0.06/0.12 % Problem : theBenchmark.p : TPTP v0.0.0. Released v0.0.0. 0.06/0.12 % Command : do_CVC4 %s 0.13/0.33 % Computer : n023.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 12:51:07 EDT 2019 0.13/0.33 % CPUTime : 0.19/0.46 %----Proving TH0_NAR 0.19/0.46 ------- cvc4-thf casc 27 : /export/starexec/sandbox2/benchmark/theBenchmark.p at 180... 0.19/0.46 --- Run --uf-ho --ho-elim --no-ho-elim-store-ax --full-saturate-quant at 20... 20.36/20.55 --- Run --uf-ho --ho-elim --full-saturate-quant at 20... 40.45/40.63 --- Run --uf-ho --ho-elim --finite-model-find --uf-ss=no-minimal at 5... 41.35/41.57 % SZS status Theorem for theBenchmark 41.35/41.57 % SZS output start Proof for theBenchmark 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_3089 $$unsorted) (BOUND_VARIABLE_3093 $$unsorted)) (not (ho_4 (ho_6 k_5 BOUND_VARIABLE_3089) BOUND_VARIABLE_3093)) ) 41.35/41.57 ( skv_8 skv_9 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_2642 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2642))) (or (not (ho_3 _let_0 france)) (ho_3 _let_0 paris))) ) 41.35/41.57 ( skv_10 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_2969 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2969))) (or (not (ho_3 _let_0 catalunya)) (not (forall ((BOUND_VARIABLE_2993 reg)) (or (not (forall ((BOUND_VARIABLE_3002 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_3002))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2993)) (ho_3 _let_0 BOUND_VARIABLE_2969))) )) (not (forall ((BOUND_VARIABLE_2994 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2994))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2993)) (ho_3 _let_0 catalunya))) ))) )) (not (ho_3 _let_0 spain)) (not (forall ((BOUND_VARIABLE_2970 reg)) (or (not (forall ((BOUND_VARIABLE_2979 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2979))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2970)) (ho_3 _let_0 BOUND_VARIABLE_2969))) )) (not (forall ((BOUND_VARIABLE_2971 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2971))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2970)) (ho_3 _let_0 spain))) ))) )))) ) 41.35/41.57 ( skv_11 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_2954 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2954))) (or (not (ho_3 _let_0 spain)) (ho_3 _let_0 catalunya))) ) 41.35/41.57 ( skv_12 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> $$unsorted $$unsorted Bool)|)) (not (forall ((ii $$unsorted)) (= (ho_6 v ii) (ite (= ii skv_8) (ho_6 k_5 skv_8) (ho_6 k_5 ii))) )) ) 41.35/41.57 ( skv_15 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> $$unsorted Bool)|)) (not (forall ((ii $$unsorted)) (= (ho_4 v ii) (ite (= ii skv_8) false (ho_4 (ho_6 k_5 skv_8) ii))) )) ) 41.35/41.57 ( skv_16 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> $$unsorted Bool)|)) (not (forall ((ii $$unsorted)) (= (ho_4 v ii) (ite (= ii skv_8) true (ho_4 (ho_6 k_5 skv_8) ii))) )) ) 41.35/41.57 ( skv_17 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_18 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_19 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_20 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_21 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_22 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_23 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.57 ( skv_24 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.57 ( skv_25 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.57 ( skv_26 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.57 ( skv_27 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.57 ( skv_28 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.57 ( skv_29 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 spain) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_30 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 spain) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_31 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 spain) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_32 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_11) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_33 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_11) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_34 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_11) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_35 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_3002 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_3002))) (or (not (ho_3 _let_0 catalunya)) (ho_3 _let_0 skv_11))) ) 41.35/41.57 ( skv_36 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_2994 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2994))) (or (not (ho_3 _let_0 skv_11)) (ho_3 _let_0 catalunya))) ) 41.35/41.57 ( skv_37 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_2971 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2971))) (or (not (ho_3 _let_0 skv_11)) (ho_3 _let_0 spain))) ) 41.35/41.57 ( skv_38 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_2308 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2308))) (or (not (ho_3 _let_0 catalunya)) (ho_3 _let_0 france))) ) 41.35/41.57 ( skv_39 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_2971 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2971))) (or (not (ho_3 _let_0 france)) (ho_3 _let_0 spain))) ) 41.35/41.57 ( skv_40 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 spain) z) (ho_3 (ho_2 k_1 skv_11) z)) ) 41.35/41.57 ( skv_41 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_2681 reg)) (or (not (forall ((BOUND_VARIABLE_2690 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2690))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 catalunya))) )) (not (forall ((BOUND_VARIABLE_2682 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2682))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 paris))) ))) ) 41.35/41.57 ( skv_42 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_2681 reg)) (or (not (forall ((BOUND_VARIABLE_2690 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2690))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 skv_11))) )) (not (forall ((BOUND_VARIABLE_2682 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2682))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 paris))) ))) ) 41.35/41.57 ( skv_43 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_3002 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_3002))) (or (not (ho_3 _let_0 france)) (ho_3 _let_0 skv_11))) ) 41.35/41.57 ( skv_44 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_2994 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2994))) (or (not (ho_3 _let_0 france)) (ho_3 _let_0 catalunya))) ) 41.35/41.57 ( skv_45 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((BOUND_VARIABLE_2307 reg)) (or (not (forall ((BOUND_VARIABLE_2316 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2316))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2307)) (ho_3 _let_0 spain))) )) (not (forall ((BOUND_VARIABLE_2308 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2308))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2307)) (ho_3 _let_0 france))) ))) ) 41.35/41.57 ( skv_46 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 (ho_2 k_1 spain) z)) ) 41.35/41.57 ( skv_75 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 (ho_2 k_1 skv_36) z)) ) 41.35/41.57 ( skv_76 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_77 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_78 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_79 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_80 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_81 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_82 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_83 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_84 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_85 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_86 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_87 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.57 ( skv_88 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_89 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_90 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_91 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_92 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_93 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.57 ( skv_94 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_95 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_96 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_97 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_98 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_99 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_100 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_101 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_102 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_103 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_104 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_105 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.57 ( skv_106 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_107 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_108 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_109 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_110 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_111 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_112 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_113 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_114 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_115 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_116 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_117 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.57 ( skv_118 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_10) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_119 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_10) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_120 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_10) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_121 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_10) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_122 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_10) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_123 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_10) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_124 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 spain) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_125 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 spain) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_126 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 spain) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_127 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_36) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_128 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_36) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_129 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_36) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_130 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_36) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_131 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_36) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_132 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_36) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_133 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_38) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_134 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_38) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_135 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_38) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_136 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_38) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_137 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_38) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_138 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_38) (ho_2 k_1 ii))) )) ) 41.35/41.57 ( skv_139 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 (ho_2 k_1 skv_38) z)) ) 41.35/41.57 ( skv_140 ) 41.35/41.57 ) 41.35/41.57 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_36) z) (ho_3 (ho_2 k_1 skv_38) z)) ) 41.35/41.57 ( skv_141 ) 41.35/41.57 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 spain) z) (ho_3 (ho_2 k_1 skv_36) z)) ) 41.35/41.58 ( skv_142 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 spain) z) (ho_3 (ho_2 k_1 skv_38) z)) ) 41.35/41.58 ( skv_143 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((BOUND_VARIABLE_2681 reg)) (or (not (forall ((BOUND_VARIABLE_2690 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2690))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 france))) )) (not (forall ((BOUND_VARIABLE_2682 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2682))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 paris))) ))) ) 41.35/41.58 ( skv_144 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((BOUND_VARIABLE_2681 reg)) (or (not (forall ((BOUND_VARIABLE_2690 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2690))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 skv_36))) )) (not (forall ((BOUND_VARIABLE_2682 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2682))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 paris))) ))) ) 41.35/41.58 ( skv_145 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((BOUND_VARIABLE_3002 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_3002))) (or (not (ho_3 _let_0 skv_38)) (ho_3 _let_0 skv_11))) ) 41.35/41.58 ( skv_146 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((BOUND_VARIABLE_3002 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_3002))) (or (not (ho_3 _let_0 skv_10)) (ho_3 _let_0 skv_11))) ) 41.35/41.58 ( skv_147 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((BOUND_VARIABLE_3002 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_3002))) (or (not (ho_3 _let_0 skv_36)) (ho_3 _let_0 skv_11))) ) 41.35/41.58 ( skv_148 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> $$unsorted $$unsorted Bool)|)) (not (forall ((ii $$unsorted)) (= (ho_6 v ii) (ite (= ii skv_8) (ho_6 k_5 skv_8) (ho_6 k_7 ii))) )) ) 41.35/41.58 ( skv_291 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> $$unsorted $$unsorted Bool)|)) (not (forall ((ii $$unsorted)) (= (ho_6 v ii) (ite (= ii skv_8) skv_16 (ho_6 k_7 ii))) )) ) 41.35/41.58 ( skv_292 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> $$unsorted $$unsorted Bool)|)) (not (forall ((ii $$unsorted)) (= (ho_6 v ii) (ite (= ii skv_8) skv_16 (ho_6 k_5 ii))) )) ) 41.35/41.58 ( skv_293 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> $$unsorted Bool)|)) (not (forall ((ii $$unsorted)) (= (ho_4 v ii) (ite (= ii skv_8) false (ho_4 skv_16 ii))) )) ) 41.35/41.58 ( skv_294 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> $$unsorted Bool)|)) (not (forall ((ii $$unsorted)) (= (ho_4 v ii) (ite (= ii skv_8) true (ho_4 skv_16 ii))) )) ) 41.35/41.58 ( skv_295 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_18 z) (ho_3 skv_19 z)) ) 41.35/41.58 ( skv_296 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_18 z) (ho_3 skv_20 z)) ) 41.35/41.58 ( skv_297 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_18 z) (ho_3 skv_25 z)) ) 41.35/41.58 ( skv_298 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_18 z) (ho_3 skv_26 z)) ) 41.35/41.58 ( skv_299 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_18 z) (ho_3 (ho_2 skv_31 catalunya) z)) ) 41.35/41.58 ( skv_300 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_19 z) (ho_3 skv_20 z)) ) 41.35/41.58 ( skv_301 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_19 z) (ho_3 skv_24 z)) ) 41.35/41.58 ( skv_302 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_19 z) (ho_3 skv_26 z)) ) 41.35/41.58 ( skv_303 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_19 z) (ho_3 (ho_2 skv_31 catalunya) z)) ) 41.35/41.58 ( skv_304 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_20 z) (ho_3 (ho_2 skv_31 catalunya) z)) ) 41.35/41.58 ( skv_305 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_24 z) (ho_3 skv_25 z)) ) 41.35/41.58 ( skv_306 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_24 z) (ho_3 (ho_2 skv_31 catalunya) z)) ) 41.35/41.58 ( skv_307 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_25 z) (ho_3 (ho_2 skv_31 catalunya) z)) ) 41.35/41.58 ( skv_308 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_3 skv_26 z) (ho_3 (ho_2 skv_31 catalunya) z)) ) 41.35/41.58 ( skv_309 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.58 ( skv_310 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.58 ( skv_311 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.58 ( skv_312 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 (ho_2 k_1 skv_10) ii))) )) ) 41.35/41.58 ( skv_313 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_314 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_315 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_316 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_317 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_318 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_319 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_320 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_321 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_322 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_323 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_324 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_325 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_326 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_327 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_328 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 skv_18 ii))) )) ) 41.35/41.58 ( skv_329 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_330 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_331 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_332 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_333 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_334 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_335 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_336 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_337 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_338 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_339 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_340 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_341 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_342 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_343 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_344 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 skv_19 ii))) )) ) 41.35/41.58 ( skv_345 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_346 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_347 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_348 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_349 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_350 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_351 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_352 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_353 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_354 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_355 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_356 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_357 