )
0.44/0.62	  ( skv_32 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (and (not (ho_1 (ho_2 skv_4 Xu) Xv)) (not (ho_1 (ho_2 skv_3 Xu) Xv))) (not (ho_1 skv_7 Xu)) (ho_1 skv_7 Xv)) )
0.44/0.62	  ( skv_5, skv_9 )
0.44/0.62	  ( skv_5, skv_10 )
0.44/0.62	  ( skv_5, skv_15 )
0.44/0.62	  ( skv_5, skv_16 )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_18 )
0.44/0.62	  ( skv_5, skv_21 )
0.44/0.62	  ( skv_5, skv_22 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_5, skv_26 )
0.44/0.62	  ( skv_11, skv_12 )
0.44/0.62	  ( skv_15, skv_16 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_19, skv_20 )
0.44/0.62	  ( skv_21, skv_22 )
0.44/0.62	  ( skv_23, skv_24 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	  ( skv_28, skv_35 )
0.44/0.62	  ( skv_28, skv_51 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw a)) (or (and (not (ho_1 (ho_2 skv_4 skv_5) Xw)) (not (ho_1 (ho_2 skv_3 skv_5) Xw))) (ho_1 skv_7 Xw)) )
0.44/0.62	  ( skv_5 )
0.44/0.62	  ( skv_6 )
0.44/0.62	  ( skv_8 )
0.44/0.62	  ( skv_9 )
0.44/0.62	  ( skv_10 )
0.44/0.62	  ( skv_11 )
0.44/0.62	  ( skv_12 )
0.44/0.62	  ( skv_13 )
0.44/0.62	  ( skv_15 )
0.44/0.62	  ( skv_16 )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_18 )
0.44/0.62	  ( skv_19 )
0.44/0.62	  ( skv_20 )
0.44/0.62	  ( skv_21 )
0.44/0.62	  ( skv_22 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	  ( skv_26 )
0.44/0.62	  ( skv_27 )
0.44/0.62	  ( skv_29 )
0.44/0.62	  ( skv_35 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw a)) (or (and (not (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 Xw)) )) (not (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 Xw)) ))) (ho_1 skv_7 Xw)) )
0.44/0.62	  ( skv_5 )
0.44/0.62	  ( skv_6 )
0.44/0.62	  ( skv_8 )
0.44/0.62	  ( skv_9 )
0.44/0.62	  ( skv_10 )
0.44/0.62	  ( skv_11 )
0.44/0.62	  ( skv_12 )
0.44/0.62	  ( skv_13 )
0.44/0.62	  ( skv_15 )
0.44/0.62	  ( skv_16 )
0.44/0.62	  ( skv_19 )
0.44/0.62	  ( skv_20 )
0.44/0.62	  ( skv_21 )
0.44/0.62	  ( skv_22 )
0.44/0.62	  ( skv_23 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_27 )
0.44/0.62	  ( skv_29 )
0.44/0.62	  ( skv_35 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_8)) )
0.44/0.62	  ( skv_7 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((BOUND_VARIABLE_749 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_749 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 BOUND_VARIABLE_749 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_749 Xw0)) )) (ho_1 BOUND_VARIABLE_749 skv_8)) )
0.44/0.62	  ( skv_7 )
0.44/0.62	  ( (ho_2 skv_3 skv_5) )
0.44/0.62	  ( (ho_2 skv_4 skv_5) )
0.44/0.62	  ( skv_14 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_7 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_7 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_21 )
0.44/0.62	  ( skv_5, skv_22 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_7 Xw0)) )
0.44/0.62	  ( skv_5 )
0.44/0.62	  ( skv_11 )
0.44/0.62	  ( skv_12 )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_19 )
0.44/0.62	  ( skv_20 )
0.44/0.62	  ( skv_21 )
0.44/0.62	  ( skv_22 )
0.44/0.62	  ( skv_29 )
0.44/0.62	  ( skv_35 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_9)) )
0.44/0.62	  ( skv_7 )
0.44/0.62	  ( (ho_2 skv_3 skv_5) )
0.44/0.62	  ( (ho_2 skv_4 skv_5) )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((BOUND_VARIABLE_770 |u_(-> a Bool)|)) (or (not (forall ((Xu a) (Xv a)) (or (not (ho_1 BOUND_VARIABLE_770 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 BOUND_VARIABLE_770 Xv)) )) (not (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 BOUND_VARIABLE_770 Xw0)) )) (ho_1 BOUND_VARIABLE_770 skv_10)) )
0.44/0.62	  ( skv_7 )
0.44/0.62	  ( (ho_2 skv_3 skv_5) )
0.44/0.62	  ( (ho_2 skv_4 skv_5) )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_14 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_14 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_21 )
0.44/0.62	  ( skv_5, skv_22 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_14 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_21 )
0.44/0.62	  ( skv_22 )
0.44/0.62	  ( skv_23 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_7 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_7 Xv)) )
0.44/0.62	  ( skv_5, skv_15 )
0.44/0.62	  ( skv_5, skv_16 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_15, skv_16 )
0.44/0.62	  ( skv_21, skv_22 )
0.44/0.62	  ( skv_23, skv_24 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_7 Xw0)) )
0.44/0.62	  ( skv_5 )
0.44/0.62	  ( skv_15 )
0.44/0.62	  ( skv_16 )
0.44/0.62	  ( skv_19 )
0.44/0.62	  ( skv_20 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	  ( skv_29 )
0.44/0.62	  ( skv_35 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (let ((_let_0 (ho_2 skv_3 skv_5))) (or (not (ho_1 _let_0 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 _let_0 Xv))) )
0.44/0.62	  ( skv_5, skv_15 )
0.44/0.62	  ( skv_5, skv_16 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_15, skv_16 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_21, skv_22 )
0.44/0.62	  ( skv_23, skv_24 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (let ((_let_0 (ho_2 skv_4 skv_5))) (or (not (ho_1 _let_0 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 _let_0 Xv))) )
0.44/0.62	  ( skv_5, skv_15 )
0.44/0.62	  ( skv_5, skv_16 )
0.44/0.62	  ( skv_15, skv_16 )
0.44/0.62	  ( skv_21, skv_22 )
0.44/0.62	  ( skv_23, skv_24 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_14 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_14 Xv)) )
0.44/0.62	  ( skv_5, skv_15 )
0.44/0.62	  ( skv_5, skv_16 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_15, skv_16 )
0.44/0.62	  ( skv_21, skv_22 )
