TSTP Solution File: LAT347+1 by ePrincess---1.0

%------------------------------------------------------------------------------
% File     : ePrincess---1.0
% Problem  : LAT347+1 : TPTP v8.1.0. Released v3.4.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : ePrincess-casc -timeout=%d %s

% Computer : n015.cluster.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory   : 8042.1875MB
% OS       : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit  : 600s
% DateTime : Sun Jul 17 04:33:26 EDT 2022

% Result   : Theorem 24.89s 6.77s
% Output   : Proof 90.22s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.04/0.12  % Problem  : LAT347+1 : TPTP v8.1.0. Released v3.4.0.
% 0.04/0.12  % Command  : ePrincess-casc -timeout=%d %s
% 0.12/0.33  % Computer : n015.cluster.edu
% 0.12/0.33  % Model    : x86_64 x86_64
% 0.12/0.33  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.33  % Memory   : 8042.1875MB
% 0.12/0.33  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.12/0.33  % CPULimit : 300
% 0.12/0.33  % WCLimit  : 600
% 0.12/0.33  % DateTime : Wed Jun 29 01:10:25 EDT 2022
% 0.12/0.33  % CPUTime  : 
% 0.54/0.58          ____       _                          
% 0.54/0.58    ___  / __ \_____(_)___  ________  __________
% 0.54/0.58   / _ \/ /_/ / ___/ / __ \/ ___/ _ \/ ___/ ___/
% 0.54/0.58  /  __/ ____/ /  / / / / / /__/  __(__  |__  ) 
% 0.54/0.58  \___/_/   /_/  /_/_/ /_/\___/\___/____/____/  
% 0.54/0.58  
% 0.54/0.58  A Theorem Prover for First-Order Logic
% 0.54/0.58  (ePrincess v.1.0)
% 0.54/0.58  
% 0.54/0.58  (c) Philipp Rümmer, 2009-2015
% 0.54/0.58  (c) Peter Backeman, 2014-2015
% 0.54/0.58  (contributions by Angelo Brillout, Peter Baumgartner)
% 0.54/0.58  Free software under GNU Lesser General Public License (LGPL).
% 0.54/0.58  Bug reports to peter@backeman.se
% 0.54/0.58  
% 0.54/0.58  For more information, visit http://user.uu.se/~petba168/breu/
% 0.54/0.58  
% 0.54/0.58  Loading /export/starexec/sandbox2/benchmark/theBenchmark.p ...
% 0.60/0.63  Prover 0: Options:  -triggersInConjecture -genTotalityAxioms -tightFunctionScopes -clausifier=simple -reverseFunctionalityPropagation +boolFunsAsPreds -triggerStrategy=allMaximal -resolutionMethod=nonUnifying +ignoreQuantifiers -generateTriggers=all
% 2.21/1.03  Prover 0: Preprocessing ...
% 3.96/1.49  Prover 0: Warning: ignoring some quantifiers
% 4.07/1.53  Prover 0: Constructing countermodel ...
% 21.47/5.92  Prover 1: Options:  +triggersInConjecture -genTotalityAxioms -tightFunctionScopes -clausifier=simple +reverseFunctionalityPropagation -boolFunsAsPreds -triggerStrategy=maximal -resolutionMethod=normal +ignoreQuantifiers -generateTriggers=all
% 21.47/6.02  Prover 1: Preprocessing ...
% 22.79/6.28  Prover 1: Warning: ignoring some quantifiers
% 23.20/6.29  Prover 1: Constructing countermodel ...
% 24.89/6.77  Prover 1: proved (844ms)
% 24.89/6.77  Prover 0: stopped
% 24.89/6.77  
% 24.89/6.77  No countermodel exists, formula is valid
% 24.89/6.77  % SZS status Theorem for theBenchmark
% 24.89/6.77  
% 24.89/6.77  Generating proof ... Warning: ignoring some quantifiers
% 89.20/47.23  found it (size 610)
% 89.20/47.23  
% 89.20/47.23  % SZS output start Proof for theBenchmark
% 89.20/47.23  Assumed formulas after preprocessing and simplification: 
% 89.20/47.23  | (0)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] :  ? [v14] :  ? [v15] :  ? [v16] :  ? [v17] :  ? [v18] :  ? [v19] :  ? [v20] :  ? [v21] :  ? [v22] :  ? [v23] :  ? [v24] :  ? [v25] :  ? [v26] : ( ~ (v24 = 0) &  ~ (v21 = 0) &  ~ (v17 = 0) &  ~ (v15 = 0) &  ~ (v13 = 0) &  ~ (v10 = 0) &  ~ (v8 = v7) &  ~ (v6 = 0) & k3_tarski(v5) = v8 & v1_waybel_0(v5, v2) = 0 & l1_struct_0(v25) = 0 & l1_struct_0(v9) = 0 & k2_yellow_1(v1) = v2 & k1_yellow_0(v2, v5) = v7 & k9_waybel_0(v0) = v1 & v2_funct_1(v11) = 0 & k1_zfmisc_1(v3) = v4 & m1_subset_1(v5, v4) = 0 & v1_relat_1(v22) = 0 & v1_relat_1(v18) = 0 & v1_relat_1(v11) = 0 & v1_funct_1(v22) = 0 & v1_funct_1(v18) = 0 & v1_funct_1(v11) = 0 & v1_xboole_0(v19) = 0 & v1_xboole_0(v18) = 0 & v1_xboole_0(v14) = v15 & v1_xboole_0(v5) = v6 & v1_xboole_0(k1_xboole_0) = 0 & v3_yellow_0(v23) = 0 & v3_yellow_0(v12) = 0 & v3_orders_2(v23) = 0 & v3_orders_2(v20) = 0 & v3_orders_2(v16) = 0 & v3_orders_2(v12) = 0 & v3_orders_2(v0) = 0 & v4_orders_2(v23) = 0 & v4_orders_2(v20) = 0 & v4_orders_2(v16) = 0 & v4_orders_2(v12) = 0 & v4_orders_2(v0) = 0 & v1_lattice3(v23) = 0 & v1_lattice3(v16) = 0 & v1_lattice3(v12) = 0 & v2_lattice3(v23) = 0 & v2_lattice3(v16) = 0 & v2_lattice3(v12) = 0 & v2_lattice3(v0) = 0 & v2_yellow_0(v23) = 0 & v2_yellow_0(v12) = 0 & v2_yellow_0(v0) = 0 & v1_yellow_0(v23) = 0 & v1_yellow_0(v12) = 0 & v25_waybel_0(v23) = 0 & v3_struct_0(v23) = v24 & v3_struct_0(v20) = v21 & v3_struct_0(v16) = v17 & v3_struct_0(v12) = v13 & v3_struct_0(v9) = v10 & v2_orders_2(v23) = 0 & v2_orders_2(v20) = 0 & v2_orders_2(v16) = 0 & v2_orders_2(v12) = 0 & v2_orders_2(v0) = 0 & v3_lattice3(v23) = 0 & v3_lattice3(v20) = 0 & v3_lattice3(v16) = 0 & v3_lattice3(v12) = 0 & v24_waybel_0(v23) = 0 & u1_struct_0(v2) = v3 & l1_orders_2(v26) = 0 & l1_orders_2(v23) = 0 & l1_orders_2(v20) = 0 & l1_orders_2(v16) = 0 & l1_orders_2(v12) = 0 & l1_orders_2(v0) = 0 & v1_orders_2(v23) = 0 & v1_orders_2(v20) = 0 & v1_orders_2(v16) = 0 &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] :  ! [v31] :  ! [v32] : (v32 = 0 |  ~ (k2_zfmisc_1(v27, v28) = v30) |  ~ (k1_zfmisc_1(v30) = v31) |  ~ (m1_subset_1(v29, v31) = v32) |  ? [v33] : ( ~ (v33 = 0) & m2_relset_1(v29, v27, v28) = v33)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] :  ! [v31] : (v31 = v29 |  ~ (k6_relset_1(v27, v28, v30) = v31) |  ~ (k6_relset_1(v27, v28, v29) = v30) |  ? [v32] : ( ~ (v32 = 0) & m1_relset_1(v29, v27, v28) = v32)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] :  ! [v31] : (v31 = 0 |  ~ (m2_relset_1(v30, v28, v27) = v31) |  ~ (k6_relset_1(v27, v28, v29) = v30) |  ? [v32] : ( ~ (v32 = 0) & m1_relset_1(v29, v27, v28) = v32)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] :  ! [v31] : (v31 = 0 |  ~ (k1_yellow_0(v27, v28) = v29) |  ~ (m1_subset_1(v29, v30) = v31) |  ~ (u1_struct_0(v27) = v30) |  ? [v32] : ( ~ (v32 = 0) & l1_orders_2(v27) = v32)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] :  ! [v31] : (v28 = v27 |  ~ (m2_relset_1(v31, v30, v29) = v28) |  ~ (m2_relset_1(v31, v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] :  ! [v31] : (v28 = v27 |  ~ (m1_relset_1(v31, v30, v29) = v28) |  ~ (m1_relset_1(v31, v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] :  ! [v31] : (v28 = v27 |  ~ (k6_relset_1(v31, v30, v29) = v28) |  ~ (k6_relset_1(v31, v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] :  ! [v31] : ( ~ (k6_relset_1(v28, v28, v29) = v30) |  ~ (u1_struct_0(v27) = v28) |  ~ (u1_orders_2(v27) = v29) |  ~ (g1_orders_2(v28, v30) = v31) |  ? [v32] :  ? [v33] : (k7_lattice3(v27) = v33 & l1_orders_2(v27) = v32 & ( ~ (v32 = 0) | v33 = v31))) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] :  ! [v31] : ( ~ (k2_zfmisc_1(v27, v28) = v30) |  ~ (k1_zfmisc_1(v30) = v31) |  ~ (m1_subset_1(v29, v31) = 0) | v1_relat_1(v29) = 0) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v30 = v27 |  ~ (u1_struct_0(v27) = v28) |  ~ (u1_orders_2(v27) = v29) |  ~ (g1_orders_2(v28, v29) = v30) |  ? [v31] :  ? [v32] : (l1_orders_2(v27) = v31 & v1_orders_2(v27) = v32 & ( ~ (v32 = 0) |  ~ (v31 = 0)))) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v30 = 0 |  ~ (m2_relset_1(v29, v27, v28) = v30) |  ? [v31] : ( ~ (v31 = 0) & m1_relset_1(v29, v27, v28) = v31)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v30 = 0 |  ~ (m2_relset_1(v28, v29, v29) = v30) |  ~ (u1_struct_0(v27) = v29) |  ~ (u1_orders_2(v27) = v28) |  ? [v31] : ( ~ (v31 = 0) & l1_orders_2(v27) = v31)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v30 = 0 |  ~ (k1_zfmisc_1(v28) = v29) |  ~ (m1_subset_1(v27, v29) = v30) |  ? [v31] : ( ~ (v31 = 0) & r1_tarski(v27, v28) = v31)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v28 = v27 |  ~ (r1_tarski(v30, v29) = v28) |  ~ (r1_tarski(v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v28 = v27 |  ~ (v2_waybel_0(v30, v29) = v28) |  ~ (v2_waybel_0(v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v28 = v27 |  ~ (v13_waybel_0(v30, v29) = v28) |  ~ (v13_waybel_0(v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v28 = v27 |  ~ (v1_waybel_0(v30, v29) = v28) |  ~ (v1_waybel_0(v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v28 = v27 |  ~ (v12_waybel_0(v30, v29) = v28) |  ~ (v12_waybel_0(v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v28 = v27 |  ~ (k1_yellow_0(v30, v29) = v28) |  ~ (k1_yellow_0(v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v28 = v27 |  ~ (k2_zfmisc_1(v30, v29) = v28) |  ~ (k2_zfmisc_1(v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v28 = v27 |  ~ (m1_subset_1(v30, v29) = v28) |  ~ (m1_subset_1(v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v28 = v27 |  ~ (r2_hidden(v30, v29) = v28) |  ~ (r2_hidden(v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : (v28 = v27 |  ~ (g1_orders_2(v30, v29) = v28) |  ~ (g1_orders_2(v30, v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (k6_relset_1(v27, v28, v29) = v30) |  ? [v31] :  ? [v32] : (k4_relat_1(v29) = v32 & m1_relset_1(v29, v27, v28) = v31 & ( ~ (v31 = 0) | v32 = v30))) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (a_1_1_waybel_0(v28) = v29) |  ~ (r2_hidden(v27, v29) = v30) |  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] :  ? [v37] :  ? [v38] :  ? [v39] :  ? [v40] :  ? [v41] : (k1_zfmisc_1(v35) = v36 & v3_orders_2(v28) = v33 & v3_struct_0(v28) = v31 & v2_orders_2(v28) = v32 & u1_struct_0(v28) = v35 & l1_orders_2(v28) = v34 & ( ~ (v34 = 0) |  ~ (v33 = 0) |  ~ (v32 = 0) | v31 = 0 | (( ~ (v30 = 0) | (v41 = 0 & v40 = 0 & v39 = 0 & v37 = v27 &  ~ (v38 = 0) & v2_waybel_0(v27, v28) = 0 & v13_waybel_0(v27, v28) = 0 & m1_subset_1(v27, v36) = 0 & v1_xboole_0(v27) = v38)) & (v30 = 0 |  ~ (m1_subset_1(v27, v36) = 0) |  ? [v42] :  ? [v43] :  ? [v44] : (v2_waybel_0(v27, v28) = v43 & v13_waybel_0(v27, v28) = v44 & v1_xboole_0(v27) = v42 & ( ~ (v44 = 0) |  ~ (v43 = 0) | v42 = 0))))))) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (a_1_0_waybel_0(v28) = v29) |  ~ (r2_hidden(v27, v29) = v30) |  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] :  ? [v37] :  ? [v38] :  ? [v39] :  ? [v40] :  ? [v41] : (k1_zfmisc_1(v35) = v36 & v3_orders_2(v28) = v33 & v3_struct_0(v28) = v31 & v2_orders_2(v28) = v32 & u1_struct_0(v28) = v35 & l1_orders_2(v28) = v34 & ( ~ (v34 = 0) |  ~ (v33 = 0) |  ~ (v32 = 0) | v31 = 0 | (( ~ (v30 = 0) | (v41 = 0 & v40 = 0 & v39 = 0 & v37 = v27 &  ~ (v38 = 0) & v1_waybel_0(v27, v28) = 0 & v12_waybel_0(v27, v28) = 0 & m1_subset_1(v27, v36) = 0 & v1_xboole_0(v27) = v38)) & (v30 = 0 |  ~ (m1_subset_1(v27, v36) = 0) |  ? [v42] :  ? [v43] :  ? [v44] : (v1_waybel_0(v27, v28) = v43 & v12_waybel_0(v27, v28) = v44 & v1_xboole_0(v27) = v42 & ( ~ (v44 = 0) |  ~ (v43 = 0) | v42 = 0))))))) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (k1_zfmisc_1(v29) = v30) |  ~ (m1_subset_1(v28, v30) = 0) |  ~ (r2_hidden(v27, v28) = 0) | m1_subset_1(v27, v29) = 0) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (k1_zfmisc_1(v29) = v30) |  ~ (m1_subset_1(v28, v30) = 0) |  ~ (r2_hidden(v27, v28) = 0) |  ? [v31] : ( ~ (v31 = 0) & v1_xboole_0(v29) = v31)) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (u1_struct_0(v27) = v28) |  ~ (u1_orders_2(v27) = v29) |  ~ (g1_orders_2(v28, v29) = v30) |  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] :  ? [v37] :  ? [v38] : (v3_struct_0(v30) = v35 & v3_struct_0(v27) = v31 & v2_orders_2(v30) = v37 & v2_orders_2(v27) = v32 & v24_waybel_0(v30) = v38 & v24_waybel_0(v27) = v33 & l1_orders_2(v27) = v34 & v1_orders_2(v30) = v36 & ( ~ (v34 = 0) |  ~ (v33 = 0) |  ~ (v32 = 0) | v31 = 0 | (v38 = 0 & v37 = 0 & v36 = 0 &  ~ (v35 = 0))))) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (u1_struct_0(v27) = v28) |  ~ (u1_orders_2(v27) = v29) |  ~ (g1_orders_2(v28, v29) = v30) |  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] : (v3_struct_0(v30) = v34 & v3_struct_0(v27) = v31 & v2_orders_2(v30) = v36 & v2_orders_2(v27) = v32 & l1_orders_2(v27) = v33 & v1_orders_2(v30) = v35 & ( ~ (v33 = 0) |  ~ (v32 = 0) | v31 = 0 | (v36 = 0 & v35 = 0 &  ~ (v34 = 0))))) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (u1_struct_0(v27) = v28) |  ~ (u1_orders_2(v27) = v29) |  ~ (g1_orders_2(v28, v29) = v30) |  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] : (v1_lattice3(v30) = v35 & v1_lattice3(v27) = v31 & v3_struct_0(v30) = v33 & l1_orders_2(v27) = v32 & v1_orders_2(v30) = v34 & ( ~ (v32 = 0) |  ~ (v31 = 0) | (v35 = 0 & v34 = 0 &  ~ (v33 = 0))))) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (u1_struct_0(v27) = v28) |  ~ (u1_orders_2(v27) = v29) |  ~ (g1_orders_2(v28, v29) = v30) |  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] : (v2_lattice3(v30) = v35 & v2_lattice3(v27) = v31 & v3_struct_0(v30) = v33 & l1_orders_2(v27) = v32 & v1_orders_2(v30) = v34 & ( ~ (v32 = 0) |  ~ (v31 = 0) | (v35 = 0 & v34 = 0 &  ~ (v33 = 0))))) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (u1_struct_0(v27) = v28) |  ~ (u1_orders_2(v27) = v29) |  ~ (g1_orders_2(v28, v29) = v30) |  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] : (v3_orders_2(v30) = v34 & v3_orders_2(v27) = v31 & l1_orders_2(v27) = v32 & v1_orders_2(v30) = v33 & ( ~ (v32 = 0) |  ~ (v31 = 0) | (v34 = 0 & v33 = 0)))) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (u1_struct_0(v27) = v28) |  ~ (u1_orders_2(v27) = v29) |  ~ (g1_orders_2(v28, v29) = v30) |  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] : (v4_orders_2(v30) = v34 & v4_orders_2(v27) = v31 & l1_orders_2(v27) = v32 & v1_orders_2(v30) = v33 & ( ~ (v32 = 0) |  ~ (v31 = 0) | (v34 = 0 & v33 = 0)))) &  ! [v27] :  ! [v28] :  ! [v29] :  ! [v30] : ( ~ (u1_struct_0(v27) = v28) |  ~ (u1_orders_2(v27) = v29) |  ~ (g1_orders_2(v28, v29) = v30) |  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] : (v3_struct_0(v30) = v33 & v3_struct_0(v27) = v31 & l1_orders_2(v27) = v32 & v1_orders_2(v30) = v34 & ( ~ (v32 = 0) | v31 = 0 | (v34 = 0 &  ~ (v33 = 0))))) &  ! [v27] :  ! [v28] :  ! [v29] : (v29 = 0 |  ~ (r2_hidden(v27, v28) = v29) |  ? [v30] :  ? [v31] : (m1_subset_1(v27, v28) = v30 & v1_xboole_0(v28) = v31 & ( ~ (v30 = 0) | v31 = 0))) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (k3_tarski(v29) = v28) |  ~ (k3_tarski(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (l1_struct_0(v29) = v28) |  ~ (l1_struct_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (k4_relat_1(v29) = v28) |  ~ (k4_relat_1(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (k2_yellow_1(v29) = v28) |  ~ (k2_yellow_1(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (k7_lattice3(v29) = v28) |  ~ (k7_lattice3(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (a_1_1_waybel_0(v29) = v28) |  ~ (a_1_1_waybel_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (k9_waybel_0(v29) = v28) |  ~ (k9_waybel_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (a_1_0_waybel_0(v29) = v28) |  ~ (a_1_0_waybel_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (k8_waybel_0(v29) = v28) |  ~ (k8_waybel_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v2_funct_1(v29) = v28) |  ~ (v2_funct_1(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (k1_zfmisc_1(v29) = v28) |  ~ (k1_zfmisc_1(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v1_relat_1(v29) = v28) |  ~ (v1_relat_1(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v1_funct_1(v29) = v28) |  ~ (v1_funct_1(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v1_xboole_0(v29) = v28) |  ~ (v1_xboole_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v3_yellow_0(v29) = v28) |  ~ (v3_yellow_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v3_orders_2(v29) = v28) |  ~ (v3_orders_2(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v4_orders_2(v29) = v28) |  ~ (v4_orders_2(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v1_lattice3(v29) = v28) |  ~ (v1_lattice3(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v2_lattice3(v29) = v28) |  ~ (v2_lattice3(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v2_yellow_0(v29) = v28) |  ~ (v2_yellow_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v1_yellow_0(v29) = v28) |  ~ (v1_yellow_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v25_waybel_0(v29) = v28) |  ~ (v25_waybel_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v3_struct_0(v29) = v28) |  ~ (v3_struct_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v2_orders_2(v29) = v28) |  ~ (v2_orders_2(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v3_lattice3(v29) = v28) |  ~ (v3_lattice3(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v24_waybel_0(v29) = v28) |  ~ (v24_waybel_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (u1_struct_0(v29) = v28) |  ~ (u1_struct_0(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (u1_orders_2(v29) = v28) |  ~ (u1_orders_2(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (l1_orders_2(v29) = v28) |  ~ (l1_orders_2(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : (v28 = v27 |  ~ (v1_orders_2(v29) = v28) |  ~ (v1_orders_2(v29) = v27)) &  ! [v27] :  ! [v28] :  ! [v29] : ( ~ (m2_relset_1(v29, v27, v28) = 0) | m1_relset_1(v29, v27, v28) = 0) &  ! [v27] :  ! [v28] :  ! [v29] : ( ~ (k2_zfmisc_1(v27, v28) = v29) |  ? [v30] :  ? [v31] :  ? [v32] : (v1_xboole_0(v29) = v32 & v1_xboole_0(v28) = v31 & v1_xboole_0(v27) = v30 & ( ~ (v32 = 0) | v31 = 0 | v30 = 0))) &  ! [v27] :  ! [v28] :  ! [v29] : ( ~ (k1_zfmisc_1(v28) = v29) |  ~ (m1_subset_1(v27, v29) = 0) | r1_tarski(v27, v28) = 0) &  ! [v27] :  ! [v28] : (v28 = v27 |  ~ (v1_xboole_0(v28) = 0) |  ~ (v1_xboole_0(v27) = 0)) &  ! [v27] :  ! [v28] : (v28 = 0 |  ~ (r1_tarski(v27, v27) = v28)) &  ! [v27] :  ! [v28] : (v28 = 0 |  ~ (l1_struct_0(v27) = v28) |  ? [v29] : ( ~ (v29 = 0) & l1_orders_2(v27) = v29)) &  ! [v27] :  ! [v28] : (v28 = 0 |  ~ (v1_funct_1(v27) = v28) |  ? [v29] : ( ~ (v29 = 0) & v1_xboole_0(v27) = v29)) &  ! [v27] :  ! [v28] : (v28 = 0 |  ~ (v3_yellow_0(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] : (v2_yellow_0(v27) = v31 & v1_yellow_0(v27) = v30 & l1_orders_2(v27) = v29 & ( ~ (v31 = 0) |  ~ (v30 = 0) |  ~ (v29 = 0)))) &  ! [v27] :  ! [v28] : ( ~ (k4_relat_1(v27) = v28) |  ? [v29] :  ? [v30] : (k4_relat_1(v28) = v30 & v1_relat_1(v27) = v29 & ( ~ (v29 = 0) | v30 = v27))) &  ! [v27] :  ! [v28] : ( ~ (k4_relat_1(v27) = v28) |  ? [v29] :  ? [v30] : (v1_relat_1(v28) = v30 & v1_relat_1(v27) = v29 & ( ~ (v29 = 0) | v30 = 0))) &  ! [v27] :  ! [v28] : ( ~ (k2_yellow_1(v27) = v28) | l1_orders_2(v28) = 0) &  ! [v27] :  ! [v28] : ( ~ (k2_yellow_1(v27) = v28) | v1_orders_2(v28) = 0) &  ! [v27] :  ! [v28] : ( ~ (m1_relset_1(v28, v27, v27) = 0) |  ? [v29] : (g1_orders_2(v27, v28) = v29 & l1_orders_2(v29) = 0 & v1_orders_2(v29) = 0)) &  ! [v27] :  ! [v28] : ( ~ (m1_relset_1(v28, v27, v27) = 0) |  ? [v29] : (g1_orders_2(v27, v28) = v29 &  ! [v30] :  ! [v31] : (v31 = v28 |  ~ (g1_orders_2(v30, v31) = v29)) &  ! [v30] :  ! [v31] : (v30 = v27 |  ~ (g1_orders_2(v30, v31) = v29)))) &  ! [v27] :  ! [v28] : ( ~ (k7_lattice3(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] : (v3_struct_0(v28) = v31 & v3_struct_0(v27) = v29 & l1_orders_2(v27) = v30 & v1_orders_2(v28) = v32 & ( ~ (v30 = 0) | v29 = 0 | (v32 = 0 &  ~ (v31 = 0))))) &  ! [v27] :  ! [v28] : ( ~ (k7_lattice3(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] : (v2_orders_2(v28) = v32 & v2_orders_2(v27) = v29 & l1_orders_2(v27) = v30 & v1_orders_2(v28) = v31 & ( ~ (v30 = 0) |  ~ (v29 = 0) | (v32 = 0 & v31 = 0)))) &  ! [v27] :  ! [v28] : ( ~ (k7_lattice3(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] : (l1_orders_2(v28) = v31 & l1_orders_2(v27) = v29 & v1_orders_2(v28) = v30 & ( ~ (v29 = 0) | (v31 = 0 & v30 = 0)))) &  ! [v27] :  ! [v28] : ( ~ (a_1_1_waybel_0(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] : (k9_waybel_0(v27) = v33 & v3_orders_2(v27) = v31 & v3_struct_0(v27) = v29 & v2_orders_2(v27) = v30 & l1_orders_2(v27) = v32 & ( ~ (v32 = 0) |  ~ (v31 = 0) |  ~ (v30 = 0) | v33 = v28 | v29 = 0))) &  ! [v27] :  ! [v28] : ( ~ (k9_waybel_0(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] : (k7_lattice3(v27) = v33 & k8_waybel_0(v33) = v34 & v3_orders_2(v27) = v31 & v3_struct_0(v27) = v29 & v2_orders_2(v27) = v30 & l1_orders_2(v27) = v32 & ( ~ (v32 = 0) |  ~ (v31 = 0) |  ~ (v30 = 0) | v34 = v28 | v29 = 0))) &  ! [v27] :  ! [v28] : ( ~ (a_1_0_waybel_0(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] : (k8_waybel_0(v27) = v33 & v3_orders_2(v27) = v31 & v3_struct_0(v27) = v29 & v2_orders_2(v27) = v30 & l1_orders_2(v27) = v32 & ( ~ (v32 = 0) |  ~ (v31 = 0) |  ~ (v30 = 0) | v33 = v28 | v29 = 0))) &  ! [v27] :  ! [v28] : ( ~ (k8_waybel_0(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] :  ? [v37] : (k2_yellow_1(v28) = v35 & k1_zfmisc_1(v36) = v37 & v3_orders_2(v27) = v30 & v4_orders_2(v27) = v31 & v1_lattice3(v27) = v32 & v1_yellow_0(v27) = v33 & v2_orders_2(v27) = v29 & u1_struct_0(v35) = v36 & l1_orders_2(v27) = v34 & ( ~ (v34 = 0) |  ~ (v33 = 0) |  ~ (v32 = 0) |  ~ (v31 = 0) |  ~ (v30 = 0) |  ~ (v29 = 0) |  ! [v38] : ( ~ (m1_subset_1(v38, v37) = 0) |  ? [v39] :  ? [v40] :  ? [v41] :  ? [v42] : (k3_tarski(v38) = v42 & v1_waybel_0(v38, v35) = v40 & k1_yellow_0(v35, v38) = v41 & v1_xboole_0(v38) = v39 & ( ~ (v40 = 0) | v42 = v41 | v39 = 0)))))) &  ! [v27] :  ! [v28] : ( ~ (v2_funct_1(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] : (v1_relat_1(v27) = v29 & v1_funct_1(v27) = v31 & v1_xboole_0(v27) = v30 & ( ~ (v31 = 0) |  ~ (v30 = 0) |  ~ (v29 = 0) | v28 = 0))) &  ! [v27] :  ! [v28] : ( ~ (k1_zfmisc_1(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] : ((v30 = 0 &  ~ (v31 = 0) & m1_subset_1(v29, v28) = 0 & v1_xboole_0(v29) = v31) | (v29 = 0 & v1_xboole_0(v27) = 0))) &  ! [v27] :  ! [v28] : ( ~ (k1_zfmisc_1(v27) = v28) |  ? [v29] : ( ~ (v29 = 0) & v1_xboole_0(v28) = v29)) &  ! [v27] :  ! [v28] : ( ~ (k1_zfmisc_1(v27) = v28) |  ? [v29] : (m1_subset_1(v29, v28) = 0 & v1_xboole_0(v29) = 0)) &  ! [v27] :  ! [v28] : ( ~ (v3_yellow_0(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] :  ? [v37] :  ? [v38] :  ? [v39] : (v3_orders_2(v27) = v32 & v4_orders_2(v27) = v33 & v1_lattice3(v27) = v34 & v2_lattice3(v27) = v37 & v2_yellow_0(v27) = v39 & v1_yellow_0(v27) = v35 & v3_struct_0(v27) = v30 & v2_orders_2(v27) = v31 & v3_lattice3(v27) = v38 & v24_waybel_0(v27) = v36 & l1_orders_2(v27) = v29 & ( ~ (v36 = 0) |  ~ (v35 = 0) |  ~ (v34 = 0) |  ~ (v33 = 0) |  ~ (v32 = 0) |  ~ (v31 = 0) |  ~ (v29 = 0) | v30 = 0 | (v39 = 0 & v38 = 0 & v37 = 0 & v28 = 0)))) &  ! [v27] :  ! [v28] : ( ~ (v3_yellow_0(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] : (v3_struct_0(v27) = v30 & v3_lattice3(v27) = v31 & l1_orders_2(v27) = v29 & ( ~ (v31 = 0) |  ~ (v29 = 0) | v30 = 0 | v28 = 0))) &  ! [v27] :  ! [v28] : ( ~ (v25_waybel_0(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] : (v3_struct_0(v27) = v30 & v2_orders_2(v27) = v31 & v3_lattice3(v27) = v32 & v24_waybel_0(v27) = v33 & l1_orders_2(v27) = v29 & ( ~ (v32 = 0) |  ~ (v31 = 0) |  ~ (v29 = 0) | v30 = 0 | (v33 = 0 & v28 = 0)))) &  ! [v27] :  ! [v28] : ( ~ (r2_hidden(v27, v28) = 0) | m1_subset_1(v27, v28) = 0) &  ! [v27] :  ! [v28] : ( ~ (r2_hidden(v27, v28) = 0) |  ? [v29] : ( ~ (v29 = 0) & v1_xboole_0(v28) = v29)) &  ! [v27] :  ! [v28] : ( ~ (r2_hidden(v27, v28) = 0) |  ? [v29] : ( ~ (v29 = 0) & r2_hidden(v28, v27) = v29)) &  ! [v27] :  ! [v28] : ( ~ (u1_struct_0(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] : (k1_zfmisc_1(v28) = v31 & v3_struct_0(v27) = v29 & l1_orders_2(v27) = v30 & ( ~ (v30 = 0) | v29 = 0 | (v36 = 0 & v35 = 0 & v33 = 0 &  ~ (v34 = 0) & v13_waybel_0(v32, v27) = 0 & v12_waybel_0(v32, v27) = 0 & m1_subset_1(v32, v31) = 0 & v1_xboole_0(v32) = v34)))) &  ! [v27] :  ! [v28] : ( ~ (u1_struct_0(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] : (k1_zfmisc_1(v28) = v30 & l1_orders_2(v27) = v29 & ( ~ (v29 = 0) | (v34 = 0 & v33 = 0 & v32 = 0 & v2_waybel_0(v31, v27) = 0 & v1_waybel_0(v31, v27) = 0 & m1_subset_1(v31, v30) = 0)))) &  ! [v27] :  ! [v28] : ( ~ (u1_struct_0(v27) = v28) |  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] : (k1_zfmisc_1(v28) = v30 & l1_orders_2(v27) = v29 & ( ~ (v29 = 0) | (v34 = 0 & v33 = 0 & v32 = 0 & v13_waybel_0(v31, v27) = 0 & v12_waybel_0(v31, v27) = 0 & m1_subset_1(v31, v30) = 0)))) &  ! [v27] : (v27 = k1_xboole_0 |  ~ (v1_xboole_0(v27) = 0)) &  ! [v27] : ( ~ (l1_struct_0(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] : (k1_zfmisc_1(v29) = v30 & v3_struct_0(v27) = v28 & u1_struct_0(v27) = v29 & (v28 = 0 | (v32 = 0 &  ~ (v33 = 0) & m1_subset_1(v31, v30) = 0 & v1_xboole_0(v31) = v33)))) &  ! [v27] : ( ~ (l1_struct_0(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] : (v1_xboole_0(v29) = v30 & v3_struct_0(v27) = v28 & u1_struct_0(v27) = v29 & ( ~ (v30 = 0) | v28 = 0))) &  ! [v27] : ( ~ (v2_funct_1(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] : (k4_relat_1(v27) = v30 & v1_relat_1(v30) = v31 & v1_relat_1(v27) = v28 & v1_funct_1(v30) = v32 & v1_funct_1(v27) = v29 & ( ~ (v29 = 0) |  ~ (v28 = 0) | (v32 = 0 & v31 = 0)))) &  ! [v27] : ( ~ (v3_yellow_0(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] : (v2_yellow_0(v27) = v30 & v1_yellow_0(v27) = v29 & l1_orders_2(v27) = v28 & ( ~ (v28 = 0) | (v30 = 0 & v29 = 0)))) &  ! [v27] : ( ~ (v3_orders_2(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] :  ? [v37] : (k1_zfmisc_1(v31) = v32 & v3_struct_0(v27) = v28 & v2_orders_2(v27) = v29 & u1_struct_0(v27) = v31 & l1_orders_2(v27) = v30 & ( ~ (v30 = 0) |  ~ (v29 = 0) | v28 = 0 | (v37 = 0 & v36 = 0 & v34 = 0 &  ~ (v35 = 0) & v2_waybel_0(v33, v27) = 0 & v13_waybel_0(v33, v27) = 0 & m1_subset_1(v33, v32) = 0 & v1_xboole_0(v33) = v35)))) &  ! [v27] : ( ~ (v3_orders_2(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] :  ? [v37] : (k1_zfmisc_1(v31) = v32 & v3_struct_0(v27) = v28 & v2_orders_2(v27) = v29 & u1_struct_0(v27) = v31 & l1_orders_2(v27) = v30 & ( ~ (v30 = 0) |  ~ (v29 = 0) | v28 = 0 | (v37 = 0 & v36 = 0 & v34 = 0 &  ~ (v35 = 0) & v1_waybel_0(v33, v27) = 0 & v12_waybel_0(v33, v27) = 0 & m1_subset_1(v33, v32) = 0 & v1_xboole_0(v33) = v35)))) &  ! [v27] : ( ~ (v3_orders_2(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] : (k7_lattice3(v27) = v29 & v3_orders_2(v29) = v31 & l1_orders_2(v27) = v28 & v1_orders_2(v29) = v30 & ( ~ (v28 = 0) | (v31 = 0 & v30 = 0)))) &  ! [v27] : ( ~ (v4_orders_2(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] : (k7_lattice3(v27) = v31 & v3_orders_2(v31) = v34 & v3_orders_2(v27) = v29 & v4_orders_2(v31) = v35 & v2_orders_2(v31) = v33 & v2_orders_2(v27) = v28 & l1_orders_2(v27) = v30 & v1_orders_2(v31) = v32 & ( ~ (v30 = 0) |  ~ (v29 = 0) |  ~ (v28 = 0) | (v35 = 0 & v34 = 0 & v33 = 0 & v32 = 0)))) &  ! [v27] : ( ~ (v4_orders_2(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] : (k7_lattice3(v27) = v29 & v4_orders_2(v29) = v31 & l1_orders_2(v27) = v28 & v1_orders_2(v29) = v30 & ( ~ (v28 = 0) | (v31 = 0 & v30 = 0)))) &  ! [v27] : ( ~ (v1_lattice3(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] : (k7_lattice3(v27) = v29 & v2_lattice3(v29) = v32 & v3_struct_0(v29) = v30 & l1_orders_2(v27) = v28 & v1_orders_2(v29) = v31 & ( ~ (v28 = 0) | (v32 = 0 & v31 = 0 &  ~ (v30 = 0))))) &  ! [v27] : ( ~ (v1_lattice3(v27) = 0) |  ? [v28] :  ? [v29] : (v3_struct_0(v27) = v29 & l1_orders_2(v27) = v28 & ( ~ (v29 = 0) |  ~ (v28 = 0)))) &  ! [v27] : ( ~ (v2_lattice3(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] :  ? [v37] :  ? [v38] :  ? [v39] :  ? [v40] :  ? [v41] : (k1_zfmisc_1(v33) = v34 & v3_orders_2(v27) = v29 & v4_orders_2(v27) = v30 & v1_lattice3(v27) = v31 & v2_orders_2(v27) = v28 & u1_struct_0(v27) = v33 & l1_orders_2(v27) = v32 & ( ~ (v32 = 0) |  ~ (v31 = 0) |  ~ (v30 = 0) |  ~ (v29 = 0) |  ~ (v28 = 0) | (v41 = 0 & v40 = 0 & v39 = 0 & v38 = 0 & v36 = 0 &  ~ (v37 = 0) & v2_waybel_0(v35, v27) = 0 & v13_waybel_0(v35, v27) = 0 & v1_waybel_0(v35, v27) = 0 & v12_waybel_0(v35, v27) = 0 & m1_subset_1(v35, v34) = 0 & v1_xboole_0(v35) = v37)))) &  ! [v27] : ( ~ (v2_lattice3(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] : (k7_lattice3(v27) = v29 & v1_lattice3(v29) = v32 & v3_struct_0(v29) = v30 & l1_orders_2(v27) = v28 & v1_orders_2(v29) = v31 & ( ~ (v28 = 0) | (v32 = 0 & v31 = 0 &  ~ (v30 = 0))))) &  ! [v27] : ( ~ (v2_lattice3(v27) = 0) |  ? [v28] :  ? [v29] : (v3_struct_0(v27) = v29 & l1_orders_2(v27) = v28 & ( ~ (v29 = 0) |  ~ (v28 = 0)))) &  ! [v27] : ( ~ (v2_yellow_0(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] :  ? [v37] :  ? [v38] :  ? [v39] :  ? [v40] :  ? [v41] :  ? [v42] :  ? [v43] :  ? [v44] : (k2_yellow_1(v33) = v34 & k9_waybel_0(v27) = v33 & v3_orders_2(v34) = v38 & v3_orders_2(v27) = v29 & v4_orders_2(v34) = v39 & v4_orders_2(v27) = v30 & v2_lattice3(v34) = v40 & v2_lattice3(v27) = v31 & v1_yellow_0(v34) = v42 & v25_waybel_0(v34) = v44 & v3_struct_0(v34) = v35 & v2_orders_2(v34) = v37 & v2_orders_2(v27) = v28 & v3_lattice3(v34) = v41 & v24_waybel_0(v34) = v43 & l1_orders_2(v27) = v32 & v1_orders_2(v34) = v36 & ( ~ (v32 = 0) |  ~ (v31 = 0) |  ~ (v30 = 0) |  ~ (v29 = 0) |  ~ (v28 = 0) | (v44 = 0 & v43 = 0 & v42 = 0 & v41 = 0 & v40 = 0 & v39 = 0 & v38 = 0 & v37 = 0 & v36 = 0 &  ~ (v35 = 0))))) &  ! [v27] : ( ~ (v2_yellow_0(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] : (k9_waybel_0(v27) = v33 & v1_xboole_0(v33) = v34 & v3_orders_2(v27) = v30 & v4_orders_2(v27) = v31 & v3_struct_0(v27) = v28 & v2_orders_2(v27) = v29 & l1_orders_2(v27) = v32 & ( ~ (v34 = 0) |  ~ (v32 = 0) |  ~ (v31 = 0) |  ~ (v30 = 0) |  ~ (v29 = 0) | v28 = 0))) &  ! [v27] : ( ~ (v2_yellow_0(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] : (k7_lattice3(v27) = v29 & v1_yellow_0(v29) = v31 & l1_orders_2(v27) = v28 & v1_orders_2(v29) = v30 & ( ~ (v28 = 0) | (v31 = 0 & v30 = 0)))) &  ! [v27] : ( ~ (v1_yellow_0(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] : (k7_lattice3(v27) = v29 & v2_yellow_0(v29) = v31 & l1_orders_2(v27) = v28 & v1_orders_2(v29) = v30 & ( ~ (v28 = 0) | (v31 = 0 & v30 = 0)))) &  ! [v27] : ( ~ (v25_waybel_0(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] : (v4_orders_2(v27) = v31 & v1_lattice3(v27) = v33 & v2_yellow_0(v27) = v32 & v3_struct_0(v27) = v29 & v2_orders_2(v27) = v30 & l1_orders_2(v27) = v28 & ( ~ (v32 = 0) |  ~ (v31 = 0) |  ~ (v30 = 0) |  ~ (v28 = 0) | v33 = 0 | v29 = 0))) &  ! [v27] : ( ~ (v25_waybel_0(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] : (v4_orders_2(v27) = v31 & v2_lattice3(v27) = v32 & v3_struct_0(v27) = v29 & v2_orders_2(v27) = v30 & l1_orders_2(v27) = v28 & ( ~ (v31 = 0) |  ~ (v30 = 0) |  ~ (v28 = 0) | v32 = 0 | v29 = 0))) &  ! [v27] : ( ~ (v25_waybel_0(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] : (v1_yellow_0(v27) = v31 & v3_struct_0(v27) = v29 & v2_orders_2(v27) = v30 & l1_orders_2(v27) = v28 & ( ~ (v30 = 0) |  ~ (v28 = 0) | v31 = 0 | v29 = 0))) &  ! [v27] : ( ~ (v3_lattice3(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] :  ? [v33] :  ? [v34] :  ? [v35] :  ? [v36] :  ? [v37] :  ? [v38] : (k7_lattice3(v27) = v30 & v3_yellow_0(v30) = v38 & v1_lattice3(v30) = v33 & v2_lattice3(v30) = v34 & v2_yellow_0(v30) = v37 & v1_yellow_0(v30) = v36 & v3_struct_0(v30) = v31 & v3_struct_0(v27) = v28 & v3_lattice3(v30) = v35 & l1_orders_2(v27) = v29 & v1_orders_2(v30) = v32 & ( ~ (v29 = 0) | v28 = 0 | (v38 = 0 & v37 = 0 & v36 = 0 & v35 = 0 & v34 = 0 & v33 = 0 & v32 = 0 &  ~ (v31 = 0))))) &  ! [v27] : ( ~ (v3_lattice3(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] : (v1_lattice3(v27) = v30 & v2_lattice3(v27) = v31 & v3_struct_0(v27) = v29 & l1_orders_2(v27) = v28 & ( ~ (v28 = 0) | v29 = 0 | (v31 = 0 & v30 = 0)))) &  ! [v27] : ( ~ (v24_waybel_0(v27) = 0) |  ? [v28] :  ? [v29] :  ? [v30] :  ? [v31] :  ? [v32] : (v1_lattice3(v27) = v30 & v2_yellow_0(v27) = v32 & v3_struct_0(v27) = v31 & v2_orders_2(v27) = v29 & l1_orders_2(v27) = v28 & ( ~ (v30 = 0) |  ~ (v29 = 0) |  ~ (v28 = 0) | (v32 = 0 &  ~ (v31 = 0))))) &  ? [v27] :  ? [v28] :  ? [v29] : m2_relset_1(v29, v27, v28) = 0 &  ? [v27] :  ? [v28] :  ? [v29] : m1_relset_1(v29, v27, v28) = 0 &  ? [v27] :  ? [v28] : (v28 = v27 |  ? [v29] :  ? [v30] :  ? [v31] : (r2_hidden(v29, v28) = v31 & r2_hidden(v29, v27) = v30 & ( ~ (v31 = 0) |  ~ (v30 = 0)) & (v31 = 0 | v30 = 0))) &  ? [v27] :  ? [v28] : m1_subset_1(v28, v27) = 0)
% 89.60/47.31  | Instantiating (0) with all_0_0_0, all_0_1_1, all_0_2_2, all_0_3_3, all_0_4_4, all_0_5_5, all_0_6_6, all_0_7_7, all_0_8_8, all_0_9_9, all_0_10_10, all_0_11_11, all_0_12_12, all_0_13_13, all_0_14_14, all_0_15_15, all_0_16_16, all_0_17_17, all_0_18_18, all_0_19_19, all_0_20_20, all_0_21_21, all_0_22_22, all_0_23_23, all_0_24_24, all_0_25_25, all_0_26_26 yields:
% 89.60/47.31  | (1)  ~ (all_0_2_2 = 0) &  ~ (all_0_5_5 = 0) &  ~ (all_0_9_9 = 0) &  ~ (all_0_11_11 = 0) &  ~ (all_0_13_13 = 0) &  ~ (all_0_16_16 = 0) &  ~ (all_0_18_18 = all_0_19_19) &  ~ (all_0_20_20 = 0) & k3_tarski(all_0_21_21) = all_0_18_18 & v1_waybel_0(all_0_21_21, all_0_24_24) = 0 & l1_struct_0(all_0_1_1) = 0 & l1_struct_0(all_0_17_17) = 0 & k2_yellow_1(all_0_25_25) = all_0_24_24 & k1_yellow_0(all_0_24_24, all_0_21_21) = all_0_19_19 & k9_waybel_0(all_0_26_26) = all_0_25_25 & v2_funct_1(all_0_15_15) = 0 & k1_zfmisc_1(all_0_23_23) = all_0_22_22 & m1_subset_1(all_0_21_21, all_0_22_22) = 0 & v1_relat_1(all_0_4_4) = 0 & v1_relat_1(all_0_8_8) = 0 & v1_relat_1(all_0_15_15) = 0 & v1_funct_1(all_0_4_4) = 0 & v1_funct_1(all_0_8_8) = 0 & v1_funct_1(all_0_15_15) = 0 & v1_xboole_0(all_0_7_7) = 0 & v1_xboole_0(all_0_8_8) = 0 & v1_xboole_0(all_0_12_12) = all_0_11_11 & v1_xboole_0(all_0_21_21) = all_0_20_20 & v1_xboole_0(k1_xboole_0) = 0 & v3_yellow_0(all_0_3_3) = 0 & v3_yellow_0(all_0_14_14) = 0 & v3_orders_2(all_0_3_3) = 0 & v3_orders_2(all_0_6_6) = 0 & v3_orders_2(all_0_10_10) = 0 & v3_orders_2(all_0_14_14) = 0 & v3_orders_2(all_0_26_26) = 0 & v4_orders_2(all_0_3_3) = 0 & v4_orders_2(all_0_6_6) = 0 & v4_orders_2(all_0_10_10) = 0 & v4_orders_2(all_0_14_14) = 0 & v4_orders_2(all_0_26_26) = 0 & v1_lattice3(all_0_3_3) = 0 & v1_lattice3(all_0_10_10) = 0 & v1_lattice3(all_0_14_14) = 0 & v2_lattice3(all_0_3_3) = 0 & v2_lattice3(all_0_10_10) = 0 & v2_lattice3(all_0_14_14) = 0 & v2_lattice3(all_0_26_26) = 0 & v2_yellow_0(all_0_3_3) = 0 & v2_yellow_0(all_0_14_14) = 0 & v2_yellow_0(all_0_26_26) = 0 & v1_yellow_0(all_0_3_3) = 0 & v1_yellow_0(all_0_14_14) = 0 & v25_waybel_0(all_0_3_3) = 0 & v3_struct_0(all_0_3_3) = all_0_2_2 & v3_struct_0(all_0_6_6) = all_0_5_5 & v3_struct_0(all_0_10_10) = all_0_9_9 & v3_struct_0(all_0_14_14) = all_0_13_13 & v3_struct_0(all_0_17_17) = all_0_16_16 & v2_orders_2(all_0_3_3) = 0 & v2_orders_2(all_0_6_6) = 0 & v2_orders_2(all_0_10_10) = 0 & v2_orders_2(all_0_14_14) = 0 & v2_orders_2(all_0_26_26) = 0 & v3_lattice3(all_0_3_3) = 0 & v3_lattice3(all_0_6_6) = 0 & v3_lattice3(all_0_10_10) = 0 & v3_lattice3(all_0_14_14) = 0 & v24_waybel_0(all_0_3_3) = 0 & u1_struct_0(all_0_24_24) = all_0_23_23 & l1_orders_2(all_0_0_0) = 0 & l1_orders_2(all_0_3_3) = 0 & l1_orders_2(all_0_6_6) = 0 & l1_orders_2(all_0_10_10) = 0 & l1_orders_2(all_0_14_14) = 0 & l1_orders_2(all_0_26_26) = 0 & v1_orders_2(all_0_3_3) = 0 & v1_orders_2(all_0_6_6) = 0 & v1_orders_2(all_0_10_10) = 0 &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] :  ! [v5] : (v5 = 0 |  ~ (k2_zfmisc_1(v0, v1) = v3) |  ~ (k1_zfmisc_1(v3) = v4) |  ~ (m1_subset_1(v2, v4) = v5) |  ? [v6] : ( ~ (v6 = 0) & m2_relset_1(v2, v0, v1) = v6)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v4 = v2 |  ~ (k6_relset_1(v0, v1, v3) = v4) |  ~ (k6_relset_1(v0, v1, v2) = v3) |  ? [v5] : ( ~ (v5 = 0) & m1_relset_1(v2, v0, v1) = v5)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v4 = 0 |  ~ (m2_relset_1(v3, v1, v0) = v4) |  ~ (k6_relset_1(v0, v1, v2) = v3) |  ? [v5] : ( ~ (v5 = 0) & m1_relset_1(v2, v0, v1) = v5)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v4 = 0 |  ~ (k1_yellow_0(v0, v1) = v2) |  ~ (m1_subset_1(v2, v3) = v4) |  ~ (u1_struct_0(v0) = v3) |  ? [v5] : ( ~ (v5 = 0) & l1_orders_2(v0) = v5)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v1 = v0 |  ~ (m2_relset_1(v4, v3, v2) = v1) |  ~ (m2_relset_1(v4, v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v1 = v0 |  ~ (m1_relset_1(v4, v3, v2) = v1) |  ~ (m1_relset_1(v4, v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v1 = v0 |  ~ (k6_relset_1(v4, v3, v2) = v1) |  ~ (k6_relset_1(v4, v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : ( ~ (k6_relset_1(v1, v1, v2) = v3) |  ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v3) = v4) |  ? [v5] :  ? [v6] : (k7_lattice3(v0) = v6 & l1_orders_2(v0) = v5 & ( ~ (v5 = 0) | v6 = v4))) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : ( ~ (k2_zfmisc_1(v0, v1) = v3) |  ~ (k1_zfmisc_1(v3) = v4) |  ~ (m1_subset_1(v2, v4) = 0) | v1_relat_1(v2) = 0) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v3 = v0 |  ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] : (l1_orders_2(v0) = v4 & v1_orders_2(v0) = v5 & ( ~ (v5 = 0) |  ~ (v4 = 0)))) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v3 = 0 |  ~ (m2_relset_1(v2, v0, v1) = v3) |  ? [v4] : ( ~ (v4 = 0) & m1_relset_1(v2, v0, v1) = v4)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v3 = 0 |  ~ (m2_relset_1(v1, v2, v2) = v3) |  ~ (u1_struct_0(v0) = v2) |  ~ (u1_orders_2(v0) = v1) |  ? [v4] : ( ~ (v4 = 0) & l1_orders_2(v0) = v4)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v3 = 0 |  ~ (k1_zfmisc_1(v1) = v2) |  ~ (m1_subset_1(v0, v2) = v3) |  ? [v4] : ( ~ (v4 = 0) & r1_tarski(v0, v1) = v4)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (r1_tarski(v3, v2) = v1) |  ~ (r1_tarski(v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (v2_waybel_0(v3, v2) = v1) |  ~ (v2_waybel_0(v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (v13_waybel_0(v3, v2) = v1) |  ~ (v13_waybel_0(v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (v1_waybel_0(v3, v2) = v1) |  ~ (v1_waybel_0(v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (v12_waybel_0(v3, v2) = v1) |  ~ (v12_waybel_0(v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (k1_yellow_0(v3, v2) = v1) |  ~ (k1_yellow_0(v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (k2_zfmisc_1(v3, v2) = v1) |  ~ (k2_zfmisc_1(v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (m1_subset_1(v3, v2) = v1) |  ~ (m1_subset_1(v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (r2_hidden(v3, v2) = v1) |  ~ (r2_hidden(v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (g1_orders_2(v3, v2) = v1) |  ~ (g1_orders_2(v3, v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (k6_relset_1(v0, v1, v2) = v3) |  ? [v4] :  ? [v5] : (k4_relat_1(v2) = v5 & m1_relset_1(v2, v0, v1) = v4 & ( ~ (v4 = 0) | v5 = v3))) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (a_1_1_waybel_0(v1) = v2) |  ~ (r2_hidden(v0, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] :  ? [v14] : (k1_zfmisc_1(v8) = v9 & v3_orders_2(v1) = v6 & v3_struct_0(v1) = v4 & v2_orders_2(v1) = v5 & u1_struct_0(v1) = v8 & l1_orders_2(v1) = v7 & ( ~ (v7 = 0) |  ~ (v6 = 0) |  ~ (v5 = 0) | v4 = 0 | (( ~ (v3 = 0) | (v14 = 0 & v13 = 0 & v12 = 0 & v10 = v0 &  ~ (v11 = 0) & v2_waybel_0(v0, v1) = 0 & v13_waybel_0(v0, v1) = 0 & m1_subset_1(v0, v9) = 0 & v1_xboole_0(v0) = v11)) & (v3 = 0 |  ~ (m1_subset_1(v0, v9) = 0) |  ? [v15] :  ? [v16] :  ? [v17] : (v2_waybel_0(v0, v1) = v16 & v13_waybel_0(v0, v1) = v17 & v1_xboole_0(v0) = v15 & ( ~ (v17 = 0) |  ~ (v16 = 0) | v15 = 0))))))) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (a_1_0_waybel_0(v1) = v2) |  ~ (r2_hidden(v0, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] :  ? [v14] : (k1_zfmisc_1(v8) = v9 & v3_orders_2(v1) = v6 & v3_struct_0(v1) = v4 & v2_orders_2(v1) = v5 & u1_struct_0(v1) = v8 & l1_orders_2(v1) = v7 & ( ~ (v7 = 0) |  ~ (v6 = 0) |  ~ (v5 = 0) | v4 = 0 | (( ~ (v3 = 0) | (v14 = 0 & v13 = 0 & v12 = 0 & v10 = v0 &  ~ (v11 = 0) & v1_waybel_0(v0, v1) = 0 & v12_waybel_0(v0, v1) = 0 & m1_subset_1(v0, v9) = 0 & v1_xboole_0(v0) = v11)) & (v3 = 0 |  ~ (m1_subset_1(v0, v9) = 0) |  ? [v15] :  ? [v16] :  ? [v17] : (v1_waybel_0(v0, v1) = v16 & v12_waybel_0(v0, v1) = v17 & v1_xboole_0(v0) = v15 & ( ~ (v17 = 0) |  ~ (v16 = 0) | v15 = 0))))))) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (k1_zfmisc_1(v2) = v3) |  ~ (m1_subset_1(v1, v3) = 0) |  ~ (r2_hidden(v0, v1) = 0) | m1_subset_1(v0, v2) = 0) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (k1_zfmisc_1(v2) = v3) |  ~ (m1_subset_1(v1, v3) = 0) |  ~ (r2_hidden(v0, v1) = 0) |  ? [v4] : ( ~ (v4 = 0) & v1_xboole_0(v2) = v4)) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] : (v3_struct_0(v3) = v8 & v3_struct_0(v0) = v4 & v2_orders_2(v3) = v10 & v2_orders_2(v0) = v5 & v24_waybel_0(v3) = v11 & v24_waybel_0(v0) = v6 & l1_orders_2(v0) = v7 & v1_orders_2(v3) = v9 & ( ~ (v7 = 0) |  ~ (v6 = 0) |  ~ (v5 = 0) | v4 = 0 | (v11 = 0 & v10 = 0 & v9 = 0 &  ~ (v8 = 0))))) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (v3_struct_0(v3) = v7 & v3_struct_0(v0) = v4 & v2_orders_2(v3) = v9 & v2_orders_2(v0) = v5 & l1_orders_2(v0) = v6 & v1_orders_2(v3) = v8 & ( ~ (v6 = 0) |  ~ (v5 = 0) | v4 = 0 | (v9 = 0 & v8 = 0 &  ~ (v7 = 0))))) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] : (v1_lattice3(v3) = v8 & v1_lattice3(v0) = v4 & v3_struct_0(v3) = v6 & l1_orders_2(v0) = v5 & v1_orders_2(v3) = v7 & ( ~ (v5 = 0) |  ~ (v4 = 0) | (v8 = 0 & v7 = 0 &  ~ (v6 = 0))))) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] : (v2_lattice3(v3) = v8 & v2_lattice3(v0) = v4 & v3_struct_0(v3) = v6 & l1_orders_2(v0) = v5 & v1_orders_2(v3) = v7 & ( ~ (v5 = 0) |  ~ (v4 = 0) | (v8 = 0 & v7 = 0 &  ~ (v6 = 0))))) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (v3_orders_2(v3) = v7 & v3_orders_2(v0) = v4 & l1_orders_2(v0) = v5 & v1_orders_2(v3) = v6 & ( ~ (v5 = 0) |  ~ (v4 = 0) | (v7 = 0 & v6 = 0)))) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (v4_orders_2(v3) = v7 & v4_orders_2(v0) = v4 & l1_orders_2(v0) = v5 & v1_orders_2(v3) = v6 & ( ~ (v5 = 0) |  ~ (v4 = 0) | (v7 = 0 & v6 = 0)))) &  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (v3_struct_0(v3) = v6 & v3_struct_0(v0) = v4 & l1_orders_2(v0) = v5 & v1_orders_2(v3) = v7 & ( ~ (v5 = 0) | v4 = 0 | (v7 = 0 &  ~ (v6 = 0))))) &  ! [v0] :  ! [v1] :  ! [v2] : (v2 = 0 |  ~ (r2_hidden(v0, v1) = v2) |  ? [v3] :  ? [v4] : (m1_subset_1(v0, v1) = v3 & v1_xboole_0(v1) = v4 & ( ~ (v3 = 0) | v4 = 0))) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k3_tarski(v2) = v1) |  ~ (k3_tarski(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (l1_struct_0(v2) = v1) |  ~ (l1_struct_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k4_relat_1(v2) = v1) |  ~ (k4_relat_1(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k2_yellow_1(v2) = v1) |  ~ (k2_yellow_1(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k7_lattice3(v2) = v1) |  ~ (k7_lattice3(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (a_1_1_waybel_0(v2) = v1) |  ~ (a_1_1_waybel_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k9_waybel_0(v2) = v1) |  ~ (k9_waybel_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (a_1_0_waybel_0(v2) = v1) |  ~ (a_1_0_waybel_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k8_waybel_0(v2) = v1) |  ~ (k8_waybel_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v2_funct_1(v2) = v1) |  ~ (v2_funct_1(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k1_zfmisc_1(v2) = v1) |  ~ (k1_zfmisc_1(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_relat_1(v2) = v1) |  ~ (v1_relat_1(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_funct_1(v2) = v1) |  ~ (v1_funct_1(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_xboole_0(v2) = v1) |  ~ (v1_xboole_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v3_yellow_0(v2) = v1) |  ~ (v3_yellow_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v3_orders_2(v2) = v1) |  ~ (v3_orders_2(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v4_orders_2(v2) = v1) |  ~ (v4_orders_2(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_lattice3(v2) = v1) |  ~ (v1_lattice3(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v2_lattice3(v2) = v1) |  ~ (v2_lattice3(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v2_yellow_0(v2) = v1) |  ~ (v2_yellow_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_yellow_0(v2) = v1) |  ~ (v1_yellow_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v25_waybel_0(v2) = v1) |  ~ (v25_waybel_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v3_struct_0(v2) = v1) |  ~ (v3_struct_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v2_orders_2(v2) = v1) |  ~ (v2_orders_2(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v3_lattice3(v2) = v1) |  ~ (v3_lattice3(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v24_waybel_0(v2) = v1) |  ~ (v24_waybel_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (u1_struct_0(v2) = v1) |  ~ (u1_struct_0(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (u1_orders_2(v2) = v1) |  ~ (u1_orders_2(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (l1_orders_2(v2) = v1) |  ~ (l1_orders_2(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_orders_2(v2) = v1) |  ~ (v1_orders_2(v2) = v0)) &  ! [v0] :  ! [v1] :  ! [v2] : ( ~ (m2_relset_1(v2, v0, v1) = 0) | m1_relset_1(v2, v0, v1) = 0) &  ! [v0] :  ! [v1] :  ! [v2] : ( ~ (k2_zfmisc_1(v0, v1) = v2) |  ? [v3] :  ? [v4] :  ? [v5] : (v1_xboole_0(v2) = v5 & v1_xboole_0(v1) = v4 & v1_xboole_0(v0) = v3 & ( ~ (v5 = 0) | v4 = 0 | v3 = 0))) &  ! [v0] :  ! [v1] :  ! [v2] : ( ~ (k1_zfmisc_1(v1) = v2) |  ~ (m1_subset_1(v0, v2) = 0) | r1_tarski(v0, v1) = 0) &  ! [v0] :  ! [v1] : (v1 = v0 |  ~ (v1_xboole_0(v1) = 0) |  ~ (v1_xboole_0(v0) = 0)) &  ! [v0] :  ! [v1] : (v1 = 0 |  ~ (r1_tarski(v0, v0) = v1)) &  ! [v0] :  ! [v1] : (v1 = 0 |  ~ (l1_struct_0(v0) = v1) |  ? [v2] : ( ~ (v2 = 0) & l1_orders_2(v0) = v2)) &  ! [v0] :  ! [v1] : (v1 = 0 |  ~ (v1_funct_1(v0) = v1) |  ? [v2] : ( ~ (v2 = 0) & v1_xboole_0(v0) = v2)) &  ! [v0] :  ! [v1] : (v1 = 0 |  ~ (v3_yellow_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] : (v2_yellow_0(v0) = v4 & v1_yellow_0(v0) = v3 & l1_orders_2(v0) = v2 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0)))) &  ! [v0] :  ! [v1] : ( ~ (k4_relat_1(v0) = v1) |  ? [v2] :  ? [v3] : (k4_relat_1(v1) = v3 & v1_relat_1(v0) = v2 & ( ~ (v2 = 0) | v3 = v0))) &  ! [v0] :  ! [v1] : ( ~ (k4_relat_1(v0) = v1) |  ? [v2] :  ? [v3] : (v1_relat_1(v1) = v3 & v1_relat_1(v0) = v2 & ( ~ (v2 = 0) | v3 = 0))) &  ! [v0] :  ! [v1] : ( ~ (k2_yellow_1(v0) = v1) | l1_orders_2(v1) = 0) &  ! [v0] :  ! [v1] : ( ~ (k2_yellow_1(v0) = v1) | v1_orders_2(v1) = 0) &  ! [v0] :  ! [v1] : ( ~ (m1_relset_1(v1, v0, v0) = 0) |  ? [v2] : (g1_orders_2(v0, v1) = v2 & l1_orders_2(v2) = 0 & v1_orders_2(v2) = 0)) &  ! [v0] :  ! [v1] : ( ~ (m1_relset_1(v1, v0, v0) = 0) |  ? [v2] : (g1_orders_2(v0, v1) = v2 &  ! [v3] :  ! [v4] : (v4 = v1 |  ~ (g1_orders_2(v3, v4) = v2)) &  ! [v3] :  ! [v4] : (v3 = v0 |  ~ (g1_orders_2(v3, v4) = v2)))) &  ! [v0] :  ! [v1] : ( ~ (k7_lattice3(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (v3_struct_0(v1) = v4 & v3_struct_0(v0) = v2 & l1_orders_2(v0) = v3 & v1_orders_2(v1) = v5 & ( ~ (v3 = 0) | v2 = 0 | (v5 = 0 &  ~ (v4 = 0))))) &  ! [v0] :  ! [v1] : ( ~ (k7_lattice3(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (v2_orders_2(v1) = v5 & v2_orders_2(v0) = v2 & l1_orders_2(v0) = v3 & v1_orders_2(v1) = v4 & ( ~ (v3 = 0) |  ~ (v2 = 0) | (v5 = 0 & v4 = 0)))) &  ! [v0] :  ! [v1] : ( ~ (k7_lattice3(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] : (l1_orders_2(v1) = v4 & l1_orders_2(v0) = v2 & v1_orders_2(v1) = v3 & ( ~ (v2 = 0) | (v4 = 0 & v3 = 0)))) &  ! [v0] :  ! [v1] : ( ~ (a_1_1_waybel_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] : (k9_waybel_0(v0) = v6 & v3_orders_2(v0) = v4 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v5 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) | v6 = v1 | v2 = 0))) &  ! [v0] :  ! [v1] : ( ~ (k9_waybel_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k7_lattice3(v0) = v6 & k8_waybel_0(v6) = v7 & v3_orders_2(v0) = v4 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v5 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) | v7 = v1 | v2 = 0))) &  ! [v0] :  ! [v1] : ( ~ (a_1_0_waybel_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] : (k8_waybel_0(v0) = v6 & v3_orders_2(v0) = v4 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v5 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) | v6 = v1 | v2 = 0))) &  ! [v0] :  ! [v1] : ( ~ (k8_waybel_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] : (k2_yellow_1(v1) = v8 & k1_zfmisc_1(v9) = v10 & v3_orders_2(v0) = v3 & v4_orders_2(v0) = v4 & v1_lattice3(v0) = v5 & v1_yellow_0(v0) = v6 & v2_orders_2(v0) = v2 & u1_struct_0(v8) = v9 & l1_orders_2(v0) = v7 & ( ~ (v7 = 0) |  ~ (v6 = 0) |  ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ! [v11] : ( ~ (m1_subset_1(v11, v10) = 0) |  ? [v12] :  ? [v13] :  ? [v14] :  ? [v15] : (k3_tarski(v11) = v15 & v1_waybel_0(v11, v8) = v13 & k1_yellow_0(v8, v11) = v14 & v1_xboole_0(v11) = v12 & ( ~ (v13 = 0) | v15 = v14 | v12 = 0)))))) &  ! [v0] :  ! [v1] : ( ~ (v2_funct_1(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] : (v1_relat_1(v0) = v2 & v1_funct_1(v0) = v4 & v1_xboole_0(v0) = v3 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) | v1 = 0))) &  ! [v0] :  ! [v1] : ( ~ (k1_zfmisc_1(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] : ((v3 = 0 &  ~ (v4 = 0) & m1_subset_1(v2, v1) = 0 & v1_xboole_0(v2) = v4) | (v2 = 0 & v1_xboole_0(v0) = 0))) &  ! [v0] :  ! [v1] : ( ~ (k1_zfmisc_1(v0) = v1) |  ? [v2] : ( ~ (v2 = 0) & v1_xboole_0(v1) = v2)) &  ! [v0] :  ! [v1] : ( ~ (k1_zfmisc_1(v0) = v1) |  ? [v2] : (m1_subset_1(v2, v1) = 0 & v1_xboole_0(v2) = 0)) &  ! [v0] :  ! [v1] : ( ~ (v3_yellow_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] : (v3_orders_2(v0) = v5 & v4_orders_2(v0) = v6 & v1_lattice3(v0) = v7 & v2_lattice3(v0) = v10 & v2_yellow_0(v0) = v12 & v1_yellow_0(v0) = v8 & v3_struct_0(v0) = v3 & v2_orders_2(v0) = v4 & v3_lattice3(v0) = v11 & v24_waybel_0(v0) = v9 & l1_orders_2(v0) = v2 & ( ~ (v9 = 0) |  ~ (v8 = 0) |  ~ (v7 = 0) |  ~ (v6 = 0) |  ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v2 = 0) | v3 = 0 | (v12 = 0 & v11 = 0 & v10 = 0 & v1 = 0)))) &  ! [v0] :  ! [v1] : ( ~ (v3_yellow_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] : (v3_struct_0(v0) = v3 & v3_lattice3(v0) = v4 & l1_orders_2(v0) = v2 & ( ~ (v4 = 0) |  ~ (v2 = 0) | v3 = 0 | v1 = 0))) &  ! [v0] :  ! [v1] : ( ~ (v25_waybel_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] : (v3_struct_0(v0) = v3 & v2_orders_2(v0) = v4 & v3_lattice3(v0) = v5 & v24_waybel_0(v0) = v6 & l1_orders_2(v0) = v2 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v2 = 0) | v3 = 0 | (v6 = 0 & v1 = 0)))) &  ! [v0] :  ! [v1] : ( ~ (r2_hidden(v0, v1) = 0) | m1_subset_1(v0, v1) = 0) &  ! [v0] :  ! [v1] : ( ~ (r2_hidden(v0, v1) = 0) |  ? [v2] : ( ~ (v2 = 0) & v1_xboole_0(v1) = v2)) &  ! [v0] :  ! [v1] : ( ~ (r2_hidden(v0, v1) = 0) |  ? [v2] : ( ~ (v2 = 0) & r2_hidden(v1, v0) = v2)) &  ! [v0] :  ! [v1] : ( ~ (u1_struct_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v1) = v4 & v3_struct_0(v0) = v2 & l1_orders_2(v0) = v3 & ( ~ (v3 = 0) | v2 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v13_waybel_0(v5, v0) = 0 & v12_waybel_0(v5, v0) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))) &  ! [v0] :  ! [v1] : ( ~ (u1_struct_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k1_zfmisc_1(v1) = v3 & l1_orders_2(v0) = v2 & ( ~ (v2 = 0) | (v7 = 0 & v6 = 0 & v5 = 0 & v2_waybel_0(v4, v0) = 0 & v1_waybel_0(v4, v0) = 0 & m1_subset_1(v4, v3) = 0)))) &  ! [v0] :  ! [v1] : ( ~ (u1_struct_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k1_zfmisc_1(v1) = v3 & l1_orders_2(v0) = v2 & ( ~ (v2 = 0) | (v7 = 0 & v6 = 0 & v5 = 0 & v13_waybel_0(v4, v0) = 0 & v12_waybel_0(v4, v0) = 0 & m1_subset_1(v4, v3) = 0)))) &  ! [v0] : (v0 = k1_xboole_0 |  ~ (v1_xboole_0(v0) = 0)) &  ! [v0] : ( ~ (l1_struct_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] : (k1_zfmisc_1(v2) = v3 & v3_struct_0(v0) = v1 & u1_struct_0(v0) = v2 & (v1 = 0 | (v5 = 0 &  ~ (v6 = 0) & m1_subset_1(v4, v3) = 0 & v1_xboole_0(v4) = v6)))) &  ! [v0] : ( ~ (l1_struct_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] : (v1_xboole_0(v2) = v3 & v3_struct_0(v0) = v1 & u1_struct_0(v0) = v2 & ( ~ (v3 = 0) | v1 = 0))) &  ! [v0] : ( ~ (v2_funct_1(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k4_relat_1(v0) = v3 & v1_relat_1(v3) = v4 & v1_relat_1(v0) = v1 & v1_funct_1(v3) = v5 & v1_funct_1(v0) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | (v5 = 0 & v4 = 0)))) &  ! [v0] : ( ~ (v3_yellow_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] : (v2_yellow_0(v0) = v3 & v1_yellow_0(v0) = v2 & l1_orders_2(v0) = v1 & ( ~ (v1 = 0) | (v3 = 0 & v2 = 0)))) &  ! [v0] : ( ~ (v3_orders_2(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] : (k1_zfmisc_1(v4) = v5 & v3_struct_0(v0) = v1 & v2_orders_2(v0) = v2 & u1_struct_0(v0) = v4 & l1_orders_2(v0) = v3 & ( ~ (v3 = 0) |  ~ (v2 = 0) | v1 = 0 | (v10 = 0 & v9 = 0 & v7 = 0 &  ~ (v8 = 0) & v2_waybel_0(v6, v0) = 0 & v13_waybel_0(v6, v0) = 0 & m1_subset_1(v6, v5) = 0 & v1_xboole_0(v6) = v8)))) &  ! [v0] : ( ~ (v3_orders_2(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] : (k1_zfmisc_1(v4) = v5 & v3_struct_0(v0) = v1 & v2_orders_2(v0) = v2 & u1_struct_0(v0) = v4 & l1_orders_2(v0) = v3 & ( ~ (v3 = 0) |  ~ (v2 = 0) | v1 = 0 | (v10 = 0 & v9 = 0 & v7 = 0 &  ~ (v8 = 0) & v1_waybel_0(v6, v0) = 0 & v12_waybel_0(v6, v0) = 0 & m1_subset_1(v6, v5) = 0 & v1_xboole_0(v6) = v8)))) &  ! [v0] : ( ~ (v3_orders_2(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k7_lattice3(v0) = v2 & v3_orders_2(v2) = v4 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v3 & ( ~ (v1 = 0) | (v4 = 0 & v3 = 0)))) &  ! [v0] : ( ~ (v4_orders_2(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] : (k7_lattice3(v0) = v4 & v3_orders_2(v4) = v7 & v3_orders_2(v0) = v2 & v4_orders_2(v4) = v8 & v2_orders_2(v4) = v6 & v2_orders_2(v0) = v1 & l1_orders_2(v0) = v3 & v1_orders_2(v4) = v5 & ( ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) | (v8 = 0 & v7 = 0 & v6 = 0 & v5 = 0)))) &  ! [v0] : ( ~ (v4_orders_2(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k7_lattice3(v0) = v2 & v4_orders_2(v2) = v4 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v3 & ( ~ (v1 = 0) | (v4 = 0 & v3 = 0)))) &  ! [v0] : ( ~ (v1_lattice3(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k7_lattice3(v0) = v2 & v2_lattice3(v2) = v5 & v3_struct_0(v2) = v3 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v4 & ( ~ (v1 = 0) | (v5 = 0 & v4 = 0 &  ~ (v3 = 0))))) &  ! [v0] : ( ~ (v1_lattice3(v0) = 0) |  ? [v1] :  ? [v2] : (v3_struct_0(v0) = v2 & l1_orders_2(v0) = v1 & ( ~ (v2 = 0) |  ~ (v1 = 0)))) &  ! [v0] : ( ~ (v2_lattice3(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] :  ? [v14] : (k1_zfmisc_1(v6) = v7 & v3_orders_2(v0) = v2 & v4_orders_2(v0) = v3 & v1_lattice3(v0) = v4 & v2_orders_2(v0) = v1 & u1_struct_0(v0) = v6 & l1_orders_2(v0) = v5 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) | (v14 = 0 & v13 = 0 & v12 = 0 & v11 = 0 & v9 = 0 &  ~ (v10 = 0) & v2_waybel_0(v8, v0) = 0 & v13_waybel_0(v8, v0) = 0 & v1_waybel_0(v8, v0) = 0 & v12_waybel_0(v8, v0) = 0 & m1_subset_1(v8, v7) = 0 & v1_xboole_0(v8) = v10)))) &  ! [v0] : ( ~ (v2_lattice3(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k7_lattice3(v0) = v2 & v1_lattice3(v2) = v5 & v3_struct_0(v2) = v3 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v4 & ( ~ (v1 = 0) | (v5 = 0 & v4 = 0 &  ~ (v3 = 0))))) &  ! [v0] : ( ~ (v2_lattice3(v0) = 0) |  ? [v1] :  ? [v2] : (v3_struct_0(v0) = v2 & l1_orders_2(v0) = v1 & ( ~ (v2 = 0) |  ~ (v1 = 0)))) &  ! [v0] : ( ~ (v2_yellow_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] :  ? [v14] :  ? [v15] :  ? [v16] :  ? [v17] : (k2_yellow_1(v6) = v7 & k9_waybel_0(v0) = v6 & v3_orders_2(v7) = v11 & v3_orders_2(v0) = v2 & v4_orders_2(v7) = v12 & v4_orders_2(v0) = v3 & v2_lattice3(v7) = v13 & v2_lattice3(v0) = v4 & v1_yellow_0(v7) = v15 & v25_waybel_0(v7) = v17 & v3_struct_0(v7) = v8 & v2_orders_2(v7) = v10 & v2_orders_2(v0) = v1 & v3_lattice3(v7) = v14 & v24_waybel_0(v7) = v16 & l1_orders_2(v0) = v5 & v1_orders_2(v7) = v9 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) | (v17 = 0 & v16 = 0 & v15 = 0 & v14 = 0 & v13 = 0 & v12 = 0 & v11 = 0 & v10 = 0 & v9 = 0 &  ~ (v8 = 0))))) &  ! [v0] : ( ~ (v2_yellow_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k9_waybel_0(v0) = v6 & v1_xboole_0(v6) = v7 & v3_orders_2(v0) = v3 & v4_orders_2(v0) = v4 & v3_struct_0(v0) = v1 & v2_orders_2(v0) = v2 & l1_orders_2(v0) = v5 & ( ~ (v7 = 0) |  ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) | v1 = 0))) &  ! [v0] : ( ~ (v2_yellow_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k7_lattice3(v0) = v2 & v1_yellow_0(v2) = v4 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v3 & ( ~ (v1 = 0) | (v4 = 0 & v3 = 0)))) &  ! [v0] : ( ~ (v1_yellow_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k7_lattice3(v0) = v2 & v2_yellow_0(v2) = v4 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v3 & ( ~ (v1 = 0) | (v4 = 0 & v3 = 0)))) &  ! [v0] : ( ~ (v25_waybel_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] : (v4_orders_2(v0) = v4 & v1_lattice3(v0) = v6 & v2_yellow_0(v0) = v5 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v1 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v1 = 0) | v6 = 0 | v2 = 0))) &  ! [v0] : ( ~ (v25_waybel_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (v4_orders_2(v0) = v4 & v2_lattice3(v0) = v5 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v1 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v1 = 0) | v5 = 0 | v2 = 0))) &  ! [v0] : ( ~ (v25_waybel_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (v1_yellow_0(v0) = v4 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v1 & ( ~ (v3 = 0) |  ~ (v1 = 0) | v4 = 0 | v2 = 0))) &  ! [v0] : ( ~ (v3_lattice3(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] : (k7_lattice3(v0) = v3 & v3_yellow_0(v3) = v11 & v1_lattice3(v3) = v6 & v2_lattice3(v3) = v7 & v2_yellow_0(v3) = v10 & v1_yellow_0(v3) = v9 & v3_struct_0(v3) = v4 & v3_struct_0(v0) = v1 & v3_lattice3(v3) = v8 & l1_orders_2(v0) = v2 & v1_orders_2(v3) = v5 & ( ~ (v2 = 0) | v1 = 0 | (v11 = 0 & v10 = 0 & v9 = 0 & v8 = 0 & v7 = 0 & v6 = 0 & v5 = 0 &  ~ (v4 = 0))))) &  ! [v0] : ( ~ (v3_lattice3(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (v1_lattice3(v0) = v3 & v2_lattice3(v0) = v4 & v3_struct_0(v0) = v2 & l1_orders_2(v0) = v1 & ( ~ (v1 = 0) | v2 = 0 | (v4 = 0 & v3 = 0)))) &  ! [v0] : ( ~ (v24_waybel_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (v1_lattice3(v0) = v3 & v2_yellow_0(v0) = v5 & v3_struct_0(v0) = v4 & v2_orders_2(v0) = v2 & l1_orders_2(v0) = v1 & ( ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) | (v5 = 0 &  ~ (v4 = 0))))) &  ? [v0] :  ? [v1] :  ? [v2] : m2_relset_1(v2, v0, v1) = 0 &  ? [v0] :  ? [v1] :  ? [v2] : m1_relset_1(v2, v0, v1) = 0 &  ? [v0] :  ? [v1] : (v1 = v0 |  ? [v2] :  ? [v3] :  ? [v4] : (r2_hidden(v2, v1) = v4 & r2_hidden(v2, v0) = v3 & ( ~ (v4 = 0) |  ~ (v3 = 0)) & (v4 = 0 | v3 = 0))) &  ? [v0] :  ? [v1] : m1_subset_1(v1, v0) = 0
% 89.60/47.34  |
% 89.60/47.34  | Applying alpha-rule on (1) yields:
% 89.60/47.34  | (2)  ! [v0] :  ! [v1] : ( ~ (r2_hidden(v0, v1) = 0) | m1_subset_1(v0, v1) = 0)
% 89.60/47.34  | (3) v4_orders_2(all_0_14_14) = 0
% 89.60/47.34  | (4)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v4 = 0 |  ~ (k1_yellow_0(v0, v1) = v2) |  ~ (m1_subset_1(v2, v3) = v4) |  ~ (u1_struct_0(v0) = v3) |  ? [v5] : ( ~ (v5 = 0) & l1_orders_2(v0) = v5))
% 89.60/47.34  | (5)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k8_waybel_0(v2) = v1) |  ~ (k8_waybel_0(v2) = v0))
% 89.60/47.34  | (6)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_orders_2(v2) = v1) |  ~ (v1_orders_2(v2) = v0))
% 89.60/47.34  | (7)  ! [v0] : ( ~ (v24_waybel_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (v1_lattice3(v0) = v3 & v2_yellow_0(v0) = v5 & v3_struct_0(v0) = v4 & v2_orders_2(v0) = v2 & l1_orders_2(v0) = v1 & ( ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) | (v5 = 0 &  ~ (v4 = 0)))))
% 89.60/47.34  | (8)  ! [v0] : ( ~ (v25_waybel_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (v1_yellow_0(v0) = v4 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v1 & ( ~ (v3 = 0) |  ~ (v1 = 0) | v4 = 0 | v2 = 0)))
% 89.60/47.34  | (9) v2_yellow_0(all_0_14_14) = 0
% 89.60/47.34  | (10) l1_orders_2(all_0_26_26) = 0
% 89.60/47.34  | (11)  ! [v0] : ( ~ (v1_lattice3(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k7_lattice3(v0) = v2 & v2_lattice3(v2) = v5 & v3_struct_0(v2) = v3 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v4 & ( ~ (v1 = 0) | (v5 = 0 & v4 = 0 &  ~ (v3 = 0)))))
% 89.60/47.34  | (12)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v3_yellow_0(v2) = v1) |  ~ (v3_yellow_0(v2) = v0))
% 89.60/47.34  | (13) v1_yellow_0(all_0_3_3) = 0
% 89.60/47.34  | (14)  ! [v0] : ( ~ (v3_orders_2(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] : (k1_zfmisc_1(v4) = v5 & v3_struct_0(v0) = v1 & v2_orders_2(v0) = v2 & u1_struct_0(v0) = v4 & l1_orders_2(v0) = v3 & ( ~ (v3 = 0) |  ~ (v2 = 0) | v1 = 0 | (v10 = 0 & v9 = 0 & v7 = 0 &  ~ (v8 = 0) & v1_waybel_0(v6, v0) = 0 & v12_waybel_0(v6, v0) = 0 & m1_subset_1(v6, v5) = 0 & v1_xboole_0(v6) = v8))))
% 89.60/47.34  | (15) v4_orders_2(all_0_26_26) = 0
% 89.60/47.34  | (16) v1_xboole_0(all_0_12_12) = all_0_11_11
% 89.60/47.34  | (17)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v2_lattice3(v2) = v1) |  ~ (v2_lattice3(v2) = v0))
% 89.60/47.34  | (18)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v1 = v0 |  ~ (m2_relset_1(v4, v3, v2) = v1) |  ~ (m2_relset_1(v4, v3, v2) = v0))
% 89.60/47.34  | (19) v2_lattice3(all_0_14_14) = 0
% 89.60/47.34  | (20) v2_yellow_0(all_0_3_3) = 0
% 89.60/47.34  | (21) l1_orders_2(all_0_3_3) = 0
% 89.60/47.34  | (22)  ! [v0] : ( ~ (v3_orders_2(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] : (k1_zfmisc_1(v4) = v5 & v3_struct_0(v0) = v1 & v2_orders_2(v0) = v2 & u1_struct_0(v0) = v4 & l1_orders_2(v0) = v3 & ( ~ (v3 = 0) |  ~ (v2 = 0) | v1 = 0 | (v10 = 0 & v9 = 0 & v7 = 0 &  ~ (v8 = 0) & v2_waybel_0(v6, v0) = 0 & v13_waybel_0(v6, v0) = 0 & m1_subset_1(v6, v5) = 0 & v1_xboole_0(v6) = v8))))
% 89.60/47.34  | (23) v3_struct_0(all_0_17_17) = all_0_16_16
% 89.60/47.34  | (24) v1_funct_1(all_0_8_8) = 0
% 89.60/47.34  | (25) v4_orders_2(all_0_3_3) = 0
% 89.60/47.34  | (26)  ~ (all_0_18_18 = all_0_19_19)
% 89.60/47.34  | (27)  ! [v0] : ( ~ (l1_struct_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] : (k1_zfmisc_1(v2) = v3 & v3_struct_0(v0) = v1 & u1_struct_0(v0) = v2 & (v1 = 0 | (v5 = 0 &  ~ (v6 = 0) & m1_subset_1(v4, v3) = 0 & v1_xboole_0(v4) = v6))))
% 89.60/47.34  | (28)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : ( ~ (k2_zfmisc_1(v0, v1) = v3) |  ~ (k1_zfmisc_1(v3) = v4) |  ~ (m1_subset_1(v2, v4) = 0) | v1_relat_1(v2) = 0)
% 89.60/47.34  | (29) v1_relat_1(all_0_8_8) = 0
% 89.60/47.34  | (30)  ? [v0] :  ? [v1] :  ? [v2] : m2_relset_1(v2, v0, v1) = 0
% 89.60/47.34  | (31)  ! [v0] : (v0 = k1_xboole_0 |  ~ (v1_xboole_0(v0) = 0))
% 89.60/47.34  | (32) v3_lattice3(all_0_3_3) = 0
% 89.60/47.34  | (33)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (v2_waybel_0(v3, v2) = v1) |  ~ (v2_waybel_0(v3, v2) = v0))
% 89.60/47.34  | (34)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_lattice3(v2) = v1) |  ~ (v1_lattice3(v2) = v0))
% 89.60/47.34  | (35)  ! [v0] : ( ~ (v25_waybel_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] : (v4_orders_2(v0) = v4 & v1_lattice3(v0) = v6 & v2_yellow_0(v0) = v5 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v1 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v1 = 0) | v6 = 0 | v2 = 0)))
% 89.60/47.34  | (36)  ! [v0] :  ! [v1] : ( ~ (v3_yellow_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] : (v3_orders_2(v0) = v5 & v4_orders_2(v0) = v6 & v1_lattice3(v0) = v7 & v2_lattice3(v0) = v10 & v2_yellow_0(v0) = v12 & v1_yellow_0(v0) = v8 & v3_struct_0(v0) = v3 & v2_orders_2(v0) = v4 & v3_lattice3(v0) = v11 & v24_waybel_0(v0) = v9 & l1_orders_2(v0) = v2 & ( ~ (v9 = 0) |  ~ (v8 = 0) |  ~ (v7 = 0) |  ~ (v6 = 0) |  ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v2 = 0) | v3 = 0 | (v12 = 0 & v11 = 0 & v10 = 0 & v1 = 0))))
% 89.60/47.35  | (37)  ! [v0] : ( ~ (v4_orders_2(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] : (k7_lattice3(v0) = v4 & v3_orders_2(v4) = v7 & v3_orders_2(v0) = v2 & v4_orders_2(v4) = v8 & v2_orders_2(v4) = v6 & v2_orders_2(v0) = v1 & l1_orders_2(v0) = v3 & v1_orders_2(v4) = v5 & ( ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) | (v8 = 0 & v7 = 0 & v6 = 0 & v5 = 0))))
% 89.60/47.35  | (38)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (k1_zfmisc_1(v2) = v3) |  ~ (m1_subset_1(v1, v3) = 0) |  ~ (r2_hidden(v0, v1) = 0) | m1_subset_1(v0, v2) = 0)
% 89.60/47.35  | (39)  ! [v0] : ( ~ (v3_lattice3(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (v1_lattice3(v0) = v3 & v2_lattice3(v0) = v4 & v3_struct_0(v0) = v2 & l1_orders_2(v0) = v1 & ( ~ (v1 = 0) | v2 = 0 | (v4 = 0 & v3 = 0))))
% 89.60/47.35  | (40)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v3_struct_0(v2) = v1) |  ~ (v3_struct_0(v2) = v0))
% 89.60/47.35  | (41)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (l1_orders_2(v2) = v1) |  ~ (l1_orders_2(v2) = v0))
% 89.60/47.35  | (42) l1_struct_0(all_0_17_17) = 0
% 89.60/47.35  | (43)  ? [v0] :  ? [v1] : (v1 = v0 |  ? [v2] :  ? [v3] :  ? [v4] : (r2_hidden(v2, v1) = v4 & r2_hidden(v2, v0) = v3 & ( ~ (v4 = 0) |  ~ (v3 = 0)) & (v4 = 0 | v3 = 0)))
% 89.60/47.35  | (44)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (a_1_0_waybel_0(v1) = v2) |  ~ (r2_hidden(v0, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] :  ? [v14] : (k1_zfmisc_1(v8) = v9 & v3_orders_2(v1) = v6 & v3_struct_0(v1) = v4 & v2_orders_2(v1) = v5 & u1_struct_0(v1) = v8 & l1_orders_2(v1) = v7 & ( ~ (v7 = 0) |  ~ (v6 = 0) |  ~ (v5 = 0) | v4 = 0 | (( ~ (v3 = 0) | (v14 = 0 & v13 = 0 & v12 = 0 & v10 = v0 &  ~ (v11 = 0) & v1_waybel_0(v0, v1) = 0 & v12_waybel_0(v0, v1) = 0 & m1_subset_1(v0, v9) = 0 & v1_xboole_0(v0) = v11)) & (v3 = 0 |  ~ (m1_subset_1(v0, v9) = 0) |  ? [v15] :  ? [v16] :  ? [v17] : (v1_waybel_0(v0, v1) = v16 & v12_waybel_0(v0, v1) = v17 & v1_xboole_0(v0) = v15 & ( ~ (v17 = 0) |  ~ (v16 = 0) | v15 = 0)))))))
% 89.60/47.35  | (45)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (r1_tarski(v3, v2) = v1) |  ~ (r1_tarski(v3, v2) = v0))
% 89.60/47.35  | (46) v3_lattice3(all_0_14_14) = 0
% 89.60/47.35  | (47)  ! [v0] : ( ~ (v2_lattice3(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] :  ? [v14] : (k1_zfmisc_1(v6) = v7 & v3_orders_2(v0) = v2 & v4_orders_2(v0) = v3 & v1_lattice3(v0) = v4 & v2_orders_2(v0) = v1 & u1_struct_0(v0) = v6 & l1_orders_2(v0) = v5 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) | (v14 = 0 & v13 = 0 & v12 = 0 & v11 = 0 & v9 = 0 &  ~ (v10 = 0) & v2_waybel_0(v8, v0) = 0 & v13_waybel_0(v8, v0) = 0 & v1_waybel_0(v8, v0) = 0 & v12_waybel_0(v8, v0) = 0 & m1_subset_1(v8, v7) = 0 & v1_xboole_0(v8) = v10))))
% 89.60/47.35  | (48) l1_struct_0(all_0_1_1) = 0
% 89.60/47.35  | (49) v2_yellow_0(all_0_26_26) = 0
% 89.60/47.35  | (50)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (a_1_1_waybel_0(v2) = v1) |  ~ (a_1_1_waybel_0(v2) = v0))
% 89.60/47.35  | (51)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : ( ~ (k6_relset_1(v1, v1, v2) = v3) |  ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v3) = v4) |  ? [v5] :  ? [v6] : (k7_lattice3(v0) = v6 & l1_orders_2(v0) = v5 & ( ~ (v5 = 0) | v6 = v4)))
% 89.60/47.35  | (52)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] : (v1_lattice3(v3) = v8 & v1_lattice3(v0) = v4 & v3_struct_0(v3) = v6 & l1_orders_2(v0) = v5 & v1_orders_2(v3) = v7 & ( ~ (v5 = 0) |  ~ (v4 = 0) | (v8 = 0 & v7 = 0 &  ~ (v6 = 0)))))
% 89.60/47.35  | (53)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (v12_waybel_0(v3, v2) = v1) |  ~ (v12_waybel_0(v3, v2) = v0))
% 89.60/47.35  | (54)  ! [v0] :  ! [v1] :  ! [v2] : (v2 = 0 |  ~ (r2_hidden(v0, v1) = v2) |  ? [v3] :  ? [v4] : (m1_subset_1(v0, v1) = v3 & v1_xboole_0(v1) = v4 & ( ~ (v3 = 0) | v4 = 0)))
% 89.60/47.35  | (55) v1_waybel_0(all_0_21_21, all_0_24_24) = 0
% 89.60/47.35  | (56)  ! [v0] :  ! [v1] : ( ~ (v25_waybel_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] : (v3_struct_0(v0) = v3 & v2_orders_2(v0) = v4 & v3_lattice3(v0) = v5 & v24_waybel_0(v0) = v6 & l1_orders_2(v0) = v2 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v2 = 0) | v3 = 0 | (v6 = 0 & v1 = 0))))
% 89.60/47.35  | (57) v3_orders_2(all_0_3_3) = 0
% 89.60/47.35  | (58) v3_lattice3(all_0_10_10) = 0
% 89.60/47.35  | (59) k2_yellow_1(all_0_25_25) = all_0_24_24
% 89.60/47.35  | (60)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v2_orders_2(v2) = v1) |  ~ (v2_orders_2(v2) = v0))
% 89.60/47.35  | (61) v3_struct_0(all_0_10_10) = all_0_9_9
% 89.60/47.35  | (62)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k4_relat_1(v2) = v1) |  ~ (k4_relat_1(v2) = v0))
% 89.60/47.35  | (63)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v24_waybel_0(v2) = v1) |  ~ (v24_waybel_0(v2) = v0))
% 89.60/47.35  | (64)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v4 = 0 |  ~ (m2_relset_1(v3, v1, v0) = v4) |  ~ (k6_relset_1(v0, v1, v2) = v3) |  ? [v5] : ( ~ (v5 = 0) & m1_relset_1(v2, v0, v1) = v5))
% 89.60/47.35  | (65)  ~ (all_0_2_2 = 0)
% 89.60/47.35  | (66)  ! [v0] : ( ~ (v3_yellow_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] : (v2_yellow_0(v0) = v3 & v1_yellow_0(v0) = v2 & l1_orders_2(v0) = v1 & ( ~ (v1 = 0) | (v3 = 0 & v2 = 0))))
% 89.60/47.35  | (67) v3_lattice3(all_0_6_6) = 0
% 89.60/47.35  | (68)  ! [v0] :  ! [v1] : (v1 = 0 |  ~ (v3_yellow_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] : (v2_yellow_0(v0) = v4 & v1_yellow_0(v0) = v3 & l1_orders_2(v0) = v2 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0))))
% 89.60/47.35  | (69) v2_lattice3(all_0_10_10) = 0
% 89.60/47.35  | (70) v3_orders_2(all_0_10_10) = 0
% 89.60/47.35  | (71)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (l1_struct_0(v2) = v1) |  ~ (l1_struct_0(v2) = v0))
% 89.60/47.35  | (72) v1_relat_1(all_0_4_4) = 0
% 89.60/47.35  | (73) v3_struct_0(all_0_3_3) = all_0_2_2
% 89.60/47.35  | (74)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v2_yellow_0(v2) = v1) |  ~ (v2_yellow_0(v2) = v0))
% 89.60/47.35  | (75) v1_xboole_0(all_0_8_8) = 0
% 89.60/47.35  | (76) v1_funct_1(all_0_4_4) = 0
% 89.60/47.35  | (77) v2_orders_2(all_0_6_6) = 0
% 89.60/47.35  | (78) v3_orders_2(all_0_14_14) = 0
% 89.60/47.35  | (79) u1_struct_0(all_0_24_24) = all_0_23_23
% 89.60/47.35  | (80) k9_waybel_0(all_0_26_26) = all_0_25_25
% 89.60/47.35  | (81)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v3_orders_2(v2) = v1) |  ~ (v3_orders_2(v2) = v0))
% 89.60/47.35  | (82)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (k1_zfmisc_1(v2) = v3) |  ~ (m1_subset_1(v1, v3) = 0) |  ~ (r2_hidden(v0, v1) = 0) |  ? [v4] : ( ~ (v4 = 0) & v1_xboole_0(v2) = v4))
% 89.60/47.35  | (83)  ! [v0] :  ! [v1] : ( ~ (a_1_1_waybel_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] : (k9_waybel_0(v0) = v6 & v3_orders_2(v0) = v4 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v5 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) | v6 = v1 | v2 = 0)))
% 89.60/47.35  | (84)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v1 = v0 |  ~ (k6_relset_1(v4, v3, v2) = v1) |  ~ (k6_relset_1(v4, v3, v2) = v0))
% 89.60/47.35  | (85)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (v3_struct_0(v3) = v7 & v3_struct_0(v0) = v4 & v2_orders_2(v3) = v9 & v2_orders_2(v0) = v5 & l1_orders_2(v0) = v6 & v1_orders_2(v3) = v8 & ( ~ (v6 = 0) |  ~ (v5 = 0) | v4 = 0 | (v9 = 0 & v8 = 0 &  ~ (v7 = 0)))))
% 89.60/47.35  | (86)  ? [v0] :  ? [v1] : m1_subset_1(v1, v0) = 0
% 89.60/47.35  | (87)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] : (v3_struct_0(v3) = v8 & v3_struct_0(v0) = v4 & v2_orders_2(v3) = v10 & v2_orders_2(v0) = v5 & v24_waybel_0(v3) = v11 & v24_waybel_0(v0) = v6 & l1_orders_2(v0) = v7 & v1_orders_2(v3) = v9 & ( ~ (v7 = 0) |  ~ (v6 = 0) |  ~ (v5 = 0) | v4 = 0 | (v11 = 0 & v10 = 0 & v9 = 0 &  ~ (v8 = 0)))))
% 89.60/47.35  | (88)  ! [v0] :  ! [v1] : ( ~ (k2_yellow_1(v0) = v1) | l1_orders_2(v1) = 0)
% 89.60/47.35  | (89)  ~ (all_0_13_13 = 0)
% 89.60/47.35  | (90)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k1_zfmisc_1(v2) = v1) |  ~ (k1_zfmisc_1(v2) = v0))
% 89.60/47.35  | (91)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (k6_relset_1(v0, v1, v2) = v3) |  ? [v4] :  ? [v5] : (k4_relat_1(v2) = v5 & m1_relset_1(v2, v0, v1) = v4 & ( ~ (v4 = 0) | v5 = v3)))
% 89.60/47.35  | (92)  ! [v0] :  ! [v1] : ( ~ (v3_yellow_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] : (v3_struct_0(v0) = v3 & v3_lattice3(v0) = v4 & l1_orders_2(v0) = v2 & ( ~ (v4 = 0) |  ~ (v2 = 0) | v3 = 0 | v1 = 0)))
% 89.60/47.35  | (93)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (a_1_1_waybel_0(v1) = v2) |  ~ (r2_hidden(v0, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] :  ? [v14] : (k1_zfmisc_1(v8) = v9 & v3_orders_2(v1) = v6 & v3_struct_0(v1) = v4 & v2_orders_2(v1) = v5 & u1_struct_0(v1) = v8 & l1_orders_2(v1) = v7 & ( ~ (v7 = 0) |  ~ (v6 = 0) |  ~ (v5 = 0) | v4 = 0 | (( ~ (v3 = 0) | (v14 = 0 & v13 = 0 & v12 = 0 & v10 = v0 &  ~ (v11 = 0) & v2_waybel_0(v0, v1) = 0 & v13_waybel_0(v0, v1) = 0 & m1_subset_1(v0, v9) = 0 & v1_xboole_0(v0) = v11)) & (v3 = 0 |  ~ (m1_subset_1(v0, v9) = 0) |  ? [v15] :  ? [v16] :  ? [v17] : (v2_waybel_0(v0, v1) = v16 & v13_waybel_0(v0, v1) = v17 & v1_xboole_0(v0) = v15 & ( ~ (v17 = 0) |  ~ (v16 = 0) | v15 = 0)))))))
% 89.60/47.36  | (94)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (a_1_0_waybel_0(v2) = v1) |  ~ (a_1_0_waybel_0(v2) = v0))
% 89.60/47.36  | (95) l1_orders_2(all_0_10_10) = 0
% 89.60/47.36  | (96)  ! [v0] : ( ~ (v3_lattice3(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] : (k7_lattice3(v0) = v3 & v3_yellow_0(v3) = v11 & v1_lattice3(v3) = v6 & v2_lattice3(v3) = v7 & v2_yellow_0(v3) = v10 & v1_yellow_0(v3) = v9 & v3_struct_0(v3) = v4 & v3_struct_0(v0) = v1 & v3_lattice3(v3) = v8 & l1_orders_2(v0) = v2 & v1_orders_2(v3) = v5 & ( ~ (v2 = 0) | v1 = 0 | (v11 = 0 & v10 = 0 & v9 = 0 & v8 = 0 & v7 = 0 & v6 = 0 & v5 = 0 &  ~ (v4 = 0)))))
% 89.60/47.36  | (97) v3_orders_2(all_0_26_26) = 0
% 89.60/47.36  | (98) v1_relat_1(all_0_15_15) = 0
% 89.60/47.36  | (99) l1_orders_2(all_0_6_6) = 0
% 89.60/47.36  | (100) v4_orders_2(all_0_10_10) = 0
% 89.60/47.36  | (101)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_relat_1(v2) = v1) |  ~ (v1_relat_1(v2) = v0))
% 89.60/47.36  | (102)  ! [v0] : ( ~ (v4_orders_2(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k7_lattice3(v0) = v2 & v4_orders_2(v2) = v4 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v3 & ( ~ (v1 = 0) | (v4 = 0 & v3 = 0))))
% 89.60/47.36  | (103)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (r2_hidden(v3, v2) = v1) |  ~ (r2_hidden(v3, v2) = v0))
% 89.60/47.36  | (104)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v25_waybel_0(v2) = v1) |  ~ (v25_waybel_0(v2) = v0))
% 89.60/47.36  | (105)  ! [v0] :  ! [v1] : ( ~ (k7_lattice3(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] : (l1_orders_2(v1) = v4 & l1_orders_2(v0) = v2 & v1_orders_2(v1) = v3 & ( ~ (v2 = 0) | (v4 = 0 & v3 = 0))))
% 89.60/47.36  | (106)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (v13_waybel_0(v3, v2) = v1) |  ~ (v13_waybel_0(v3, v2) = v0))
% 89.60/47.36  | (107)  ! [v0] :  ! [v1] : ( ~ (k4_relat_1(v0) = v1) |  ? [v2] :  ? [v3] : (v1_relat_1(v1) = v3 & v1_relat_1(v0) = v2 & ( ~ (v2 = 0) | v3 = 0)))
% 89.60/47.36  | (108)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (u1_struct_0(v2) = v1) |  ~ (u1_struct_0(v2) = v0))
% 89.60/47.36  | (109)  ! [v0] : ( ~ (v2_yellow_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] :  ? [v14] :  ? [v15] :  ? [v16] :  ? [v17] : (k2_yellow_1(v6) = v7 & k9_waybel_0(v0) = v6 & v3_orders_2(v7) = v11 & v3_orders_2(v0) = v2 & v4_orders_2(v7) = v12 & v4_orders_2(v0) = v3 & v2_lattice3(v7) = v13 & v2_lattice3(v0) = v4 & v1_yellow_0(v7) = v15 & v25_waybel_0(v7) = v17 & v3_struct_0(v7) = v8 & v2_orders_2(v7) = v10 & v2_orders_2(v0) = v1 & v3_lattice3(v7) = v14 & v24_waybel_0(v7) = v16 & l1_orders_2(v0) = v5 & v1_orders_2(v7) = v9 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) | (v17 = 0 & v16 = 0 & v15 = 0 & v14 = 0 & v13 = 0 & v12 = 0 & v11 = 0 & v10 = 0 & v9 = 0 &  ~ (v8 = 0)))))
% 89.60/47.36  | (110)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (k1_yellow_0(v3, v2) = v1) |  ~ (k1_yellow_0(v3, v2) = v0))
% 89.60/47.36  | (111) v24_waybel_0(all_0_3_3) = 0
% 89.60/47.36  | (112)  ! [v0] : ( ~ (v25_waybel_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (v4_orders_2(v0) = v4 & v2_lattice3(v0) = v5 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v1 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v1 = 0) | v5 = 0 | v2 = 0)))
% 89.60/47.36  | (113) v1_orders_2(all_0_6_6) = 0
% 89.60/47.36  | (114)  ! [v0] :  ! [v1] : (v1 = v0 |  ~ (v1_xboole_0(v1) = 0) |  ~ (v1_xboole_0(v0) = 0))
% 89.60/47.36  | (115) v3_struct_0(all_0_14_14) = all_0_13_13
% 89.60/47.36  | (116)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v4 = v2 |  ~ (k6_relset_1(v0, v1, v3) = v4) |  ~ (k6_relset_1(v0, v1, v2) = v3) |  ? [v5] : ( ~ (v5 = 0) & m1_relset_1(v2, v0, v1) = v5))
% 89.60/47.36  | (117)  ! [v0] :  ! [v1] :  ! [v2] : ( ~ (m2_relset_1(v2, v0, v1) = 0) | m1_relset_1(v2, v0, v1) = 0)
% 89.60/47.36  | (118)  ~ (all_0_16_16 = 0)
% 89.60/47.36  | (119)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (v3_struct_0(v3) = v6 & v3_struct_0(v0) = v4 & l1_orders_2(v0) = v5 & v1_orders_2(v3) = v7 & ( ~ (v5 = 0) | v4 = 0 | (v7 = 0 &  ~ (v6 = 0)))))
% 89.60/47.36  | (120)  ! [v0] : ( ~ (v1_yellow_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k7_lattice3(v0) = v2 & v2_yellow_0(v2) = v4 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v3 & ( ~ (v1 = 0) | (v4 = 0 & v3 = 0))))
% 89.60/47.36  | (121)  ! [v0] :  ! [v1] : ( ~ (m1_relset_1(v1, v0, v0) = 0) |  ? [v2] : (g1_orders_2(v0, v1) = v2 &  ! [v3] :  ! [v4] : (v4 = v1 |  ~ (g1_orders_2(v3, v4) = v2)) &  ! [v3] :  ! [v4] : (v3 = v0 |  ~ (g1_orders_2(v3, v4) = v2))))
% 89.60/47.36  | (122)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v3 = 0 |  ~ (k1_zfmisc_1(v1) = v2) |  ~ (m1_subset_1(v0, v2) = v3) |  ? [v4] : ( ~ (v4 = 0) & r1_tarski(v0, v1) = v4))
% 89.60/47.36  | (123) m1_subset_1(all_0_21_21, all_0_22_22) = 0
% 89.60/47.36  | (124)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v2_funct_1(v2) = v1) |  ~ (v2_funct_1(v2) = v0))
% 89.60/47.36  | (125) k3_tarski(all_0_21_21) = all_0_18_18
% 89.60/47.36  | (126) v2_lattice3(all_0_3_3) = 0
% 89.60/47.36  | (127)  ! [v0] :  ! [v1] : ( ~ (k9_waybel_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k7_lattice3(v0) = v6 & k8_waybel_0(v6) = v7 & v3_orders_2(v0) = v4 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v5 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) | v7 = v1 | v2 = 0)))
% 89.60/47.36  | (128)  ! [v0] :  ! [v1] : ( ~ (k7_lattice3(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (v2_orders_2(v1) = v5 & v2_orders_2(v0) = v2 & l1_orders_2(v0) = v3 & v1_orders_2(v1) = v4 & ( ~ (v3 = 0) |  ~ (v2 = 0) | (v5 = 0 & v4 = 0))))
% 89.60/47.36  | (129)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k3_tarski(v2) = v1) |  ~ (k3_tarski(v2) = v0))
% 89.60/47.36  | (130) v3_orders_2(all_0_6_6) = 0
% 89.60/47.36  | (131) v3_yellow_0(all_0_3_3) = 0
% 89.60/47.36  | (132) v25_waybel_0(all_0_3_3) = 0
% 89.60/47.36  | (133) v2_funct_1(all_0_15_15) = 0
% 89.60/47.36  | (134) v2_orders_2(all_0_26_26) = 0
% 89.60/47.36  | (135)  ~ (all_0_5_5 = 0)
% 89.60/47.36  | (136)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_yellow_0(v2) = v1) |  ~ (v1_yellow_0(v2) = v0))
% 89.60/47.36  | (137)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k7_lattice3(v2) = v1) |  ~ (k7_lattice3(v2) = v0))
% 89.60/47.36  | (138)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_funct_1(v2) = v1) |  ~ (v1_funct_1(v2) = v0))
% 89.60/47.36  | (139)  ! [v0] :  ! [v1] :  ! [v2] : ( ~ (k1_zfmisc_1(v1) = v2) |  ~ (m1_subset_1(v0, v2) = 0) | r1_tarski(v0, v1) = 0)
% 89.60/47.36  | (140)  ! [v0] :  ! [v1] : ( ~ (v2_funct_1(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] : (v1_relat_1(v0) = v2 & v1_funct_1(v0) = v4 & v1_xboole_0(v0) = v3 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) | v1 = 0)))
% 89.60/47.36  | (141)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v1_xboole_0(v2) = v1) |  ~ (v1_xboole_0(v2) = v0))
% 89.60/47.36  | (142)  ! [v0] :  ! [v1] : ( ~ (k1_zfmisc_1(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] : ((v3 = 0 &  ~ (v4 = 0) & m1_subset_1(v2, v1) = 0 & v1_xboole_0(v2) = v4) | (v2 = 0 & v1_xboole_0(v0) = 0)))
% 89.60/47.36  | (143)  ! [v0] : ( ~ (v3_orders_2(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k7_lattice3(v0) = v2 & v3_orders_2(v2) = v4 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v3 & ( ~ (v1 = 0) | (v4 = 0 & v3 = 0))))
% 89.60/47.36  | (144)  ! [v0] :  ! [v1] : ( ~ (k4_relat_1(v0) = v1) |  ? [v2] :  ? [v3] : (k4_relat_1(v1) = v3 & v1_relat_1(v0) = v2 & ( ~ (v2 = 0) | v3 = v0)))
% 89.60/47.36  | (145) v2_lattice3(all_0_26_26) = 0