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_358 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_359 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_360 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 skv_20 ii))) )) ) 41.35/41.58 ( skv_361 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.58 ( skv_362 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.58 ( skv_363 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.58 ( skv_364 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 (ho_2 k_1 spain) ii))) )) ) 41.35/41.58 ( skv_365 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_366 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_367 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_368 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_369 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_370 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_371 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_372 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_373 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_374 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_375 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_376 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_377 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_378 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_379 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_380 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 skv_24 ii))) )) ) 41.35/41.58 ( skv_381 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_382 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_383 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_384 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_385 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_386 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_387 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_388 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_389 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_390 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_391 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_392 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_393 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_394 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_395 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_396 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 skv_25 ii))) )) ) 41.35/41.58 ( skv_397 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_398 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_399 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_400 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_401 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_402 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_403 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_404 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_405 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_406 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_407 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_408 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_409 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_410 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_411 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_412 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 skv_26 ii))) )) ) 41.35/41.58 ( skv_413 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.58 ( skv_414 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.58 ( skv_415 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.58 ( skv_416 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.58 ( skv_417 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.58 ( skv_418 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.58 ( skv_419 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.58 ( skv_420 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.58 ( skv_421 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.58 ( skv_422 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 (ho_2 k_1 skv_11) ii))) )) ) 41.35/41.58 ( skv_423 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.58 ( skv_424 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.58 ( skv_425 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.58 ( skv_426 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 (ho_2 k_1 skv_36) ii))) )) ) 41.35/41.58 ( skv_427 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_428 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_429 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_430 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_431 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_432 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_433 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_434 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_435 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_436 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_437 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_438 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_439 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_440 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_441 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_442 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 (ho_2 skv_31 catalunya) ii))) )) ) 41.35/41.58 ( skv_443 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.58 ( skv_444 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.58 ( skv_445 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.58 ( skv_446 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 (ho_2 k_1 skv_38) ii))) )) ) 41.35/41.58 ( skv_447 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) false (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_448 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) false (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_449 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) false (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_450 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) false (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_451 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) false (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_452 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) false (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_453 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) false (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_454 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) false (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_455 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_10) true (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_456 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_43) true (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_457 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= france ii) true (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_458 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= catalunya ii) true (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_459 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_11) true (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_460 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_38) true (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_461 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_142) true (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_462 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= ii skv_36) true (ho_3 (ho_2 k_1 skv_147) ii))) )) ) 41.35/41.58 ( skv_463 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_2 skv_31 z) (ho_2 skv_33 z)) ) 41.35/41.58 ( skv_464 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((z reg)) (= (ho_2 k_1 z) (ho_2 skv_33 z)) ) 41.35/41.58 ( skv_465 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_10) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_466 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_10) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_467 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_10) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_468 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_10) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_469 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_10) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_470 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_10) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_471 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_10) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_472 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_10) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_473 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_18 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_474 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_18 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_475 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_18 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_476 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_18 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_477 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_18 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_478 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_18 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_479 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_18 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_480 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_18 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_481 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_19 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_482 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_19 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_483 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_19 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_484 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_19 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_485 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_19 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_486 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_19 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_487 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_19 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_488 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_19 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_489 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_20 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_490 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_20 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_491 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_20 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_492 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_20 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_493 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_20 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_494 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_20 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_495 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_20 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_496 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_20 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_497 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 spain) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_498 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 spain) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_499 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 spain) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_500 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 spain) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_501 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 spain) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_502 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 spain) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_503 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 spain) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_504 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 spain) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_505 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_24 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_506 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_24 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_507 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_24 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_508 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_24 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_509 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_24 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_510 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_24 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_511 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_24 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_512 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_24 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_513 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_25 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_514 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_25 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_515 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_25 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_516 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_25 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_517 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_25 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_518 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_25 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_519 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_25 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_520 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_25 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_521 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_26 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_522 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_26 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_523 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_26 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_524 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_26 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_525 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_26 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_526 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_26 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_527 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_26 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_528 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_26 (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_529 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_11) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_530 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_11) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_531 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_11) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_532 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_11) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_533 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_11) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_534 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_11) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_535 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_11) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_536 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_11) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_537 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_36) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_538 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_36) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_539 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_36) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_540 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_36) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_541 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_36) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_542 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_36) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_543 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_36) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_544 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_36) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_545 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 skv_31 catalunya) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_546 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 skv_31 catalunya) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_547 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 skv_31 catalunya) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_548 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 skv_31 catalunya) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_549 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 skv_31 catalunya) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_550 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 skv_31 catalunya) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_551 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 skv_31 catalunya) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_552 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 skv_31 catalunya) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_553 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_38) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_554 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_38) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_555 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_38) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_556 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_38) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_557 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_38) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_558 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_38) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_559 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_38) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_560 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_38) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_561 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_147) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_562 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_147) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_563 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_147) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_564 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_147) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_565 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_147) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_566 