0.44/0.62	  ( skv_23, skv_24 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((BOUND_VARIABLE_722 |u_(-> a Bool)|)) (or (not (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_4 skv_28) Xw)) (ho_1 BOUND_VARIABLE_722 Xw)) )) (not (forall ((Xu0 a) (Xv0 a)) (or (not (ho_1 (ho_2 skv_4 Xu0) Xv0)) (not (ho_1 BOUND_VARIABLE_722 Xu0)) (ho_1 BOUND_VARIABLE_722 Xv0)) )) (ho_1 BOUND_VARIABLE_722 skv_29)) )
0.44/0.62	  ( skv_7 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((BOUND_VARIABLE_700 |u_(-> a Bool)|)) (or (not (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_3 skv_28) Xw)) (ho_1 BOUND_VARIABLE_700 Xw)) )) (not (forall ((Xu0 a) (Xv0 a)) (or (not (ho_1 BOUND_VARIABLE_700 Xu0)) (not (ho_1 (ho_2 skv_3 Xu0) Xv0)) (ho_1 BOUND_VARIABLE_700 Xv0)) )) (ho_1 BOUND_VARIABLE_700 skv_29)) )
0.44/0.62	  ( skv_7 )
0.44/0.62	  ( (ho_2 skv_3 skv_5) )
0.44/0.62	  ( (ho_2 skv_4 skv_5) )
0.44/0.62	  ( skv_33 )
0.44/0.62	  ( skv_34 )
0.44/0.62	  ( skv_50 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_30 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_30 Xv)) )
0.44/0.62	  ( skv_5, skv_15 )
0.44/0.62	  ( skv_5, skv_16 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_15, skv_16 )
0.44/0.62	  ( skv_21, skv_22 )
0.44/0.62	  ( skv_23, skv_24 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_30 Xw0)) )
0.44/0.62	  ( skv_15 )
0.44/0.62	  ( skv_16 )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_4 skv_28) Xw)) (ho_1 skv_7 Xw)) )
0.44/0.62	  ( skv_5 )
0.44/0.62	  ( skv_6 )
0.44/0.62	  ( skv_8 )
0.44/0.62	  ( skv_11 )
0.44/0.62	  ( skv_12 )
0.44/0.62	  ( skv_13 )
0.44/0.62	  ( skv_15 )
0.44/0.62	  ( skv_16 )
0.44/0.62	  ( skv_19 )
0.44/0.62	  ( skv_20 )
0.44/0.62	  ( skv_21 )
0.44/0.62	  ( skv_22 )
0.44/0.62	  ( skv_23 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_27 )
0.44/0.62	  ( skv_29 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_31 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_31 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_31 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_32 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_32 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_24 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_32 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_33 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_33 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_33 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_34 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_34 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_24 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_34 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_36 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_36 Xv)) )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_36 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_37 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_38 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_38 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_38 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_39 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_39 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_24 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_39 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_40 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_40 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_40 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_41 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_41 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_24 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_41 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_42 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_42 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_42 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_43 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_43 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_24 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_43 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_44 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_44 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_44 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_45 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_45 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_24 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_45 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_46 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_46 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_46 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_47 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_47 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_24 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_47 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_48 Xu)) (not (ho_1 (ho_2 skv_3 Xu) Xv)) (ho_1 skv_48 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	  ( skv_17, skv_18 )
0.44/0.62	  ( skv_25, skv_26 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_3 skv_5) Xw0)) (ho_1 skv_48 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu a) (Xv a)) (or (not (ho_1 skv_49 Xu)) (not (ho_1 (ho_2 skv_4 Xu) Xv)) (ho_1 skv_49 Xv)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_24 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw0 a)) (or (not (ho_1 (ho_2 skv_4 skv_5) Xw0)) (ho_1 skv_49 Xw0)) )
0.44/0.62	  ( skv_17 )
0.44/0.62	  ( skv_24 )
0.44/0.62	  ( skv_25 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xw a)) (or (not (ho_1 (ho_2 skv_4 skv_28) Xw)) (ho_1 skv_50 Xw)) )
0.44/0.62	  ( skv_29 )
0.44/0.62	)
0.44/0.62	(instantiation (forall ((Xu0 a) (Xv0 a)) (or (not (ho_1 (ho_2 skv_4 Xu0) Xv0)) (not (ho_1 skv_50 Xu0)) (ho_1 skv_50 Xv0)) )
0.44/0.62	  ( skv_5, skv_17 )
0.44/0.62	  ( skv_5, skv_24 )
0.44/0.62	  ( skv_5, skv_25 )
0.44/0.62	)
0.44/0.62	% SZS output end Proof for theBenchmark
0.44/0.63	EOF