% 89.60/47.36  | (146)  ! [v0] : ( ~ (v2_yellow_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k9_waybel_0(v0) = v6 & v1_xboole_0(v6) = v7 & v3_orders_2(v0) = v3 & v4_orders_2(v0) = v4 & v3_struct_0(v0) = v1 & v2_orders_2(v0) = v2 & l1_orders_2(v0) = v5 & ( ~ (v7 = 0) |  ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) | v1 = 0)))
% 89.60/47.36  | (147)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v3_lattice3(v2) = v1) |  ~ (v3_lattice3(v2) = v0))
% 89.60/47.36  | (148) v1_xboole_0(all_0_7_7) = 0
% 89.60/47.36  | (149)  ! [v0] :  ! [v1] : ( ~ (k1_zfmisc_1(v0) = v1) |  ? [v2] : (m1_subset_1(v2, v1) = 0 & v1_xboole_0(v2) = 0))
% 89.60/47.36  | (150)  ! [v0] : ( ~ (l1_struct_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] : (v1_xboole_0(v2) = v3 & v3_struct_0(v0) = v1 & u1_struct_0(v0) = v2 & ( ~ (v3 = 0) | v1 = 0)))
% 89.60/47.36  | (151)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (k2_zfmisc_1(v3, v2) = v1) |  ~ (k2_zfmisc_1(v3, v2) = v0))
% 89.60/47.36  | (152)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (v4_orders_2(v2) = v1) |  ~ (v4_orders_2(v2) = v0))
% 89.60/47.36  | (153)  ! [v0] : ( ~ (v2_lattice3(v0) = 0) |  ? [v1] :  ? [v2] : (v3_struct_0(v0) = v2 & l1_orders_2(v0) = v1 & ( ~ (v2 = 0) |  ~ (v1 = 0))))
% 89.60/47.36  | (154)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] : (v2_lattice3(v3) = v8 & v2_lattice3(v0) = v4 & v3_struct_0(v3) = v6 & l1_orders_2(v0) = v5 & v1_orders_2(v3) = v7 & ( ~ (v5 = 0) |  ~ (v4 = 0) | (v8 = 0 & v7 = 0 &  ~ (v6 = 0)))))
% 89.60/47.36  | (155) v1_yellow_0(all_0_14_14) = 0
% 89.60/47.36  | (156)  ! [v0] :  ! [v1] :  ! [v2] : ( ~ (k2_zfmisc_1(v0, v1) = v2) |  ? [v3] :  ? [v4] :  ? [v5] : (v1_xboole_0(v2) = v5 & v1_xboole_0(v1) = v4 & v1_xboole_0(v0) = v3 & ( ~ (v5 = 0) | v4 = 0 | v3 = 0)))
% 89.60/47.36  | (157) v1_orders_2(all_0_3_3) = 0
% 89.60/47.36  | (158)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k9_waybel_0(v2) = v1) |  ~ (k9_waybel_0(v2) = v0))
% 89.60/47.36  | (159)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (m1_subset_1(v3, v2) = v1) |  ~ (m1_subset_1(v3, v2) = v0))
% 89.60/47.36  | (160) l1_orders_2(all_0_14_14) = 0
% 89.60/47.36  | (161) k1_zfmisc_1(all_0_23_23) = all_0_22_22
% 89.60/47.36  | (162) v4_orders_2(all_0_6_6) = 0
% 89.60/47.36  | (163) v3_struct_0(all_0_6_6) = all_0_5_5
% 89.60/47.36  | (164)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v3 = v0 |  ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] : (l1_orders_2(v0) = v4 & v1_orders_2(v0) = v5 & ( ~ (v5 = 0) |  ~ (v4 = 0))))
% 89.60/47.36  | (165)  ~ (all_0_11_11 = 0)
% 89.60/47.36  | (166) k1_yellow_0(all_0_24_24, all_0_21_21) = all_0_19_19
% 89.60/47.36  | (167)  ! [v0] :  ! [v1] : ( ~ (k1_zfmisc_1(v0) = v1) |  ? [v2] : ( ~ (v2 = 0) & v1_xboole_0(v1) = v2))
% 89.60/47.36  | (168)  ! [v0] :  ! [v1] : ( ~ (u1_struct_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v1) = v4 & v3_struct_0(v0) = v2 & l1_orders_2(v0) = v3 & ( ~ (v3 = 0) | v2 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v13_waybel_0(v5, v0) = 0 & v12_waybel_0(v5, v0) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7))))
% 89.60/47.36  | (169)  ~ (all_0_9_9 = 0)
% 89.60/47.36  | (170) v1_lattice3(all_0_14_14) = 0
% 89.60/47.36  | (171)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] :  ! [v5] : (v5 = 0 |  ~ (k2_zfmisc_1(v0, v1) = v3) |  ~ (k1_zfmisc_1(v3) = v4) |  ~ (m1_subset_1(v2, v4) = v5) |  ? [v6] : ( ~ (v6 = 0) & m2_relset_1(v2, v0, v1) = v6))
% 89.60/47.36  | (172)  ! [v0] :  ! [v1] : (v1 = 0 |  ~ (r1_tarski(v0, v0) = v1))
% 89.60/47.36  | (173)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (v1_waybel_0(v3, v2) = v1) |  ~ (v1_waybel_0(v3, v2) = v0))
% 89.60/47.36  | (174)  ! [v0] :  ! [v1] : ( ~ (k7_lattice3(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (v3_struct_0(v1) = v4 & v3_struct_0(v0) = v2 & l1_orders_2(v0) = v3 & v1_orders_2(v1) = v5 & ( ~ (v3 = 0) | v2 = 0 | (v5 = 0 &  ~ (v4 = 0)))))
% 89.60/47.37  | (175) v1_lattice3(all_0_10_10) = 0
% 89.60/47.37  | (176) v2_orders_2(all_0_14_14) = 0
% 89.60/47.37  | (177)  ! [v0] :  ! [v1] : (v1 = 0 |  ~ (v1_funct_1(v0) = v1) |  ? [v2] : ( ~ (v2 = 0) & v1_xboole_0(v0) = v2))
% 89.60/47.37  | (178)  ! [v0] :  ! [v1] : ( ~ (r2_hidden(v0, v1) = 0) |  ? [v2] : ( ~ (v2 = 0) & v1_xboole_0(v1) = v2))
% 89.60/47.37  | (179) l1_orders_2(all_0_0_0) = 0
% 89.60/47.37  | (180)  ! [v0] :  ! [v1] : ( ~ (u1_struct_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k1_zfmisc_1(v1) = v3 & l1_orders_2(v0) = v2 & ( ~ (v2 = 0) | (v7 = 0 & v6 = 0 & v5 = 0 & v2_waybel_0(v4, v0) = 0 & v1_waybel_0(v4, v0) = 0 & m1_subset_1(v4, v3) = 0))))
% 89.60/47.37  | (181)  ! [v0] :  ! [v1] : ( ~ (m1_relset_1(v1, v0, v0) = 0) |  ? [v2] : (g1_orders_2(v0, v1) = v2 & l1_orders_2(v2) = 0 & v1_orders_2(v2) = 0))
% 89.60/47.37  | (182) v1_xboole_0(all_0_21_21) = all_0_20_20
% 89.60/47.37  | (183)  ! [v0] :  ! [v1] : (v1 = 0 |  ~ (l1_struct_0(v0) = v1) |  ? [v2] : ( ~ (v2 = 0) & l1_orders_2(v0) = v2))
% 89.60/47.37  | (184)  ! [v0] :  ! [v1] : ( ~ (u1_struct_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k1_zfmisc_1(v1) = v3 & l1_orders_2(v0) = v2 & ( ~ (v2 = 0) | (v7 = 0 & v6 = 0 & v5 = 0 & v13_waybel_0(v4, v0) = 0 & v12_waybel_0(v4, v0) = 0 & m1_subset_1(v4, v3) = 0))))
% 89.60/47.37  | (185) v2_orders_2(all_0_10_10) = 0
% 89.60/47.37  | (186) v1_xboole_0(k1_xboole_0) = 0
% 89.60/47.37  | (187)  ~ (all_0_20_20 = 0)
% 89.60/47.37  | (188)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (v4_orders_2(v3) = v7 & v4_orders_2(v0) = v4 & l1_orders_2(v0) = v5 & v1_orders_2(v3) = v6 & ( ~ (v5 = 0) |  ~ (v4 = 0) | (v7 = 0 & v6 = 0))))
% 89.60/47.37  | (189) v1_orders_2(all_0_10_10) = 0
% 89.60/47.37  | (190)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (u1_orders_2(v2) = v1) |  ~ (u1_orders_2(v2) = v0))
% 89.60/47.37  | (191) v2_orders_2(all_0_3_3) = 0
% 89.60/47.37  | (192)  ! [v0] :  ! [v1] : ( ~ (k2_yellow_1(v0) = v1) | v1_orders_2(v1) = 0)
% 89.60/47.37  | (193)  ! [v0] : ( ~ (v1_lattice3(v0) = 0) |  ? [v1] :  ? [v2] : (v3_struct_0(v0) = v2 & l1_orders_2(v0) = v1 & ( ~ (v2 = 0) |  ~ (v1 = 0))))
% 89.60/47.37  | (194)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : ( ~ (u1_struct_0(v0) = v1) |  ~ (u1_orders_2(v0) = v2) |  ~ (g1_orders_2(v1, v2) = v3) |  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (v3_orders_2(v3) = v7 & v3_orders_2(v0) = v4 & l1_orders_2(v0) = v5 & v1_orders_2(v3) = v6 & ( ~ (v5 = 0) |  ~ (v4 = 0) | (v7 = 0 & v6 = 0))))
% 89.60/47.37  | (195) v1_lattice3(all_0_3_3) = 0
% 89.60/47.37  | (196) v3_yellow_0(all_0_14_14) = 0
% 89.60/47.37  | (197)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] :  ! [v4] : (v1 = v0 |  ~ (m1_relset_1(v4, v3, v2) = v1) |  ~ (m1_relset_1(v4, v3, v2) = v0))
% 89.60/47.37  | (198)  ! [v0] :  ! [v1] : ( ~ (k8_waybel_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] : (k2_yellow_1(v1) = v8 & k1_zfmisc_1(v9) = v10 & v3_orders_2(v0) = v3 & v4_orders_2(v0) = v4 & v1_lattice3(v0) = v5 & v1_yellow_0(v0) = v6 & v2_orders_2(v0) = v2 & u1_struct_0(v8) = v9 & l1_orders_2(v0) = v7 & ( ~ (v7 = 0) |  ~ (v6 = 0) |  ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ! [v11] : ( ~ (m1_subset_1(v11, v10) = 0) |  ? [v12] :  ? [v13] :  ? [v14] :  ? [v15] : (k3_tarski(v11) = v15 & v1_waybel_0(v11, v8) = v13 & k1_yellow_0(v8, v11) = v14 & v1_xboole_0(v11) = v12 & ( ~ (v13 = 0) | v15 = v14 | v12 = 0))))))
% 89.60/47.37  | (199)  ? [v0] :  ? [v1] :  ? [v2] : m1_relset_1(v2, v0, v1) = 0
% 89.60/47.37  | (200)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v3 = 0 |  ~ (m2_relset_1(v2, v0, v1) = v3) |  ? [v4] : ( ~ (v4 = 0) & m1_relset_1(v2, v0, v1) = v4))
% 89.60/47.37  | (201)  ! [v0] : ( ~ (v2_funct_1(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k4_relat_1(v0) = v3 & v1_relat_1(v3) = v4 & v1_relat_1(v0) = v1 & v1_funct_1(v3) = v5 & v1_funct_1(v0) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | (v5 = 0 & v4 = 0))))
% 89.60/47.37  | (202)  ! [v0] : ( ~ (v2_yellow_0(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k7_lattice3(v0) = v2 & v1_yellow_0(v2) = v4 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v3 & ( ~ (v1 = 0) | (v4 = 0 & v3 = 0))))
% 89.60/47.37  | (203)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v3 = 0 |  ~ (m2_relset_1(v1, v2, v2) = v3) |  ~ (u1_struct_0(v0) = v2) |  ~ (u1_orders_2(v0) = v1) |  ? [v4] : ( ~ (v4 = 0) & l1_orders_2(v0) = v4))
% 89.60/47.37  | (204)  ! [v0] :  ! [v1] :  ! [v2] : (v1 = v0 |  ~ (k2_yellow_1(v2) = v1) |  ~ (k2_yellow_1(v2) = v0))
% 89.60/47.37  | (205)  ! [v0] : ( ~ (v2_lattice3(v0) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k7_lattice3(v0) = v2 & v1_lattice3(v2) = v5 & v3_struct_0(v2) = v3 & l1_orders_2(v0) = v1 & v1_orders_2(v2) = v4 & ( ~ (v1 = 0) | (v5 = 0 & v4 = 0 &  ~ (v3 = 0)))))
% 89.60/47.37  | (206) v1_funct_1(all_0_15_15) = 0
% 89.60/47.37  | (207)  ! [v0] :  ! [v1] : ( ~ (r2_hidden(v0, v1) = 0) |  ? [v2] : ( ~ (v2 = 0) & r2_hidden(v1, v0) = v2))
% 89.60/47.37  | (208)  ! [v0] :  ! [v1] :  ! [v2] :  ! [v3] : (v1 = v0 |  ~ (g1_orders_2(v3, v2) = v1) |  ~ (g1_orders_2(v3, v2) = v0))
% 89.60/47.37  | (209)  ! [v0] :  ! [v1] : ( ~ (a_1_0_waybel_0(v0) = v1) |  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] : (k8_waybel_0(v0) = v6 & v3_orders_2(v0) = v4 & v3_struct_0(v0) = v2 & v2_orders_2(v0) = v3 & l1_orders_2(v0) = v5 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) | v6 = v1 | v2 = 0)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (141) with k1_xboole_0, 0, all_0_20_20 and discharging atoms v1_xboole_0(k1_xboole_0) = 0, yields:
% 89.60/47.37  | (210) all_0_20_20 = 0 |  ~ (v1_xboole_0(k1_xboole_0) = all_0_20_20)
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (27) with all_0_1_1 and discharging atoms l1_struct_0(all_0_1_1) = 0, yields:
% 89.60/47.37  | (211)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k1_zfmisc_1(v1) = v2 & v3_struct_0(all_0_1_1) = v0 & u1_struct_0(all_0_1_1) = v1 & (v0 = 0 | (v4 = 0 &  ~ (v5 = 0) & m1_subset_1(v3, v2) = 0 & v1_xboole_0(v3) = v5)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (150) with all_0_1_1 and discharging atoms l1_struct_0(all_0_1_1) = 0, yields:
% 89.60/47.37  | (212)  ? [v0] :  ? [v1] :  ? [v2] : (v1_xboole_0(v1) = v2 & v3_struct_0(all_0_1_1) = v0 & u1_struct_0(all_0_1_1) = v1 & ( ~ (v2 = 0) | v0 = 0))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (27) with all_0_17_17 and discharging atoms l1_struct_0(all_0_17_17) = 0, yields:
% 89.60/47.37  | (213)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k1_zfmisc_1(v1) = v2 & v3_struct_0(all_0_17_17) = v0 & u1_struct_0(all_0_17_17) = v1 & (v0 = 0 | (v4 = 0 &  ~ (v5 = 0) & m1_subset_1(v3, v2) = 0 & v1_xboole_0(v3) = v5)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (150) with all_0_17_17 and discharging atoms l1_struct_0(all_0_17_17) = 0, yields:
% 89.60/47.37  | (214)  ? [v0] :  ? [v1] :  ? [v2] : (v1_xboole_0(v1) = v2 & v3_struct_0(all_0_17_17) = v0 & u1_struct_0(all_0_17_17) = v1 & ( ~ (v2 = 0) | v0 = 0))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (127) with all_0_25_25, all_0_26_26 and discharging atoms k9_waybel_0(all_0_26_26) = all_0_25_25, yields:
% 89.60/47.37  | (215)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k7_lattice3(all_0_26_26) = v4 & k8_waybel_0(v4) = v5 & v3_orders_2(all_0_26_26) = v2 & v3_struct_0(all_0_26_26) = v0 & v2_orders_2(all_0_26_26) = v1 & l1_orders_2(all_0_26_26) = v3 & ( ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) | v5 = all_0_25_25 | v0 = 0))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (149) with all_0_22_22, all_0_23_23 and discharging atoms k1_zfmisc_1(all_0_23_23) = all_0_22_22, yields:
% 89.60/47.37  | (216)  ? [v0] : (m1_subset_1(v0, all_0_22_22) = 0 & v1_xboole_0(v0) = 0)
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (22) with all_0_3_3 and discharging atoms v3_orders_2(all_0_3_3) = 0, yields:
% 89.60/47.37  | (217)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_3_3) = v0 & v2_orders_2(all_0_3_3) = v1 & u1_struct_0(all_0_3_3) = v3 & l1_orders_2(all_0_3_3) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v2_waybel_0(v5, all_0_3_3) = 0 & v13_waybel_0(v5, all_0_3_3) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (14) with all_0_3_3 and discharging atoms v3_orders_2(all_0_3_3) = 0, yields:
% 89.60/47.37  | (218)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_3_3) = v0 & v2_orders_2(all_0_3_3) = v1 & u1_struct_0(all_0_3_3) = v3 & l1_orders_2(all_0_3_3) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v1_waybel_0(v5, all_0_3_3) = 0 & v12_waybel_0(v5, all_0_3_3) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (22) with all_0_6_6 and discharging atoms v3_orders_2(all_0_6_6) = 0, yields:
% 89.60/47.37  | (219)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_6_6) = v0 & v2_orders_2(all_0_6_6) = v1 & u1_struct_0(all_0_6_6) = v3 & l1_orders_2(all_0_6_6) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v2_waybel_0(v5, all_0_6_6) = 0 & v13_waybel_0(v5, all_0_6_6) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (14) with all_0_6_6 and discharging atoms v3_orders_2(all_0_6_6) = 0, yields:
% 89.60/47.37  | (220)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_6_6) = v0 & v2_orders_2(all_0_6_6) = v1 & u1_struct_0(all_0_6_6) = v3 & l1_orders_2(all_0_6_6) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v1_waybel_0(v5, all_0_6_6) = 0 & v12_waybel_0(v5, all_0_6_6) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (22) with all_0_10_10 and discharging atoms v3_orders_2(all_0_10_10) = 0, yields:
% 89.60/47.37  | (221)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_10_10) = v0 & v2_orders_2(all_0_10_10) = v1 & u1_struct_0(all_0_10_10) = v3 & l1_orders_2(all_0_10_10) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v2_waybel_0(v5, all_0_10_10) = 0 & v13_waybel_0(v5, all_0_10_10) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (14) with all_0_10_10 and discharging atoms v3_orders_2(all_0_10_10) = 0, yields:
% 89.60/47.37  | (222)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_10_10) = v0 & v2_orders_2(all_0_10_10) = v1 & u1_struct_0(all_0_10_10) = v3 & l1_orders_2(all_0_10_10) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v1_waybel_0(v5, all_0_10_10) = 0 & v12_waybel_0(v5, all_0_10_10) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (22) with all_0_14_14 and discharging atoms v3_orders_2(all_0_14_14) = 0, yields:
% 89.60/47.37  | (223)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_14_14) = v0 & v2_orders_2(all_0_14_14) = v1 & u1_struct_0(all_0_14_14) = v3 & l1_orders_2(all_0_14_14) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v2_waybel_0(v5, all_0_14_14) = 0 & v13_waybel_0(v5, all_0_14_14) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (14) with all_0_14_14 and discharging atoms v3_orders_2(all_0_14_14) = 0, yields:
% 89.60/47.37  | (224)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_14_14) = v0 & v2_orders_2(all_0_14_14) = v1 & u1_struct_0(all_0_14_14) = v3 & l1_orders_2(all_0_14_14) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v1_waybel_0(v5, all_0_14_14) = 0 & v12_waybel_0(v5, all_0_14_14) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (22) with all_0_26_26 and discharging atoms v3_orders_2(all_0_26_26) = 0, yields:
% 89.60/47.37  | (225)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_26_26) = v0 & v2_orders_2(all_0_26_26) = v1 & u1_struct_0(all_0_26_26) = v3 & l1_orders_2(all_0_26_26) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v2_waybel_0(v5, all_0_26_26) = 0 & v13_waybel_0(v5, all_0_26_26) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (14) with all_0_26_26 and discharging atoms v3_orders_2(all_0_26_26) = 0, yields:
% 89.60/47.37  | (226)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_26_26) = v0 & v2_orders_2(all_0_26_26) = v1 & u1_struct_0(all_0_26_26) = v3 & l1_orders_2(all_0_26_26) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v1_waybel_0(v5, all_0_26_26) = 0 & v12_waybel_0(v5, all_0_26_26) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (143) with all_0_26_26 and discharging atoms v3_orders_2(all_0_26_26) = 0, yields:
% 89.60/47.37  | (227)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] : (k7_lattice3(all_0_26_26) = v1 & v3_orders_2(v1) = v3 & l1_orders_2(all_0_26_26) = v0 & v1_orders_2(v1) = v2 & ( ~ (v0 = 0) | (v3 = 0 & v2 = 0)))
% 89.60/47.37  |
% 89.60/47.37  | Instantiating formula (37) with all_0_26_26 and discharging atoms v4_orders_2(all_0_26_26) = 0, yields:
% 89.60/47.38  | (228)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k7_lattice3(all_0_26_26) = v3 & v3_orders_2(v3) = v6 & v3_orders_2(all_0_26_26) = v1 & v4_orders_2(v3) = v7 & v2_orders_2(v3) = v5 & v2_orders_2(all_0_26_26) = v0 & l1_orders_2(all_0_26_26) = v2 & v1_orders_2(v3) = v4 & ( ~ (v2 = 0) |  ~ (v1 = 0) |  ~ (v0 = 0) | (v7 = 0 & v6 = 0 & v5 = 0 & v4 = 0)))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (102) with all_0_26_26 and discharging atoms v4_orders_2(all_0_26_26) = 0, yields:
% 89.60/47.38  | (229)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] : (k7_lattice3(all_0_26_26) = v1 & v4_orders_2(v1) = v3 & l1_orders_2(all_0_26_26) = v0 & v1_orders_2(v1) = v2 & ( ~ (v0 = 0) | (v3 = 0 & v2 = 0)))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (47) with all_0_3_3 and discharging atoms v2_lattice3(all_0_3_3) = 0, yields:
% 89.60/47.38  | (230)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] : (k1_zfmisc_1(v5) = v6 & v3_orders_2(all_0_3_3) = v1 & v4_orders_2(all_0_3_3) = v2 & v1_lattice3(all_0_3_3) = v3 & v2_orders_2(all_0_3_3) = v0 & u1_struct_0(all_0_3_3) = v5 & l1_orders_2(all_0_3_3) = v4 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) |  ~ (v0 = 0) | (v13 = 0 & v12 = 0 & v11 = 0 & v10 = 0 & v8 = 0 &  ~ (v9 = 0) & v2_waybel_0(v7, all_0_3_3) = 0 & v13_waybel_0(v7, all_0_3_3) = 0 & v1_waybel_0(v7, all_0_3_3) = 0 & v12_waybel_0(v7, all_0_3_3) = 0 & m1_subset_1(v7, v6) = 0 & v1_xboole_0(v7) = v9)))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (47) with all_0_10_10 and discharging atoms v2_lattice3(all_0_10_10) = 0, yields:
% 89.60/47.38  | (231)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] : (k1_zfmisc_1(v5) = v6 & v3_orders_2(all_0_10_10) = v1 & v4_orders_2(all_0_10_10) = v2 & v1_lattice3(all_0_10_10) = v3 & v2_orders_2(all_0_10_10) = v0 & u1_struct_0(all_0_10_10) = v5 & l1_orders_2(all_0_10_10) = v4 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) |  ~ (v0 = 0) | (v13 = 0 & v12 = 0 & v11 = 0 & v10 = 0 & v8 = 0 &  ~ (v9 = 0) & v2_waybel_0(v7, all_0_10_10) = 0 & v13_waybel_0(v7, all_0_10_10) = 0 & v1_waybel_0(v7, all_0_10_10) = 0 & v12_waybel_0(v7, all_0_10_10) = 0 & m1_subset_1(v7, v6) = 0 & v1_xboole_0(v7) = v9)))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (47) with all_0_14_14 and discharging atoms v2_lattice3(all_0_14_14) = 0, yields:
% 89.60/47.38  | (232)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] : (k1_zfmisc_1(v5) = v6 & v3_orders_2(all_0_14_14) = v1 & v4_orders_2(all_0_14_14) = v2 & v1_lattice3(all_0_14_14) = v3 & v2_orders_2(all_0_14_14) = v0 & u1_struct_0(all_0_14_14) = v5 & l1_orders_2(all_0_14_14) = v4 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) |  ~ (v0 = 0) | (v13 = 0 & v12 = 0 & v11 = 0 & v10 = 0 & v8 = 0 &  ~ (v9 = 0) & v2_waybel_0(v7, all_0_14_14) = 0 & v13_waybel_0(v7, all_0_14_14) = 0 & v1_waybel_0(v7, all_0_14_14) = 0 & v12_waybel_0(v7, all_0_14_14) = 0 & m1_subset_1(v7, v6) = 0 & v1_xboole_0(v7) = v9)))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (47) with all_0_26_26 and discharging atoms v2_lattice3(all_0_26_26) = 0, yields:
% 89.60/47.38  | (233)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] : (k1_zfmisc_1(v5) = v6 & v3_orders_2(all_0_26_26) = v1 & v4_orders_2(all_0_26_26) = v2 & v1_lattice3(all_0_26_26) = v3 & v2_orders_2(all_0_26_26) = v0 & u1_struct_0(all_0_26_26) = v5 & l1_orders_2(all_0_26_26) = v4 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) |  ~ (v0 = 0) | (v13 = 0 & v12 = 0 & v11 = 0 & v10 = 0 & v8 = 0 &  ~ (v9 = 0) & v2_waybel_0(v7, all_0_26_26) = 0 & v13_waybel_0(v7, all_0_26_26) = 0 & v1_waybel_0(v7, all_0_26_26) = 0 & v12_waybel_0(v7, all_0_26_26) = 0 & m1_subset_1(v7, v6) = 0 & v1_xboole_0(v7) = v9)))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (205) with all_0_26_26 and discharging atoms v2_lattice3(all_0_26_26) = 0, yields:
% 89.60/47.38  | (234)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k7_lattice3(all_0_26_26) = v1 & v1_lattice3(v1) = v4 & v3_struct_0(v1) = v2 & l1_orders_2(all_0_26_26) = v0 & v1_orders_2(v1) = v3 & ( ~ (v0 = 0) | (v4 = 0 & v3 = 0 &  ~ (v2 = 0))))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (153) with all_0_26_26 and discharging atoms v2_lattice3(all_0_26_26) = 0, yields:
% 89.60/47.38  | (235)  ? [v0] :  ? [v1] : (v3_struct_0(all_0_26_26) = v1 & l1_orders_2(all_0_26_26) = v0 & ( ~ (v1 = 0) |  ~ (v0 = 0)))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (109) with all_0_26_26 and discharging atoms v2_yellow_0(all_0_26_26) = 0, yields:
% 89.60/47.38  | (236)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] :  ? [v14] :  ? [v15] :  ? [v16] : (k2_yellow_1(v5) = v6 & k9_waybel_0(all_0_26_26) = v5 & v3_orders_2(v6) = v10 & v3_orders_2(all_0_26_26) = v1 & v4_orders_2(v6) = v11 & v4_orders_2(all_0_26_26) = v2 & v2_lattice3(v6) = v12 & v2_lattice3(all_0_26_26) = v3 & v1_yellow_0(v6) = v14 & v25_waybel_0(v6) = v16 & v3_struct_0(v6) = v7 & v2_orders_2(v6) = v9 & v2_orders_2(all_0_26_26) = v0 & v3_lattice3(v6) = v13 & v24_waybel_0(v6) = v15 & l1_orders_2(all_0_26_26) = v4 & v1_orders_2(v6) = v8 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) |  ~ (v0 = 0) | (v16 = 0 & v15 = 0 & v14 = 0 & v13 = 0 & v12 = 0 & v11 = 0 & v10 = 0 & v9 = 0 & v8 = 0 &  ~ (v7 = 0))))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (146) with all_0_26_26 and discharging atoms v2_yellow_0(all_0_26_26) = 0, yields:
% 89.60/47.38  | (237)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] : (k9_waybel_0(all_0_26_26) = v5 & v1_xboole_0(v5) = v6 & v3_orders_2(all_0_26_26) = v2 & v4_orders_2(all_0_26_26) = v3 & v3_struct_0(all_0_26_26) = v0 & v2_orders_2(all_0_26_26) = v1 & l1_orders_2(all_0_26_26) = v4 & ( ~ (v6 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (202) with all_0_26_26 and discharging atoms v2_yellow_0(all_0_26_26) = 0, yields:
% 89.60/47.38  | (238)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] : (k7_lattice3(all_0_26_26) = v1 & v1_yellow_0(v1) = v3 & l1_orders_2(all_0_26_26) = v0 & v1_orders_2(v1) = v2 & ( ~ (v0 = 0) | (v3 = 0 & v2 = 0)))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (168) with all_0_23_23, all_0_24_24 and discharging atoms u1_struct_0(all_0_24_24) = all_0_23_23, yields:
% 89.60/47.38  | (239)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k1_zfmisc_1(all_0_23_23) = v2 & v3_struct_0(all_0_24_24) = v0 & l1_orders_2(all_0_24_24) = v1 & ( ~ (v1 = 0) | v0 = 0 | (v7 = 0 & v6 = 0 & v4 = 0 &  ~ (v5 = 0) & v13_waybel_0(v3, all_0_24_24) = 0 & v12_waybel_0(v3, all_0_24_24) = 0 & m1_subset_1(v3, v2) = 0 & v1_xboole_0(v3) = v5)))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (180) with all_0_23_23, all_0_24_24 and discharging atoms u1_struct_0(all_0_24_24) = all_0_23_23, yields:
% 89.60/47.38  | (240)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k1_zfmisc_1(all_0_23_23) = v1 & l1_orders_2(all_0_24_24) = v0 & ( ~ (v0 = 0) | (v5 = 0 & v4 = 0 & v3 = 0 & v2_waybel_0(v2, all_0_24_24) = 0 & v1_waybel_0(v2, all_0_24_24) = 0 & m1_subset_1(v2, v1) = 0)))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating formula (184) with all_0_23_23, all_0_24_24 and discharging atoms u1_struct_0(all_0_24_24) = all_0_23_23, yields:
% 89.60/47.38  | (241)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k1_zfmisc_1(all_0_23_23) = v1 & l1_orders_2(all_0_24_24) = v0 & ( ~ (v0 = 0) | (v5 = 0 & v4 = 0 & v3 = 0 & v13_waybel_0(v2, all_0_24_24) = 0 & v12_waybel_0(v2, all_0_24_24) = 0 & m1_subset_1(v2, v1) = 0)))
% 89.60/47.38  |
% 89.60/47.38  | Instantiating (226) with all_20_0_37, all_20_1_38, all_20_2_39, all_20_3_40, all_20_4_41, all_20_5_42, all_20_6_43, all_20_7_44, all_20_8_45, all_20_9_46 yields:
% 89.60/47.38  | (242) k1_zfmisc_1(all_20_6_43) = all_20_5_42 & v3_struct_0(all_0_26_26) = all_20_9_46 & v2_orders_2(all_0_26_26) = all_20_8_45 & u1_struct_0(all_0_26_26) = all_20_6_43 & l1_orders_2(all_0_26_26) = all_20_7_44 & ( ~ (all_20_7_44 = 0) |  ~ (all_20_8_45 = 0) | all_20_9_46 = 0 | (all_20_0_37 = 0 & all_20_1_38 = 0 & all_20_3_40 = 0 &  ~ (all_20_2_39 = 0) & v1_waybel_0(all_20_4_41, all_0_26_26) = 0 & v12_waybel_0(all_20_4_41, all_0_26_26) = 0 & m1_subset_1(all_20_4_41, all_20_5_42) = 0 & v1_xboole_0(all_20_4_41) = all_20_2_39))
% 89.60/47.38  |
% 89.60/47.38  | Applying alpha-rule on (242) yields:
% 89.60/47.38  | (243) v3_struct_0(all_0_26_26) = all_20_9_46
% 89.60/47.38  | (244)  ~ (all_20_7_44 = 0) |  ~ (all_20_8_45 = 0) | all_20_9_46 = 0 | (all_20_0_37 = 0 & all_20_1_38 = 0 & all_20_3_40 = 0 &  ~ (all_20_2_39 = 0) & v1_waybel_0(all_20_4_41, all_0_26_26) = 0 & v12_waybel_0(all_20_4_41, all_0_26_26) = 0 & m1_subset_1(all_20_4_41, all_20_5_42) = 0 & v1_xboole_0(all_20_4_41) = all_20_2_39)
% 89.60/47.38  | (245) u1_struct_0(all_0_26_26) = all_20_6_43
% 89.60/47.38  | (246) l1_orders_2(all_0_26_26) = all_20_7_44
% 89.60/47.38  | (247) v2_orders_2(all_0_26_26) = all_20_8_45
% 89.60/47.38  | (248) k1_zfmisc_1(all_20_6_43) = all_20_5_42
% 89.60/47.38  |
% 89.60/47.38  | Instantiating (225) with all_22_0_47, all_22_1_48, all_22_2_49, all_22_3_50, all_22_4_51, all_22_5_52, all_22_6_53, all_22_7_54, all_22_8_55, all_22_9_56 yields:
% 89.60/47.38  | (249) k1_zfmisc_1(all_22_6_53) = all_22_5_52 & v3_struct_0(all_0_26_26) = all_22_9_56 & v2_orders_2(all_0_26_26) = all_22_8_55 & u1_struct_0(all_0_26_26) = all_22_6_53 & l1_orders_2(all_0_26_26) = all_22_7_54 & ( ~ (all_22_7_54 = 0) |  ~ (all_22_8_55 = 0) | all_22_9_56 = 0 | (all_22_0_47 = 0 & all_22_1_48 = 0 & all_22_3_50 = 0 &  ~ (all_22_2_49 = 0) & v2_waybel_0(all_22_4_51, all_0_26_26) = 0 & v13_waybel_0(all_22_4_51, all_0_26_26) = 0 & m1_subset_1(all_22_4_51, all_22_5_52) = 0 & v1_xboole_0(all_22_4_51) = all_22_2_49))
% 89.60/47.38  |
% 89.60/47.38  | Applying alpha-rule on (249) yields:
% 89.60/47.38  | (250) l1_orders_2(all_0_26_26) = all_22_7_54
% 89.60/47.38  | (251) v2_orders_2(all_0_26_26) = all_22_8_55
% 89.60/47.38  | (252) k1_zfmisc_1(all_22_6_53) = all_22_5_52
% 89.60/47.38  | (253) u1_struct_0(all_0_26_26) = all_22_6_53
% 89.60/47.38  | (254)  ~ (all_22_7_54 = 0) |  ~ (all_22_8_55 = 0) | all_22_9_56 = 0 | (all_22_0_47 = 0 & all_22_1_48 = 0 & all_22_3_50 = 0 &  ~ (all_22_2_49 = 0) & v2_waybel_0(all_22_4_51, all_0_26_26) = 0 & v13_waybel_0(all_22_4_51, all_0_26_26) = 0 & m1_subset_1(all_22_4_51, all_22_5_52) = 0 & v1_xboole_0(all_22_4_51) = all_22_2_49)
% 89.60/47.38  | (255) v3_struct_0(all_0_26_26) = all_22_9_56
% 89.60/47.38  |
% 89.60/47.38  | Instantiating (216) with all_24_0_57 yields:
% 89.60/47.38  | (256) m1_subset_1(all_24_0_57, all_0_22_22) = 0 & v1_xboole_0(all_24_0_57) = 0
% 89.60/47.38  |
% 89.60/47.38  | Applying alpha-rule on (256) yields:
% 89.60/47.38  | (257) m1_subset_1(all_24_0_57, all_0_22_22) = 0