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_147) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_567 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_147) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_568 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_147) (ho_2 skv_30 ii))) )) ) 41.35/41.58 ( skv_569 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_10) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_570 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_10) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_571 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_10) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_572 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_10) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_573 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_10) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_574 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_10) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_575 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_10) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_576 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_10) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_577 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_18 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_578 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_18 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_579 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_18 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_580 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_18 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_581 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_18 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_582 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_18 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_583 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_18 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_584 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_18 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_585 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_19 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_586 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_19 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_587 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_19 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_588 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_19 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_589 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_19 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_590 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_19 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_591 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_19 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_592 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_19 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_593 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_20 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_594 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_20 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_595 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_20 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_596 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_20 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_597 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_20 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_598 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_20 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_599 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_20 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_600 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_20 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_601 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 spain) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_602 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 spain) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_603 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 spain) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_604 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 spain) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_605 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 spain) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_606 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 spain) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_607 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 spain) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_608 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 spain) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_609 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_24 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_610 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_24 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_611 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_24 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_612 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_24 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_613 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_24 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_614 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_24 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_615 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_24 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_616 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_24 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_617 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_25 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_618 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_25 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_619 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_25 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_620 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_25 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_621 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_25 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_622 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_25 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_623 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_25 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_624 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_25 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_625 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_26 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_626 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_26 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_627 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_26 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_628 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_26 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_629 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_26 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_630 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_26 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_631 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_26 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_632 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_26 (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_633 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_11) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_634 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_11) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_635 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_11) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_636 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_11) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_637 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_11) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_638 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_11) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_639 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_11) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_640 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_11) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_641 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_36) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_642 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_36) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_643 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_36) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_644 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_36) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_645 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_36) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_646 ) 41.35/41.58 ) 41.35/41.58 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_36) (ho_2 skv_31 ii))) )) ) 41.35/41.58 ( skv_647 ) 41.35/41.58 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_36) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_648 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_36) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_649 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 skv_31 catalunya) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_650 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 skv_31 catalunya) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_651 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 skv_31 catalunya) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_652 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 skv_31 catalunya) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_653 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 skv_31 catalunya) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_654 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 skv_31 catalunya) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_655 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 skv_31 catalunya) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_656 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 skv_31 catalunya) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_657 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_38) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_658 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_38) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_659 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_38) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_660 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_38) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_661 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_38) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_662 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_38) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_663 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_38) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_664 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_38) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_665 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_147) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_666 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_147) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_667 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_147) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_668 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_147) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_669 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_147) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_670 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_147) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_671 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_147) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_672 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_147) (ho_2 skv_31 ii))) )) ) 41.35/41.59 ( skv_673 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_10) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_674 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_10) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_675 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_18 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_676 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_18 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_677 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_18 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_678 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_18 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_679 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_18 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_680 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_18 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_681 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_18 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_682 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_18 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_683 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_19 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_684 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_19 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_685 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_19 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_686 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_19 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_687 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_19 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_688 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_19 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_689 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_19 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_690 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_19 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_691 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_20 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_692 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_20 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_693 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_20 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_694 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_20 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_695 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_20 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_696 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_20 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_697 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_20 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_698 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_20 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_699 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 spain) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_700 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 spain) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_701 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_24 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_702 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_24 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_703 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_24 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_704 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_24 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_705 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_24 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_706 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_24 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_707 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_24 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_708 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_24 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_709 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_25 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_710 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_25 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_711 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_25 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_712 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_25 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_713 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_25 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_714 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_25 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_715 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_25 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_716 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_25 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_717 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_26 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_718 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_26 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_719 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_26 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_720 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_26 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_721 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_26 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_722 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_26 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_723 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_26 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_724 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_26 (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_725 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_11) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_726 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_11) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_727 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_11) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_728 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_11) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_729 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_11) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_730 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_36) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_731 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_36) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_732 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 skv_31 catalunya) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_733 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 skv_31 catalunya) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_734 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 skv_31 catalunya) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_735 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 skv_31 catalunya) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_736 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 skv_31 catalunya) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_737 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 skv_31 catalunya) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_738 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 skv_31 catalunya) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_739 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 skv_31 catalunya) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_740 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_38) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_741 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_38) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_742 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_147) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_743 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_147) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_744 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_147) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_745 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_147) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_746 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_147) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_747 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_147) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_748 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_147) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_749 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_147) (ho_2 k_1 ii))) )) ) 41.35/41.59 ( skv_750 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_10) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_751 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_10) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_752 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_10) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_753 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_10) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_754 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_10) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_755 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_10) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_756 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_10) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_757 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_10) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_758 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_18 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_759 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_18 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_760 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_18 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_761 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_18 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_762 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_18 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_763 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_18 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_764 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_18 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_765 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_18 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_766 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_19 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_767 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_19 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_768 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_19 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_769 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_19 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_770 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_19 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_771 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_19 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_772 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_19 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_773 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_19 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_774 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_20 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_775 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_20 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_776 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_20 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_777 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_20 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_778 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_20 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_779 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_20 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_780 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_20 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_781 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_20 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_782 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 spain) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_783 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 spain) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_784 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 spain) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_785 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 spain) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_786 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 spain) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_787 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 spain) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_788 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 spain) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_789 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 spain) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_790 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_24 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_791 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_24 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_792 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_24 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_793 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_24 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_794 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_24 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_795 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_24 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_796 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_24 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_797 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_24 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_798 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_25 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_799 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_25 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_800 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_25 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_801 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_25 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_802 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_25 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_803 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_25 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_804 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_25 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_805 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_25 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_806 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_26 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_807 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_26 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_808 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_26 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_809 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_26 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_810 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_26 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_811 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_26 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_812 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_26 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_813 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_26 (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_814 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_11) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_815 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_11) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_816 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_11) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_817 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_11) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_818 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_11) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_819 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_11) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_820 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_11) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_821 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_11) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_822 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_36) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_823 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_36) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_824 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_36) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_825 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_36) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_826 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_36) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_827 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_36) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_828 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_36) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_829 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_36) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_830 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 skv_31 catalunya) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_831 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 skv_31 catalunya) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_832 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 skv_31 catalunya) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_833 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 skv_31 catalunya) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_834 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 skv_31 catalunya) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_835 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 skv_31 catalunya) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_836 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 skv_31 catalunya) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_837 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 skv_31 catalunya) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_838 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_38) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_839 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_38) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_840 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_38) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_841 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_38) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_842 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_38) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_843 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_38) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_844 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_38) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_845 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_38) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_846 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_147) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_847 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_147) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_848 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_147) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_849 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_147) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_850 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_147) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_851 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_147) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_852 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_147) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_853 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_147) (ho_2 skv_33 ii))) )) ) 41.35/41.59 ( skv_854 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_10) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_855 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_10) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_856 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_10) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_857 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_10) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_858 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_10) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_859 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_10) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_860 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_10) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_861 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_10) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_862 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_18 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_863 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_18 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_864 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_18 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_865 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_18 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_866 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_18 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_867 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_18 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_868 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_18 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_869 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_18 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_870 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_19 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_871 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_19 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_872 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_19 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_873 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_19 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_874 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_19 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_875 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_19 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_876 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_19 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_877 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_19 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_878 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_20 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_879 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_20 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_880 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_20 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_881 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_20 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_882 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_20 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_883 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_20 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_884 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_20 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_885 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_20 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_886 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 spain) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_887 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 spain) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_888 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 spain) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_889 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 spain) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_890 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 spain) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_891 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 spain) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_892 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 spain) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_893 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 spain) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_894 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_24 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_895 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_24 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_896 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_24 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_897 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_24 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_898 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_24 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_899 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_24 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_900 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_24 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_901 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_24 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_902 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_25 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_903 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_25 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_904 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_25 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_905 