% 89.60/47.38  | (258) v1_xboole_0(all_24_0_57) = 0
% 89.60/47.38  |
% 89.60/47.38  | Instantiating (215) with all_30_0_62, all_30_1_63, all_30_2_64, all_30_3_65, all_30_4_66, all_30_5_67 yields:
% 89.60/47.38  | (259) k7_lattice3(all_0_26_26) = all_30_1_63 & k8_waybel_0(all_30_1_63) = all_30_0_62 & v3_orders_2(all_0_26_26) = all_30_3_65 & v3_struct_0(all_0_26_26) = all_30_5_67 & v2_orders_2(all_0_26_26) = all_30_4_66 & l1_orders_2(all_0_26_26) = all_30_2_64 & ( ~ (all_30_2_64 = 0) |  ~ (all_30_3_65 = 0) |  ~ (all_30_4_66 = 0) | all_30_0_62 = all_0_25_25 | all_30_5_67 = 0)
% 89.60/47.38  |
% 89.60/47.38  | Applying alpha-rule on (259) yields:
% 89.60/47.38  | (260) k7_lattice3(all_0_26_26) = all_30_1_63
% 89.60/47.38  | (261)  ~ (all_30_2_64 = 0) |  ~ (all_30_3_65 = 0) |  ~ (all_30_4_66 = 0) | all_30_0_62 = all_0_25_25 | all_30_5_67 = 0
% 89.60/47.38  | (262) k8_waybel_0(all_30_1_63) = all_30_0_62
% 89.60/47.38  | (263) v3_orders_2(all_0_26_26) = all_30_3_65
% 89.60/47.38  | (264) v2_orders_2(all_0_26_26) = all_30_4_66
% 89.60/47.38  | (265) v3_struct_0(all_0_26_26) = all_30_5_67
% 89.60/47.38  | (266) l1_orders_2(all_0_26_26) = all_30_2_64
% 89.60/47.38  |
% 89.60/47.38  | Instantiating (223) with all_32_0_68, all_32_1_69, all_32_2_70, all_32_3_71, all_32_4_72, all_32_5_73, all_32_6_74, all_32_7_75, all_32_8_76, all_32_9_77 yields:
% 89.60/47.38  | (267) k1_zfmisc_1(all_32_6_74) = all_32_5_73 & v3_struct_0(all_0_14_14) = all_32_9_77 & v2_orders_2(all_0_14_14) = all_32_8_76 & u1_struct_0(all_0_14_14) = all_32_6_74 & l1_orders_2(all_0_14_14) = all_32_7_75 & ( ~ (all_32_7_75 = 0) |  ~ (all_32_8_76 = 0) | all_32_9_77 = 0 | (all_32_0_68 = 0 & all_32_1_69 = 0 & all_32_3_71 = 0 &  ~ (all_32_2_70 = 0) & v2_waybel_0(all_32_4_72, all_0_14_14) = 0 & v13_waybel_0(all_32_4_72, all_0_14_14) = 0 & m1_subset_1(all_32_4_72, all_32_5_73) = 0 & v1_xboole_0(all_32_4_72) = all_32_2_70))
% 89.60/47.38  |
% 89.60/47.38  | Applying alpha-rule on (267) yields:
% 89.60/47.38  | (268) u1_struct_0(all_0_14_14) = all_32_6_74
% 90.09/47.38  | (269) k1_zfmisc_1(all_32_6_74) = all_32_5_73
% 90.09/47.38  | (270) l1_orders_2(all_0_14_14) = all_32_7_75
% 90.09/47.38  | (271) v3_struct_0(all_0_14_14) = all_32_9_77
% 90.09/47.38  | (272) v2_orders_2(all_0_14_14) = all_32_8_76
% 90.09/47.38  | (273)  ~ (all_32_7_75 = 0) |  ~ (all_32_8_76 = 0) | all_32_9_77 = 0 | (all_32_0_68 = 0 & all_32_1_69 = 0 & all_32_3_71 = 0 &  ~ (all_32_2_70 = 0) & v2_waybel_0(all_32_4_72, all_0_14_14) = 0 & v13_waybel_0(all_32_4_72, all_0_14_14) = 0 & m1_subset_1(all_32_4_72, all_32_5_73) = 0 & v1_xboole_0(all_32_4_72) = all_32_2_70)
% 90.09/47.38  |
% 90.09/47.38  | Instantiating (224) with all_38_0_86, all_38_1_87, all_38_2_88, all_38_3_89, all_38_4_90, all_38_5_91, all_38_6_92, all_38_7_93, all_38_8_94, all_38_9_95 yields:
% 90.09/47.38  | (274) k1_zfmisc_1(all_38_6_92) = all_38_5_91 & v3_struct_0(all_0_14_14) = all_38_9_95 & v2_orders_2(all_0_14_14) = all_38_8_94 & u1_struct_0(all_0_14_14) = all_38_6_92 & l1_orders_2(all_0_14_14) = all_38_7_93 & ( ~ (all_38_7_93 = 0) |  ~ (all_38_8_94 = 0) | all_38_9_95 = 0 | (all_38_0_86 = 0 & all_38_1_87 = 0 & all_38_3_89 = 0 &  ~ (all_38_2_88 = 0) & v1_waybel_0(all_38_4_90, all_0_14_14) = 0 & v12_waybel_0(all_38_4_90, all_0_14_14) = 0 & m1_subset_1(all_38_4_90, all_38_5_91) = 0 & v1_xboole_0(all_38_4_90) = all_38_2_88))
% 90.09/47.38  |
% 90.09/47.38  | Applying alpha-rule on (274) yields:
% 90.09/47.38  | (275) k1_zfmisc_1(all_38_6_92) = all_38_5_91
% 90.09/47.38  | (276) u1_struct_0(all_0_14_14) = all_38_6_92
% 90.09/47.38  | (277) v3_struct_0(all_0_14_14) = all_38_9_95
% 90.09/47.38  | (278)  ~ (all_38_7_93 = 0) |  ~ (all_38_8_94 = 0) | all_38_9_95 = 0 | (all_38_0_86 = 0 & all_38_1_87 = 0 & all_38_3_89 = 0 &  ~ (all_38_2_88 = 0) & v1_waybel_0(all_38_4_90, all_0_14_14) = 0 & v12_waybel_0(all_38_4_90, all_0_14_14) = 0 & m1_subset_1(all_38_4_90, all_38_5_91) = 0 & v1_xboole_0(all_38_4_90) = all_38_2_88)
% 90.09/47.38  | (279) l1_orders_2(all_0_14_14) = all_38_7_93
% 90.09/47.38  | (280) v2_orders_2(all_0_14_14) = all_38_8_94
% 90.09/47.38  |
% 90.09/47.38  | Instantiating (241) with all_40_0_96, all_40_1_97, all_40_2_98, all_40_3_99, all_40_4_100, all_40_5_101 yields:
% 90.09/47.38  | (281) k1_zfmisc_1(all_0_23_23) = all_40_4_100 & l1_orders_2(all_0_24_24) = all_40_5_101 & ( ~ (all_40_5_101 = 0) | (all_40_0_96 = 0 & all_40_1_97 = 0 & all_40_2_98 = 0 & v13_waybel_0(all_40_3_99, all_0_24_24) = 0 & v12_waybel_0(all_40_3_99, all_0_24_24) = 0 & m1_subset_1(all_40_3_99, all_40_4_100) = 0))
% 90.09/47.38  |
% 90.09/47.38  | Applying alpha-rule on (281) yields:
% 90.09/47.38  | (282) k1_zfmisc_1(all_0_23_23) = all_40_4_100
% 90.09/47.38  | (283) l1_orders_2(all_0_24_24) = all_40_5_101
% 90.09/47.38  | (284)  ~ (all_40_5_101 = 0) | (all_40_0_96 = 0 & all_40_1_97 = 0 & all_40_2_98 = 0 & v13_waybel_0(all_40_3_99, all_0_24_24) = 0 & v12_waybel_0(all_40_3_99, all_0_24_24) = 0 & m1_subset_1(all_40_3_99, all_40_4_100) = 0)
% 90.09/47.38  |
% 90.09/47.38  | Instantiating (240) with all_42_0_102, all_42_1_103, all_42_2_104, all_42_3_105, all_42_4_106, all_42_5_107 yields:
% 90.09/47.38  | (285) k1_zfmisc_1(all_0_23_23) = all_42_4_106 & l1_orders_2(all_0_24_24) = all_42_5_107 & ( ~ (all_42_5_107 = 0) | (all_42_0_102 = 0 & all_42_1_103 = 0 & all_42_2_104 = 0 & v2_waybel_0(all_42_3_105, all_0_24_24) = 0 & v1_waybel_0(all_42_3_105, all_0_24_24) = 0 & m1_subset_1(all_42_3_105, all_42_4_106) = 0))
% 90.09/47.38  |
% 90.09/47.38  | Applying alpha-rule on (285) yields:
% 90.09/47.38  | (286) k1_zfmisc_1(all_0_23_23) = all_42_4_106
% 90.09/47.38  | (287) l1_orders_2(all_0_24_24) = all_42_5_107
% 90.09/47.38  | (288)  ~ (all_42_5_107 = 0) | (all_42_0_102 = 0 & all_42_1_103 = 0 & all_42_2_104 = 0 & v2_waybel_0(all_42_3_105, all_0_24_24) = 0 & v1_waybel_0(all_42_3_105, all_0_24_24) = 0 & m1_subset_1(all_42_3_105, all_42_4_106) = 0)
% 90.09/47.38  |
% 90.09/47.38  | Instantiating (238) with all_44_0_108, all_44_1_109, all_44_2_110, all_44_3_111 yields:
% 90.09/47.38  | (289) k7_lattice3(all_0_26_26) = all_44_2_110 & v1_yellow_0(all_44_2_110) = all_44_0_108 & l1_orders_2(all_0_26_26) = all_44_3_111 & v1_orders_2(all_44_2_110) = all_44_1_109 & ( ~ (all_44_3_111 = 0) | (all_44_0_108 = 0 & all_44_1_109 = 0))
% 90.09/47.38  |
% 90.09/47.38  | Applying alpha-rule on (289) yields:
% 90.09/47.38  | (290) k7_lattice3(all_0_26_26) = all_44_2_110
% 90.09/47.38  | (291) v1_orders_2(all_44_2_110) = all_44_1_109
% 90.09/47.38  | (292) v1_yellow_0(all_44_2_110) = all_44_0_108
% 90.09/47.38  | (293)  ~ (all_44_3_111 = 0) | (all_44_0_108 = 0 & all_44_1_109 = 0)
% 90.09/47.39  | (294) l1_orders_2(all_0_26_26) = all_44_3_111
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (237) with all_46_0_112, all_46_1_113, all_46_2_114, all_46_3_115, all_46_4_116, all_46_5_117, all_46_6_118 yields:
% 90.09/47.39  | (295) k9_waybel_0(all_0_26_26) = all_46_1_113 & v1_xboole_0(all_46_1_113) = all_46_0_112 & v3_orders_2(all_0_26_26) = all_46_4_116 & v4_orders_2(all_0_26_26) = all_46_3_115 & v3_struct_0(all_0_26_26) = all_46_6_118 & v2_orders_2(all_0_26_26) = all_46_5_117 & l1_orders_2(all_0_26_26) = all_46_2_114 & ( ~ (all_46_0_112 = 0) |  ~ (all_46_2_114 = 0) |  ~ (all_46_3_115 = 0) |  ~ (all_46_4_116 = 0) |  ~ (all_46_5_117 = 0) | all_46_6_118 = 0)
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (295) yields:
% 90.09/47.39  | (296) v3_orders_2(all_0_26_26) = all_46_4_116
% 90.09/47.39  | (297) v4_orders_2(all_0_26_26) = all_46_3_115
% 90.09/47.39  | (298) k9_waybel_0(all_0_26_26) = all_46_1_113
% 90.09/47.39  | (299)  ~ (all_46_0_112 = 0) |  ~ (all_46_2_114 = 0) |  ~ (all_46_3_115 = 0) |  ~ (all_46_4_116 = 0) |  ~ (all_46_5_117 = 0) | all_46_6_118 = 0
% 90.09/47.39  | (300) v1_xboole_0(all_46_1_113) = all_46_0_112
% 90.09/47.39  | (301) v3_struct_0(all_0_26_26) = all_46_6_118
% 90.09/47.39  | (302) v2_orders_2(all_0_26_26) = all_46_5_117
% 90.09/47.39  | (303) l1_orders_2(all_0_26_26) = all_46_2_114
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (236) with all_54_0_147, all_54_1_148, all_54_2_149, all_54_3_150, all_54_4_151, all_54_5_152, all_54_6_153, all_54_7_154, all_54_8_155, all_54_9_156, all_54_10_157, all_54_11_158, all_54_12_159, all_54_13_160, all_54_14_161, all_54_15_162, all_54_16_163 yields:
% 90.09/47.39  | (304) k2_yellow_1(all_54_11_158) = all_54_10_157 & k9_waybel_0(all_0_26_26) = all_54_11_158 & v3_orders_2(all_54_10_157) = all_54_6_153 & v3_orders_2(all_0_26_26) = all_54_15_162 & v4_orders_2(all_54_10_157) = all_54_5_152 & v4_orders_2(all_0_26_26) = all_54_14_161 & v2_lattice3(all_54_10_157) = all_54_4_151 & v2_lattice3(all_0_26_26) = all_54_13_160 & v1_yellow_0(all_54_10_157) = all_54_2_149 & v25_waybel_0(all_54_10_157) = all_54_0_147 & v3_struct_0(all_54_10_157) = all_54_9_156 & v2_orders_2(all_54_10_157) = all_54_7_154 & v2_orders_2(all_0_26_26) = all_54_16_163 & v3_lattice3(all_54_10_157) = all_54_3_150 & v24_waybel_0(all_54_10_157) = all_54_1_148 & l1_orders_2(all_0_26_26) = all_54_12_159 & v1_orders_2(all_54_10_157) = all_54_8_155 & ( ~ (all_54_12_159 = 0) |  ~ (all_54_13_160 = 0) |  ~ (all_54_14_161 = 0) |  ~ (all_54_15_162 = 0) |  ~ (all_54_16_163 = 0) | (all_54_0_147 = 0 & all_54_1_148 = 0 & all_54_2_149 = 0 & all_54_3_150 = 0 & all_54_4_151 = 0 & all_54_5_152 = 0 & all_54_6_153 = 0 & all_54_7_154 = 0 & all_54_8_155 = 0 &  ~ (all_54_9_156 = 0)))
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (304) yields:
% 90.09/47.39  | (305) v3_lattice3(all_54_10_157) = all_54_3_150
% 90.09/47.39  | (306) v1_yellow_0(all_54_10_157) = all_54_2_149
% 90.09/47.39  | (307) k9_waybel_0(all_0_26_26) = all_54_11_158
% 90.09/47.39  | (308) v1_orders_2(all_54_10_157) = all_54_8_155
% 90.09/47.39  | (309) v3_orders_2(all_54_10_157) = all_54_6_153
% 90.09/47.39  | (310) v3_orders_2(all_0_26_26) = all_54_15_162
% 90.09/47.39  | (311) v25_waybel_0(all_54_10_157) = all_54_0_147
% 90.09/47.39  | (312) v2_orders_2(all_0_26_26) = all_54_16_163
% 90.09/47.39  | (313) v4_orders_2(all_54_10_157) = all_54_5_152
% 90.09/47.39  | (314) v2_lattice3(all_0_26_26) = all_54_13_160
% 90.09/47.39  | (315) v2_orders_2(all_54_10_157) = all_54_7_154
% 90.09/47.39  | (316) v24_waybel_0(all_54_10_157) = all_54_1_148
% 90.09/47.39  | (317) v4_orders_2(all_0_26_26) = all_54_14_161
% 90.09/47.39  | (318) l1_orders_2(all_0_26_26) = all_54_12_159
% 90.09/47.39  | (319)  ~ (all_54_12_159 = 0) |  ~ (all_54_13_160 = 0) |  ~ (all_54_14_161 = 0) |  ~ (all_54_15_162 = 0) |  ~ (all_54_16_163 = 0) | (all_54_0_147 = 0 & all_54_1_148 = 0 & all_54_2_149 = 0 & all_54_3_150 = 0 & all_54_4_151 = 0 & all_54_5_152 = 0 & all_54_6_153 = 0 & all_54_7_154 = 0 & all_54_8_155 = 0 &  ~ (all_54_9_156 = 0))
% 90.09/47.39  | (320) v2_lattice3(all_54_10_157) = all_54_4_151
% 90.09/47.39  | (321) v3_struct_0(all_54_10_157) = all_54_9_156
% 90.09/47.39  | (322) k2_yellow_1(all_54_11_158) = all_54_10_157
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (235) with all_58_0_181, all_58_1_182 yields:
% 90.09/47.39  | (323) v3_struct_0(all_0_26_26) = all_58_0_181 & l1_orders_2(all_0_26_26) = all_58_1_182 & ( ~ (all_58_0_181 = 0) |  ~ (all_58_1_182 = 0))
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (323) yields:
% 90.09/47.39  | (324) v3_struct_0(all_0_26_26) = all_58_0_181
% 90.09/47.39  | (325) l1_orders_2(all_0_26_26) = all_58_1_182
% 90.09/47.39  | (326)  ~ (all_58_0_181 = 0) |  ~ (all_58_1_182 = 0)
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (232) with all_62_0_188, all_62_1_189, all_62_2_190, all_62_3_191, all_62_4_192, all_62_5_193, all_62_6_194, all_62_7_195, all_62_8_196, all_62_9_197, all_62_10_198, all_62_11_199, all_62_12_200, all_62_13_201 yields:
% 90.09/47.39  | (327) k1_zfmisc_1(all_62_8_196) = all_62_7_195 & v3_orders_2(all_0_14_14) = all_62_12_200 & v4_orders_2(all_0_14_14) = all_62_11_199 & v1_lattice3(all_0_14_14) = all_62_10_198 & v2_orders_2(all_0_14_14) = all_62_13_201 & u1_struct_0(all_0_14_14) = all_62_8_196 & l1_orders_2(all_0_14_14) = all_62_9_197 & ( ~ (all_62_9_197 = 0) |  ~ (all_62_10_198 = 0) |  ~ (all_62_11_199 = 0) |  ~ (all_62_12_200 = 0) |  ~ (all_62_13_201 = 0) | (all_62_0_188 = 0 & all_62_1_189 = 0 & all_62_2_190 = 0 & all_62_3_191 = 0 & all_62_5_193 = 0 &  ~ (all_62_4_192 = 0) & v2_waybel_0(all_62_6_194, all_0_14_14) = 0 & v13_waybel_0(all_62_6_194, all_0_14_14) = 0 & v1_waybel_0(all_62_6_194, all_0_14_14) = 0 & v12_waybel_0(all_62_6_194, all_0_14_14) = 0 & m1_subset_1(all_62_6_194, all_62_7_195) = 0 & v1_xboole_0(all_62_6_194) = all_62_4_192))
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (327) yields:
% 90.09/47.39  | (328) l1_orders_2(all_0_14_14) = all_62_9_197
% 90.09/47.39  | (329) v3_orders_2(all_0_14_14) = all_62_12_200
% 90.09/47.39  | (330) v2_orders_2(all_0_14_14) = all_62_13_201
% 90.09/47.39  | (331) k1_zfmisc_1(all_62_8_196) = all_62_7_195
% 90.09/47.39  | (332) v1_lattice3(all_0_14_14) = all_62_10_198
% 90.09/47.39  | (333) v4_orders_2(all_0_14_14) = all_62_11_199
% 90.09/47.39  | (334)  ~ (all_62_9_197 = 0) |  ~ (all_62_10_198 = 0) |  ~ (all_62_11_199 = 0) |  ~ (all_62_12_200 = 0) |  ~ (all_62_13_201 = 0) | (all_62_0_188 = 0 & all_62_1_189 = 0 & all_62_2_190 = 0 & all_62_3_191 = 0 & all_62_5_193 = 0 &  ~ (all_62_4_192 = 0) & v2_waybel_0(all_62_6_194, all_0_14_14) = 0 & v13_waybel_0(all_62_6_194, all_0_14_14) = 0 & v1_waybel_0(all_62_6_194, all_0_14_14) = 0 & v12_waybel_0(all_62_6_194, all_0_14_14) = 0 & m1_subset_1(all_62_6_194, all_62_7_195) = 0 & v1_xboole_0(all_62_6_194) = all_62_4_192)
% 90.09/47.39  | (335) u1_struct_0(all_0_14_14) = all_62_8_196
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (234) with all_66_0_207, all_66_1_208, all_66_2_209, all_66_3_210, all_66_4_211 yields:
% 90.09/47.39  | (336) k7_lattice3(all_0_26_26) = all_66_3_210 & v1_lattice3(all_66_3_210) = all_66_0_207 & v3_struct_0(all_66_3_210) = all_66_2_209 & l1_orders_2(all_0_26_26) = all_66_4_211 & v1_orders_2(all_66_3_210) = all_66_1_208 & ( ~ (all_66_4_211 = 0) | (all_66_0_207 = 0 & all_66_1_208 = 0 &  ~ (all_66_2_209 = 0)))
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (336) yields:
% 90.09/47.39  | (337)  ~ (all_66_4_211 = 0) | (all_66_0_207 = 0 & all_66_1_208 = 0 &  ~ (all_66_2_209 = 0))
% 90.09/47.39  | (338) l1_orders_2(all_0_26_26) = all_66_4_211
% 90.09/47.39  | (339) v3_struct_0(all_66_3_210) = all_66_2_209
% 90.09/47.39  | (340) v1_orders_2(all_66_3_210) = all_66_1_208
% 90.09/47.39  | (341) v1_lattice3(all_66_3_210) = all_66_0_207
% 90.09/47.39  | (342) k7_lattice3(all_0_26_26) = all_66_3_210
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (233) with all_68_0_212, all_68_1_213, all_68_2_214, all_68_3_215, all_68_4_216, all_68_5_217, all_68_6_218, all_68_7_219, all_68_8_220, all_68_9_221, all_68_10_222, all_68_11_223, all_68_12_224, all_68_13_225 yields:
% 90.09/47.39  | (343) k1_zfmisc_1(all_68_8_220) = all_68_7_219 & v3_orders_2(all_0_26_26) = all_68_12_224 & v4_orders_2(all_0_26_26) = all_68_11_223 & v1_lattice3(all_0_26_26) = all_68_10_222 & v2_orders_2(all_0_26_26) = all_68_13_225 & u1_struct_0(all_0_26_26) = all_68_8_220 & l1_orders_2(all_0_26_26) = all_68_9_221 & ( ~ (all_68_9_221 = 0) |  ~ (all_68_10_222 = 0) |  ~ (all_68_11_223 = 0) |  ~ (all_68_12_224 = 0) |  ~ (all_68_13_225 = 0) | (all_68_0_212 = 0 & all_68_1_213 = 0 & all_68_2_214 = 0 & all_68_3_215 = 0 & all_68_5_217 = 0 &  ~ (all_68_4_216 = 0) & v2_waybel_0(all_68_6_218, all_0_26_26) = 0 & v13_waybel_0(all_68_6_218, all_0_26_26) = 0 & v1_waybel_0(all_68_6_218, all_0_26_26) = 0 & v12_waybel_0(all_68_6_218, all_0_26_26) = 0 & m1_subset_1(all_68_6_218, all_68_7_219) = 0 & v1_xboole_0(all_68_6_218) = all_68_4_216))
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (343) yields:
% 90.09/47.39  | (344) v2_orders_2(all_0_26_26) = all_68_13_225
% 90.09/47.39  | (345) k1_zfmisc_1(all_68_8_220) = all_68_7_219
% 90.09/47.39  | (346) v1_lattice3(all_0_26_26) = all_68_10_222
% 90.09/47.39  | (347) l1_orders_2(all_0_26_26) = all_68_9_221
% 90.09/47.39  | (348) v3_orders_2(all_0_26_26) = all_68_12_224
% 90.09/47.39  | (349)  ~ (all_68_9_221 = 0) |  ~ (all_68_10_222 = 0) |  ~ (all_68_11_223 = 0) |  ~ (all_68_12_224 = 0) |  ~ (all_68_13_225 = 0) | (all_68_0_212 = 0 & all_68_1_213 = 0 & all_68_2_214 = 0 & all_68_3_215 = 0 & all_68_5_217 = 0 &  ~ (all_68_4_216 = 0) & v2_waybel_0(all_68_6_218, all_0_26_26) = 0 & v13_waybel_0(all_68_6_218, all_0_26_26) = 0 & v1_waybel_0(all_68_6_218, all_0_26_26) = 0 & v12_waybel_0(all_68_6_218, all_0_26_26) = 0 & m1_subset_1(all_68_6_218, all_68_7_219) = 0 & v1_xboole_0(all_68_6_218) = all_68_4_216)
% 90.09/47.39  | (350) v4_orders_2(all_0_26_26) = all_68_11_223
% 90.09/47.39  | (351) u1_struct_0(all_0_26_26) = all_68_8_220
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (231) with all_78_0_245, all_78_1_246, all_78_2_247, all_78_3_248, all_78_4_249, all_78_5_250, all_78_6_251, all_78_7_252, all_78_8_253, all_78_9_254, all_78_10_255, all_78_11_256, all_78_12_257, all_78_13_258 yields:
% 90.09/47.39  | (352) k1_zfmisc_1(all_78_8_253) = all_78_7_252 & v3_orders_2(all_0_10_10) = all_78_12_257 & v4_orders_2(all_0_10_10) = all_78_11_256 & v1_lattice3(all_0_10_10) = all_78_10_255 & v2_orders_2(all_0_10_10) = all_78_13_258 & u1_struct_0(all_0_10_10) = all_78_8_253 & l1_orders_2(all_0_10_10) = all_78_9_254 & ( ~ (all_78_9_254 = 0) |  ~ (all_78_10_255 = 0) |  ~ (all_78_11_256 = 0) |  ~ (all_78_12_257 = 0) |  ~ (all_78_13_258 = 0) | (all_78_0_245 = 0 & all_78_1_246 = 0 & all_78_2_247 = 0 & all_78_3_248 = 0 & all_78_5_250 = 0 &  ~ (all_78_4_249 = 0) & v2_waybel_0(all_78_6_251, all_0_10_10) = 0 & v13_waybel_0(all_78_6_251, all_0_10_10) = 0 & v1_waybel_0(all_78_6_251, all_0_10_10) = 0 & v12_waybel_0(all_78_6_251, all_0_10_10) = 0 & m1_subset_1(all_78_6_251, all_78_7_252) = 0 & v1_xboole_0(all_78_6_251) = all_78_4_249))
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (352) yields:
% 90.09/47.39  | (353) v3_orders_2(all_0_10_10) = all_78_12_257
% 90.09/47.39  | (354) v1_lattice3(all_0_10_10) = all_78_10_255
% 90.09/47.39  | (355) u1_struct_0(all_0_10_10) = all_78_8_253
% 90.09/47.39  | (356) v2_orders_2(all_0_10_10) = all_78_13_258
% 90.09/47.39  | (357) k1_zfmisc_1(all_78_8_253) = all_78_7_252
% 90.09/47.39  | (358) v4_orders_2(all_0_10_10) = all_78_11_256
% 90.09/47.39  | (359) l1_orders_2(all_0_10_10) = all_78_9_254
% 90.09/47.39  | (360)  ~ (all_78_9_254 = 0) |  ~ (all_78_10_255 = 0) |  ~ (all_78_11_256 = 0) |  ~ (all_78_12_257 = 0) |  ~ (all_78_13_258 = 0) | (all_78_0_245 = 0 & all_78_1_246 = 0 & all_78_2_247 = 0 & all_78_3_248 = 0 & all_78_5_250 = 0 &  ~ (all_78_4_249 = 0) & v2_waybel_0(all_78_6_251, all_0_10_10) = 0 & v13_waybel_0(all_78_6_251, all_0_10_10) = 0 & v1_waybel_0(all_78_6_251, all_0_10_10) = 0 & v12_waybel_0(all_78_6_251, all_0_10_10) = 0 & m1_subset_1(all_78_6_251, all_78_7_252) = 0 & v1_xboole_0(all_78_6_251) = all_78_4_249)
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (239) with all_80_0_259, all_80_1_260, all_80_2_261, all_80_3_262, all_80_4_263, all_80_5_264, all_80_6_265, all_80_7_266 yields:
% 90.09/47.39  | (361) k1_zfmisc_1(all_0_23_23) = all_80_5_264 & v3_struct_0(all_0_24_24) = all_80_7_266 & l1_orders_2(all_0_24_24) = all_80_6_265 & ( ~ (all_80_6_265 = 0) | all_80_7_266 = 0 | (all_80_0_259 = 0 & all_80_1_260 = 0 & all_80_3_262 = 0 &  ~ (all_80_2_261 = 0) & v13_waybel_0(all_80_4_263, all_0_24_24) = 0 & v12_waybel_0(all_80_4_263, all_0_24_24) = 0 & m1_subset_1(all_80_4_263, all_80_5_264) = 0 & v1_xboole_0(all_80_4_263) = all_80_2_261))
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (361) yields:
% 90.09/47.39  | (362) k1_zfmisc_1(all_0_23_23) = all_80_5_264
% 90.09/47.39  | (363) v3_struct_0(all_0_24_24) = all_80_7_266
% 90.09/47.39  | (364) l1_orders_2(all_0_24_24) = all_80_6_265
% 90.09/47.39  | (365)  ~ (all_80_6_265 = 0) | all_80_7_266 = 0 | (all_80_0_259 = 0 & all_80_1_260 = 0 & all_80_3_262 = 0 &  ~ (all_80_2_261 = 0) & v13_waybel_0(all_80_4_263, all_0_24_24) = 0 & v12_waybel_0(all_80_4_263, all_0_24_24) = 0 & m1_subset_1(all_80_4_263, all_80_5_264) = 0 & v1_xboole_0(all_80_4_263) = all_80_2_261)
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (214) with all_84_0_278, all_84_1_279, all_84_2_280 yields:
% 90.09/47.39  | (366) v1_xboole_0(all_84_1_279) = all_84_0_278 & v3_struct_0(all_0_17_17) = all_84_2_280 & u1_struct_0(all_0_17_17) = all_84_1_279 & ( ~ (all_84_0_278 = 0) | all_84_2_280 = 0)
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (366) yields:
% 90.09/47.39  | (367) v1_xboole_0(all_84_1_279) = all_84_0_278
% 90.09/47.39  | (368) v3_struct_0(all_0_17_17) = all_84_2_280
% 90.09/47.39  | (369) u1_struct_0(all_0_17_17) = all_84_1_279
% 90.09/47.39  | (370)  ~ (all_84_0_278 = 0) | all_84_2_280 = 0
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (212) with all_86_0_281, all_86_1_282, all_86_2_283 yields:
% 90.09/47.39  | (371) v1_xboole_0(all_86_1_282) = all_86_0_281 & v3_struct_0(all_0_1_1) = all_86_2_283 & u1_struct_0(all_0_1_1) = all_86_1_282 & ( ~ (all_86_0_281 = 0) | all_86_2_283 = 0)
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (371) yields:
% 90.09/47.39  | (372) v1_xboole_0(all_86_1_282) = all_86_0_281
% 90.09/47.39  | (373) v3_struct_0(all_0_1_1) = all_86_2_283
% 90.09/47.39  | (374) u1_struct_0(all_0_1_1) = all_86_1_282
% 90.09/47.39  | (375)  ~ (all_86_0_281 = 0) | all_86_2_283 = 0
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (211) with all_88_0_284, all_88_1_285, all_88_2_286, all_88_3_287, all_88_4_288, all_88_5_289 yields:
% 90.09/47.39  | (376) k1_zfmisc_1(all_88_4_288) = all_88_3_287 & v3_struct_0(all_0_1_1) = all_88_5_289 & u1_struct_0(all_0_1_1) = all_88_4_288 & (all_88_5_289 = 0 | (all_88_1_285 = 0 &  ~ (all_88_0_284 = 0) & m1_subset_1(all_88_2_286, all_88_3_287) = 0 & v1_xboole_0(all_88_2_286) = all_88_0_284))
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (376) yields:
% 90.09/47.39  | (377) k1_zfmisc_1(all_88_4_288) = all_88_3_287
% 90.09/47.39  | (378) v3_struct_0(all_0_1_1) = all_88_5_289
% 90.09/47.39  | (379) u1_struct_0(all_0_1_1) = all_88_4_288
% 90.09/47.39  | (380) all_88_5_289 = 0 | (all_88_1_285 = 0 &  ~ (all_88_0_284 = 0) & m1_subset_1(all_88_2_286, all_88_3_287) = 0 & v1_xboole_0(all_88_2_286) = all_88_0_284)
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (213) with all_90_0_290, all_90_1_291, all_90_2_292, all_90_3_293, all_90_4_294, all_90_5_295 yields:
% 90.09/47.39  | (381) k1_zfmisc_1(all_90_4_294) = all_90_3_293 & v3_struct_0(all_0_17_17) = all_90_5_295 & u1_struct_0(all_0_17_17) = all_90_4_294 & (all_90_5_295 = 0 | (all_90_1_291 = 0 &  ~ (all_90_0_290 = 0) & m1_subset_1(all_90_2_292, all_90_3_293) = 0 & v1_xboole_0(all_90_2_292) = all_90_0_290))
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (381) yields:
% 90.09/47.39  | (382) k1_zfmisc_1(all_90_4_294) = all_90_3_293
% 90.09/47.39  | (383) v3_struct_0(all_0_17_17) = all_90_5_295
% 90.09/47.39  | (384) u1_struct_0(all_0_17_17) = all_90_4_294
% 90.09/47.39  | (385) all_90_5_295 = 0 | (all_90_1_291 = 0 &  ~ (all_90_0_290 = 0) & m1_subset_1(all_90_2_292, all_90_3_293) = 0 & v1_xboole_0(all_90_2_292) = all_90_0_290)
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (227) with all_118_0_385, all_118_1_386, all_118_2_387, all_118_3_388 yields:
% 90.09/47.39  | (386) k7_lattice3(all_0_26_26) = all_118_2_387 & v3_orders_2(all_118_2_387) = all_118_0_385 & l1_orders_2(all_0_26_26) = all_118_3_388 & v1_orders_2(all_118_2_387) = all_118_1_386 & ( ~ (all_118_3_388 = 0) | (all_118_0_385 = 0 & all_118_1_386 = 0))
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (386) yields:
% 90.09/47.39  | (387) v3_orders_2(all_118_2_387) = all_118_0_385
% 90.09/47.39  | (388) v1_orders_2(all_118_2_387) = all_118_1_386
% 90.09/47.39  | (389)  ~ (all_118_3_388 = 0) | (all_118_0_385 = 0 & all_118_1_386 = 0)
% 90.09/47.39  | (390) l1_orders_2(all_0_26_26) = all_118_3_388
% 90.09/47.39  | (391) k7_lattice3(all_0_26_26) = all_118_2_387
% 90.09/47.39  |
% 90.09/47.39  | Instantiating (230) with all_120_0_389, all_120_1_390, all_120_2_391, all_120_3_392, all_120_4_393, all_120_5_394, all_120_6_395, all_120_7_396, all_120_8_397, all_120_9_398, all_120_10_399, all_120_11_400, all_120_12_401, all_120_13_402 yields:
% 90.09/47.39  | (392) k1_zfmisc_1(all_120_8_397) = all_120_7_396 & v3_orders_2(all_0_3_3) = all_120_12_401 & v4_orders_2(all_0_3_3) = all_120_11_400 & v1_lattice3(all_0_3_3) = all_120_10_399 & v2_orders_2(all_0_3_3) = all_120_13_402 & u1_struct_0(all_0_3_3) = all_120_8_397 & l1_orders_2(all_0_3_3) = all_120_9_398 & ( ~ (all_120_9_398 = 0) |  ~ (all_120_10_399 = 0) |  ~ (all_120_11_400 = 0) |  ~ (all_120_12_401 = 0) |  ~ (all_120_13_402 = 0) | (all_120_0_389 = 0 & all_120_1_390 = 0 & all_120_2_391 = 0 & all_120_3_392 = 0 & all_120_5_394 = 0 &  ~ (all_120_4_393 = 0) & v2_waybel_0(all_120_6_395, all_0_3_3) = 0 & v13_waybel_0(all_120_6_395, all_0_3_3) = 0 & v1_waybel_0(all_120_6_395, all_0_3_3) = 0 & v12_waybel_0(all_120_6_395, all_0_3_3) = 0 & m1_subset_1(all_120_6_395, all_120_7_396) = 0 & v1_xboole_0(all_120_6_395) = all_120_4_393))
% 90.09/47.39  |
% 90.09/47.39  | Applying alpha-rule on (392) yields:
% 90.09/47.39  | (393) u1_struct_0(all_0_3_3) = all_120_8_397
% 90.09/47.39  | (394) k1_zfmisc_1(all_120_8_397) = all_120_7_396
% 90.09/47.40  | (395) v4_orders_2(all_0_3_3) = all_120_11_400
% 90.09/47.40  | (396) v3_orders_2(all_0_3_3) = all_120_12_401
% 90.09/47.40  | (397)  ~ (all_120_9_398 = 0) |  ~ (all_120_10_399 = 0) |  ~ (all_120_11_400 = 0) |  ~ (all_120_12_401 = 0) |  ~ (all_120_13_402 = 0) | (all_120_0_389 = 0 & all_120_1_390 = 0 & all_120_2_391 = 0 & all_120_3_392 = 0 & all_120_5_394 = 0 &  ~ (all_120_4_393 = 0) & v2_waybel_0(all_120_6_395, all_0_3_3) = 0 & v13_waybel_0(all_120_6_395, all_0_3_3) = 0 & v1_waybel_0(all_120_6_395, all_0_3_3) = 0 & v12_waybel_0(all_120_6_395, all_0_3_3) = 0 & m1_subset_1(all_120_6_395, all_120_7_396) = 0 & v1_xboole_0(all_120_6_395) = all_120_4_393)
% 90.09/47.40  | (398) l1_orders_2(all_0_3_3) = all_120_9_398
% 90.09/47.40  | (399) v1_lattice3(all_0_3_3) = all_120_10_399
% 90.09/47.40  | (400) v2_orders_2(all_0_3_3) = all_120_13_402
% 90.09/47.40  |
% 90.09/47.40  | Instantiating (229) with all_124_0_408, all_124_1_409, all_124_2_410, all_124_3_411 yields:
% 90.09/47.40  | (401) k7_lattice3(all_0_26_26) = all_124_2_410 & v4_orders_2(all_124_2_410) = all_124_0_408 & l1_orders_2(all_0_26_26) = all_124_3_411 & v1_orders_2(all_124_2_410) = all_124_1_409 & ( ~ (all_124_3_411 = 0) | (all_124_0_408 = 0 & all_124_1_409 = 0))
% 90.09/47.40  |
% 90.09/47.40  | Applying alpha-rule on (401) yields:
% 90.09/47.40  | (402) k7_lattice3(all_0_26_26) = all_124_2_410
% 90.09/47.40  | (403) l1_orders_2(all_0_26_26) = all_124_3_411
% 90.09/47.40  | (404)  ~ (all_124_3_411 = 0) | (all_124_0_408 = 0 & all_124_1_409 = 0)
% 90.09/47.40  | (405) v1_orders_2(all_124_2_410) = all_124_1_409
% 90.09/47.40  | (406) v4_orders_2(all_124_2_410) = all_124_0_408
% 90.09/47.40  |
% 90.09/47.40  | Instantiating (228) with all_126_0_412, all_126_1_413, all_126_2_414, all_126_3_415, all_126_4_416, all_126_5_417, all_126_6_418, all_126_7_419 yields:
% 90.09/47.40  | (407) k7_lattice3(all_0_26_26) = all_126_4_416 & v3_orders_2(all_126_4_416) = all_126_1_413 & v3_orders_2(all_0_26_26) = all_126_6_418 & v4_orders_2(all_126_4_416) = all_126_0_412 & v2_orders_2(all_126_4_416) = all_126_2_414 & v2_orders_2(all_0_26_26) = all_126_7_419 & l1_orders_2(all_0_26_26) = all_126_5_417 & v1_orders_2(all_126_4_416) = all_126_3_415 & ( ~ (all_126_5_417 = 0) |  ~ (all_126_6_418 = 0) |  ~ (all_126_7_419 = 0) | (all_126_0_412 = 0 & all_126_1_413 = 0 & all_126_2_414 = 0 & all_126_3_415 = 0))
% 90.09/47.40  |
% 90.09/47.40  | Applying alpha-rule on (407) yields:
% 90.09/47.40  | (408) v2_orders_2(all_126_4_416) = all_126_2_414
% 90.09/47.40  | (409) v4_orders_2(all_126_4_416) = all_126_0_412
% 90.09/47.40  | (410) v3_orders_2(all_0_26_26) = all_126_6_418
% 90.09/47.40  | (411) v1_orders_2(all_126_4_416) = all_126_3_415
% 90.09/47.40  | (412) l1_orders_2(all_0_26_26) = all_126_5_417
% 90.09/47.40  | (413)  ~ (all_126_5_417 = 0) |  ~ (all_126_6_418 = 0) |  ~ (all_126_7_419 = 0) | (all_126_0_412 = 0 & all_126_1_413 = 0 & all_126_2_414 = 0 & all_126_3_415 = 0)
% 90.09/47.40  | (414) v3_orders_2(all_126_4_416) = all_126_1_413
% 90.09/47.40  | (415) v2_orders_2(all_0_26_26) = all_126_7_419
% 90.09/47.40  | (416) k7_lattice3(all_0_26_26) = all_126_4_416
% 90.09/47.40  |
% 90.09/47.40  | Instantiating (222) with all_130_0_427, all_130_1_428, all_130_2_429, all_130_3_430, all_130_4_431, all_130_5_432, all_130_6_433, all_130_7_434, all_130_8_435, all_130_9_436 yields:
% 90.09/47.40  | (417) k1_zfmisc_1(all_130_6_433) = all_130_5_432 & v3_struct_0(all_0_10_10) = all_130_9_436 & v2_orders_2(all_0_10_10) = all_130_8_435 & u1_struct_0(all_0_10_10) = all_130_6_433 & l1_orders_2(all_0_10_10) = all_130_7_434 & ( ~ (all_130_7_434 = 0) |  ~ (all_130_8_435 = 0) | all_130_9_436 = 0 | (all_130_0_427 = 0 & all_130_1_428 = 0 & all_130_3_430 = 0 &  ~ (all_130_2_429 = 0) & v1_waybel_0(all_130_4_431, all_0_10_10) = 0 & v12_waybel_0(all_130_4_431, all_0_10_10) = 0 & m1_subset_1(all_130_4_431, all_130_5_432) = 0 & v1_xboole_0(all_130_4_431) = all_130_2_429))
% 90.09/47.40  |
% 90.09/47.40  | Applying alpha-rule on (417) yields:
% 90.09/47.40  | (418) k1_zfmisc_1(all_130_6_433) = all_130_5_432
% 90.09/47.40  | (419)  ~ (all_130_7_434 = 0) |  ~ (all_130_8_435 = 0) | all_130_9_436 = 0 | (all_130_0_427 = 0 & all_130_1_428 = 0 & all_130_3_430 = 0 &  ~ (all_130_2_429 = 0) & v1_waybel_0(all_130_4_431, all_0_10_10) = 0 & v12_waybel_0(all_130_4_431, all_0_10_10) = 0 & m1_subset_1(all_130_4_431, all_130_5_432) = 0 & v1_xboole_0(all_130_4_431) = all_130_2_429)
% 90.09/47.40  | (420) v3_struct_0(all_0_10_10) = all_130_9_436
% 90.09/47.40  | (421) v2_orders_2(all_0_10_10) = all_130_8_435
% 90.09/47.40  | (422) l1_orders_2(all_0_10_10) = all_130_7_434
% 90.09/47.40  | (423) u1_struct_0(all_0_10_10) = all_130_6_433
% 90.09/47.40  |
% 90.15/47.40  | Instantiating (221) with all_132_0_437, all_132_1_438, all_132_2_439, all_132_3_440, all_132_4_441, all_132_5_442, all_132_6_443, all_132_7_444, all_132_8_445, all_132_9_446 yields:
% 90.15/47.40  | (424) k1_zfmisc_1(all_132_6_443) = all_132_5_442 & v3_struct_0(all_0_10_10) = all_132_9_446 & v2_orders_2(all_0_10_10) = all_132_8_445 & u1_struct_0(all_0_10_10) = all_132_6_443 & l1_orders_2(all_0_10_10) = all_132_7_444 & ( ~ (all_132_7_444 = 0) |  ~ (all_132_8_445 = 0) | all_132_9_446 = 0 | (all_132_0_437 = 0 & all_132_1_438 = 0 & all_132_3_440 = 0 &  ~ (all_132_2_439 = 0) & v2_waybel_0(all_132_4_441, all_0_10_10) = 0 & v13_waybel_0(all_132_4_441, all_0_10_10) = 0 & m1_subset_1(all_132_4_441, all_132_5_442) = 0 & v1_xboole_0(all_132_4_441) = all_132_2_439))
% 90.15/47.40  |
% 90.15/47.40  | Applying alpha-rule on (424) yields:
% 90.15/47.40  | (425) v2_orders_2(all_0_10_10) = all_132_8_445
% 90.15/47.40  | (426) l1_orders_2(all_0_10_10) = all_132_7_444
% 90.15/47.40  | (427)  ~ (all_132_7_444 = 0) |  ~ (all_132_8_445 = 0) | all_132_9_446 = 0 | (all_132_0_437 = 0 & all_132_1_438 = 0 & all_132_3_440 = 0 &  ~ (all_132_2_439 = 0) & v2_waybel_0(all_132_4_441, all_0_10_10) = 0 & v13_waybel_0(all_132_4_441, all_0_10_10) = 0 & m1_subset_1(all_132_4_441, all_132_5_442) = 0 & v1_xboole_0(all_132_4_441) = all_132_2_439)
% 90.15/47.40  | (428) v3_struct_0(all_0_10_10) = all_132_9_446
% 90.15/47.40  | (429) u1_struct_0(all_0_10_10) = all_132_6_443
% 90.15/47.40  | (430) k1_zfmisc_1(all_132_6_443) = all_132_5_442
% 90.15/47.40  |
% 90.15/47.40  | Instantiating (218) with all_134_0_447, all_134_1_448, all_134_2_449, all_134_3_450, all_134_4_451, all_134_5_452, all_134_6_453, all_134_7_454, all_134_8_455, all_134_9_456 yields:
% 90.15/47.40  | (431) k1_zfmisc_1(all_134_6_453) = all_134_5_452 & v3_struct_0(all_0_3_3) = all_134_9_456 & v2_orders_2(all_0_3_3) = all_134_8_455 & u1_struct_0(all_0_3_3) = all_134_6_453 & l1_orders_2(all_0_3_3) = all_134_7_454 & ( ~ (all_134_7_454 = 0) |  ~ (all_134_8_455 = 0) | all_134_9_456 = 0 | (all_134_0_447 = 0 & all_134_1_448 = 0 & all_134_3_450 = 0 &  ~ (all_134_2_449 = 0) & v1_waybel_0(all_134_4_451, all_0_3_3) = 0 & v12_waybel_0(all_134_4_451, all_0_3_3) = 0 & m1_subset_1(all_134_4_451, all_134_5_452) = 0 & v1_xboole_0(all_134_4_451) = all_134_2_449))
% 90.15/47.40  |
% 90.15/47.40  | Applying alpha-rule on (431) yields:
% 90.15/47.40  | (432) v2_orders_2(all_0_3_3) = all_134_8_455
% 90.15/47.40  | (433)  ~ (all_134_7_454 = 0) |  ~ (all_134_8_455 = 0) | all_134_9_456 = 0 | (all_134_0_447 = 0 & all_134_1_448 = 0 & all_134_3_450 = 0 &  ~ (all_134_2_449 = 0) & v1_waybel_0(all_134_4_451, all_0_3_3) = 0 & v12_waybel_0(all_134_4_451, all_0_3_3) = 0 & m1_subset_1(all_134_4_451, all_134_5_452) = 0 & v1_xboole_0(all_134_4_451) = all_134_2_449)
% 90.15/47.40  | (434) k1_zfmisc_1(all_134_6_453) = all_134_5_452
% 90.15/47.40  | (435) u1_struct_0(all_0_3_3) = all_134_6_453
% 90.15/47.40  | (436) v3_struct_0(all_0_3_3) = all_134_9_456
% 90.15/47.40  | (437) l1_orders_2(all_0_3_3) = all_134_7_454
% 90.15/47.40  |
% 90.15/47.40  | Instantiating (217) with all_136_0_457, all_136_1_458, all_136_2_459, all_136_3_460, all_136_4_461, all_136_5_462, all_136_6_463, all_136_7_464, all_136_8_465, all_136_9_466 yields:
% 90.15/47.40  | (438) k1_zfmisc_1(all_136_6_463) = all_136_5_462 & v3_struct_0(all_0_3_3) = all_136_9_466 & v2_orders_2(all_0_3_3) = all_136_8_465 & u1_struct_0(all_0_3_3) = all_136_6_463 & l1_orders_2(all_0_3_3) = all_136_7_464 & ( ~ (all_136_7_464 = 0) |  ~ (all_136_8_465 = 0) | all_136_9_466 = 0 | (all_136_0_457 = 0 & all_136_1_458 = 0 & all_136_3_460 = 0 &  ~ (all_136_2_459 = 0) & v2_waybel_0(all_136_4_461, all_0_3_3) = 0 & v13_waybel_0(all_136_4_461, all_0_3_3) = 0 & m1_subset_1(all_136_4_461, all_136_5_462) = 0 & v1_xboole_0(all_136_4_461) = all_136_2_459))
% 90.15/47.40  |
% 90.15/47.40  | Applying alpha-rule on (438) yields:
% 90.15/47.40  | (439) u1_struct_0(all_0_3_3) = all_136_6_463
% 90.15/47.40  | (440) k1_zfmisc_1(all_136_6_463) = all_136_5_462
% 90.15/47.40  | (441) l1_orders_2(all_0_3_3) = all_136_7_464
% 90.15/47.40  | (442) v2_orders_2(all_0_3_3) = all_136_8_465
% 90.15/47.40  | (443) v3_struct_0(all_0_3_3) = all_136_9_466
% 90.15/47.40  | (444)  ~ (all_136_7_464 = 0) |  ~ (all_136_8_465 = 0) | all_136_9_466 = 0 | (all_136_0_457 = 0 & all_136_1_458 = 0 & all_136_3_460 = 0 &  ~ (all_136_2_459 = 0) & v2_waybel_0(all_136_4_461, all_0_3_3) = 0 & v13_waybel_0(all_136_4_461, all_0_3_3) = 0 & m1_subset_1(all_136_4_461, all_136_5_462) = 0 & v1_xboole_0(all_136_4_461) = all_136_2_459)
% 90.15/47.40  |
% 90.15/47.40  | Instantiating (219) with all_145_0_483, all_145_1_484, all_145_2_485, all_145_3_486, all_145_4_487, all_145_5_488, all_145_6_489, all_145_7_490, all_145_8_491, all_145_9_492 yields:
% 90.15/47.40  | (445) k1_zfmisc_1(all_145_6_489) = all_145_5_488 & v3_struct_0(all_0_6_6) = all_145_9_492 & v2_orders_2(all_0_6_6) = all_145_8_491 & u1_struct_0(all_0_6_6) = all_145_6_489 & l1_orders_2(all_0_6_6) = all_145_7_490 & ( ~ (all_145_7_490 = 0) |  ~ (all_145_8_491 = 0) | all_145_9_492 = 0 | (all_145_0_483 = 0 & all_145_1_484 = 0 & all_145_3_486 = 0 &  ~ (all_145_2_485 = 0) & v2_waybel_0(all_145_4_487, all_0_6_6) = 0 & v13_waybel_0(all_145_4_487, all_0_6_6) = 0 & m1_subset_1(all_145_4_487, all_145_5_488) = 0 & v1_xboole_0(all_145_4_487) = all_145_2_485))
% 90.15/47.40  |
% 90.15/47.40  | Applying alpha-rule on (445) yields:
% 90.15/47.40  | (446) u1_struct_0(all_0_6_6) = all_145_6_489
% 90.15/47.40  | (447)  ~ (all_145_7_490 = 0) |  ~ (all_145_8_491 = 0) | all_145_9_492 = 0 | (all_145_0_483 = 0 & all_145_1_484 = 0 & all_145_3_486 = 0 &  ~ (all_145_2_485 = 0) & v2_waybel_0(all_145_4_487, all_0_6_6) = 0 & v13_waybel_0(all_145_4_487, all_0_6_6) = 0 & m1_subset_1(all_145_4_487, all_145_5_488) = 0 & v1_xboole_0(all_145_4_487) = all_145_2_485)
% 90.15/47.40  | (448) k1_zfmisc_1(all_145_6_489) = all_145_5_488
% 90.15/47.40  | (449) v2_orders_2(all_0_6_6) = all_145_8_491
% 90.15/47.40  | (450) l1_orders_2(all_0_6_6) = all_145_7_490
% 90.15/47.40  | (451) v3_struct_0(all_0_6_6) = all_145_9_492
% 90.15/47.40  |
% 90.15/47.40  | Instantiating (220) with all_149_0_497, all_149_1_498, all_149_2_499, all_149_3_500, all_149_4_501, all_149_5_502, all_149_6_503, all_149_7_504, all_149_8_505, all_149_9_506 yields:
% 90.15/47.40  | (452) k1_zfmisc_1(all_149_6_503) = all_149_5_502 & v3_struct_0(all_0_6_6) = all_149_9_506 & v2_orders_2(all_0_6_6) = all_149_8_505 & u1_struct_0(all_0_6_6) = all_149_6_503 & l1_orders_2(all_0_6_6) = all_149_7_504 & ( ~ (all_149_7_504 = 0) |  ~ (all_149_8_505 = 0) | all_149_9_506 = 0 | (all_149_0_497 = 0 & all_149_1_498 = 0 & all_149_3_500 = 0 &  ~ (all_149_2_499 = 0) & v1_waybel_0(all_149_4_501, all_0_6_6) = 0 & v12_waybel_0(all_149_4_501, all_0_6_6) = 0 & m1_subset_1(all_149_4_501, all_149_5_502) = 0 & v1_xboole_0(all_149_4_501) = all_149_2_499))
% 90.15/47.40  |
% 90.15/47.40  | Applying alpha-rule on (452) yields:
% 90.15/47.40  | (453) k1_zfmisc_1(all_149_6_503) = all_149_5_502
% 90.15/47.40  | (454) v3_struct_0(all_0_6_6) = all_149_9_506
% 90.15/47.40  | (455) l1_orders_2(all_0_6_6) = all_149_7_504
% 90.15/47.40  | (456) v2_orders_2(all_0_6_6) = all_149_8_505
% 90.15/47.40  | (457)  ~ (all_149_7_504 = 0) |  ~ (all_149_8_505 = 0) | all_149_9_506 = 0 | (all_149_0_497 = 0 & all_149_1_498 = 0 & all_149_3_500 = 0 &  ~ (all_149_2_499 = 0) & v1_waybel_0(all_149_4_501, all_0_6_6) = 0 & v12_waybel_0(all_149_4_501, all_0_6_6) = 0 & m1_subset_1(all_149_4_501, all_149_5_502) = 0 & v1_xboole_0(all_149_4_501) = all_149_2_499)
% 90.15/47.40  | (458) u1_struct_0(all_0_6_6) = all_149_6_503
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (204) with all_0_25_25, all_54_10_157, all_0_24_24 and discharging atoms k2_yellow_1(all_0_25_25) = all_0_24_24, yields:
% 90.15/47.40  | (459) all_54_10_157 = all_0_24_24 |  ~ (k2_yellow_1(all_0_25_25) = all_54_10_157)
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (137) with all_0_26_26, all_124_2_410, all_126_4_416 and discharging atoms k7_lattice3(all_0_26_26) = all_126_4_416, k7_lattice3(all_0_26_26) = all_124_2_410, yields:
% 90.15/47.40  | (460) all_126_4_416 = all_124_2_410
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (137) with all_0_26_26, all_118_2_387, all_124_2_410 and discharging atoms k7_lattice3(all_0_26_26) = all_124_2_410, k7_lattice3(all_0_26_26) = all_118_2_387, yields:
% 90.15/47.40  | (461) all_124_2_410 = all_118_2_387
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (137) with all_0_26_26, all_66_3_210, all_126_4_416 and discharging atoms k7_lattice3(all_0_26_26) = all_126_4_416, k7_lattice3(all_0_26_26) = all_66_3_210, yields:
% 90.15/47.40  | (462) all_126_4_416 = all_66_3_210
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (137) with all_0_26_26, all_44_2_110, all_124_2_410 and discharging atoms k7_lattice3(all_0_26_26) = all_124_2_410, k7_lattice3(all_0_26_26) = all_44_2_110, yields:
% 90.15/47.40  | (463) all_124_2_410 = all_44_2_110
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (137) with all_0_26_26, all_30_1_63, all_124_2_410 and discharging atoms k7_lattice3(all_0_26_26) = all_124_2_410, k7_lattice3(all_0_26_26) = all_30_1_63, yields:
% 90.15/47.40  | (464) all_124_2_410 = all_30_1_63
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (158) with all_0_26_26, all_54_11_158, all_0_25_25 and discharging atoms k9_waybel_0(all_0_26_26) = all_54_11_158, k9_waybel_0(all_0_26_26) = all_0_25_25, yields:
% 90.15/47.40  | (465) all_54_11_158 = all_0_25_25
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (158) with all_0_26_26, all_46_1_113, all_54_11_158 and discharging atoms k9_waybel_0(all_0_26_26) = all_54_11_158, k9_waybel_0(all_0_26_26) = all_46_1_113, yields:
% 90.15/47.40  | (466) all_54_11_158 = all_46_1_113
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (90) with all_145_6_489, all_145_5_488, all_149_5_502 and discharging atoms k1_zfmisc_1(all_145_6_489) = all_145_5_488, yields:
% 90.15/47.40  | (467) all_149_5_502 = all_145_5_488 |  ~ (k1_zfmisc_1(all_145_6_489) = all_149_5_502)
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (90) with all_120_8_397, all_120_7_396, all_136_5_462 and discharging atoms k1_zfmisc_1(all_120_8_397) = all_120_7_396, yields:
% 90.15/47.40  | (468) all_136_5_462 = all_120_7_396 |  ~ (k1_zfmisc_1(all_120_8_397) = all_136_5_462)
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (90) with all_78_8_253, all_78_7_252, all_130_5_432 and discharging atoms k1_zfmisc_1(all_78_8_253) = all_78_7_252, yields:
% 90.15/47.40  | (469) all_130_5_432 = all_78_7_252 |  ~ (k1_zfmisc_1(all_78_8_253) = all_130_5_432)
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (90) with all_32_6_74, all_32_5_73, all_62_7_195 and discharging atoms k1_zfmisc_1(all_32_6_74) = all_32_5_73, yields:
% 90.15/47.40  | (470) all_62_7_195 = all_32_5_73 |  ~ (k1_zfmisc_1(all_32_6_74) = all_62_7_195)
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (90) with all_22_6_53, all_22_5_52, all_68_7_219 and discharging atoms k1_zfmisc_1(all_22_6_53) = all_22_5_52, yields:
% 90.15/47.40  | (471) all_68_7_219 = all_22_5_52 |  ~ (k1_zfmisc_1(all_22_6_53) = all_68_7_219)
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (90) with all_20_6_43, all_20_5_42, all_68_7_219 and discharging atoms k1_zfmisc_1(all_20_6_43) = all_20_5_42, yields:
% 90.15/47.40  | (472) all_68_7_219 = all_20_5_42 |  ~ (k1_zfmisc_1(all_20_6_43) = all_68_7_219)
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (90) with all_0_23_23, all_80_5_264, all_0_22_22 and discharging atoms k1_zfmisc_1(all_0_23_23) = all_80_5_264, k1_zfmisc_1(all_0_23_23) = all_0_22_22, yields:
% 90.15/47.40  | (473) all_80_5_264 = all_0_22_22
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (90) with all_0_23_23, all_42_4_106, all_80_5_264 and discharging atoms k1_zfmisc_1(all_0_23_23) = all_80_5_264, k1_zfmisc_1(all_0_23_23) = all_42_4_106, yields:
% 90.15/47.40  | (474) all_80_5_264 = all_42_4_106
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (90) with all_0_23_23, all_40_4_100, all_42_4_106 and discharging atoms k1_zfmisc_1(all_0_23_23) = all_42_4_106, k1_zfmisc_1(all_0_23_23) = all_40_4_100, yields:
% 90.15/47.40  | (475) all_42_4_106 = all_40_4_100
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (31) with all_24_0_57 and discharging atoms v1_xboole_0(all_24_0_57) = 0, yields:
% 90.15/47.40  | (476) all_24_0_57 = k1_xboole_0
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (81) with all_118_2_387, all_118_0_385, all_126_1_413 and discharging atoms v3_orders_2(all_118_2_387) = all_118_0_385, yields:
% 90.15/47.40  | (477) all_126_1_413 = all_118_0_385 |  ~ (v3_orders_2(all_118_2_387) = all_126_1_413)
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (81) with all_0_26_26, all_54_15_162, 0 and discharging atoms v3_orders_2(all_0_26_26) = all_54_15_162, v3_orders_2(all_0_26_26) = 0, yields:
% 90.15/47.40  | (478) all_54_15_162 = 0
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (81) with all_0_26_26, all_54_15_162, all_126_6_418 and discharging atoms v3_orders_2(all_0_26_26) = all_126_6_418, v3_orders_2(all_0_26_26) = all_54_15_162, yields:
% 90.15/47.40  | (479) all_126_6_418 = all_54_15_162
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (81) with all_0_26_26, all_54_15_162, all_68_12_224 and discharging atoms v3_orders_2(all_0_26_26) = all_68_12_224, v3_orders_2(all_0_26_26) = all_54_15_162, yields:
% 90.15/47.40  | (480) all_68_12_224 = all_54_15_162
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (81) with all_0_26_26, all_46_4_116, all_68_12_224 and discharging atoms v3_orders_2(all_0_26_26) = all_68_12_224, v3_orders_2(all_0_26_26) = all_46_4_116, yields:
% 90.15/47.40  | (481) all_68_12_224 = all_46_4_116
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (81) with all_0_26_26, all_30_3_65, all_126_6_418 and discharging atoms v3_orders_2(all_0_26_26) = all_126_6_418, v3_orders_2(all_0_26_26) = all_30_3_65, yields:
% 90.15/47.40  | (482) all_126_6_418 = all_30_3_65
% 90.15/47.40  |
% 90.15/47.40  | Instantiating formula (152) with all_0_26_26, all_68_11_223, 0 and discharging atoms v4_orders_2(all_0_26_26) = all_68_11_223, v4_orders_2(all_0_26_26) = 0, yields:
% 90.15/47.41  | (483) all_68_11_223 = 0
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (152) with all_0_26_26, all_54_14_161, all_68_11_223 and discharging atoms v4_orders_2(all_0_26_26) = all_68_11_223, v4_orders_2(all_0_26_26) = all_54_14_161, yields:
% 90.15/47.41  | (484) all_68_11_223 = all_54_14_161
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (152) with all_0_26_26, all_46_3_115, all_68_11_223 and discharging atoms v4_orders_2(all_0_26_26) = all_68_11_223, v4_orders_2(all_0_26_26) = all_46_3_115, yields:
% 90.15/47.41  | (485) all_68_11_223 = all_46_3_115
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (17) with all_0_26_26, all_54_13_160, 0 and discharging atoms v2_lattice3(all_0_26_26) = all_54_13_160, v2_lattice3(all_0_26_26) = 0, yields:
% 90.15/47.41  | (486) all_54_13_160 = 0
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (40) with all_0_26_26, all_46_6_118, all_58_0_181 and discharging atoms v3_struct_0(all_0_26_26) = all_58_0_181, v3_struct_0(all_0_26_26) = all_46_6_118, yields:
% 90.15/47.41  | (487) all_58_0_181 = all_46_6_118
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (40) with all_0_26_26, all_30_5_67, all_46_6_118 and discharging atoms v3_struct_0(all_0_26_26) = all_46_6_118, v3_struct_0(all_0_26_26) = all_30_5_67, yields:
% 90.15/47.41  | (488) all_46_6_118 = all_30_5_67
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (40) with all_0_26_26, all_22_9_56, all_30_5_67 and discharging atoms v3_struct_0(all_0_26_26) = all_30_5_67, v3_struct_0(all_0_26_26) = all_22_9_56, yields:
% 90.15/47.41  | (489) all_30_5_67 = all_22_9_56
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (40) with all_0_26_26, all_20_9_46, all_58_0_181 and discharging atoms v3_struct_0(all_0_26_26) = all_58_0_181, v3_struct_0(all_0_26_26) = all_20_9_46, yields:
% 90.15/47.41  | (490) all_58_0_181 = all_20_9_46
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (60) with all_0_26_26, all_126_7_419, 0 and discharging atoms v2_orders_2(all_0_26_26) = all_126_7_419, v2_orders_2(all_0_26_26) = 0, yields:
% 90.15/47.41  | (491) all_126_7_419 = 0
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (60) with all_0_26_26, all_68_13_225, all_126_7_419 and discharging atoms v2_orders_2(all_0_26_26) = all_126_7_419, v2_orders_2(all_0_26_26) = all_68_13_225, yields:
% 90.15/47.41  | (492) all_126_7_419 = all_68_13_225
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (60) with all_0_26_26, all_46_5_117, all_126_7_419 and discharging atoms v2_orders_2(all_0_26_26) = all_126_7_419, v2_orders_2(all_0_26_26) = all_46_5_117, yields:
% 90.15/47.41  | (493) all_126_7_419 = all_46_5_117
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (60) with all_0_26_26, all_46_5_117, all_54_16_163 and discharging atoms v2_orders_2(all_0_26_26) = all_54_16_163, v2_orders_2(all_0_26_26) = all_46_5_117, yields:
% 90.15/47.41  | (494) all_54_16_163 = all_46_5_117
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (60) with all_0_26_26, all_30_4_66, all_126_7_419 and discharging atoms v2_orders_2(all_0_26_26) = all_126_7_419, v2_orders_2(all_0_26_26) = all_30_4_66, yields:
% 90.15/47.41  | (495) all_126_7_419 = all_30_4_66
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (60) with all_0_26_26, all_22_8_55, all_54_16_163 and discharging atoms v2_orders_2(all_0_26_26) = all_54_16_163, v2_orders_2(all_0_26_26) = all_22_8_55, yields:
% 90.15/47.41  | (496) all_54_16_163 = all_22_8_55
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (108) with all_0_1_1, all_86_1_282, all_88_4_288 and discharging atoms u1_struct_0(all_0_1_1) = all_88_4_288, u1_struct_0(all_0_1_1) = all_86_1_282, yields:
% 90.15/47.41  | (497) all_88_4_288 = all_86_1_282
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (108) with all_0_3_3, all_134_6_453, all_136_6_463 and discharging atoms u1_struct_0(all_0_3_3) = all_136_6_463, u1_struct_0(all_0_3_3) = all_134_6_453, yields:
% 90.15/47.41  | (498) all_136_6_463 = all_134_6_453
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (108) with all_0_3_3, all_120_8_397, all_136_6_463 and discharging atoms u1_struct_0(all_0_3_3) = all_136_6_463, u1_struct_0(all_0_3_3) = all_120_8_397, yields:
% 90.15/47.41  | (499) all_136_6_463 = all_120_8_397
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (108) with all_0_6_6, all_145_6_489, all_149_6_503 and discharging atoms u1_struct_0(all_0_6_6) = all_149_6_503, u1_struct_0(all_0_6_6) = all_145_6_489, yields:
% 90.15/47.41  | (500) all_149_6_503 = all_145_6_489
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (108) with all_0_10_10, all_130_6_433, all_132_6_443 and discharging atoms u1_struct_0(all_0_10_10) = all_132_6_443, u1_struct_0(all_0_10_10) = all_130_6_433, yields:
% 90.15/47.41  | (501) all_132_6_443 = all_130_6_433
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (108) with all_0_10_10, all_78_8_253, all_132_6_443 and discharging atoms u1_struct_0(all_0_10_10) = all_132_6_443, u1_struct_0(all_0_10_10) = all_78_8_253, yields:
% 90.15/47.41  | (502) all_132_6_443 = all_78_8_253
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (108) with all_0_14_14, all_38_6_92, all_62_8_196 and discharging atoms u1_struct_0(all_0_14_14) = all_62_8_196, u1_struct_0(all_0_14_14) = all_38_6_92, yields:
% 90.15/47.41  | (503) all_62_8_196 = all_38_6_92
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (108) with all_0_14_14, all_32_6_74, all_62_8_196 and discharging atoms u1_struct_0(all_0_14_14) = all_62_8_196, u1_struct_0(all_0_14_14) = all_32_6_74, yields:
% 90.15/47.41  | (504) all_62_8_196 = all_32_6_74
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (108) with all_0_17_17, all_84_1_279, all_90_4_294 and discharging atoms u1_struct_0(all_0_17_17) = all_90_4_294, u1_struct_0(all_0_17_17) = all_84_1_279, yields:
% 90.15/47.41  | (505) all_90_4_294 = all_84_1_279
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (108) with all_0_26_26, all_22_6_53, all_68_8_220 and discharging atoms u1_struct_0(all_0_26_26) = all_68_8_220, u1_struct_0(all_0_26_26) = all_22_6_53, yields:
% 90.15/47.41  | (506) all_68_8_220 = all_22_6_53
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (108) with all_0_26_26, all_20_6_43, all_68_8_220 and discharging atoms u1_struct_0(all_0_26_26) = all_68_8_220, u1_struct_0(all_0_26_26) = all_20_6_43, yields:
% 90.15/47.41  | (507) all_68_8_220 = all_20_6_43
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_124_3_411, all_126_5_417 and discharging atoms l1_orders_2(all_0_26_26) = all_126_5_417, l1_orders_2(all_0_26_26) = all_124_3_411, yields:
% 90.15/47.41  | (508) all_126_5_417 = all_124_3_411
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_118_3_388, all_124_3_411 and discharging atoms l1_orders_2(all_0_26_26) = all_124_3_411, l1_orders_2(all_0_26_26) = all_118_3_388, yields:
% 90.15/47.41  | (509) all_124_3_411 = all_118_3_388
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_58_1_182, all_118_3_388 and discharging atoms l1_orders_2(all_0_26_26) = all_118_3_388, l1_orders_2(all_0_26_26) = all_58_1_182, yields:
% 90.15/47.41  | (510) all_118_3_388 = all_58_1_182
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_54_12_159, all_58_1_182 and discharging atoms l1_orders_2(all_0_26_26) = all_58_1_182, l1_orders_2(all_0_26_26) = all_54_12_159, yields:
% 90.15/47.41  | (511) all_58_1_182 = all_54_12_159
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_46_2_114, all_66_4_211 and discharging atoms l1_orders_2(all_0_26_26) = all_66_4_211, l1_orders_2(all_0_26_26) = all_46_2_114, yields:
% 90.15/47.41  | (512) all_66_4_211 = all_46_2_114
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_44_3_111, 0 and discharging atoms l1_orders_2(all_0_26_26) = all_44_3_111, l1_orders_2(all_0_26_26) = 0, yields:
% 90.15/47.41  | (513) all_44_3_111 = 0
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_44_3_111, all_68_9_221 and discharging atoms l1_orders_2(all_0_26_26) = all_68_9_221, l1_orders_2(all_0_26_26) = all_44_3_111, yields:
% 90.15/47.41  | (514) all_68_9_221 = all_44_3_111
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_44_3_111, all_66_4_211 and discharging atoms l1_orders_2(all_0_26_26) = all_66_4_211, l1_orders_2(all_0_26_26) = all_44_3_111, yields:
% 90.15/47.41  | (515) all_66_4_211 = all_44_3_111
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_44_3_111, all_54_12_159 and discharging atoms l1_orders_2(all_0_26_26) = all_54_12_159, l1_orders_2(all_0_26_26) = all_44_3_111, yields:
% 90.15/47.41  | (516) all_54_12_159 = all_44_3_111
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_30_2_64, all_126_5_417 and discharging atoms l1_orders_2(all_0_26_26) = all_126_5_417, l1_orders_2(all_0_26_26) = all_30_2_64, yields:
% 90.15/47.41  | (517) all_126_5_417 = all_30_2_64
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_22_7_54, all_66_4_211 and discharging atoms l1_orders_2(all_0_26_26) = all_66_4_211, l1_orders_2(all_0_26_26) = all_22_7_54, yields:
% 90.15/47.41  | (518) all_66_4_211 = all_22_7_54
% 90.15/47.41  |
% 90.15/47.41  | Instantiating formula (41) with all_0_26_26, all_20_7_44, all_68_9_221 and discharging atoms l1_orders_2(all_0_26_26) = all_68_9_221, l1_orders_2(all_0_26_26) = all_20_7_44, yields:
% 90.15/47.41  | (519) all_68_9_221 = all_20_7_44
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (499,498) yields a new equation:
% 90.15/47.41  | (520) all_134_6_453 = all_120_8_397
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (501,502) yields a new equation:
% 90.15/47.41  | (521) all_130_6_433 = all_78_8_253
% 90.15/47.41  |
% 90.15/47.41  | Simplifying 521 yields:
% 90.15/47.41  | (522) all_130_6_433 = all_78_8_253
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (460,462) yields a new equation:
% 90.15/47.41  | (523) all_124_2_410 = all_66_3_210
% 90.15/47.41  |
% 90.15/47.41  | Simplifying 523 yields:
% 90.15/47.41  | (524) all_124_2_410 = all_66_3_210
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (508,517) yields a new equation:
% 90.15/47.41  | (525) all_124_3_411 = all_30_2_64