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_25 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_906 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_25 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_907 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_25 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_908 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_25 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_909 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_25 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_910 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) skv_26 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_911 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) skv_26 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_912 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) skv_26 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_913 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) skv_26 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_914 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) skv_26 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_915 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) skv_26 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_916 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) skv_26 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_917 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) skv_26 (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_918 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_11) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_919 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_11) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_920 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_11) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_921 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_11) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_922 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_11) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_923 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_11) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_924 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_11) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_925 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_11) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_926 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_36) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_927 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_36) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_928 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_36) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_929 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_36) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_930 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_36) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_931 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_36) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_932 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_36) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_933 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_36) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_934 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 skv_31 catalunya) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_935 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 skv_31 catalunya) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_936 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 skv_31 catalunya) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_937 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 skv_31 catalunya) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_938 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 skv_31 catalunya) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_939 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 skv_31 catalunya) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_940 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 skv_31 catalunya) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_941 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 skv_31 catalunya) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_942 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_38) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_943 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_38) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_944 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_38) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_945 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_38) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_946 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_38) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_947 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_38) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_948 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_38) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_949 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_38) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_950 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_10) (ho_2 k_1 skv_147) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_951 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_43) (ho_2 k_1 skv_147) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_952 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= france ii) (ho_2 k_1 skv_147) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_953 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= catalunya ii) (ho_2 k_1 skv_147) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_954 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_11) (ho_2 k_1 skv_147) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_955 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_38) (ho_2 k_1 skv_147) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_956 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_142) (ho_2 k_1 skv_147) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_957 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= ii skv_36) (ho_2 k_1 skv_147) (ho_2 skv_35 ii))) )) ) 41.35/41.59 ( skv_958 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((BOUND_VARIABLE_2219 $$unsorted)) (or (not (ho_4 (ho_6 k_7 skv_8) BOUND_VARIABLE_2219)) (ho_4 skv_16 BOUND_VARIABLE_2219)) ) 41.35/41.59 ( skv_959 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_36) z) (ho_3 (ho_2 skv_31 catalunya) z)) ) 41.35/41.59 ( skv_960 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_11) z) (ho_3 (ho_2 skv_31 catalunya) z)) ) 41.35/41.59 ( skv_961 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_11) z) (ho_3 (ho_2 k_1 skv_36) z)) ) 41.35/41.59 ( skv_962 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_26 z) (ho_3 (ho_2 k_1 skv_38) z)) ) 41.35/41.59 ( skv_963 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_26 z) (ho_3 (ho_2 k_1 skv_36) z)) ) 41.35/41.59 ( skv_964 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_25 z) (ho_3 (ho_2 k_1 skv_11) z)) ) 41.35/41.59 ( skv_965 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_24 z) (ho_3 (ho_2 k_1 skv_36) z)) ) 41.35/41.59 ( skv_966 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_24 z) (ho_3 (ho_2 k_1 skv_11) z)) ) 41.35/41.59 ( skv_967 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_20 z) (ho_3 (ho_2 k_1 skv_38) z)) ) 41.35/41.59 ( skv_968 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_20 z) (ho_3 (ho_2 k_1 skv_36) z)) ) 41.35/41.59 ( skv_969 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_19 z) (ho_3 (ho_2 k_1 skv_11) z)) ) 41.35/41.59 ( skv_970 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_18 z) (ho_3 (ho_2 k_1 skv_36) z)) ) 41.35/41.59 ( skv_971 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_18 z) (ho_3 (ho_2 k_1 skv_11) z)) ) 41.35/41.59 ( skv_972 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 skv_26 z)) ) 41.35/41.59 ( skv_973 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 skv_25 z)) ) 41.35/41.59 ( skv_974 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 skv_20 z)) ) 41.35/41.59 ( skv_975 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 skv_19 z)) ) 41.35/41.59 ( skv_976 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 spain) z) (ho_3 (ho_2 skv_31 catalunya) z)) ) 41.35/41.59 ( skv_977 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_11) z) (ho_3 (ho_2 k_1 skv_38) z)) ) 41.35/41.59 ( skv_978 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_19 z) (ho_3 (ho_2 k_1 skv_38) z)) ) 41.35/41.59 ( skv_979 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_18 z) (ho_3 (ho_2 k_1 skv_38) z)) ) 41.35/41.59 ( skv_980 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_2 skv_30 z) (ho_2 k_1 z)) ) 41.35/41.59 ( skv_981 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_2 skv_30 z) (ho_2 skv_31 z)) ) 41.35/41.59 ( skv_982 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_24 z) (ho_3 skv_26 z)) ) 41.35/41.59 ( skv_983 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_20 z) (ho_3 skv_24 z)) ) 41.35/41.59 ( skv_984 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_25 z) (ho_3 skv_26 z)) ) 41.35/41.59 ( skv_985 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_20 z) (ho_3 skv_25 z)) ) 41.35/41.59 ( skv_986 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_24 z) (ho_3 (ho_2 k_1 skv_38) z)) ) 41.35/41.59 ( skv_987 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_25 z) (ho_3 (ho_2 k_1 skv_38) z)) ) 41.35/41.59 ( skv_988 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_2 k_1 z) (ho_2 skv_35 z)) ) 41.35/41.59 ( skv_989 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_2 skv_33 z) (ho_2 skv_35 z)) ) 41.35/41.59 ( skv_990 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_2 skv_31 z) (ho_2 k_1 z)) ) 41.35/41.59 ( skv_991 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_2 skv_31 z) (ho_2 skv_35 z)) ) 41.35/41.59 ( skv_992 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_2 skv_30 z) (ho_2 skv_35 z)) ) 41.35/41.59 ( skv_993 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_2 skv_30 z) (ho_2 skv_33 z)) ) 41.35/41.59 ( skv_994 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_18 z) (ho_3 skv_24 z)) ) 41.35/41.59 ( skv_995 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_19 z) (ho_3 skv_25 z)) ) 41.35/41.59 ( skv_996 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_20 z) (ho_3 skv_26 z)) ) 41.35/41.59 ( skv_997 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z $$unsorted)) (= (ho_6 k_7 z) (ho_6 k_5 z)) ) 41.35/41.59 ( skv_998 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 skv_31 catalunya) z) (ho_3 (ho_2 k_1 skv_38) z)) ) 41.35/41.59 ( skv_999 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((BOUND_VARIABLE_2994 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2994))) (or (not (ho_3 _let_0 skv_43)) (ho_3 _let_0 catalunya))) ) 41.35/41.59 ( skv_1000 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((BOUND_VARIABLE_2971 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2971))) (or (not (ho_3 _let_0 skv_43)) (ho_3 _let_0 spain))) ) 41.35/41.59 ( skv_1001 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_25 z) (ho_3 (ho_2 k_1 skv_36) z)) ) 41.35/41.59 ( skv_1002 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_19 z) (ho_3 (ho_2 k_1 skv_36) z)) ) 41.35/41.59 ( skv_1003 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z $$unsorted)) (= (ho_4 (ho_6 k_5 skv_8) z) (ho_4 skv_16 z)) ) 41.35/41.59 ( skv_1004 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_24 z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1005 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_20 z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1006 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_19 z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1007 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_18 z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1008 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1009 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 spain) z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1010 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_11) z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1011 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_26 z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1012 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 skv_31 catalunya) z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1013 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_36) z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1014 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_38) z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1015 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_25 z) (ho_3 (ho_2 k_1 skv_147) z)) ) 41.35/41.59 ( skv_1016 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 skv_18 z)) ) 41.35/41.59 ( skv_1017 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 skv_24 z)) ) 41.35/41.59 ( skv_1018 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 (ho_2 k_1 skv_11) z)) ) 41.35/41.59 ( skv_1019 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 skv_10) z) (ho_3 (ho_2 skv_31 catalunya) z)) ) 41.35/41.59 ( skv_1020 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_18 z) (ho_3 (ho_2 k_1 spain) z)) ) 41.35/41.59 ( skv_1021 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_19 z) (ho_3 (ho_2 k_1 spain) z)) ) 41.35/41.59 ( skv_1022 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_20 z) (ho_3 (ho_2 k_1 spain) z)) ) 41.35/41.59 ( skv_1023 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_20 z) (ho_3 (ho_2 k_1 skv_11) z)) ) 41.35/41.59 ( skv_1024 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 spain) z) (ho_3 skv_24 z)) ) 41.35/41.59 ( skv_1025 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 spain) z) (ho_3 skv_25 z)) ) 41.35/41.59 ( skv_1026 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 (ho_2 k_1 spain) z) (ho_3 skv_26 z)) ) 41.35/41.59 ( skv_1027 ) 41.35/41.59 ) 41.35/41.59 (skolem (forall ((z reg)) (= (ho_3 skv_26 z) (ho_3 (ho_2 k_1 skv_11) z)) ) 41.35/41.59 ( skv_1028 ) 41.35/41.59 ) 41.35/41.60 (skolem (forall ((BOUND_VARIABLE_2681 reg)) (or (not (forall ((BOUND_VARIABLE_2690 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2690))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 skv_43))) )) (not (forall ((BOUND_VARIABLE_2682 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2682))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 paris))) ))) ) 41.35/41.60 ( skv_1029 ) 41.35/41.60 ) 41.35/41.60 (skolem (forall ((BOUND_VARIABLE_3002 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_3002))) (or (not (ho_3 _let_0 skv_142)) (ho_3 _let_0 skv_11))) ) 41.35/41.60 ( skv_1030 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((X reg) (Y reg)) (or (not (ho_3 (ho_2 k_1 X) Y)) (ho_3 (ho_2 k_1 Y) X)) ) 41.35/41.60 ( catalunya, catalunya ) 41.35/41.60 ( catalunya, france ) 41.35/41.60 ( catalunya, spain ) 41.35/41.60 ( catalunya, skv_10 ) 41.35/41.60 ( catalunya, skv_38 ) 41.35/41.60 ( catalunya, skv_43 ) 41.35/41.60 ( catalunya, skv_142 ) 41.35/41.60 ( france, skv_38 ) 41.35/41.60 ( france, skv_43 ) 41.35/41.60 ( skv_10, france ) 41.35/41.60 ( skv_10, skv_10 ) 41.35/41.60 ( skv_10, skv_11 ) 41.35/41.60 ( skv_10, skv_36 ) 41.35/41.60 ( skv_10, skv_38 ) 41.35/41.60 ( skv_11, catalunya ) 41.35/41.60 ( skv_11, spain ) 41.35/41.60 ( skv_11, skv_11 ) 41.35/41.60 ( skv_11, skv_36 ) 41.35/41.60 ( skv_11, skv_43 ) 41.35/41.60 ( skv_11, skv_142 ) 41.35/41.60 ( skv_36, catalunya ) 41.35/41.60 ( skv_36, france ) 41.35/41.60 ( skv_36, skv_10 ) 41.35/41.60 ( skv_36, skv_36 ) 41.35/41.60 ( skv_36, skv_38 ) 41.35/41.60 ( skv_36, skv_142 ) 41.35/41.60 ( skv_38, catalunya ) 41.35/41.60 ( skv_38, skv_10 ) 41.35/41.60 ( skv_38, skv_11 ) 41.35/41.60 ( skv_38, skv_36 ) 41.35/41.60 ( skv_38, skv_38 ) 41.35/41.60 ( skv_43, catalunya ) 41.35/41.60 ( skv_43, france ) 41.35/41.60 ( skv_43, skv_10 ) 41.35/41.60 ( skv_43, skv_11 ) 41.35/41.60 ( skv_43, skv_36 ) 41.35/41.60 ( skv_43, skv_38 ) 41.35/41.60 ( skv_43, skv_43 ) 41.35/41.60 ( skv_43, skv_142 ) 41.35/41.60 ( skv_142, catalunya ) 41.35/41.60 ( skv_142, france ) 41.35/41.60 ( skv_142, skv_43 ) 41.35/41.60 ( skv_142, skv_142 ) 41.35/41.60 ( skv_146, skv_38 ) 41.35/41.60 ( skv_147, skv_10 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((X reg)) (ho_3 (ho_2 k_1 X) X) ) 41.35/41.60 ( catalunya ) 41.35/41.60 ( skv_10 ) 41.35/41.60 ( skv_11 ) 41.35/41.60 ( skv_36 ) 41.35/41.60 ( skv_38 ) 41.35/41.60 ( skv_43 ) 41.35/41.60 ( skv_142 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((BOUND_VARIABLE_2210 $$unsorted) (BOUND_VARIABLE_3200 |u_(-> $$unsorted Bool)|) (BOUND_VARIABLE_2215 $$unsorted)) (or (not (forall ((BOUND_VARIABLE_2219 $$unsorted)) (or (not (ho_4 (ho_6 k_7 BOUND_VARIABLE_2210) BOUND_VARIABLE_2219)) (ho_4 BOUND_VARIABLE_3200 BOUND_VARIABLE_2219)) )) (not (ho_4 (ho_6 k_5 BOUND_VARIABLE_2210) BOUND_VARIABLE_2215)) (ho_4 BOUND_VARIABLE_3200 BOUND_VARIABLE_2215)) ) 41.35/41.60 ( skv_8, skv_16, skv_8 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((BOUND_VARIABLE_2298 $$unsorted) (BOUND_VARIABLE_2302 $$unsorted)) (not (ho_4 (ho_6 k_7 BOUND_VARIABLE_2298) BOUND_VARIABLE_2302)) ) 41.35/41.60 ( skv_8, skv_8 ) 41.35/41.60 ( skv_8, skv_959 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((BOUND_VARIABLE_2307 reg)) (or (not (forall ((BOUND_VARIABLE_2316 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2316))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2307)) (ho_3 _let_0 spain))) )) (not (forall ((BOUND_VARIABLE_2308 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2308))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2307)) (ho_3 _let_0 france))) ))) ) 41.35/41.60 ( catalunya ) 41.35/41.60 ( france ) 41.35/41.60 ( skv_11 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((BOUND_VARIABLE_3098 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_3098))) (or (not (ho_3 _let_0 paris)) (ho_3 _let_0 catalunya))) ) 41.35/41.60 ( catalunya ) 41.35/41.60 ( skv_38 ) 41.35/41.60 ( skv_43 ) 41.35/41.60 ( skv_142 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((BOUND_VARIABLE_3106 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_3106))) (or (not (ho_3 _let_0 catalunya)) (ho_3 _let_0 paris))) ) 41.35/41.60 ( catalunya ) 41.35/41.60 ( spain ) 41.35/41.60 ( skv_10 ) 41.35/41.60 ( skv_36 ) 41.35/41.60 ( skv_38 ) 41.35/41.60 ( skv_39 ) 41.35/41.60 ( skv_43 ) 41.35/41.60 ( skv_142 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((BOUND_VARIABLE_2650 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2650))) (or (not (ho_3 _let_0 paris)) (ho_3 _let_0 france))) ) 41.35/41.60 ( catalunya ) 41.35/41.60 ( spain ) 41.35/41.60 ( skv_36 ) 41.35/41.60 ( skv_38 ) 41.35/41.60 ( skv_39 ) 41.35/41.60 ( skv_43 ) 41.35/41.60 ( skv_142 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((BOUND_VARIABLE_2657 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2657))) (or (not (ho_3 _let_0 paris)) (not (forall ((BOUND_VARIABLE_2681 reg)) (or (not (forall ((BOUND_VARIABLE_2690 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2690))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 BOUND_VARIABLE_2657))) )) (not (forall ((BOUND_VARIABLE_2682 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2682))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2681)) (ho_3 _let_0 paris))) ))) )) (not (ho_3 _let_0 france)) (not (forall ((BOUND_VARIABLE_2658 reg)) (or (not (forall ((BOUND_VARIABLE_2667 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2667))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2658)) (ho_3 _let_0 BOUND_VARIABLE_2657))) )) (not (forall ((BOUND_VARIABLE_2659 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2659))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2658)) (ho_3 _let_0 france))) ))) )))) ) 41.35/41.60 ( catalunya ) 41.35/41.60 ( france ) 41.35/41.60 ( skv_11 ) 41.35/41.60 ( skv_36 ) 41.35/41.60 ( skv_43 ) 41.35/41.60 ( skv_142 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((BOUND_VARIABLE_2769 $$unsorted) (BOUND_VARIABLE_3398 |u_(-> $$unsorted Bool)|)) (or (not (forall ((BOUND_VARIABLE_2775 $$unsorted)) (or (not (ho_4 (ho_6 k_7 BOUND_VARIABLE_2769) BOUND_VARIABLE_2775)) (ho_4 BOUND_VARIABLE_3398 BOUND_VARIABLE_2775)) )) (ho_4 BOUND_VARIABLE_3398 BOUND_VARIABLE_2769)) ) 41.35/41.60 ( skv_8, skv_16 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((BOUND_VARIABLE_2962 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2962))) (or (not (ho_3 _let_0 catalunya)) (ho_3 _let_0 spain))) ) 41.35/41.60 ( catalunya ) 41.35/41.60 ( skv_38 ) 41.35/41.60 ( skv_43 ) 41.35/41.60 ( skv_142 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((x |u_(-> $$unsorted $$unsorted Bool)|) (y |u_(-> $$unsorted $$unsorted Bool)|)) (or (not (forall ((z $$unsorted)) (= (ho_6 x z) (ho_6 y z)) )) (= x y)) ) 41.35/41.60 ( k_5, k_7 ) 41.35/41.60 ( k_7, k_5 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((x |u_(-> $$unsorted Bool)|) (y |u_(-> $$unsorted Bool)|)) (or (not (forall ((z $$unsorted)) (= (ho_4 x z) (ho_4 y z)) )) (= x y)) ) 41.35/41.60 ( (ho_6 k_5 skv_8), skv_16 ) 41.35/41.60 ( skv_16, (ho_6 k_5 skv_8) ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((x |u_(-> reg Bool)|) (y |u_(-> reg Bool)|)) (or (not (forall ((z reg)) (= (ho_3 x z) (ho_3 y z)) )) (= x y)) ) 41.35/41.60 ( (ho_2 k_1 spain), (ho_2 k_1 skv_10) ) 41.35/41.60 ( (ho_2 k_1 spain), (ho_2 k_1 skv_11) ) 41.35/41.60 ( (ho_2 k_1 spain), skv_18 ) 41.35/41.60 ( (ho_2 k_1 spain), skv_19 ) 41.35/41.60 ( (ho_2 k_1 spain), skv_20 ) 41.35/41.60 ( (ho_2 k_1 spain), skv_24 ) 41.35/41.60 ( (ho_2 k_1 spain), skv_25 ) 41.35/41.60 ( (ho_2 k_1 spain), skv_26 ) 41.35/41.60 ( (ho_2 k_1 spain), (ho_2 k_1 skv_36) ) 41.35/41.60 ( (ho_2 k_1 spain), (ho_2 k_1 skv_38) ) 41.35/41.60 ( (ho_2 k_1 spain), (ho_2 skv_31 catalunya) ) 41.35/41.60 ( (ho_2 k_1 spain), (ho_2 k_1 skv_147) ) 41.35/41.60 ( (ho_2 k_1 skv_10), (ho_2 k_1 spain) ) 41.35/41.60 ( (ho_2 k_1 skv_10), (ho_2 k_1 skv_11) ) 41.35/41.60 ( (ho_2 k_1 skv_10), skv_18 ) 41.35/41.60 ( (ho_2 k_1 skv_10), skv_19 ) 41.35/41.60 ( (ho_2 k_1 skv_10), skv_20 ) 41.35/41.60 ( (ho_2 k_1 skv_10), skv_24 ) 41.35/41.60 ( (ho_2 k_1 skv_10), skv_25 ) 41.35/41.60 ( (ho_2 k_1 skv_10), skv_26 ) 41.35/41.60 ( (ho_2 k_1 skv_10), (ho_2 k_1 skv_36) ) 41.35/41.60 ( (ho_2 k_1 skv_10), (ho_2 k_1 skv_38) ) 41.35/41.60 ( (ho_2 k_1 skv_10), (ho_2 skv_31 catalunya) ) 41.35/41.60 ( (ho_2 k_1 skv_10), (ho_2 k_1 skv_147) ) 41.35/41.60 ( (ho_2 k_1 skv_11), (ho_2 k_1 spain) ) 41.35/41.60 ( (ho_2 k_1 skv_11), (ho_2 k_1 skv_10) ) 41.35/41.60 ( (ho_2 k_1 skv_11), skv_18 ) 41.35/41.60 ( (ho_2 k_1 skv_11), skv_19 ) 41.35/41.60 ( (ho_2 k_1 skv_11), skv_20 ) 41.35/41.60 ( (ho_2 k_1 skv_11), skv_24 ) 41.35/41.60 ( (ho_2 k_1 skv_11), skv_25 ) 41.35/41.60 ( (ho_2 k_1 skv_11), skv_26 ) 41.35/41.60 ( (ho_2 k_1 skv_11), (ho_2 k_1 skv_36) ) 41.35/41.60 ( (ho_2 k_1 skv_11), (ho_2 k_1 skv_38) ) 41.35/41.60 ( (ho_2 k_1 skv_11), (ho_2 skv_31 catalunya) ) 41.35/41.60 ( (ho_2 k_1 skv_11), (ho_2 k_1 skv_147) ) 41.35/41.60 ( skv_18, (ho_2 k_1 spain) ) 41.35/41.60 ( skv_18, (ho_2 k_1 skv_10) ) 41.35/41.60 ( skv_18, (ho_2 k_1 skv_11) ) 41.35/41.60 ( skv_18, skv_19 ) 41.35/41.60 ( skv_18, skv_20 ) 41.35/41.60 ( skv_18, skv_24 ) 41.35/41.60 ( skv_18, skv_25 ) 41.35/41.60 ( skv_18, skv_26 ) 41.35/41.60 ( skv_18, (ho_2 k_1 skv_36) ) 41.35/41.60 ( skv_18, (ho_2 k_1 skv_38) ) 41.35/41.60 ( skv_18, (ho_2 skv_31 catalunya) ) 41.35/41.60 ( skv_18, (ho_2 k_1 skv_147) ) 41.35/41.60 ( skv_19, (ho_2 k_1 spain) ) 41.35/41.60 ( skv_19, (ho_2 k_1 skv_10) ) 41.35/41.60 ( skv_19, (ho_2 k_1 skv_11) ) 41.35/41.60 ( skv_19, skv_18 ) 41.35/41.60 ( skv_19, skv_20 ) 41.35/41.60 ( skv_19, skv_24 ) 41.35/41.60 ( skv_19, skv_25 ) 41.35/41.60 ( skv_19, skv_26 ) 41.35/41.60 ( skv_19, (ho_2 k_1 skv_36) ) 41.35/41.60 ( skv_19, (ho_2 k_1 skv_38) ) 41.35/41.60 ( skv_19, (ho_2 skv_31 catalunya) ) 41.35/41.60 ( skv_19, (ho_2 k_1 skv_147) ) 41.35/41.60 ( skv_20, (ho_2 k_1 spain) ) 41.35/41.60 ( skv_20, (ho_2 k_1 skv_10) ) 41.35/41.60 ( skv_20, (ho_2 k_1 skv_11) ) 41.35/41.60 ( skv_20, skv_18 ) 41.35/41.60 ( skv_20, skv_19 ) 41.35/41.60 ( skv_20, skv_24 ) 41.35/41.60 ( skv_20, skv_25 ) 41.35/41.60 ( skv_20, skv_26 ) 41.35/41.60 ( skv_20, (ho_2 k_1 skv_36) ) 41.35/41.60 ( skv_20, (ho_2 k_1 skv_38) ) 41.35/41.60 ( skv_20, (ho_2 skv_31 catalunya) ) 41.35/41.60 ( skv_20, (ho_2 k_1 skv_147) ) 41.35/41.60 ( skv_24, (ho_2 k_1 spain) ) 41.35/41.60 ( skv_24, (ho_2 k_1 skv_10) ) 41.35/41.60 ( skv_24, (ho_2 k_1 skv_11) ) 41.35/41.60 ( skv_24, skv_18 ) 41.35/41.60 ( skv_24, skv_19 ) 41.35/41.60 ( skv_24, skv_20 ) 41.35/41.60 ( skv_24, skv_25 ) 41.35/41.60 ( skv_24, skv_26 ) 41.35/41.60 ( skv_24, (ho_2 k_1 skv_36) ) 41.35/41.60 ( skv_24, (ho_2 k_1 skv_38) ) 41.35/41.60 ( skv_24, (ho_2 skv_31 catalunya) ) 41.35/41.60 ( skv_24, (ho_2 k_1 skv_147) ) 41.35/41.60 ( skv_25, (ho_2 k_1 spain) ) 41.35/41.60 ( skv_25, (ho_2 k_1 skv_10) ) 41.35/41.60 ( skv_25, (ho_2 k_1 skv_11) ) 41.35/41.60 ( skv_25, skv_18 ) 41.35/41.60 ( skv_25, skv_19 ) 41.35/41.60 ( skv_25, skv_20 ) 41.35/41.60 ( skv_25, skv_24 ) 41.35/41.60 ( skv_25, skv_26 ) 41.35/41.60 ( skv_25, (ho_2 k_1 skv_36) ) 41.35/41.60 ( skv_25, (ho_2 k_1 skv_38) ) 41.35/41.60 ( skv_25, (ho_2 skv_31 catalunya) ) 41.35/41.60 ( skv_25, (ho_2 k_1 skv_147) ) 41.35/41.60 ( skv_26, (ho_2 k_1 spain) ) 41.35/41.60 ( skv_26, (ho_2 k_1 skv_10) ) 41.35/41.60 ( skv_26, (ho_2 k_1 skv_11) ) 41.35/41.60 ( skv_26, skv_18 ) 41.35/41.60 ( skv_26, skv_19 ) 41.35/41.60 ( skv_26, skv_20 ) 41.35/41.60 ( skv_26, skv_24 ) 41.35/41.60 ( skv_26, skv_25 ) 41.35/41.60 ( skv_26, (ho_2 k_1 skv_36) ) 41.35/41.60 ( skv_26, (ho_2 k_1 skv_38) ) 41.35/41.60 ( skv_26, (ho_2 skv_31 catalunya) ) 41.35/41.60 ( skv_26, (ho_2 k_1 skv_147) ) 41.35/41.60 ( (ho_2 k_1 skv_36), (ho_2 k_1 spain) ) 41.35/41.60 ( (ho_2 k_1 skv_36), (ho_2 k_1 skv_10) ) 41.35/41.60 ( (ho_2 k_1 skv_36), (ho_2 k_1 skv_11) ) 41.35/41.60 ( (ho_2 k_1 skv_36), skv_18 ) 41.35/41.60 ( (ho_2 k_1 skv_36), skv_19 ) 41.35/41.60 ( (ho_2 k_1 skv_36), skv_20 ) 41.35/41.60 ( (ho_2 k_1 skv_36), skv_24 ) 41.35/41.60 ( (ho_2 k_1 skv_36), skv_25 ) 41.35/41.60 ( (ho_2 k_1 skv_36), skv_26 ) 41.35/41.60 ( (ho_2 k_1 skv_36), (ho_2 k_1 skv_38) ) 41.35/41.60 ( (ho_2 k_1 skv_36), (ho_2 skv_31 catalunya) ) 41.35/41.60 ( (ho_2 k_1 skv_36), (ho_2 k_1 skv_147) ) 41.35/41.60 ( (ho_2 k_1 skv_38), (ho_2 k_1 spain) ) 41.35/41.60 ( (ho_2 k_1 skv_38), (ho_2 k_1 skv_10) ) 41.35/41.60 ( (ho_2 k_1 skv_38), (ho_2 k_1 skv_11) ) 41.35/41.60 ( (ho_2 k_1 skv_38), skv_18 ) 41.35/41.60 ( (ho_2 k_1 skv_38), skv_19 ) 41.35/41.60 ( (ho_2 k_1 skv_38), skv_20 ) 41.35/41.60 ( (ho_2 k_1 skv_38), skv_24 ) 41.35/41.60 ( (ho_2 k_1 skv_38), skv_25 ) 41.35/41.60 ( (ho_2 k_1 skv_38), skv_26 ) 41.35/41.60 ( (ho_2 k_1 skv_38), (ho_2 k_1 skv_36) ) 41.35/41.60 ( (ho_2 k_1 skv_38), (ho_2 skv_31 catalunya) ) 41.35/41.60 ( (ho_2 k_1 skv_38), (ho_2 k_1 skv_147) ) 41.35/41.60 ( (ho_2 skv_31 catalunya), (ho_2 k_1 spain) ) 41.35/41.60 ( (ho_2 skv_31 catalunya), (ho_2 k_1 skv_10) ) 41.35/41.60 ( (ho_2 skv_31 catalunya), (ho_2 k_1 skv_11) ) 41.35/41.60 ( (ho_2 skv_31 catalunya), skv_18 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), skv_19 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), skv_20 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), skv_24 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), skv_25 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), skv_26 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), (ho_2 k_1 skv_36) ) 41.35/41.60 ( (ho_2 skv_31 catalunya), (ho_2 k_1 skv_38) ) 41.35/41.60 ( (ho_2 skv_31 catalunya), (ho_2 k_1 skv_147) ) 41.35/41.60 ( (ho_2 k_1 skv_147), (ho_2 k_1 spain) ) 41.35/41.60 ( (ho_2 k_1 skv_147), (ho_2 k_1 skv_10) ) 41.35/41.60 ( (ho_2 k_1 skv_147), (ho_2 k_1 skv_11) ) 41.35/41.60 ( (ho_2 k_1 skv_147), skv_18 ) 41.35/41.60 ( (ho_2 k_1 skv_147), skv_19 ) 41.35/41.60 ( (ho_2 k_1 skv_147), skv_20 ) 41.35/41.60 ( (ho_2 k_1 skv_147), skv_24 ) 41.35/41.60 ( (ho_2 k_1 skv_147), skv_25 ) 41.35/41.60 ( (ho_2 k_1 skv_147), skv_26 ) 41.35/41.60 ( (ho_2 k_1 skv_147), (ho_2 k_1 skv_36) ) 41.35/41.60 ( (ho_2 k_1 skv_147), (ho_2 k_1 skv_38) ) 41.35/41.60 ( (ho_2 k_1 skv_147), (ho_2 skv_31 catalunya) ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((x |u_(-> reg reg Bool)|) (y |u_(-> reg reg Bool)|)) (or (not (forall ((z reg)) (= (ho_2 x z) (ho_2 y z)) )) (= x y)) ) 41.35/41.60 ( k_1, skv_30 ) 41.35/41.60 ( k_1, skv_31 ) 41.35/41.60 ( k_1, skv_33 ) 41.35/41.60 ( k_1, skv_35 ) 41.35/41.60 ( skv_30, k_1 ) 41.35/41.60 ( skv_30, skv_31 ) 41.35/41.60 ( skv_30, skv_33 ) 41.35/41.60 ( skv_30, skv_35 ) 41.35/41.60 ( skv_31, k_1 ) 41.35/41.60 ( skv_31, skv_30 ) 41.35/41.60 ( skv_31, skv_33 ) 41.35/41.60 ( skv_31, skv_35 ) 41.35/41.60 ( skv_33, k_1 ) 41.35/41.60 ( skv_33, skv_30 ) 41.35/41.60 ( skv_33, skv_31 ) 41.35/41.60 ( skv_33, skv_35 ) 41.35/41.60 ( skv_35, k_1 ) 41.35/41.60 ( skv_35, skv_30 ) 41.35/41.60 ( skv_35, skv_31 ) 41.35/41.60 ( skv_35, skv_33 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((u |u_(-> $$unsorted $$unsorted Bool)|) (e |u_(-> $$unsorted Bool)|) (i $$unsorted)) (not (forall ((v |u_(-> $$unsorted $$unsorted Bool)|)) (not (forall ((ii $$unsorted)) (= (ho_6 v ii) (ite (= i ii) e (ho_6 u ii))) )) )) ) 41.35/41.60 ( k_5, (ho_6 k_5 skv_8), skv_8 ) 41.35/41.60 ( k_5, skv_16, skv_8 ) 41.35/41.60 ( k_7, (ho_6 k_5 skv_8), skv_8 ) 41.35/41.60 ( k_7, skv_16, skv_8 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((u |u_(-> $$unsorted Bool)|) (e Bool) (i $$unsorted)) (not (forall ((v |u_(-> $$unsorted Bool)|)) (not (forall ((ii $$unsorted)) (= (ho_4 v ii) (ite (= i ii) e (ho_4 u ii))) )) )) ) 41.35/41.60 ( (ho_6 k_5 skv_8), true, skv_8 ) 41.35/41.60 ( (ho_6 k_5 skv_8), false, skv_8 ) 41.35/41.60 ( skv_16, true, skv_8 ) 41.35/41.60 ( skv_16, false, skv_8 ) 41.35/41.60 ) 41.35/41.60 (instantiation (forall ((u |u_(-> reg Bool)|) (e Bool) (i reg)) (not (forall ((v |u_(-> reg Bool)|)) (not (forall ((ii reg)) (= (ho_3 v ii) (ite (= i ii) e (ho_3 u ii))) )) )) ) 41.35/41.60 ( (ho_2 k_1 spain), true, catalunya ) 41.35/41.60 ( (ho_2 k_1 spain), true, france ) 41.35/41.60 ( (ho_2 k_1 spain), true, skv_10 ) 41.35/41.60 ( (ho_2 k_1 spain), true, skv_11 ) 41.35/41.60 ( (ho_2 k_1 spain), true, skv_36 ) 41.35/41.60 ( (ho_2 k_1 spain), true, skv_38 ) 41.35/41.60 ( (ho_2 k_1 spain), true, skv_43 ) 41.35/41.60 ( (ho_2 k_1 spain), true, skv_142 ) 41.35/41.60 ( (ho_2 k_1 spain), false, catalunya ) 41.35/41.60 ( (ho_2 k_1 spain), false, france ) 41.35/41.60 ( (ho_2 k_1 spain), false, skv_10 ) 41.35/41.60 ( (ho_2 k_1 spain), false, skv_11 ) 41.35/41.60 ( (ho_2 k_1 spain), false, skv_36 ) 41.35/41.60 ( (ho_2 k_1 spain), false, skv_38 ) 41.35/41.60 ( (ho_2 k_1 spain), false, skv_43 ) 41.35/41.60 ( (ho_2 k_1 spain), false, skv_142 ) 41.35/41.60 ( (ho_2 k_1 skv_10), true, catalunya ) 41.35/41.60 ( (ho_2 k_1 skv_10), true, france ) 41.35/41.60 ( (ho_2 k_1 skv_10), true, skv_10 ) 41.35/41.60 ( (ho_2 k_1 skv_10), true, skv_11 ) 41.35/41.60 ( (ho_2 k_1 skv_10), true, skv_36 ) 41.35/41.60 ( (ho_2 k_1 skv_10), true, skv_38 ) 41.35/41.60 ( (ho_2 k_1 skv_10), true, skv_43 ) 41.35/41.60 ( (ho_2 k_1 skv_10), true, skv_142 ) 41.35/41.60 ( (ho_2 k_1 skv_10), false, catalunya ) 41.35/41.60 ( (ho_2 k_1 skv_10), false, france ) 41.35/41.60 ( (ho_2 k_1 skv_10), false, skv_10 ) 41.35/41.60 ( (ho_2 k_1 skv_10), false, skv_11 ) 41.35/41.60 ( (ho_2 k_1 skv_10), false, skv_36 ) 41.35/41.60 ( (ho_2 k_1 skv_10), false, skv_38 ) 41.35/41.60 ( (ho_2 k_1 skv_10), false, skv_43 ) 41.35/41.60 ( (ho_2 k_1 skv_10), false, skv_142 ) 41.35/41.60 ( (ho_2 k_1 skv_11), true, catalunya ) 41.35/41.60 ( (ho_2 k_1 skv_11), true, france ) 41.35/41.60 ( (ho_2 k_1 skv_11), true, skv_10 ) 41.35/41.60 ( (ho_2 k_1 skv_11), true, skv_11 ) 41.35/41.60 ( (ho_2 k_1 skv_11), true, skv_36 ) 41.35/41.60 ( (ho_2 k_1 skv_11), true, skv_38 ) 41.35/41.60 ( (ho_2 k_1 skv_11), true, skv_43 ) 41.35/41.60 ( (ho_2 k_1 skv_11), true, skv_142 ) 41.35/41.60 ( (ho_2 k_1 skv_11), false, catalunya ) 41.35/41.60 ( (ho_2 k_1 skv_11), false, france ) 41.35/41.60 ( (ho_2 k_1 skv_11), false, skv_10 ) 41.35/41.60 ( (ho_2 k_1 skv_11), false, skv_11 ) 41.35/41.60 ( (ho_2 k_1 skv_11), false, skv_36 ) 41.35/41.60 ( (ho_2 k_1 skv_11), false, skv_38 ) 41.35/41.60 ( (ho_2 k_1 skv_11), false, skv_43 ) 41.35/41.60 ( (ho_2 k_1 skv_11), false, skv_142 ) 41.35/41.60 ( skv_18, true, catalunya ) 41.35/41.60 ( skv_18, true, france ) 41.35/41.60 ( skv_18, true, skv_10 ) 41.35/41.60 ( skv_18, true, skv_11 ) 41.35/41.60 ( skv_18, true, skv_36 ) 41.35/41.60 ( skv_18, true, skv_38 ) 41.35/41.60 ( skv_18, true, skv_43 ) 41.35/41.60 ( skv_18, true, skv_142 ) 41.35/41.60 ( skv_18, false, catalunya ) 41.35/41.60 ( skv_18, false, france ) 41.35/41.60 ( skv_18, false, skv_10 ) 41.35/41.60 ( skv_18, false, skv_11 ) 41.35/41.60 ( skv_18, false, skv_36 ) 41.35/41.60 ( skv_18, false, skv_38 ) 41.35/41.60 ( skv_18, false, skv_43 ) 41.35/41.60 ( skv_18, false, skv_142 ) 41.35/41.60 ( skv_19, true, catalunya ) 41.35/41.60 ( skv_19, true, france ) 41.35/41.60 ( skv_19, true, skv_10 ) 41.35/41.60 ( skv_19, true, skv_11 ) 41.35/41.60 ( skv_19, true, skv_36 ) 41.35/41.60 ( skv_19, true, skv_38 ) 41.35/41.60 ( skv_19, true, skv_43 ) 41.35/41.60 ( skv_19, true, skv_142 ) 41.35/41.60 ( skv_19, false, catalunya ) 41.35/41.60 ( skv_19, false, france ) 41.35/41.60 ( skv_19, false, skv_10 ) 41.35/41.60 ( skv_19, false, skv_11 ) 41.35/41.60 ( skv_19, false, skv_36 ) 41.35/41.60 ( skv_19, false, skv_38 ) 41.35/41.60 ( skv_19, false, skv_43 ) 41.35/41.60 ( skv_19, false, skv_142 ) 41.35/41.60 ( skv_20, true, catalunya ) 41.35/41.60 ( skv_20, true, france ) 41.35/41.60 ( skv_20, true, skv_10 ) 41.35/41.60 ( skv_20, true, skv_11 ) 41.35/41.60 ( skv_20, true, skv_36 ) 41.35/41.60 ( skv_20, true, skv_38 ) 41.35/41.60 ( skv_20, true, skv_43 ) 41.35/41.60 ( skv_20, true, skv_142 ) 41.35/41.60 ( skv_20, false, catalunya ) 41.35/41.60 ( skv_20, false, france ) 41.35/41.60 ( skv_20, false, skv_10 ) 41.35/41.60 ( skv_20, false, skv_11 ) 41.35/41.60 ( skv_20, false, skv_36 ) 41.35/41.60 ( skv_20, false, skv_38 ) 41.35/41.60 ( skv_20, false, skv_43 ) 41.35/41.60 ( skv_20, false, skv_142 ) 41.35/41.60 ( skv_24, true, catalunya ) 41.35/41.60 ( skv_24, true, france ) 41.35/41.60 ( skv_24, true, skv_10 ) 41.35/41.60 ( skv_24, true, skv_11 ) 41.35/41.60 ( skv_24, true, skv_36 ) 41.35/41.60 ( skv_24, true, skv_38 ) 41.35/41.60 ( skv_24, true, skv_43 ) 41.35/41.60 ( skv_24, true, skv_142 ) 41.35/41.60 ( skv_24, false, catalunya ) 41.35/41.60 ( skv_24, false, france ) 41.35/41.60 ( skv_24, false, skv_10 ) 41.35/41.60 ( skv_24, false, skv_11 ) 41.35/41.60 ( skv_24, false, skv_36 ) 41.35/41.60 ( skv_24, false, skv_38 ) 41.35/41.60 ( skv_24, false, skv_43 ) 41.35/41.60 ( skv_24, false, skv_142 ) 41.35/41.60 ( skv_25, true, catalunya ) 41.35/41.60 ( skv_25, true, france ) 41.35/41.60 ( skv_25, true, skv_10 ) 41.35/41.60 ( skv_25, true, skv_11 ) 41.35/41.60 ( skv_25, true, skv_36 ) 41.35/41.60 ( skv_25, true, skv_38 ) 41.35/41.60 ( skv_25, true, skv_43 ) 41.35/41.60 ( skv_25, true, skv_142 ) 41.35/41.60 ( skv_25, false, catalunya ) 41.35/41.60 ( skv_25, false, france ) 41.35/41.60 ( skv_25, false, skv_10 ) 41.35/41.60 ( skv_25, false, skv_11 ) 41.35/41.60 ( skv_25, false, skv_36 ) 41.35/41.60 ( skv_25, false, skv_38 ) 41.35/41.60 ( skv_25, false, skv_43 ) 41.35/41.60 ( skv_25, false, skv_142 ) 41.35/41.60 ( skv_26, true, catalunya ) 41.35/41.60 ( skv_26, true, france ) 41.35/41.60 ( skv_26, true, skv_10 ) 41.35/41.60 ( skv_26, true, skv_11 ) 41.35/41.60 ( skv_26, true, skv_36 ) 41.35/41.60 ( skv_26, true, skv_38 ) 41.35/41.60 ( skv_26, true, skv_43 ) 41.35/41.60 ( skv_26, true, skv_142 ) 41.35/41.60 ( skv_26, false, catalunya ) 41.35/41.60 ( skv_26, false, france ) 41.35/41.60 ( skv_26, false, skv_10 ) 41.35/41.60 ( skv_26, false, skv_11 ) 41.35/41.60 ( skv_26, false, skv_36 ) 41.35/41.60 ( skv_26, false, skv_38 ) 41.35/41.60 ( skv_26, false, skv_43 ) 41.35/41.60 ( skv_26, false, skv_142 ) 41.35/41.60 ( (ho_2 k_1 skv_36), true, catalunya ) 41.35/41.60 ( (ho_2 k_1 skv_36), true, france ) 41.35/41.60 ( (ho_2 k_1 skv_36), true, skv_10 ) 41.35/41.60 ( (ho_2 k_1 skv_36), true, skv_11 ) 41.35/41.60 ( (ho_2 k_1 skv_36), true, skv_36 ) 41.35/41.60 ( (ho_2 k_1 skv_36), true, skv_38 ) 41.35/41.60 ( (ho_2 k_1 skv_36), true, skv_43 ) 41.35/41.60 ( (ho_2 k_1 skv_36), true, skv_142 ) 41.35/41.60 ( (ho_2 k_1 skv_36), false, catalunya ) 41.35/41.60 ( (ho_2 k_1 skv_36), false, france ) 41.35/41.60 ( (ho_2 k_1 skv_36), false, skv_10 ) 41.35/41.60 ( (ho_2 k_1 skv_36), false, skv_11 ) 41.35/41.60 ( (ho_2 k_1 skv_36), false, skv_36 ) 41.35/41.60 ( (ho_2 k_1 skv_36), false, skv_38 ) 41.35/41.60 ( (ho_2 k_1 skv_36), false, skv_43 ) 41.35/41.60 ( (ho_2 k_1 skv_36), false, skv_142 ) 41.35/41.60 ( (ho_2 k_1 skv_38), true, catalunya ) 41.35/41.60 ( (ho_2 k_1 skv_38), true, france ) 41.35/41.60 ( (ho_2 k_1 skv_38), true, skv_10 ) 41.35/41.60 ( (ho_2 k_1 skv_38), true, skv_11 ) 41.35/41.60 ( (ho_2 k_1 skv_38), true, skv_36 ) 41.35/41.60 ( (ho_2 k_1 skv_38), true, skv_38 ) 41.35/41.60 ( (ho_2 k_1 skv_38), true, skv_43 ) 41.35/41.60 ( (ho_2 k_1 skv_38), true, skv_142 ) 41.35/41.60 ( (ho_2 k_1 skv_38), false, catalunya ) 41.35/41.60 ( (ho_2 k_1 skv_38), false, france ) 41.35/41.60 ( (ho_2 k_1 skv_38), false, skv_10 ) 41.35/41.60 ( (ho_2 k_1 skv_38), false, skv_11 ) 41.35/41.60 ( (ho_2 k_1 skv_38), false, skv_36 ) 41.35/41.60 ( (ho_2 k_1 skv_38), false, skv_38 ) 41.35/41.60 ( (ho_2 k_1 skv_38), false, skv_43 ) 41.35/41.60 ( (ho_2 k_1 skv_38), false, skv_142 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), true, catalunya ) 41.35/41.60 ( (ho_2 skv_31 catalunya), true, france ) 41.35/41.60 ( (ho_2 skv_31 catalunya), true, skv_10 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), true, skv_11 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), true, skv_36 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), true, skv_38 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), true, skv_43 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), true, skv_142 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), false, catalunya ) 41.35/41.60 ( (ho_2 skv_31 catalunya), false, france ) 41.35/41.60 ( (ho_2 skv_31 catalunya), false, skv_10 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), false, skv_11 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), false, skv_36 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), false, skv_38 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), false, skv_43 ) 41.35/41.60 ( (ho_2 skv_31 catalunya), false, skv_142 ) 41.35/41.60 ( (ho_2 k_1 skv_147), true, catalunya ) 41.35/41.60 ( (ho_2 k_1 skv_147), true, france ) 41.35/41.60 ( (ho_2 k_1 skv_147), true, skv_10 ) 41.35/41.60 ( (ho_2 k_1 skv_147), true, skv_11 ) 41.35/41.60 ( (ho_2 k_1 skv_147), true, skv_36 ) 41.35/41.60 ( (ho_2 k_1 skv_147), true, skv_38 ) 41.35/41.60 ( (ho_2 k_1 skv_147), true, skv_43 ) 41.35/41.60 ( (ho_2 k_1 skv_147), true, skv_142 ) 41.35/41.60 ( (ho_2 k_1 skv_147), false, catalunya ) 41.35/41.60 ( (ho_2 k_1 skv_147), false, france ) 41.35/41.60 ( (ho_2 k_1 skv_147), false, skv_10 ) 41.35/41.60 ( (ho_2 k_1 skv_147), false, skv_11 ) 41.35/41.60 ( (ho_2 k_1 skv_147), false, skv_36 ) 41.35/41.60 ( (ho_2 k_1 skv_147), false, skv_38 ) 41.35/41.60 ( (ho_2 k_1 skv_147), false, skv_43 ) 41.35/41.60 ( (ho_2 k_1 skv_147), false, skv_142 ) 41.35/41.60 ) 41.42/41.60 (instantiation (forall ((u |u_(-> reg reg Bool)|) (e |u_(-> reg Bool)|) (i reg)) (not (forall ((v |u_(-> reg reg Bool)|)) (not (forall ((ii reg)) (= (ho_2 v ii) (ite (= i ii) e (ho_2 u ii))) )) )) ) 41.42/41.60 ( k_1, (ho_2 k_1 spain), catalunya ) 41.42/41.60 ( k_1, (ho_2 k_1 spain), france ) 41.42/41.60 ( k_1, (ho_2 k_1 spain), skv_10 ) 41.42/41.60 ( k_1, (ho_2 k_1 spain), skv_11 ) 41.42/41.60 ( k_1, (ho_2 k_1 spain), skv_36 ) 41.42/41.60 ( k_1, (ho_2 k_1 spain), skv_38 ) 41.42/41.60 ( k_1, (ho_2 k_1 spain), skv_43 ) 41.42/41.60 ( k_1, (ho_2 k_1 spain), skv_142 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_10), catalunya ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_10), france ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_10), skv_10 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_10), skv_11 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_10), skv_36 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_10), skv_38 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_10), skv_43 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_10), skv_142 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_11), catalunya ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_11), france ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_11), skv_10 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_11), skv_11 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_11), skv_36 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_11), skv_38 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_11), skv_43 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_11), skv_142 ) 41.42/41.60 ( k_1, skv_18, catalunya ) 41.42/41.60 ( k_1, skv_18, france ) 41.42/41.60 ( k_1, skv_18, skv_10 ) 41.42/41.60 ( k_1, skv_18, skv_11 ) 41.42/41.60 ( k_1, skv_18, skv_36 ) 41.42/41.60 ( k_1, skv_18, skv_38 ) 41.42/41.60 ( k_1, skv_18, skv_43 ) 41.42/41.60 ( k_1, skv_18, skv_142 ) 41.42/41.60 ( k_1, skv_19, catalunya ) 41.42/41.60 ( k_1, skv_19, france ) 41.42/41.60 ( k_1, skv_19, skv_10 ) 41.42/41.60 ( k_1, skv_19, skv_11 ) 41.42/41.60 ( k_1, skv_19, skv_36 ) 41.42/41.60 ( k_1, skv_19, skv_38 ) 41.42/41.60 ( k_1, skv_19, skv_43 ) 41.42/41.60 ( k_1, skv_19, skv_142 ) 41.42/41.60 ( k_1, skv_20, catalunya ) 41.42/41.60 ( k_1, skv_20, france ) 41.42/41.60 ( k_1, skv_20, skv_10 ) 41.42/41.60 ( k_1, skv_20, skv_11 ) 41.42/41.60 ( k_1, skv_20, skv_36 ) 41.42/41.60 ( k_1, skv_20, skv_38 ) 41.42/41.60 ( k_1, skv_20, skv_43 ) 41.42/41.60 ( k_1, skv_20, skv_142 ) 41.42/41.60 ( k_1, skv_24, catalunya ) 41.42/41.60 ( k_1, skv_24, france ) 41.42/41.60 ( k_1, skv_24, skv_10 ) 41.42/41.60 ( k_1, skv_24, skv_11 ) 41.42/41.60 ( k_1, skv_24, skv_36 ) 41.42/41.60 ( k_1, skv_24, skv_38 ) 41.42/41.60 ( k_1, skv_24, skv_43 ) 41.42/41.60 ( k_1, skv_24, skv_142 ) 41.42/41.60 ( k_1, skv_25, catalunya ) 41.42/41.60 ( k_1, skv_25, france ) 41.42/41.60 ( k_1, skv_25, skv_10 ) 41.42/41.60 ( k_1, skv_25, skv_11 ) 41.42/41.60 ( k_1, skv_25, skv_36 ) 41.42/41.60 ( k_1, skv_25, skv_38 ) 41.42/41.60 ( k_1, skv_25, skv_43 ) 41.42/41.60 ( k_1, skv_25, skv_142 ) 41.42/41.60 ( k_1, skv_26, catalunya ) 41.42/41.60 ( k_1, skv_26, france ) 41.42/41.60 ( k_1, skv_26, skv_10 ) 41.42/41.60 ( k_1, skv_26, skv_11 ) 41.42/41.60 ( k_1, skv_26, skv_36 ) 41.42/41.60 ( k_1, skv_26, skv_38 ) 41.42/41.60 ( k_1, skv_26, skv_43 ) 41.42/41.60 ( k_1, skv_26, skv_142 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_36), catalunya ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_36), france ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_36), skv_10 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_36), skv_11 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_36), skv_36 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_36), skv_38 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_36), skv_43 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_36), skv_142 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_38), catalunya ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_38), france ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_38), skv_10 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_38), skv_11 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_38), skv_36 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_38), skv_38 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_38), skv_43 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_38), skv_142 ) 41.42/41.60 ( k_1, (ho_2 skv_31 catalunya), catalunya ) 41.42/41.60 ( k_1, (ho_2 skv_31 catalunya), france ) 41.42/41.60 ( k_1, (ho_2 skv_31 catalunya), skv_10 ) 41.42/41.60 ( k_1, (ho_2 skv_31 catalunya), skv_11 ) 41.42/41.60 ( k_1, (ho_2 skv_31 catalunya), skv_36 ) 41.42/41.60 ( k_1, (ho_2 skv_31 catalunya), skv_38 ) 41.42/41.60 ( k_1, (ho_2 skv_31 catalunya), skv_43 ) 41.42/41.60 ( k_1, (ho_2 skv_31 catalunya), skv_142 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_147), catalunya ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_147), france ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_147), skv_10 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_147), skv_11 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_147), skv_36 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_147), skv_38 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_147), skv_43 ) 41.42/41.60 ( k_1, (ho_2 k_1 skv_147), skv_142 ) 41.42/41.60 ( skv_30, (ho_2 k_1 spain), catalunya ) 41.42/41.60 ( skv_30, (ho_2 k_1 spain), france ) 41.42/41.60 ( skv_30, (ho_2 k_1 spain), skv_10 ) 41.42/41.60 ( skv_30, (ho_2 k_1 spain), skv_11 ) 41.42/41.60 ( skv_30, (ho_2 k_1 spain), skv_36 ) 41.42/41.60 ( skv_30, (ho_2 k_1 spain), skv_38 ) 41.42/41.60 ( skv_30, (ho_2 k_1 spain), skv_43 ) 41.42/41.60 ( skv_30, (ho_2 k_1 spain), skv_142 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_10), catalunya ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_10), france ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_10), skv_10 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_10), skv_11 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_10), skv_36 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_10), skv_38 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_10), skv_43 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_10), skv_142 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_11), catalunya ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_11), france ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_11), skv_10 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_11), skv_11 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_11), skv_36 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_11), skv_38 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_11), skv_43 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_11), skv_142 ) 41.42/41.60 ( skv_30, skv_18, catalunya ) 41.42/41.60 ( skv_30, skv_18, france ) 41.42/41.60 ( skv_30, skv_18, skv_10 ) 41.42/41.60 ( skv_30, skv_18, skv_11 ) 41.42/41.60 ( skv_30, skv_18, skv_36 ) 41.42/41.60 ( skv_30, skv_18, skv_38 ) 41.42/41.60 ( skv_30, skv_18, skv_43 ) 41.42/41.60 ( skv_30, skv_18, skv_142 ) 41.42/41.60 ( skv_30, skv_19, catalunya ) 41.42/41.60 ( skv_30, skv_19, france ) 41.42/41.60 ( skv_30, skv_19, skv_10 ) 41.42/41.60 ( skv_30, skv_19, skv_11 ) 41.42/41.60 ( skv_30, skv_19, skv_36 ) 41.42/41.60 ( skv_30, skv_19, skv_38 ) 41.42/41.60 ( skv_30, skv_19, skv_43 ) 41.42/41.60 ( skv_30, skv_19, skv_142 ) 41.42/41.60 ( skv_30, skv_20, catalunya ) 41.42/41.60 ( skv_30, skv_20, france ) 41.42/41.60 ( skv_30, skv_20, skv_10 ) 41.42/41.60 ( skv_30, skv_20, skv_11 ) 41.42/41.60 ( skv_30, skv_20, skv_36 ) 41.42/41.60 ( skv_30, skv_20, skv_38 ) 41.42/41.60 ( skv_30, skv_20, skv_43 ) 41.42/41.60 ( skv_30, skv_20, skv_142 ) 41.42/41.60 ( skv_30, skv_24, catalunya ) 41.42/41.60 ( skv_30, skv_24, france ) 41.42/41.60 ( skv_30, skv_24, skv_10 ) 41.42/41.60 ( skv_30, skv_24, skv_11 ) 41.42/41.60 ( skv_30, skv_24, skv_36 ) 41.42/41.60 ( skv_30, skv_24, skv_38 ) 41.42/41.60 ( skv_30, skv_24, skv_43 ) 41.42/41.60 ( skv_30, skv_24, skv_142 ) 41.42/41.60 ( skv_30, skv_25, catalunya ) 41.42/41.60 ( skv_30, skv_25, france ) 41.42/41.60 ( skv_30, skv_25, skv_10 ) 41.42/41.60 ( skv_30, skv_25, skv_11 ) 41.42/41.60 ( skv_30, skv_25, skv_36 ) 41.42/41.60 ( skv_30, skv_25, skv_38 ) 41.42/41.60 ( skv_30, skv_25, skv_43 ) 41.42/41.60 ( skv_30, skv_25, skv_142 ) 41.42/41.60 ( skv_30, skv_26, catalunya ) 41.42/41.60 ( skv_30, skv_26, france ) 41.42/41.60 ( skv_30, skv_26, skv_10 ) 41.42/41.60 ( skv_30, skv_26, skv_11 ) 41.42/41.60 ( skv_30, skv_26, skv_36 ) 41.42/41.60 ( skv_30, skv_26, skv_38 ) 41.42/41.60 ( skv_30, skv_26, skv_43 ) 41.42/41.60 ( skv_30, skv_26, skv_142 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_36), catalunya ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_36), france ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_36), skv_10 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_36), skv_11 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_36), skv_36 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_36), skv_38 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_36), skv_43 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_36), skv_142 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_38), catalunya ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_38), france ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_38), skv_10 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_38), skv_11 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_38), skv_36 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_38), skv_38 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_38), skv_43 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_38), skv_142 ) 41.42/41.60 ( skv_30, (ho_2 skv_31 catalunya), catalunya ) 41.42/41.60 ( skv_30, (ho_2 skv_31 catalunya), france ) 41.42/41.60 ( skv_30, (ho_2 skv_31 catalunya), skv_10 ) 41.42/41.60 ( skv_30, (ho_2 skv_31 catalunya), skv_11 ) 41.42/41.60 ( skv_30, (ho_2 skv_31 catalunya), skv_36 ) 41.42/41.60 ( skv_30, (ho_2 skv_31 catalunya), skv_38 ) 41.42/41.60 ( skv_30, (ho_2 skv_31 catalunya), skv_43 ) 41.42/41.60 ( skv_30, (ho_2 skv_31 catalunya), skv_142 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_147), catalunya ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_147), france ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_147), skv_10 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_147), skv_11 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_147), skv_36 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_147), skv_38 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_147), skv_43 ) 41.42/41.60 ( skv_30, (ho_2 k_1 skv_147), skv_142 ) 41.42/41.60 ( skv_31, (ho_2 k_1 spain), catalunya ) 41.42/41.60 ( skv_31, (ho_2 k_1 spain), france ) 41.42/41.60 ( skv_31, (ho_2 k_1 spain), skv_10 ) 41.42/41.60 ( skv_31, (ho_2 k_1 spain), skv_11 ) 41.42/41.60 ( skv_31, (ho_2 k_1 spain), skv_36 ) 41.42/41.60 ( skv_31, (ho_2 k_1 spain), skv_38 ) 41.42/41.60 ( skv_31, (ho_2 k_1 spain), skv_43 ) 41.42/41.60 ( skv_31, (ho_2 k_1 spain), skv_142 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_10), catalunya ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_10), france ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_10), skv_10 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_10), skv_11 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_10), skv_36 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_10), skv_38 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_10), skv_43 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_10), skv_142 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_11), catalunya ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_11), france ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_11), skv_10 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_11), skv_11 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_11), skv_36 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_11), skv_38 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_11), skv_43 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_11), skv_142 ) 41.42/41.60 ( skv_31, skv_18, catalunya ) 41.42/41.60 ( skv_31, skv_18, france ) 41.42/41.60 ( skv_31, skv_18, skv_10 ) 41.42/41.60 ( skv_31, skv_18, skv_11 ) 41.42/41.60 ( skv_31, skv_18, skv_36 ) 41.42/41.60 ( skv_31, skv_18, skv_38 ) 41.42/41.60 ( skv_31, skv_18, skv_43 ) 41.42/41.60 ( skv_31, skv_18, skv_142 ) 41.42/41.60 ( skv_31, skv_19, catalunya ) 41.42/41.60 ( skv_31, skv_19, france ) 41.42/41.60 ( skv_31, skv_19, skv_10 ) 41.42/41.60 ( skv_31, skv_19, skv_11 ) 41.42/41.60 ( skv_31, skv_19, skv_36 ) 41.42/41.60 ( skv_31, skv_19, skv_38 ) 41.42/41.60 ( skv_31, skv_19, skv_43 ) 41.42/41.60 ( skv_31, skv_19, skv_142 ) 41.42/41.60 ( skv_31, skv_20, catalunya ) 41.42/41.60 ( skv_31, skv_20, france ) 41.42/41.60 ( skv_31, skv_20, skv_10 ) 41.42/41.60 ( skv_31, skv_20, skv_11 ) 41.42/41.60 ( skv_31, skv_20, skv_36 ) 41.42/41.60 ( skv_31, skv_20, skv_38 ) 41.42/41.60 ( skv_31, skv_20, skv_43 ) 41.42/41.60 ( skv_31, skv_20, skv_142 ) 41.42/41.60 ( skv_31, skv_24, catalunya ) 41.42/41.60 ( skv_31, skv_24, france ) 41.42/41.60 ( skv_31, skv_24, skv_10 ) 41.42/41.60 ( skv_31, skv_24, skv_11 ) 41.42/41.60 ( skv_31, skv_24, skv_36 ) 41.42/41.60 ( skv_31, skv_24, skv_38 ) 41.42/41.60 ( skv_31, skv_24, skv_43 ) 41.42/41.60 ( skv_31, skv_24, skv_142 ) 41.42/41.60 ( skv_31, skv_25, catalunya ) 41.42/41.60 ( skv_31, skv_25, france ) 41.42/41.60 ( skv_31, skv_25, skv_10 ) 41.42/41.60 ( skv_31, skv_25, skv_11 ) 41.42/41.60 ( skv_31, skv_25, skv_36 ) 41.42/41.60 ( skv_31, skv_25, skv_38 ) 41.42/41.60 ( skv_31, skv_25, skv_43 ) 41.42/41.60 ( skv_31, skv_25, skv_142 ) 41.42/41.60 ( skv_31, skv_26, catalunya ) 41.42/41.60 ( skv_31, skv_26, france ) 41.42/41.60 ( skv_31, skv_26, skv_10 ) 41.42/41.60 ( skv_31, skv_26, skv_11 ) 41.42/41.60 ( skv_31, skv_26, skv_36 ) 41.42/41.60 ( skv_31, skv_26, skv_38 ) 41.42/41.60 ( skv_31, skv_26, skv_43 ) 41.42/41.60 ( skv_31, skv_26, skv_142 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_36), catalunya ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_36), france ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_36), skv_10 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_36), skv_11 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_36), skv_36 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_36), skv_38 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_36), skv_43 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_36), skv_142 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_38), catalunya ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_38), france ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_38), skv_10 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_38), skv_11 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_38), skv_36 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_38), skv_38 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_38), skv_43 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_38), skv_142 ) 41.42/41.60 ( skv_31, (ho_2 skv_31 catalunya), catalunya ) 41.42/41.60 ( skv_31, (ho_2 skv_31 catalunya), france ) 41.42/41.60 ( skv_31, (ho_2 skv_31 catalunya), skv_10 ) 41.42/41.60 ( skv_31, (ho_2 skv_31 catalunya), skv_11 ) 41.42/41.60 ( skv_31, (ho_2 skv_31 catalunya), skv_36 ) 41.42/41.60 ( skv_31, (ho_2 skv_31 catalunya), skv_38 ) 41.42/41.60 ( skv_31, (ho_2 skv_31 catalunya), skv_43 ) 41.42/41.60 ( skv_31, (ho_2 skv_31 catalunya), skv_142 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_147), catalunya ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_147), france ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_147), skv_10 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_147), skv_11 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_147), skv_36 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_147), skv_38 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_147), skv_43 ) 41.42/41.60 ( skv_31, (ho_2 k_1 skv_147), skv_142 ) 41.42/41.60 ( skv_33, (ho_2 k_1 spain), catalunya ) 41.42/41.60 ( skv_33, (ho_2 k_1 spain), france ) 41.42/41.60 ( skv_33, (ho_2 k_1 spain), skv_10 ) 41.42/41.60 ( skv_33, (ho_2 k_1 spain), skv_11 ) 41.42/41.60 ( skv_33, (ho_2 k_1 spain), skv_36 ) 41.42/41.60 ( skv_33, (ho_2 k_1 spain), skv_38 ) 41.42/41.60 ( skv_33, (ho_2 k_1 spain), skv_43 ) 41.42/41.60 ( skv_33, (ho_2 k_1 spain), skv_142 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_10), catalunya ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_10), france ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_10), skv_10 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_10), skv_11 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_10), skv_36 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_10), skv_38 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_10), skv_43 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_10), skv_142 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_11), catalunya ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_11), france ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_11), skv_10 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_11), skv_11 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_11), skv_36 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_11), skv_38 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_11), skv_43 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_11), skv_142 ) 41.42/41.60 ( skv_33, skv_18, catalunya ) 41.42/41.60 ( skv_33, skv_18, france ) 41.42/41.60 ( skv_33, skv_18, skv_10 ) 41.42/41.60 ( skv_33, skv_18, skv_11 ) 41.42/41.60 ( skv_33, skv_18, skv_36 ) 41.42/41.60 ( skv_33, skv_18, skv_38 ) 41.42/41.60 ( skv_33, skv_18, skv_43 ) 41.42/41.60 ( skv_33, skv_18, skv_142 ) 41.42/41.60 ( skv_33, skv_19, catalunya ) 41.42/41.60 ( skv_33, skv_19, france ) 41.42/41.60 ( skv_33, skv_19, skv_10 ) 41.42/41.60 ( skv_33, skv_19, skv_11 ) 41.42/41.60 ( skv_33, skv_19, skv_36 ) 41.42/41.60 ( skv_33, skv_19, skv_38 ) 41.42/41.60 ( skv_33, skv_19, skv_43 ) 41.42/41.60 ( skv_33, skv_19, skv_142 ) 41.42/41.60 ( skv_33, skv_20, catalunya ) 41.42/41.60 ( skv_33, skv_20, france ) 41.42/41.60 ( skv_33, skv_20, skv_10 ) 41.42/41.60 ( skv_33, skv_20, skv_11 ) 41.42/41.60 ( skv_33, skv_20, skv_36 ) 41.42/41.60 ( skv_33, skv_20, skv_38 ) 41.42/41.60 ( skv_33, skv_20, skv_43 ) 41.42/41.60 ( skv_33, skv_20, skv_142 ) 41.42/41.60 ( skv_33, skv_24, catalunya ) 41.42/41.60 ( skv_33, skv_24, france ) 41.42/41.60 ( skv_33, skv_24, skv_10 ) 41.42/41.60 ( skv_33, skv_24, skv_11 ) 41.42/41.60 ( skv_33, skv_24, skv_36 ) 41.42/41.60 ( skv_33, skv_24, skv_38 ) 41.42/41.60 ( skv_33, skv_24, skv_43 ) 41.42/41.60 ( skv_33, skv_24, skv_142 ) 41.42/41.60 ( skv_33, skv_25, catalunya ) 41.42/41.60 ( skv_33, skv_25, france ) 41.42/41.60 ( skv_33, skv_25, skv_10 ) 41.42/41.60 ( skv_33, skv_25, skv_11 ) 41.42/41.60 ( skv_33, skv_25, skv_36 ) 41.42/41.60 ( skv_33, skv_25, skv_38 ) 41.42/41.60 ( skv_33, skv_25, skv_43 ) 41.42/41.60 ( skv_33, skv_25, skv_142 ) 41.42/41.60 ( skv_33, skv_26, catalunya ) 