% 90.15/47.41  |
% 90.15/47.41  | Simplifying 525 yields:
% 90.15/47.41  | (526) all_124_3_411 = all_30_2_64
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (479,482) yields a new equation:
% 90.15/47.41  | (527) all_54_15_162 = all_30_3_65
% 90.15/47.41  |
% 90.15/47.41  | Simplifying 527 yields:
% 90.15/47.41  | (528) all_54_15_162 = all_30_3_65
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (491,492) yields a new equation:
% 90.15/47.41  | (529) all_68_13_225 = 0
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (495,492) yields a new equation:
% 90.15/47.41  | (530) all_68_13_225 = all_30_4_66
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (493,492) yields a new equation:
% 90.15/47.41  | (531) all_68_13_225 = all_46_5_117
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (524,461) yields a new equation:
% 90.15/47.41  | (532) all_118_2_387 = all_66_3_210
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (464,461) yields a new equation:
% 90.15/47.41  | (533) all_118_2_387 = all_30_1_63
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (463,461) yields a new equation:
% 90.15/47.41  | (534) all_118_2_387 = all_44_2_110
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (509,526) yields a new equation:
% 90.15/47.41  | (535) all_118_3_388 = all_30_2_64
% 90.15/47.41  |
% 90.15/47.41  | Simplifying 535 yields:
% 90.15/47.41  | (536) all_118_3_388 = all_30_2_64
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (533,532) yields a new equation:
% 90.15/47.41  | (537) all_66_3_210 = all_30_1_63
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (534,532) yields a new equation:
% 90.15/47.41  | (538) all_66_3_210 = all_44_2_110
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (510,536) yields a new equation:
% 90.15/47.41  | (539) all_58_1_182 = all_30_2_64
% 90.15/47.41  |
% 90.15/47.41  | Simplifying 539 yields:
% 90.15/47.41  | (540) all_58_1_182 = all_30_2_64
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (474,473) yields a new equation:
% 90.15/47.41  | (541) all_42_4_106 = all_0_22_22
% 90.15/47.41  |
% 90.15/47.41  | Simplifying 541 yields:
% 90.15/47.41  | (542) all_42_4_106 = all_0_22_22
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (507,506) yields a new equation:
% 90.15/47.41  | (543) all_22_6_53 = all_20_6_43
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (514,519) yields a new equation:
% 90.15/47.41  | (544) all_44_3_111 = all_20_7_44
% 90.15/47.41  |
% 90.15/47.41  | Simplifying 544 yields:
% 90.15/47.41  | (545) all_44_3_111 = all_20_7_44
% 90.15/47.41  |
% 90.15/47.41  | Combining equations (483,484) yields a new equation:
% 90.15/47.41  | (546) all_54_14_161 = 0
% 90.15/47.41  |
% 90.22/47.41  | Combining equations (485,484) yields a new equation:
% 90.22/47.41  | (547) all_54_14_161 = all_46_3_115
% 90.22/47.41  |
% 90.22/47.41  | Combining equations (480,481) yields a new equation:
% 90.22/47.41  | (548) all_54_15_162 = all_46_4_116
% 90.22/47.41  |
% 90.22/47.41  | Simplifying 548 yields:
% 90.22/47.41  | (549) all_54_15_162 = all_46_4_116
% 90.22/47.41  |
% 90.22/47.41  | Combining equations (529,530) yields a new equation:
% 90.22/47.41  | (550) all_30_4_66 = 0
% 90.22/47.41  |
% 90.22/47.41  | Combining equations (531,530) yields a new equation:
% 90.22/47.41  | (551) all_46_5_117 = all_30_4_66
% 90.22/47.41  |
% 90.22/47.41  | Simplifying 551 yields:
% 90.22/47.41  | (552) all_46_5_117 = all_30_4_66
% 90.22/47.41  |
% 90.22/47.41  | Combining equations (537,538) yields a new equation:
% 90.22/47.41  | (553) all_44_2_110 = all_30_1_63
% 90.22/47.41  |
% 90.22/47.41  | Combining equations (518,512) yields a new equation:
% 90.22/47.41  | (554) all_46_2_114 = all_22_7_54
% 90.22/47.41  |
% 90.22/47.41  | Combining equations (515,512) yields a new equation:
% 90.22/47.41  | (555) all_46_2_114 = all_44_3_111
% 90.22/47.41  |
% 90.22/47.41  | Combining equations (504,503) yields a new equation:
% 90.22/47.41  | (556) all_38_6_92 = all_32_6_74
% 90.22/47.41  |
% 90.22/47.41  | Combining equations (487,490) yields a new equation:
% 90.22/47.41  | (557) all_46_6_118 = all_20_9_46
% 90.22/47.41  |
% 90.22/47.41  | Simplifying 557 yields:
% 90.22/47.41  | (558) all_46_6_118 = all_20_9_46
% 90.22/47.41  |
% 90.22/47.41  | Combining equations (511,540) yields a new equation:
% 90.22/47.41  | (559) all_54_12_159 = all_30_2_64
% 90.22/47.41  |
% 90.22/47.41  | Simplifying 559 yields:
% 90.22/47.41  | (560) all_54_12_159 = all_30_2_64
% 90.22/47.41  |
% 90.22/47.41  | Combining equations (465,466) yields a new equation:
% 90.22/47.41  | (561) all_46_1_113 = all_0_25_25
% 90.22/47.41  |
% 90.22/47.41  | Combining equations (516,560) yields a new equation:
% 90.22/47.41  | (562) all_44_3_111 = all_30_2_64
% 90.22/47.41  |
% 90.22/47.41  | Simplifying 562 yields:
% 90.22/47.41  | (563) all_44_3_111 = all_30_2_64
% 90.22/47.41  |
% 90.22/47.42  | Combining equations (546,547) yields a new equation:
% 90.22/47.42  | (564) all_46_3_115 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (478,549) yields a new equation:
% 90.22/47.42  | (565) all_46_4_116 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (528,549) yields a new equation:
% 90.22/47.42  | (566) all_46_4_116 = all_30_3_65
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (494,496) yields a new equation:
% 90.22/47.42  | (567) all_46_5_117 = all_22_8_55
% 90.22/47.42  |
% 90.22/47.42  | Simplifying 567 yields:
% 90.22/47.42  | (568) all_46_5_117 = all_22_8_55
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (555,554) yields a new equation:
% 90.22/47.42  | (569) all_44_3_111 = all_22_7_54
% 90.22/47.42  |
% 90.22/47.42  | Simplifying 569 yields:
% 90.22/47.42  | (570) all_44_3_111 = all_22_7_54
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (565,566) yields a new equation:
% 90.22/47.42  | (571) all_30_3_65 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (552,568) yields a new equation:
% 90.22/47.42  | (572) all_30_4_66 = all_22_8_55
% 90.22/47.42  |
% 90.22/47.42  | Simplifying 572 yields:
% 90.22/47.42  | (573) all_30_4_66 = all_22_8_55
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (488,558) yields a new equation:
% 90.22/47.42  | (574) all_30_5_67 = all_20_9_46
% 90.22/47.42  |
% 90.22/47.42  | Simplifying 574 yields:
% 90.22/47.42  | (575) all_30_5_67 = all_20_9_46
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (513,563) yields a new equation:
% 90.22/47.42  | (576) all_30_2_64 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (570,563) yields a new equation:
% 90.22/47.42  | (577) all_30_2_64 = all_22_7_54
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (545,563) yields a new equation:
% 90.22/47.42  | (578) all_30_2_64 = all_20_7_44
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (542,475) yields a new equation:
% 90.22/47.42  | (579) all_40_4_100 = all_0_22_22
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (576,577) yields a new equation:
% 90.22/47.42  | (580) all_22_7_54 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (578,577) yields a new equation:
% 90.22/47.42  | (581) all_22_7_54 = all_20_7_44
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (573,550) yields a new equation:
% 90.22/47.42  | (582) all_22_8_55 = 0
% 90.22/47.42  |
% 90.22/47.42  | Simplifying 582 yields:
% 90.22/47.42  | (583) all_22_8_55 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (489,575) yields a new equation:
% 90.22/47.42  | (584) all_22_9_56 = all_20_9_46
% 90.22/47.42  |
% 90.22/47.42  | Simplifying 584 yields:
% 90.22/47.42  | (585) all_22_9_56 = all_20_9_46
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (580,581) yields a new equation:
% 90.22/47.42  | (586) all_20_7_44 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (586,581) yields a new equation:
% 90.22/47.42  | (580) all_22_7_54 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (580,577) yields a new equation:
% 90.22/47.42  | (576) all_30_2_64 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (576,563) yields a new equation:
% 90.22/47.42  | (513) all_44_3_111 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (571,566) yields a new equation:
% 90.22/47.42  | (565) all_46_4_116 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (580,554) yields a new equation:
% 90.22/47.42  | (591) all_46_2_114 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (583,496) yields a new equation:
% 90.22/47.42  | (592) all_54_16_163 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (565,549) yields a new equation:
% 90.22/47.42  | (478) all_54_15_162 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (564,547) yields a new equation:
% 90.22/47.42  | (546) all_54_14_161 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (576,560) yields a new equation:
% 90.22/47.42  | (595) all_54_12_159 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (561,466) yields a new equation:
% 90.22/47.42  | (465) all_54_11_158 = all_0_25_25
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (576,540) yields a new equation:
% 90.22/47.42  | (597) all_58_1_182 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (556,503) yields a new equation:
% 90.22/47.42  | (504) all_62_8_196 = all_32_6_74
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (591,512) yields a new equation:
% 90.22/47.42  | (599) all_66_4_211 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (553,538) yields a new equation:
% 90.22/47.42  | (537) all_66_3_210 = all_30_1_63
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (550,530) yields a new equation:
% 90.22/47.42  | (529) all_68_13_225 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (543,506) yields a new equation:
% 90.22/47.42  | (507) all_68_8_220 = all_20_6_43
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (537,532) yields a new equation:
% 90.22/47.42  | (533) all_118_2_387 = all_30_1_63
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (576,526) yields a new equation:
% 90.22/47.42  | (604) all_124_3_411 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (533,461) yields a new equation:
% 90.22/47.42  | (464) all_124_2_410 = all_30_1_63
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (529,492) yields a new equation:
% 90.22/47.42  | (491) all_126_7_419 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (571,482) yields a new equation:
% 90.22/47.42  | (607) all_126_6_418 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (576,517) yields a new equation:
% 90.22/47.42  | (608) all_126_5_417 = 0
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (537,462) yields a new equation:
% 90.22/47.42  | (609) all_126_4_416 = all_30_1_63
% 90.22/47.42  |
% 90.22/47.42  | Combining equations (520,498) yields a new equation:
% 90.22/47.42  | (499) all_136_6_463 = all_120_8_397
% 90.22/47.42  |
% 90.22/47.42  | From (465) and (322) follows:
% 90.22/47.42  | (611) k2_yellow_1(all_0_25_25) = all_54_10_157
% 90.22/47.42  |
% 90.22/47.42  | From (553) and (290) follows:
% 90.22/47.42  | (260) k7_lattice3(all_0_26_26) = all_30_1_63
% 90.22/47.42  |
% 90.22/47.42  | From (500) and (453) follows:
% 90.22/47.42  | (613) k1_zfmisc_1(all_145_6_489) = all_149_5_502
% 90.22/47.42  |
% 90.22/47.42  | From (499) and (440) follows:
% 90.22/47.42  | (614) k1_zfmisc_1(all_120_8_397) = all_136_5_462
% 90.22/47.42  |
% 90.22/47.42  | From (522) and (418) follows:
% 90.22/47.42  | (615) k1_zfmisc_1(all_78_8_253) = all_130_5_432
% 90.22/47.42  |
% 90.22/47.42  | From (505) and (382) follows:
% 90.22/47.42  | (616) k1_zfmisc_1(all_84_1_279) = all_90_3_293
% 90.22/47.42  |
% 90.22/47.42  | From (497) and (377) follows:
% 90.22/47.42  | (617) k1_zfmisc_1(all_86_1_282) = all_88_3_287
% 90.22/47.42  |
% 90.22/47.42  | From (507) and (345) follows:
% 90.22/47.42  | (618) k1_zfmisc_1(all_20_6_43) = all_68_7_219
% 90.22/47.42  |
% 90.22/47.42  | From (504) and (331) follows:
% 90.22/47.42  | (619) k1_zfmisc_1(all_32_6_74) = all_62_7_195
% 90.22/47.42  |
% 90.22/47.42  | From (579) and (282) follows:
% 90.22/47.42  | (161) k1_zfmisc_1(all_0_23_23) = all_0_22_22
% 90.22/47.42  |
% 90.22/47.42  | From (476) and (257) follows:
% 90.22/47.42  | (621) m1_subset_1(k1_xboole_0, all_0_22_22) = 0
% 90.22/47.42  |
% 90.22/47.42  | From (609) and (414) follows:
% 90.22/47.42  | (622) v3_orders_2(all_30_1_63) = all_126_1_413
% 90.22/47.42  |
% 90.22/47.42  | From (533) and (387) follows:
% 90.22/47.42  | (623) v3_orders_2(all_30_1_63) = all_118_0_385
% 90.22/47.42  |
% 90.22/47.42  | From (464) and (406) follows:
% 90.22/47.42  | (624) v4_orders_2(all_30_1_63) = all_124_0_408
% 90.22/47.42  |
% 90.22/47.42  | From (537) and (341) follows:
% 90.22/47.42  | (625) v1_lattice3(all_30_1_63) = all_66_0_207
% 90.22/47.42  |
% 90.22/47.42  | From (553) and (292) follows:
% 90.22/47.42  | (626) v1_yellow_0(all_30_1_63) = all_44_0_108
% 90.22/47.42  |
% 90.22/47.42  | From (609) and (408) follows:
% 90.22/47.42  | (627) v2_orders_2(all_30_1_63) = all_126_2_414
% 90.22/47.42  |
% 90.22/47.42  | From (543) and (253) follows:
% 90.22/47.42  | (245) u1_struct_0(all_0_26_26) = all_20_6_43
% 90.22/47.42  |
% 90.22/47.42  | From (586) and (246) follows:
% 90.22/47.42  | (10) l1_orders_2(all_0_26_26) = 0
% 90.22/47.42  |
% 90.22/47.42  +-Applying beta-rule and splitting (326), into two cases.
% 90.22/47.42  |-Branch one:
% 90.22/47.42  | (630)  ~ (all_58_0_181 = 0)
% 90.22/47.42  |
% 90.22/47.42  	| Equations (490) can reduce 630 to:
% 90.22/47.42  	| (631)  ~ (all_20_9_46 = 0)
% 90.22/47.42  	|
% 90.22/47.42  	+-Applying beta-rule and splitting (293), into two cases.
% 90.22/47.42  	|-Branch one:
% 90.22/47.42  	| (632)  ~ (all_44_3_111 = 0)
% 90.22/47.42  	|
% 90.22/47.42  		| Equations (513) can reduce 632 to:
% 90.22/47.42  		| (633) $false
% 90.22/47.42  		|
% 90.22/47.42  		|-The branch is then unsatisfiable
% 90.22/47.42  	|-Branch two:
% 90.22/47.42  	| (513) all_44_3_111 = 0
% 90.22/47.42  	| (635) all_44_0_108 = 0 & all_44_1_109 = 0
% 90.22/47.42  	|
% 90.22/47.42  		| Applying alpha-rule on (635) yields:
% 90.22/47.42  		| (636) all_44_0_108 = 0
% 90.22/47.43  		| (637) all_44_1_109 = 0
% 90.22/47.43  		|
% 90.22/47.43  		| From (636) and (626) follows:
% 90.22/47.43  		| (638) v1_yellow_0(all_30_1_63) = 0
% 90.22/47.43  		|
% 90.22/47.43  		+-Applying beta-rule and splitting (254), into two cases.
% 90.22/47.43  		|-Branch one:
% 90.22/47.43  		| (639)  ~ (all_22_7_54 = 0)
% 90.22/47.43  		|
% 90.22/47.43  			| Equations (580) can reduce 639 to:
% 90.22/47.43  			| (633) $false
% 90.22/47.43  			|
% 90.22/47.43  			|-The branch is then unsatisfiable
% 90.22/47.43  		|-Branch two:
% 90.22/47.43  		| (580) all_22_7_54 = 0
% 90.22/47.43  		| (642)  ~ (all_22_8_55 = 0) | all_22_9_56 = 0 | (all_22_0_47 = 0 & all_22_1_48 = 0 & all_22_3_50 = 0 &  ~ (all_22_2_49 = 0) & v2_waybel_0(all_22_4_51, all_0_26_26) = 0 & v13_waybel_0(all_22_4_51, all_0_26_26) = 0 & m1_subset_1(all_22_4_51, all_22_5_52) = 0 & v1_xboole_0(all_22_4_51) = all_22_2_49)
% 90.22/47.43  		|
% 90.22/47.43  			+-Applying beta-rule and splitting (642), into two cases.
% 90.22/47.43  			|-Branch one:
% 90.22/47.43  			| (643)  ~ (all_22_8_55 = 0)
% 90.22/47.43  			|
% 90.22/47.43  				| Equations (583) can reduce 643 to:
% 90.22/47.43  				| (633) $false
% 90.22/47.43  				|
% 90.22/47.43  				|-The branch is then unsatisfiable
% 90.22/47.43  			|-Branch two:
% 90.22/47.43  			| (583) all_22_8_55 = 0
% 90.22/47.43  			| (646) all_22_9_56 = 0 | (all_22_0_47 = 0 & all_22_1_48 = 0 & all_22_3_50 = 0 &  ~ (all_22_2_49 = 0) & v2_waybel_0(all_22_4_51, all_0_26_26) = 0 & v13_waybel_0(all_22_4_51, all_0_26_26) = 0 & m1_subset_1(all_22_4_51, all_22_5_52) = 0 & v1_xboole_0(all_22_4_51) = all_22_2_49)
% 90.22/47.43  			|
% 90.22/47.43  				+-Applying beta-rule and splitting (261), into two cases.
% 90.22/47.43  				|-Branch one:
% 90.22/47.43  				| (647)  ~ (all_30_2_64 = 0)
% 90.22/47.43  				|
% 90.22/47.43  					| Equations (576) can reduce 647 to:
% 90.22/47.43  					| (633) $false
% 90.22/47.43  					|
% 90.22/47.43  					|-The branch is then unsatisfiable
% 90.22/47.43  				|-Branch two:
% 90.22/47.43  				| (576) all_30_2_64 = 0
% 90.22/47.43  				| (650)  ~ (all_30_3_65 = 0) |  ~ (all_30_4_66 = 0) | all_30_0_62 = all_0_25_25 | all_30_5_67 = 0
% 90.22/47.43  				|
% 90.22/47.43  					+-Applying beta-rule and splitting (650), into two cases.
% 90.22/47.43  					|-Branch one:
% 90.22/47.43  					| (651)  ~ (all_30_3_65 = 0)
% 90.22/47.43  					|
% 90.22/47.43  						| Equations (571) can reduce 651 to:
% 90.22/47.43  						| (633) $false
% 90.22/47.43  						|
% 90.22/47.43  						|-The branch is then unsatisfiable
% 90.22/47.43  					|-Branch two:
% 90.22/47.43  					| (571) all_30_3_65 = 0
% 90.22/47.43  					| (654)  ~ (all_30_4_66 = 0) | all_30_0_62 = all_0_25_25 | all_30_5_67 = 0
% 90.22/47.43  					|
% 90.22/47.43  						+-Applying beta-rule and splitting (654), into two cases.
% 90.22/47.43  						|-Branch one:
% 90.22/47.43  						| (655)  ~ (all_30_4_66 = 0)
% 90.22/47.43  						|
% 90.22/47.43  							| Equations (550) can reduce 655 to:
% 90.22/47.43  							| (633) $false
% 90.22/47.43  							|
% 90.22/47.43  							|-The branch is then unsatisfiable
% 90.22/47.43  						|-Branch two:
% 90.22/47.43  						| (550) all_30_4_66 = 0
% 90.22/47.43  						| (658) all_30_0_62 = all_0_25_25 | all_30_5_67 = 0
% 90.22/47.43  						|
% 90.22/47.43  							+-Applying beta-rule and splitting (646), into two cases.
% 90.22/47.43  							|-Branch one:
% 90.22/47.43  							| (659) all_22_9_56 = 0
% 90.22/47.43  							|
% 90.22/47.43  								| Combining equations (659,585) yields a new equation:
% 90.22/47.43  								| (660) all_20_9_46 = 0
% 90.22/47.43  								|
% 90.22/47.43  								| Equations (660) can reduce 631 to:
% 90.22/47.43  								| (633) $false
% 90.22/47.43  								|
% 90.22/47.43  								|-The branch is then unsatisfiable
% 90.22/47.43  							|-Branch two:
% 90.22/47.43  							| (662)  ~ (all_22_9_56 = 0)
% 90.22/47.43  							| (663) all_22_0_47 = 0 & all_22_1_48 = 0 & all_22_3_50 = 0 &  ~ (all_22_2_49 = 0) & v2_waybel_0(all_22_4_51, all_0_26_26) = 0 & v13_waybel_0(all_22_4_51, all_0_26_26) = 0 & m1_subset_1(all_22_4_51, all_22_5_52) = 0 & v1_xboole_0(all_22_4_51) = all_22_2_49
% 90.22/47.43  							|
% 90.22/47.43  								| Equations (585) can reduce 662 to:
% 90.22/47.43  								| (631)  ~ (all_20_9_46 = 0)
% 90.22/47.43  								|
% 90.22/47.43  								+-Applying beta-rule and splitting (319), into two cases.
% 90.22/47.43  								|-Branch one:
% 90.22/47.43  								| (665)  ~ (all_54_12_159 = 0)
% 90.22/47.43  								|
% 90.22/47.43  									| Equations (595) can reduce 665 to:
% 90.22/47.43  									| (633) $false
% 90.22/47.43  									|
% 90.22/47.43  									|-The branch is then unsatisfiable
% 90.22/47.43  								|-Branch two:
% 90.22/47.43  								| (595) all_54_12_159 = 0
% 90.22/47.43  								| (668)  ~ (all_54_13_160 = 0) |  ~ (all_54_14_161 = 0) |  ~ (all_54_15_162 = 0) |  ~ (all_54_16_163 = 0) | (all_54_0_147 = 0 & all_54_1_148 = 0 & all_54_2_149 = 0 & all_54_3_150 = 0 & all_54_4_151 = 0 & all_54_5_152 = 0 & all_54_6_153 = 0 & all_54_7_154 = 0 & all_54_8_155 = 0 &  ~ (all_54_9_156 = 0))
% 90.22/47.43  								|
% 90.22/47.43  									+-Applying beta-rule and splitting (668), into two cases.
% 90.22/47.43  									|-Branch one:
% 90.22/47.43  									| (669)  ~ (all_54_13_160 = 0)
% 90.22/47.43  									|
% 90.22/47.43  										| Equations (486) can reduce 669 to:
% 90.22/47.43  										| (633) $false
% 90.22/47.43  										|
% 90.22/47.43  										|-The branch is then unsatisfiable
% 90.22/47.43  									|-Branch two:
% 90.22/47.43  									| (486) all_54_13_160 = 0
% 90.22/47.43  									| (672)  ~ (all_54_14_161 = 0) |  ~ (all_54_15_162 = 0) |  ~ (all_54_16_163 = 0) | (all_54_0_147 = 0 & all_54_1_148 = 0 & all_54_2_149 = 0 & all_54_3_150 = 0 & all_54_4_151 = 0 & all_54_5_152 = 0 & all_54_6_153 = 0 & all_54_7_154 = 0 & all_54_8_155 = 0 &  ~ (all_54_9_156 = 0))
% 90.22/47.43  									|
% 90.22/47.43  										+-Applying beta-rule and splitting (672), into two cases.
% 90.22/47.43  										|-Branch one:
% 90.22/47.43  										| (673)  ~ (all_54_14_161 = 0)
% 90.22/47.43  										|
% 90.22/47.43  											| Equations (546) can reduce 673 to:
% 90.22/47.43  											| (633) $false
% 90.22/47.43  											|
% 90.22/47.43  											|-The branch is then unsatisfiable
% 90.22/47.43  										|-Branch two:
% 90.22/47.43  										| (546) all_54_14_161 = 0
% 90.22/47.43  										| (676)  ~ (all_54_15_162 = 0) |  ~ (all_54_16_163 = 0) | (all_54_0_147 = 0 & all_54_1_148 = 0 & all_54_2_149 = 0 & all_54_3_150 = 0 & all_54_4_151 = 0 & all_54_5_152 = 0 & all_54_6_153 = 0 & all_54_7_154 = 0 & all_54_8_155 = 0 &  ~ (all_54_9_156 = 0))
% 90.22/47.43  										|
% 90.22/47.43  											+-Applying beta-rule and splitting (676), into two cases.
% 90.22/47.43  											|-Branch one:
% 90.22/47.43  											| (677)  ~ (all_54_15_162 = 0)
% 90.22/47.43  											|
% 90.22/47.43  												| Equations (478) can reduce 677 to:
% 90.22/47.43  												| (633) $false
% 90.22/47.43  												|
% 90.22/47.43  												|-The branch is then unsatisfiable
% 90.22/47.43  											|-Branch two:
% 90.22/47.43  											| (478) all_54_15_162 = 0
% 90.22/47.43  											| (680)  ~ (all_54_16_163 = 0) | (all_54_0_147 = 0 & all_54_1_148 = 0 & all_54_2_149 = 0 & all_54_3_150 = 0 & all_54_4_151 = 0 & all_54_5_152 = 0 & all_54_6_153 = 0 & all_54_7_154 = 0 & all_54_8_155 = 0 &  ~ (all_54_9_156 = 0))
% 90.22/47.43  											|
% 90.22/47.43  												+-Applying beta-rule and splitting (680), into two cases.
% 90.22/47.43  												|-Branch one:
% 90.22/47.43  												| (681)  ~ (all_54_16_163 = 0)
% 90.22/47.43  												|
% 90.22/47.43  													| Equations (592) can reduce 681 to:
% 90.22/47.43  													| (633) $false
% 90.22/47.43  													|
% 90.22/47.43  													|-The branch is then unsatisfiable
% 90.22/47.43  												|-Branch two:
% 90.22/47.43  												| (592) all_54_16_163 = 0
% 90.22/47.43  												| (684) all_54_0_147 = 0 & all_54_1_148 = 0 & all_54_2_149 = 0 & all_54_3_150 = 0 & all_54_4_151 = 0 & all_54_5_152 = 0 & all_54_6_153 = 0 & all_54_7_154 = 0 & all_54_8_155 = 0 &  ~ (all_54_9_156 = 0)
% 90.22/47.43  												|
% 90.22/47.43  													| Applying alpha-rule on (684) yields:
% 90.22/47.43  													| (685) all_54_6_153 = 0
% 90.22/47.43  													| (686) all_54_2_149 = 0
% 90.22/47.43  													| (687) all_54_1_148 = 0
% 90.22/47.43  													| (688) all_54_8_155 = 0
% 90.22/47.43  													| (689) all_54_3_150 = 0
% 90.22/47.43  													| (690) all_54_7_154 = 0
% 90.22/47.43  													| (691)  ~ (all_54_9_156 = 0)
% 90.22/47.43  													| (692) all_54_5_152 = 0
% 90.22/47.43  													| (693) all_54_0_147 = 0
% 90.22/47.43  													| (694) all_54_4_151 = 0
% 90.22/47.43  													|
% 90.22/47.43  													| From (685) and (309) follows:
% 90.22/47.43  													| (695) v3_orders_2(all_54_10_157) = 0
% 90.22/47.43  													|
% 90.22/47.43  													| From (694) and (320) follows:
% 90.22/47.43  													| (696) v2_lattice3(all_54_10_157) = 0
% 90.22/47.43  													|
% 90.22/47.43  													+-Applying beta-rule and splitting (413), into two cases.
% 90.22/47.43  													|-Branch one:
% 90.22/47.43  													| (697)  ~ (all_126_5_417 = 0)
% 90.22/47.43  													|
% 90.22/47.43  														| Equations (608) can reduce 697 to:
% 90.22/47.43  														| (633) $false
% 90.22/47.43  														|
% 90.22/47.43  														|-The branch is then unsatisfiable
% 90.22/47.43  													|-Branch two:
% 90.22/47.43  													| (608) all_126_5_417 = 0
% 90.22/47.43  													| (700)  ~ (all_126_6_418 = 0) |  ~ (all_126_7_419 = 0) | (all_126_0_412 = 0 & all_126_1_413 = 0 & all_126_2_414 = 0 & all_126_3_415 = 0)
% 90.22/47.43  													|
% 90.22/47.43  														+-Applying beta-rule and splitting (700), into two cases.
% 90.22/47.43  														|-Branch one:
% 90.22/47.43  														| (701)  ~ (all_126_6_418 = 0)
% 90.22/47.43  														|
% 90.22/47.43  															| Equations (607) can reduce 701 to:
% 90.22/47.43  															| (633) $false
% 90.22/47.43  															|
% 90.22/47.43  															|-The branch is then unsatisfiable
% 90.22/47.43  														|-Branch two:
% 90.22/47.43  														| (607) all_126_6_418 = 0
% 90.22/47.43  														| (704)  ~ (all_126_7_419 = 0) | (all_126_0_412 = 0 & all_126_1_413 = 0 & all_126_2_414 = 0 & all_126_3_415 = 0)
% 90.22/47.43  														|
% 90.22/47.43  															+-Applying beta-rule and splitting (704), into two cases.
% 90.22/47.43  															|-Branch one:
% 90.22/47.43  															| (705)  ~ (all_126_7_419 = 0)
% 90.22/47.43  															|
% 90.22/47.43  																| Equations (491) can reduce 705 to:
% 90.22/47.43  																| (633) $false
% 90.22/47.43  																|
% 90.22/47.43  																|-The branch is then unsatisfiable
% 90.22/47.43  															|-Branch two:
% 90.22/47.43  															| (491) all_126_7_419 = 0
% 90.22/47.43  															| (708) all_126_0_412 = 0 & all_126_1_413 = 0 & all_126_2_414 = 0 & all_126_3_415 = 0
% 90.22/47.43  															|
% 90.22/47.43  																| Applying alpha-rule on (708) yields:
% 90.22/47.43  																| (709) all_126_0_412 = 0
% 90.22/47.43  																| (710) all_126_1_413 = 0
% 90.22/47.43  																| (711) all_126_2_414 = 0
% 90.22/47.43  																| (712) all_126_3_415 = 0
% 90.22/47.43  																|
% 90.22/47.43  																| From (710) and (622) follows:
% 90.22/47.43  																| (713) v3_orders_2(all_30_1_63) = 0
% 90.22/47.43  																|
% 90.22/47.43  																| From (711) and (627) follows:
% 90.22/47.43  																| (714) v2_orders_2(all_30_1_63) = 0
% 90.22/47.43  																|
% 90.22/47.43  																+-Applying beta-rule and splitting (658), into two cases.
% 90.22/47.43  																|-Branch one:
% 90.22/47.43  																| (715) all_30_5_67 = 0
% 90.22/47.43  																|
% 90.22/47.43  																	| Combining equations (715,575) yields a new equation:
% 90.22/47.43  																	| (660) all_20_9_46 = 0
% 90.22/47.43  																	|
% 90.22/47.43  																	| Equations (660) can reduce 631 to:
% 90.22/47.43  																	| (633) $false
% 90.22/47.43  																	|
% 90.22/47.43  																	|-The branch is then unsatisfiable
% 90.22/47.43  																|-Branch two:
% 90.22/47.43  																| (718)  ~ (all_30_5_67 = 0)
% 90.22/47.43  																| (719) all_30_0_62 = all_0_25_25
% 90.22/47.43  																|
% 90.22/47.43  																	| From (719) and (262) follows:
% 90.22/47.43  																	| (720) k8_waybel_0(all_30_1_63) = all_0_25_25
% 90.22/47.43  																	|
% 90.22/47.43  																	+-Applying beta-rule and splitting (337), into two cases.