41.42/41.60 ( skv_33, skv_26, france ) 41.42/41.60 ( skv_33, skv_26, skv_10 ) 41.42/41.60 ( skv_33, skv_26, skv_11 ) 41.42/41.60 ( skv_33, skv_26, skv_36 ) 41.42/41.60 ( skv_33, skv_26, skv_38 ) 41.42/41.60 ( skv_33, skv_26, skv_43 ) 41.42/41.60 ( skv_33, skv_26, skv_142 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_36), catalunya ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_36), france ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_36), skv_10 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_36), skv_11 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_36), skv_36 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_36), skv_38 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_36), skv_43 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_36), skv_142 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_38), catalunya ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_38), france ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_38), skv_10 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_38), skv_11 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_38), skv_36 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_38), skv_38 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_38), skv_43 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_38), skv_142 ) 41.42/41.60 ( skv_33, (ho_2 skv_31 catalunya), catalunya ) 41.42/41.60 ( skv_33, (ho_2 skv_31 catalunya), france ) 41.42/41.60 ( skv_33, (ho_2 skv_31 catalunya), skv_10 ) 41.42/41.60 ( skv_33, (ho_2 skv_31 catalunya), skv_11 ) 41.42/41.60 ( skv_33, (ho_2 skv_31 catalunya), skv_36 ) 41.42/41.60 ( skv_33, (ho_2 skv_31 catalunya), skv_38 ) 41.42/41.60 ( skv_33, (ho_2 skv_31 catalunya), skv_43 ) 41.42/41.60 ( skv_33, (ho_2 skv_31 catalunya), skv_142 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_147), catalunya ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_147), france ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_147), skv_10 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_147), skv_11 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_147), skv_36 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_147), skv_38 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_147), skv_43 ) 41.42/41.60 ( skv_33, (ho_2 k_1 skv_147), skv_142 ) 41.42/41.60 ( skv_35, (ho_2 k_1 spain), catalunya ) 41.42/41.60 ( skv_35, (ho_2 k_1 spain), france ) 41.42/41.60 ( skv_35, (ho_2 k_1 spain), skv_10 ) 41.42/41.60 ( skv_35, (ho_2 k_1 spain), skv_11 ) 41.42/41.60 ( skv_35, (ho_2 k_1 spain), skv_36 ) 41.42/41.60 ( skv_35, (ho_2 k_1 spain), skv_38 ) 41.42/41.60 ( skv_35, (ho_2 k_1 spain), skv_43 ) 41.42/41.60 ( skv_35, (ho_2 k_1 spain), skv_142 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_10), catalunya ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_10), france ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_10), skv_10 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_10), skv_11 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_10), skv_36 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_10), skv_38 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_10), skv_43 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_10), skv_142 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_11), catalunya ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_11), france ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_11), skv_10 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_11), skv_11 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_11), skv_36 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_11), skv_38 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_11), skv_43 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_11), skv_142 ) 41.42/41.60 ( skv_35, skv_18, catalunya ) 41.42/41.60 ( skv_35, skv_18, france ) 41.42/41.60 ( skv_35, skv_18, skv_10 ) 41.42/41.60 ( skv_35, skv_18, skv_11 ) 41.42/41.60 ( skv_35, skv_18, skv_36 ) 41.42/41.60 ( skv_35, skv_18, skv_38 ) 41.42/41.60 ( skv_35, skv_18, skv_43 ) 41.42/41.60 ( skv_35, skv_18, skv_142 ) 41.42/41.60 ( skv_35, skv_19, catalunya ) 41.42/41.60 ( skv_35, skv_19, france ) 41.42/41.60 ( skv_35, skv_19, skv_10 ) 41.42/41.60 ( skv_35, skv_19, skv_11 ) 41.42/41.60 ( skv_35, skv_19, skv_36 ) 41.42/41.60 ( skv_35, skv_19, skv_38 ) 41.42/41.60 ( skv_35, skv_19, skv_43 ) 41.42/41.60 ( skv_35, skv_19, skv_142 ) 41.42/41.60 ( skv_35, skv_20, catalunya ) 41.42/41.60 ( skv_35, skv_20, france ) 41.42/41.60 ( skv_35, skv_20, skv_10 ) 41.42/41.60 ( skv_35, skv_20, skv_11 ) 41.42/41.60 ( skv_35, skv_20, skv_36 ) 41.42/41.60 ( skv_35, skv_20, skv_38 ) 41.42/41.60 ( skv_35, skv_20, skv_43 ) 41.42/41.60 ( skv_35, skv_20, skv_142 ) 41.42/41.60 ( skv_35, skv_24, catalunya ) 41.42/41.60 ( skv_35, skv_24, france ) 41.42/41.60 ( skv_35, skv_24, skv_10 ) 41.42/41.60 ( skv_35, skv_24, skv_11 ) 41.42/41.60 ( skv_35, skv_24, skv_36 ) 41.42/41.60 ( skv_35, skv_24, skv_38 ) 41.42/41.60 ( skv_35, skv_24, skv_43 ) 41.42/41.60 ( skv_35, skv_24, skv_142 ) 41.42/41.60 ( skv_35, skv_25, catalunya ) 41.42/41.60 ( skv_35, skv_25, france ) 41.42/41.60 ( skv_35, skv_25, skv_10 ) 41.42/41.60 ( skv_35, skv_25, skv_11 ) 41.42/41.60 ( skv_35, skv_25, skv_36 ) 41.42/41.60 ( skv_35, skv_25, skv_38 ) 41.42/41.60 ( skv_35, skv_25, skv_43 ) 41.42/41.60 ( skv_35, skv_25, skv_142 ) 41.42/41.60 ( skv_35, skv_26, catalunya ) 41.42/41.60 ( skv_35, skv_26, france ) 41.42/41.60 ( skv_35, skv_26, skv_10 ) 41.42/41.60 ( skv_35, skv_26, skv_11 ) 41.42/41.60 ( skv_35, skv_26, skv_36 ) 41.42/41.60 ( skv_35, skv_26, skv_38 ) 41.42/41.60 ( skv_35, skv_26, skv_43 ) 41.42/41.60 ( skv_35, skv_26, skv_142 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_36), catalunya ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_36), france ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_36), skv_10 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_36), skv_11 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_36), skv_36 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_36), skv_38 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_36), skv_43 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_36), skv_142 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_38), catalunya ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_38), france ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_38), skv_10 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_38), skv_11 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_38), skv_36 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_38), skv_38 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_38), skv_43 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_38), skv_142 ) 41.42/41.60 ( skv_35, (ho_2 skv_31 catalunya), catalunya ) 41.42/41.60 ( skv_35, (ho_2 skv_31 catalunya), france ) 41.42/41.60 ( skv_35, (ho_2 skv_31 catalunya), skv_10 ) 41.42/41.60 ( skv_35, (ho_2 skv_31 catalunya), skv_11 ) 41.42/41.60 ( skv_35, (ho_2 skv_31 catalunya), skv_36 ) 41.42/41.60 ( skv_35, (ho_2 skv_31 catalunya), skv_38 ) 41.42/41.60 ( skv_35, (ho_2 skv_31 catalunya), skv_43 ) 41.42/41.60 ( skv_35, (ho_2 skv_31 catalunya), skv_142 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_147), catalunya ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_147), france ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_147), skv_10 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_147), skv_11 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_147), skv_36 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_147), skv_38 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_147), skv_43 ) 41.42/41.60 ( skv_35, (ho_2 k_1 skv_147), skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2993 reg)) (or (not (forall ((BOUND_VARIABLE_3002 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_3002))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2993)) (ho_3 _let_0 skv_11))) )) (not (forall ((BOUND_VARIABLE_2994 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2994))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2993)) (ho_3 _let_0 catalunya))) ))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2970 reg)) (or (not (forall ((BOUND_VARIABLE_2979 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2979))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2970)) (ho_3 _let_0 skv_11))) )) (not (forall ((BOUND_VARIABLE_2971 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2971))) (or (not (ho_3 _let_0 BOUND_VARIABLE_2970)) (ho_3 _let_0 spain))) ))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((z reg)) (= (ho_3 (ho_2 k_1 spain) z) (ho_3 (ho_2 k_1 skv_11) z)) ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2994 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2994))) (or (not (ho_3 _let_0 france)) (ho_3 _let_0 catalunya))) ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2971 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2971))) (or (not (ho_3 _let_0 france)) (ho_3 _let_0 spain))) ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2308 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2308))) (or (not (ho_3 _let_0 catalunya)) (ho_3 _let_0 france))) ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii $$unsorted)) (= (ite (= ii skv_8) (ho_6 k_5 skv_8) (ho_6 k_5 ii)) (ho_6 skv_15 ii)) ) 41.42/41.60 ( skv_8 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii $$unsorted)) (= (ho_4 skv_16 ii) (ite (= ii skv_8) false (ho_4 (ho_6 k_5 skv_8) ii))) ) 41.42/41.60 ( skv_8 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii $$unsorted)) (= (ho_4 skv_17 ii) (ite (= ii skv_8) true (ho_4 (ho_6 k_5 skv_8) ii))) ) 41.42/41.60 ( skv_8 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_18 ii) (ite (= catalunya ii) false (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_19 ii) (ite (= ii skv_11) false (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_20 ii) (ite (= france ii) false (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_21 ii) (ite (= catalunya ii) true (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_22 ii) (ite (= ii skv_11) true (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_23 ii) (ite (= france ii) true (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_24 ii) (ite (= catalunya ii) false (ho_3 (ho_2 k_1 skv_11) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_25 ii) (ite (= ii skv_11) false (ho_3 (ho_2 k_1 skv_11) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_26 ii) (ite (= france ii) false (ho_3 (ho_2 k_1 skv_11) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_27 ii) (ite (= catalunya ii) true (ho_3 (ho_2 k_1 skv_11) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_28 ii) (ite (= ii skv_11) true (ho_3 (ho_2 k_1 skv_11) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_29 ii) (ite (= france ii) true (ho_3 (ho_2 k_1 skv_11) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= catalunya ii) (ho_2 k_1 spain) (ho_2 k_1 ii)) (ho_2 skv_30 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_11) (ho_2 k_1 spain) (ho_2 k_1 ii)) (ho_2 skv_31 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= france ii) (ho_2 k_1 spain) (ho_2 k_1 ii)) (ho_2 skv_32 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= catalunya ii) (ho_2 k_1 skv_11) (ho_2 k_1 ii)) (ho_2 skv_33 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_11) (ho_2 k_1 skv_11) (ho_2 k_1 ii)) (ho_2 skv_34 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= france ii) (ho_2 k_1 skv_11) (ho_2 k_1 ii)) (ho_2 skv_35 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2690 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2690))) (or (not (ho_3 _let_0 skv_42)) (ho_3 _let_0 catalunya))) ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2682 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2682))) (or (not (ho_3 _let_0 skv_42)) (ho_3 _let_0 paris))) ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2690 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2690))) (or (not (ho_3 _let_0 skv_43)) (ho_3 _let_0 skv_11))) ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2682 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2682))) (or (not (ho_3 _let_0 skv_43)) (ho_3 _let_0 paris))) ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2316 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2316))) (or (not (ho_3 _let_0 skv_46)) (ho_3 _let_0 spain))) ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2308 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2308))) (or (not (ho_3 _let_0 skv_46)) (ho_3 _let_0 france))) ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_77 ii) (ite (= catalunya ii) false (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_78 ii) (ite (= ii skv_11) false (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_79 ii) (ite (= ii skv_38) false (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_80 ii) (ite (= ii skv_10) false (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_81 ii) (ite (= france ii) false (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_82 ii) (ite (= ii skv_36) false (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_83 ii) (ite (= catalunya ii) true (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_84 ii) (ite (= ii skv_11) true (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_85 ii) (ite (= ii skv_38) true (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_86 ii) (ite (= ii skv_10) true (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_87 ii) (ite (= france ii) true (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_88 ii) (ite (= ii skv_36) true (ho_3 (ho_2 k_1 skv_10) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_89 ii) (ite (= ii skv_38) false (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_90 ii) (ite (= ii skv_10) false (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_91 ii) (ite (= ii skv_36) false (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_92 ii) (ite (= ii skv_38) true (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_93 ii) (ite (= ii skv_10) true (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_94 ii) (ite (= ii skv_36) true (ho_3 (ho_2 k_1 spain) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_95 ii) (ite (= catalunya ii) false (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_96 ii) (ite (= ii skv_11) false (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_97 ii) (ite (= ii skv_38) false (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_98 ii) (ite (= ii skv_10) false (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_99 ii) (ite (= france ii) false (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_100 ii) (ite (= ii skv_36) false (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_101 ii) (ite (= catalunya ii) true (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_102 ii) (ite (= ii skv_11) true (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_103 ii) (ite (= ii skv_38) true (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_104 ii) (ite (= ii skv_10) true (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_105 ii) (ite (= france ii) true (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_106 ii) (ite (= ii skv_36) true (ho_3 (ho_2 k_1 skv_36) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_107 ii) (ite (= catalunya ii) false (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_108 ii) (ite (= ii skv_11) false (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_109 ii) (ite (= ii skv_38) false (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_110 ii) (ite (= ii skv_10) false (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_111 ii) (ite (= france ii) false (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_112 ii) (ite (= ii skv_36) false (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_113 ii) (ite (= catalunya ii) true (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_114 ii) (ite (= ii skv_11) true (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_115 ii) (ite (= ii skv_38) true (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_116 ii) (ite (= ii skv_10) true (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_117 ii) (ite (= france ii) true (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ho_3 skv_118 ii) (ite (= ii skv_36) true (ho_3 (ho_2 k_1 skv_38) ii))) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= catalunya ii) (ho_2 k_1 skv_10) (ho_2 k_1 ii)) (ho_2 skv_119 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_11) (ho_2 k_1 skv_10) (ho_2 k_1 ii)) (ho_2 skv_120 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_38) (ho_2 k_1 skv_10) (ho_2 k_1 ii)) (ho_2 skv_121 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_10) (ho_2 k_1 skv_10) (ho_2 k_1 ii)) (ho_2 skv_122 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= france ii) (ho_2 k_1 skv_10) (ho_2 k_1 ii)) (ho_2 skv_123 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_36) (ho_2 k_1 skv_10) (ho_2 k_1 ii)) (ho_2 skv_124 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_38) (ho_2 k_1 spain) (ho_2 k_1 ii)) (ho_2 skv_125 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_10) (ho_2 k_1 spain) (ho_2 k_1 ii)) (ho_2 skv_126 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_36) (ho_2 k_1 spain) (ho_2 k_1 ii)) (ho_2 skv_127 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= catalunya ii) (ho_2 k_1 skv_36) (ho_2 k_1 ii)) (ho_2 skv_128 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_11) (ho_2 k_1 skv_36) (ho_2 k_1 ii)) (ho_2 skv_129 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_38) (ho_2 k_1 skv_36) (ho_2 k_1 ii)) (ho_2 skv_130 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_10) (ho_2 k_1 skv_36) (ho_2 k_1 ii)) (ho_2 skv_131 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= france ii) (ho_2 k_1 skv_36) (ho_2 k_1 ii)) (ho_2 skv_132 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_36) (ho_2 k_1 skv_36) (ho_2 k_1 ii)) (ho_2 skv_133 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= catalunya ii) (ho_2 k_1 skv_38) (ho_2 k_1 ii)) (ho_2 skv_134 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_11) (ho_2 k_1 skv_38) (ho_2 k_1 ii)) (ho_2 skv_135 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_38) (ho_2 k_1 skv_38) (ho_2 k_1 ii)) (ho_2 skv_136 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_10) (ho_2 k_1 skv_38) (ho_2 k_1 ii)) (ho_2 skv_137 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= france ii) (ho_2 k_1 skv_38) (ho_2 k_1 ii)) (ho_2 skv_138 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((ii reg)) (= (ite (= ii skv_36) (ho_2 k_1 skv_38) (ho_2 k_1 ii)) (ho_2 skv_139 ii)) ) 41.42/41.60 ( catalunya ) 41.42/41.60 ( france ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_36 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2690 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2690))) (or (not (ho_3 _let_0 skv_144)) (ho_3 _let_0 france))) ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2682 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2682))) (or (not (ho_3 _let_0 skv_144)) (ho_3 _let_0 paris))) ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2690 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2690))) (or (not (ho_3 _let_0 skv_145)) (ho_3 _let_0 skv_36))) ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_11 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ) 41.42/41.60 (instantiation (forall ((BOUND_VARIABLE_2682 reg)) (let ((_let_0 (ho_2 k_1 BOUND_VARIABLE_2682))) (or (not (ho_3 _let_0 skv_145)) (ho_3 _let_0 paris))) ) 41.42/41.60 ( skv_10 ) 41.42/41.60 ( skv_38 ) 41.42/41.60 ( skv_43 ) 41.42/41.60 ( skv_142 ) 41.42/41.60 ) 41.42/41.60 % SZS output end Proof for theBenchmark 41.42/41.61 EOF