% 90.22/47.43  																	|-Branch one:
% 90.22/47.43  																	| (721)  ~ (all_66_4_211 = 0)
% 90.22/47.43  																	|
% 90.22/47.43  																		| Equations (599) can reduce 721 to:
% 90.22/47.43  																		| (633) $false
% 90.22/47.43  																		|
% 90.22/47.43  																		|-The branch is then unsatisfiable
% 90.22/47.43  																	|-Branch two:
% 90.22/47.43  																	| (599) all_66_4_211 = 0
% 90.22/47.43  																	| (724) all_66_0_207 = 0 & all_66_1_208 = 0 &  ~ (all_66_2_209 = 0)
% 90.22/47.43  																	|
% 90.22/47.43  																		| Applying alpha-rule on (724) yields:
% 90.22/47.43  																		| (725) all_66_0_207 = 0
% 90.22/47.43  																		| (726) all_66_1_208 = 0
% 90.22/47.43  																		| (727)  ~ (all_66_2_209 = 0)
% 90.22/47.43  																		|
% 90.22/47.43  																		| From (725) and (625) follows:
% 90.22/47.44  																		| (728) v1_lattice3(all_30_1_63) = 0
% 90.22/47.44  																		|
% 90.22/47.44  																		+-Applying beta-rule and splitting (477), into two cases.
% 90.22/47.44  																		|-Branch one:
% 90.22/47.44  																		| (729)  ~ (v3_orders_2(all_118_2_387) = all_126_1_413)
% 90.22/47.44  																		|
% 90.22/47.44  																			| From (533)(710) and (729) follows:
% 90.22/47.44  																			| (730)  ~ (v3_orders_2(all_30_1_63) = 0)
% 90.22/47.44  																			|
% 90.22/47.44  																			| Using (713) and (730) yields:
% 90.22/47.44  																			| (731) $false
% 90.22/47.44  																			|
% 90.22/47.44  																			|-The branch is then unsatisfiable
% 90.22/47.44  																		|-Branch two:
% 90.22/47.44  																		| (732) v3_orders_2(all_118_2_387) = all_126_1_413
% 90.22/47.44  																		| (733) all_126_1_413 = all_118_0_385
% 90.22/47.44  																		|
% 90.22/47.44  																			| Combining equations (733,710) yields a new equation:
% 90.22/47.44  																			| (734) all_118_0_385 = 0
% 90.22/47.44  																			|
% 90.22/47.44  																			| Simplifying 734 yields:
% 90.22/47.44  																			| (735) all_118_0_385 = 0
% 90.22/47.44  																			|
% 90.22/47.44  																			| From (735) and (623) follows:
% 90.22/47.44  																			| (713) v3_orders_2(all_30_1_63) = 0
% 90.22/47.44  																			|
% 90.22/47.44  																			+-Applying beta-rule and splitting (471), into two cases.
% 90.22/47.44  																			|-Branch one:
% 90.22/47.44  																			| (737)  ~ (k1_zfmisc_1(all_22_6_53) = all_68_7_219)
% 90.22/47.44  																			|
% 90.22/47.44  																				| From (543) and (737) follows:
% 90.22/47.44  																				| (738)  ~ (k1_zfmisc_1(all_20_6_43) = all_68_7_219)
% 90.22/47.44  																				|
% 90.22/47.44  																				| Using (618) and (738) yields:
% 90.22/47.44  																				| (731) $false
% 90.22/47.44  																				|
% 90.22/47.44  																				|-The branch is then unsatisfiable
% 90.22/47.44  																			|-Branch two:
% 90.22/47.44  																			| (740) k1_zfmisc_1(all_22_6_53) = all_68_7_219
% 90.22/47.44  																			| (741) all_68_7_219 = all_22_5_52
% 90.22/47.44  																			|
% 90.22/47.44  																				| From (741) and (618) follows:
% 90.22/47.44  																				| (742) k1_zfmisc_1(all_20_6_43) = all_22_5_52
% 90.22/47.44  																				|
% 90.22/47.44  																				+-Applying beta-rule and splitting (472), into two cases.
% 90.22/47.44  																				|-Branch one:
% 90.22/47.44  																				| (738)  ~ (k1_zfmisc_1(all_20_6_43) = all_68_7_219)
% 90.22/47.44  																				|
% 90.22/47.44  																					| From (741) and (738) follows:
% 90.22/47.44  																					| (744)  ~ (k1_zfmisc_1(all_20_6_43) = all_22_5_52)
% 90.22/47.44  																					|
% 90.22/47.44  																					| Using (742) and (744) yields:
% 90.22/47.44  																					| (731) $false
% 90.22/47.44  																					|
% 90.22/47.44  																					|-The branch is then unsatisfiable
% 90.22/47.44  																				|-Branch two:
% 90.22/47.44  																				| (618) k1_zfmisc_1(all_20_6_43) = all_68_7_219
% 90.22/47.44  																				| (747) all_68_7_219 = all_20_5_42
% 90.22/47.44  																				|
% 90.22/47.44  																					| Combining equations (741,747) yields a new equation:
% 90.22/47.44  																					| (748) all_22_5_52 = all_20_5_42
% 90.22/47.44  																					|
% 90.22/47.44  																					| Simplifying 748 yields:
% 90.22/47.44  																					| (749) all_22_5_52 = all_20_5_42
% 90.22/47.44  																					|
% 90.22/47.44  																					| From (749) and (742) follows:
% 90.22/47.44  																					| (248) k1_zfmisc_1(all_20_6_43) = all_20_5_42
% 90.22/47.44  																					|
% 90.22/47.44  																					+-Applying beta-rule and splitting (459), into two cases.
% 90.22/47.44  																					|-Branch one:
% 90.22/47.44  																					| (751)  ~ (k2_yellow_1(all_0_25_25) = all_54_10_157)
% 90.22/47.44  																					|
% 90.22/47.44  																						| Using (611) and (751) yields:
% 90.22/47.44  																						| (731) $false
% 90.22/47.44  																						|
% 90.22/47.44  																						|-The branch is then unsatisfiable
% 90.22/47.44  																					|-Branch two:
% 90.22/47.44  																					| (611) k2_yellow_1(all_0_25_25) = all_54_10_157
% 90.22/47.44  																					| (754) all_54_10_157 = all_0_24_24
% 90.22/47.44  																					|
% 90.22/47.44  																						| From (754) and (611) follows:
% 90.22/47.44  																						| (59) k2_yellow_1(all_0_25_25) = all_0_24_24
% 90.22/47.44  																						|
% 90.22/47.44  																						| From (754) and (695) follows:
% 90.22/47.44  																						| (756) v3_orders_2(all_0_24_24) = 0
% 90.22/47.44  																						|
% 90.22/47.44  																						| From (754) and (696) follows:
% 90.22/47.44  																						| (757) v2_lattice3(all_0_24_24) = 0
% 90.22/47.44  																						|
% 90.22/47.44  																						+-Applying beta-rule and splitting (404), into two cases.
% 90.22/47.44  																						|-Branch one:
% 90.22/47.44  																						| (758)  ~ (all_124_3_411 = 0)
% 90.22/47.44  																						|
% 90.22/47.44  																							| Equations (604) can reduce 758 to:
% 90.22/47.44  																							| (633) $false
% 90.22/47.44  																							|
% 90.22/47.44  																							|-The branch is then unsatisfiable
% 90.22/47.44  																						|-Branch two:
% 90.22/47.44  																						| (604) all_124_3_411 = 0
% 90.22/47.44  																						| (761) all_124_0_408 = 0 & all_124_1_409 = 0
% 90.22/47.44  																						|
% 90.22/47.44  																							| Applying alpha-rule on (761) yields:
% 90.22/47.44  																							| (762) all_124_0_408 = 0
% 90.22/47.44  																							| (763) all_124_1_409 = 0
% 90.22/47.44  																							|
% 90.22/47.44  																							| From (762) and (624) follows:
% 90.22/47.44  																							| (764) v4_orders_2(all_30_1_63) = 0
% 90.22/47.44  																							|
% 90.22/47.44  																							+-Applying beta-rule and splitting (469), into two cases.
% 90.22/47.44  																							|-Branch one:
% 90.22/47.44  																							| (765)  ~ (k1_zfmisc_1(all_78_8_253) = all_130_5_432)
% 90.22/47.44  																							|
% 90.22/47.44  																								| Using (615) and (765) yields:
% 90.22/47.44  																								| (731) $false
% 90.22/47.44  																								|
% 90.22/47.44  																								|-The branch is then unsatisfiable
% 90.22/47.44  																							|-Branch two:
% 90.22/47.44  																							| (615) k1_zfmisc_1(all_78_8_253) = all_130_5_432
% 90.22/47.44  																							| (768) all_130_5_432 = all_78_7_252
% 90.22/47.44  																							|
% 90.22/47.44  																								| From (768) and (615) follows:
% 90.22/47.44  																								| (357) k1_zfmisc_1(all_78_8_253) = all_78_7_252
% 90.22/47.44  																								|
% 90.22/47.44  																								+-Applying beta-rule and splitting (468), into two cases.
% 90.22/47.44  																								|-Branch one:
% 90.22/47.44  																								| (770)  ~ (k1_zfmisc_1(all_120_8_397) = all_136_5_462)
% 90.22/47.44  																								|
% 90.22/47.44  																									| Using (614) and (770) yields:
% 90.22/47.44  																									| (731) $false
% 90.22/47.44  																									|
% 90.22/47.44  																									|-The branch is then unsatisfiable
% 90.22/47.44  																								|-Branch two:
% 90.22/47.44  																								| (614) k1_zfmisc_1(all_120_8_397) = all_136_5_462
% 90.22/47.44  																								| (773) all_136_5_462 = all_120_7_396
% 90.22/47.44  																								|
% 90.22/47.44  																									| From (773) and (614) follows:
% 90.22/47.44  																									| (394) k1_zfmisc_1(all_120_8_397) = all_120_7_396
% 90.22/47.44  																									|
% 90.22/47.44  																									+-Applying beta-rule and splitting (470), into two cases.
% 90.22/47.44  																									|-Branch one:
% 90.22/47.44  																									| (775)  ~ (k1_zfmisc_1(all_32_6_74) = all_62_7_195)
% 90.22/47.44  																									|
% 90.22/47.44  																										| Using (619) and (775) yields:
% 90.22/47.44  																										| (731) $false
% 90.22/47.44  																										|
% 90.22/47.44  																										|-The branch is then unsatisfiable
% 90.22/47.44  																									|-Branch two:
% 90.22/47.44  																									| (619) k1_zfmisc_1(all_32_6_74) = all_62_7_195
% 90.22/47.44  																									| (778) all_62_7_195 = all_32_5_73
% 90.22/47.44  																									|
% 90.22/47.44  																										| From (778) and (619) follows:
% 90.22/47.44  																										| (269) k1_zfmisc_1(all_32_6_74) = all_32_5_73
% 90.22/47.44  																										|
% 90.22/47.44  																										+-Applying beta-rule and splitting (467), into two cases.
% 90.22/47.44  																										|-Branch one:
% 90.22/47.44  																										| (780)  ~ (k1_zfmisc_1(all_145_6_489) = all_149_5_502)
% 90.22/47.44  																										|
% 90.22/47.44  																											| Using (613) and (780) yields:
% 90.22/47.44  																											| (731) $false
% 90.22/47.44  																											|
% 90.22/47.44  																											|-The branch is then unsatisfiable
% 90.22/47.44  																										|-Branch two:
% 90.22/47.44  																										| (613) k1_zfmisc_1(all_145_6_489) = all_149_5_502
% 90.22/47.44  																										| (783) all_149_5_502 = all_145_5_488
% 90.22/47.44  																										|
% 90.22/47.44  																											| From (783) and (613) follows:
% 90.22/47.44  																											| (448) k1_zfmisc_1(all_145_6_489) = all_145_5_488
% 90.22/47.44  																											|
% 90.22/47.44  																											| Instantiating formula (105) with all_30_1_63, all_0_26_26 and discharging atoms k7_lattice3(all_0_26_26) = all_30_1_63, yields:
% 90.22/47.44  																											| (785)  ? [v0] :  ? [v1] :  ? [v2] : (l1_orders_2(all_30_1_63) = v2 & l1_orders_2(all_0_26_26) = v0 & v1_orders_2(all_30_1_63) = v1 & ( ~ (v0 = 0) | (v2 = 0 & v1 = 0)))
% 90.22/47.44  																											|
% 90.22/47.44  																											| Instantiating formula (198) with all_0_25_25, all_30_1_63 and discharging atoms k8_waybel_0(all_30_1_63) = all_0_25_25, yields:
% 90.22/47.44  																											| (786)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] : (k2_yellow_1(all_0_25_25) = v6 & k1_zfmisc_1(v7) = v8 & v3_orders_2(all_30_1_63) = v1 & v4_orders_2(all_30_1_63) = v2 & v1_lattice3(all_30_1_63) = v3 & v1_yellow_0(all_30_1_63) = v4 & v2_orders_2(all_30_1_63) = v0 & u1_struct_0(v6) = v7 & l1_orders_2(all_30_1_63) = v5 & ( ~ (v5 = 0) |  ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) |  ~ (v0 = 0) |  ! [v9] : ( ~ (m1_subset_1(v9, v8) = 0) |  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] : (k3_tarski(v9) = v13 & v1_waybel_0(v9, v6) = v11 & k1_yellow_0(v6, v9) = v12 & v1_xboole_0(v9) = v10 & ( ~ (v11 = 0) | v13 = v12 | v10 = 0)))))
% 90.22/47.44  																											|
% 90.22/47.44  																											| Instantiating formula (149) with all_145_5_488, all_145_6_489 and discharging atoms k1_zfmisc_1(all_145_6_489) = all_145_5_488, yields:
% 90.22/47.44  																											| (787)  ? [v0] : (m1_subset_1(v0, all_145_5_488) = 0 & v1_xboole_0(v0) = 0)
% 90.22/47.44  																											|
% 90.22/47.44  																											| Instantiating formula (149) with all_120_7_396, all_120_8_397 and discharging atoms k1_zfmisc_1(all_120_8_397) = all_120_7_396, yields:
% 90.22/47.44  																											| (788)  ? [v0] : (m1_subset_1(v0, all_120_7_396) = 0 & v1_xboole_0(v0) = 0)
% 90.22/47.44  																											|
% 90.22/47.44  																											| Instantiating formula (149) with all_88_3_287, all_86_1_282 and discharging atoms k1_zfmisc_1(all_86_1_282) = all_88_3_287, yields:
% 90.22/47.44  																											| (789)  ? [v0] : (m1_subset_1(v0, all_88_3_287) = 0 & v1_xboole_0(v0) = 0)
% 90.22/47.44  																											|
% 90.22/47.44  																											| Instantiating formula (149) with all_90_3_293, all_84_1_279 and discharging atoms k1_zfmisc_1(all_84_1_279) = all_90_3_293, yields:
% 90.22/47.44  																											| (790)  ? [v0] : (m1_subset_1(v0, all_90_3_293) = 0 & v1_xboole_0(v0) = 0)
% 90.22/47.44  																											|
% 90.22/47.44  																											| Instantiating formula (149) with all_78_7_252, all_78_8_253 and discharging atoms k1_zfmisc_1(all_78_8_253) = all_78_7_252, yields:
% 90.22/47.44  																											| (791)  ? [v0] : (m1_subset_1(v0, all_78_7_252) = 0 & v1_xboole_0(v0) = 0)
% 90.22/47.44  																											|
% 90.22/47.44  																											| Instantiating formula (149) with all_32_5_73, all_32_6_74 and discharging atoms k1_zfmisc_1(all_32_6_74) = all_32_5_73, yields:
% 90.22/47.44  																											| (792)  ? [v0] : (m1_subset_1(v0, all_32_5_73) = 0 & v1_xboole_0(v0) = 0)
% 90.22/47.44  																											|
% 90.22/47.44  																											| Instantiating formula (149) with all_20_5_42, all_20_6_43 and discharging atoms k1_zfmisc_1(all_20_6_43) = all_20_5_42, yields:
% 90.22/47.44  																											| (793)  ? [v0] : (m1_subset_1(v0, all_20_5_42) = 0 & v1_xboole_0(v0) = 0)
% 90.22/47.44  																											|
% 90.22/47.44  																											| Instantiating formula (22) with all_30_1_63 and discharging atoms v3_orders_2(all_30_1_63) = 0, yields:
% 90.22/47.44  																											| (794)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_30_1_63) = v0 & v2_orders_2(all_30_1_63) = v1 & u1_struct_0(all_30_1_63) = v3 & l1_orders_2(all_30_1_63) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v2_waybel_0(v5, all_30_1_63) = 0 & v13_waybel_0(v5, all_30_1_63) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating formula (143) with all_30_1_63 and discharging atoms v3_orders_2(all_30_1_63) = 0, yields:
% 90.22/47.45  																											| (795)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] : (k7_lattice3(all_30_1_63) = v1 & v3_orders_2(v1) = v3 & l1_orders_2(all_30_1_63) = v0 & v1_orders_2(v1) = v2 & ( ~ (v0 = 0) | (v3 = 0 & v2 = 0)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating formula (22) with all_0_24_24 and discharging atoms v3_orders_2(all_0_24_24) = 0, yields:
% 90.22/47.45  																											| (796)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_24_24) = v0 & v2_orders_2(all_0_24_24) = v1 & u1_struct_0(all_0_24_24) = v3 & l1_orders_2(all_0_24_24) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v2_waybel_0(v5, all_0_24_24) = 0 & v13_waybel_0(v5, all_0_24_24) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating formula (14) with all_0_24_24 and discharging atoms v3_orders_2(all_0_24_24) = 0, yields:
% 90.22/47.45  																											| (797)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] : (k1_zfmisc_1(v3) = v4 & v3_struct_0(all_0_24_24) = v0 & v2_orders_2(all_0_24_24) = v1 & u1_struct_0(all_0_24_24) = v3 & l1_orders_2(all_0_24_24) = v2 & ( ~ (v2 = 0) |  ~ (v1 = 0) | v0 = 0 | (v9 = 0 & v8 = 0 & v6 = 0 &  ~ (v7 = 0) & v1_waybel_0(v5, all_0_24_24) = 0 & v12_waybel_0(v5, all_0_24_24) = 0 & m1_subset_1(v5, v4) = 0 & v1_xboole_0(v5) = v7)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating formula (37) with all_30_1_63 and discharging atoms v4_orders_2(all_30_1_63) = 0, yields:
% 90.22/47.45  																											| (798)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k7_lattice3(all_30_1_63) = v3 & v3_orders_2(v3) = v6 & v3_orders_2(all_30_1_63) = v1 & v4_orders_2(v3) = v7 & v2_orders_2(v3) = v5 & v2_orders_2(all_30_1_63) = v0 & l1_orders_2(all_30_1_63) = v2 & v1_orders_2(v3) = v4 & ( ~ (v2 = 0) |  ~ (v1 = 0) |  ~ (v0 = 0) | (v7 = 0 & v6 = 0 & v5 = 0 & v4 = 0)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating formula (102) with all_30_1_63 and discharging atoms v4_orders_2(all_30_1_63) = 0, yields:
% 90.22/47.45  																											| (799)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] : (k7_lattice3(all_30_1_63) = v1 & v4_orders_2(v1) = v3 & l1_orders_2(all_30_1_63) = v0 & v1_orders_2(v1) = v2 & ( ~ (v0 = 0) | (v3 = 0 & v2 = 0)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating formula (193) with all_30_1_63 and discharging atoms v1_lattice3(all_30_1_63) = 0, yields:
% 90.22/47.45  																											| (800)  ? [v0] :  ? [v1] : (v3_struct_0(all_30_1_63) = v1 & l1_orders_2(all_30_1_63) = v0 & ( ~ (v1 = 0) |  ~ (v0 = 0)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating formula (47) with all_0_24_24 and discharging atoms v2_lattice3(all_0_24_24) = 0, yields:
% 90.22/47.45  																											| (801)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] :  ? [v8] :  ? [v9] :  ? [v10] :  ? [v11] :  ? [v12] :  ? [v13] : (k1_zfmisc_1(v5) = v6 & v3_orders_2(all_0_24_24) = v1 & v4_orders_2(all_0_24_24) = v2 & v1_lattice3(all_0_24_24) = v3 & v2_orders_2(all_0_24_24) = v0 & u1_struct_0(all_0_24_24) = v5 & l1_orders_2(all_0_24_24) = v4 & ( ~ (v4 = 0) |  ~ (v3 = 0) |  ~ (v2 = 0) |  ~ (v1 = 0) |  ~ (v0 = 0) | (v13 = 0 & v12 = 0 & v11 = 0 & v10 = 0 & v8 = 0 &  ~ (v9 = 0) & v2_waybel_0(v7, all_0_24_24) = 0 & v13_waybel_0(v7, all_0_24_24) = 0 & v1_waybel_0(v7, all_0_24_24) = 0 & v12_waybel_0(v7, all_0_24_24) = 0 & m1_subset_1(v7, v6) = 0 & v1_xboole_0(v7) = v9)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating formula (120) with all_30_1_63 and discharging atoms v1_yellow_0(all_30_1_63) = 0, yields:
% 90.22/47.45  																											| (802)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] : (k7_lattice3(all_30_1_63) = v1 & v2_yellow_0(v1) = v3 & l1_orders_2(all_30_1_63) = v0 & v1_orders_2(v1) = v2 & ( ~ (v0 = 0) | (v3 = 0 & v2 = 0)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating formula (168) with all_20_6_43, all_0_26_26 and discharging atoms u1_struct_0(all_0_26_26) = all_20_6_43, yields:
% 90.22/47.45  																											| (803)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] :  ? [v6] :  ? [v7] : (k1_zfmisc_1(all_20_6_43) = v2 & v3_struct_0(all_0_26_26) = v0 & l1_orders_2(all_0_26_26) = v1 & ( ~ (v1 = 0) | v0 = 0 | (v7 = 0 & v6 = 0 & v4 = 0 &  ~ (v5 = 0) & v13_waybel_0(v3, all_0_26_26) = 0 & v12_waybel_0(v3, all_0_26_26) = 0 & m1_subset_1(v3, v2) = 0 & v1_xboole_0(v3) = v5)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating formula (180) with all_20_6_43, all_0_26_26 and discharging atoms u1_struct_0(all_0_26_26) = all_20_6_43, yields:
% 90.22/47.45  																											| (804)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k1_zfmisc_1(all_20_6_43) = v1 & l1_orders_2(all_0_26_26) = v0 & ( ~ (v0 = 0) | (v5 = 0 & v4 = 0 & v3 = 0 & v2_waybel_0(v2, all_0_26_26) = 0 & v1_waybel_0(v2, all_0_26_26) = 0 & m1_subset_1(v2, v1) = 0)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating formula (184) with all_20_6_43, all_0_26_26 and discharging atoms u1_struct_0(all_0_26_26) = all_20_6_43, yields:
% 90.22/47.45  																											| (805)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] :  ? [v5] : (k1_zfmisc_1(all_20_6_43) = v1 & l1_orders_2(all_0_26_26) = v0 & ( ~ (v0 = 0) | (v5 = 0 & v4 = 0 & v3 = 0 & v13_waybel_0(v2, all_0_26_26) = 0 & v12_waybel_0(v2, all_0_26_26) = 0 & m1_subset_1(v2, v1) = 0)))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (793) with all_751_0_518 yields:
% 90.22/47.45  																											| (806) m1_subset_1(all_751_0_518, all_20_5_42) = 0 & v1_xboole_0(all_751_0_518) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Applying alpha-rule on (806) yields:
% 90.22/47.45  																											| (807) m1_subset_1(all_751_0_518, all_20_5_42) = 0
% 90.22/47.45  																											| (808) v1_xboole_0(all_751_0_518) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (792) with all_755_0_520 yields:
% 90.22/47.45  																											| (809) m1_subset_1(all_755_0_520, all_32_5_73) = 0 & v1_xboole_0(all_755_0_520) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Applying alpha-rule on (809) yields:
% 90.22/47.45  																											| (810) m1_subset_1(all_755_0_520, all_32_5_73) = 0
% 90.22/47.45  																											| (811) v1_xboole_0(all_755_0_520) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (800) with all_759_0_535, all_759_1_536 yields:
% 90.22/47.45  																											| (812) v3_struct_0(all_30_1_63) = all_759_0_535 & l1_orders_2(all_30_1_63) = all_759_1_536 & ( ~ (all_759_0_535 = 0) |  ~ (all_759_1_536 = 0))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Applying alpha-rule on (812) yields:
% 90.22/47.45  																											| (813) v3_struct_0(all_30_1_63) = all_759_0_535
% 90.22/47.45  																											| (814) l1_orders_2(all_30_1_63) = all_759_1_536
% 90.22/47.45  																											| (815)  ~ (all_759_0_535 = 0) |  ~ (all_759_1_536 = 0)
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (794) with all_765_0_552, all_765_1_553, all_765_2_554, all_765_3_555, all_765_4_556, all_765_5_557, all_765_6_558, all_765_7_559, all_765_8_560, all_765_9_561 yields:
% 90.22/47.45  																											| (816) k1_zfmisc_1(all_765_6_558) = all_765_5_557 & v3_struct_0(all_30_1_63) = all_765_9_561 & v2_orders_2(all_30_1_63) = all_765_8_560 & u1_struct_0(all_30_1_63) = all_765_6_558 & l1_orders_2(all_30_1_63) = all_765_7_559 & ( ~ (all_765_7_559 = 0) |  ~ (all_765_8_560 = 0) | all_765_9_561 = 0 | (all_765_0_552 = 0 & all_765_1_553 = 0 & all_765_3_555 = 0 &  ~ (all_765_2_554 = 0) & v2_waybel_0(all_765_4_556, all_30_1_63) = 0 & v13_waybel_0(all_765_4_556, all_30_1_63) = 0 & m1_subset_1(all_765_4_556, all_765_5_557) = 0 & v1_xboole_0(all_765_4_556) = all_765_2_554))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Applying alpha-rule on (816) yields:
% 90.22/47.45  																											| (817) v2_orders_2(all_30_1_63) = all_765_8_560
% 90.22/47.45  																											| (818) k1_zfmisc_1(all_765_6_558) = all_765_5_557
% 90.22/47.45  																											| (819) u1_struct_0(all_30_1_63) = all_765_6_558
% 90.22/47.45  																											| (820) v3_struct_0(all_30_1_63) = all_765_9_561
% 90.22/47.45  																											| (821) l1_orders_2(all_30_1_63) = all_765_7_559
% 90.22/47.45  																											| (822)  ~ (all_765_7_559 = 0) |  ~ (all_765_8_560 = 0) | all_765_9_561 = 0 | (all_765_0_552 = 0 & all_765_1_553 = 0 & all_765_3_555 = 0 &  ~ (all_765_2_554 = 0) & v2_waybel_0(all_765_4_556, all_30_1_63) = 0 & v13_waybel_0(all_765_4_556, all_30_1_63) = 0 & m1_subset_1(all_765_4_556, all_765_5_557) = 0 & v1_xboole_0(all_765_4_556) = all_765_2_554)
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (789) with all_820_0_713 yields:
% 90.22/47.45  																											| (823) m1_subset_1(all_820_0_713, all_88_3_287) = 0 & v1_xboole_0(all_820_0_713) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Applying alpha-rule on (823) yields:
% 90.22/47.45  																											| (824) m1_subset_1(all_820_0_713, all_88_3_287) = 0
% 90.22/47.45  																											| (825) v1_xboole_0(all_820_0_713) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (791) with all_825_0_723 yields:
% 90.22/47.45  																											| (826) m1_subset_1(all_825_0_723, all_78_7_252) = 0 & v1_xboole_0(all_825_0_723) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Applying alpha-rule on (826) yields:
% 90.22/47.45  																											| (827) m1_subset_1(all_825_0_723, all_78_7_252) = 0
% 90.22/47.45  																											| (828) v1_xboole_0(all_825_0_723) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (786) with all_833_0_733, all_833_1_734, all_833_2_735, all_833_3_736, all_833_4_737, all_833_5_738, all_833_6_739, all_833_7_740, all_833_8_741 yields:
% 90.22/47.45  																											| (829) k2_yellow_1(all_0_25_25) = all_833_2_735 & k1_zfmisc_1(all_833_1_734) = all_833_0_733 & v3_orders_2(all_30_1_63) = all_833_7_740 & v4_orders_2(all_30_1_63) = all_833_6_739 & v1_lattice3(all_30_1_63) = all_833_5_738 & v1_yellow_0(all_30_1_63) = all_833_4_737 & v2_orders_2(all_30_1_63) = all_833_8_741 & u1_struct_0(all_833_2_735) = all_833_1_734 & l1_orders_2(all_30_1_63) = all_833_3_736 & ( ~ (all_833_3_736 = 0) |  ~ (all_833_4_737 = 0) |  ~ (all_833_5_738 = 0) |  ~ (all_833_6_739 = 0) |  ~ (all_833_7_740 = 0) |  ~ (all_833_8_741 = 0) |  ! [v0] : ( ~ (m1_subset_1(v0, all_833_0_733) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k3_tarski(v0) = v4 & v1_waybel_0(v0, all_833_2_735) = v2 & k1_yellow_0(all_833_2_735, v0) = v3 & v1_xboole_0(v0) = v1 & ( ~ (v2 = 0) | v4 = v3 | v1 = 0))))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Applying alpha-rule on (829) yields:
% 90.22/47.45  																											| (830) v2_orders_2(all_30_1_63) = all_833_8_741
% 90.22/47.45  																											| (831) v4_orders_2(all_30_1_63) = all_833_6_739
% 90.22/47.45  																											| (832) u1_struct_0(all_833_2_735) = all_833_1_734
% 90.22/47.45  																											| (833) k1_zfmisc_1(all_833_1_734) = all_833_0_733
% 90.22/47.45  																											| (834) v3_orders_2(all_30_1_63) = all_833_7_740
% 90.22/47.45  																											| (835)  ~ (all_833_3_736 = 0) |  ~ (all_833_4_737 = 0) |  ~ (all_833_5_738 = 0) |  ~ (all_833_6_739 = 0) |  ~ (all_833_7_740 = 0) |  ~ (all_833_8_741 = 0) |  ! [v0] : ( ~ (m1_subset_1(v0, all_833_0_733) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k3_tarski(v0) = v4 & v1_waybel_0(v0, all_833_2_735) = v2 & k1_yellow_0(all_833_2_735, v0) = v3 & v1_xboole_0(v0) = v1 & ( ~ (v2 = 0) | v4 = v3 | v1 = 0)))
% 90.22/47.45  																											| (836) l1_orders_2(all_30_1_63) = all_833_3_736
% 90.22/47.45  																											| (837) v1_lattice3(all_30_1_63) = all_833_5_738
% 90.22/47.45  																											| (838) k2_yellow_1(all_0_25_25) = all_833_2_735
% 90.22/47.45  																											| (839) v1_yellow_0(all_30_1_63) = all_833_4_737
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (790) with all_845_0_763 yields:
% 90.22/47.45  																											| (840) m1_subset_1(all_845_0_763, all_90_3_293) = 0 & v1_xboole_0(all_845_0_763) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Applying alpha-rule on (840) yields:
% 90.22/47.45  																											| (841) m1_subset_1(all_845_0_763, all_90_3_293) = 0
% 90.22/47.45  																											| (842) v1_xboole_0(all_845_0_763) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (785) with all_847_0_764, all_847_1_765, all_847_2_766 yields:
% 90.22/47.45  																											| (843) l1_orders_2(all_30_1_63) = all_847_0_764 & l1_orders_2(all_0_26_26) = all_847_2_766 & v1_orders_2(all_30_1_63) = all_847_1_765 & ( ~ (all_847_2_766 = 0) | (all_847_0_764 = 0 & all_847_1_765 = 0))
% 90.22/47.45  																											|
% 90.22/47.45  																											| Applying alpha-rule on (843) yields:
% 90.22/47.45  																											| (844) l1_orders_2(all_30_1_63) = all_847_0_764
% 90.22/47.45  																											| (845) l1_orders_2(all_0_26_26) = all_847_2_766
% 90.22/47.45  																											| (846) v1_orders_2(all_30_1_63) = all_847_1_765
% 90.22/47.45  																											| (847)  ~ (all_847_2_766 = 0) | (all_847_0_764 = 0 & all_847_1_765 = 0)
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (788) with all_851_0_770 yields:
% 90.22/47.45  																											| (848) m1_subset_1(all_851_0_770, all_120_7_396) = 0 & v1_xboole_0(all_851_0_770) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Applying alpha-rule on (848) yields:
% 90.22/47.45  																											| (849) m1_subset_1(all_851_0_770, all_120_7_396) = 0
% 90.22/47.45  																											| (850) v1_xboole_0(all_851_0_770) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (787) with all_853_0_771 yields:
% 90.22/47.45  																											| (851) m1_subset_1(all_853_0_771, all_145_5_488) = 0 & v1_xboole_0(all_853_0_771) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Applying alpha-rule on (851) yields:
% 90.22/47.45  																											| (852) m1_subset_1(all_853_0_771, all_145_5_488) = 0
% 90.22/47.45  																											| (853) v1_xboole_0(all_853_0_771) = 0
% 90.22/47.45  																											|
% 90.22/47.45  																											| Instantiating (805) with all_857_0_773, all_857_1_774, all_857_2_775, all_857_3_776, all_857_4_777, all_857_5_778 yields:
% 90.22/47.45  																											| (854) k1_zfmisc_1(all_20_6_43) = all_857_4_777 & l1_orders_2(all_0_26_26) = all_857_5_778 & ( ~ (all_857_5_778 = 0) | (all_857_0_773 = 0 & all_857_1_774 = 0 & all_857_2_775 = 0 & v13_waybel_0(all_857_3_776, all_0_26_26) = 0 & v12_waybel_0(all_857_3_776, all_0_26_26) = 0 & m1_subset_1(all_857_3_776, all_857_4_777) = 0))
% 90.22/47.46  																											|
% 90.22/47.46  																											| Applying alpha-rule on (854) yields:
% 90.22/47.46  																											| (855) k1_zfmisc_1(all_20_6_43) = all_857_4_777
% 90.22/47.46  																											| (856) l1_orders_2(all_0_26_26) = all_857_5_778
% 90.22/47.46  																											| (857)  ~ (all_857_5_778 = 0) | (all_857_0_773 = 0 & all_857_1_774 = 0 & all_857_2_775 = 0 & v13_waybel_0(all_857_3_776, all_0_26_26) = 0 & v12_waybel_0(all_857_3_776, all_0_26_26) = 0 & m1_subset_1(all_857_3_776, all_857_4_777) = 0)
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating (804) with all_859_0_779, all_859_1_780, all_859_2_781, all_859_3_782, all_859_4_783, all_859_5_784 yields:
% 90.22/47.46  																											| (858) k1_zfmisc_1(all_20_6_43) = all_859_4_783 & l1_orders_2(all_0_26_26) = all_859_5_784 & ( ~ (all_859_5_784 = 0) | (all_859_0_779 = 0 & all_859_1_780 = 0 & all_859_2_781 = 0 & v2_waybel_0(all_859_3_782, all_0_26_26) = 0 & v1_waybel_0(all_859_3_782, all_0_26_26) = 0 & m1_subset_1(all_859_3_782, all_859_4_783) = 0))
% 90.22/47.46  																											|
% 90.22/47.46  																											| Applying alpha-rule on (858) yields:
% 90.22/47.46  																											| (859) k1_zfmisc_1(all_20_6_43) = all_859_4_783
% 90.22/47.46  																											| (860) l1_orders_2(all_0_26_26) = all_859_5_784
% 90.22/47.46  																											| (861)  ~ (all_859_5_784 = 0) | (all_859_0_779 = 0 & all_859_1_780 = 0 & all_859_2_781 = 0 & v2_waybel_0(all_859_3_782, all_0_26_26) = 0 & v1_waybel_0(all_859_3_782, all_0_26_26) = 0 & m1_subset_1(all_859_3_782, all_859_4_783) = 0)
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating (801) with all_895_0_893, all_895_1_894, all_895_2_895, all_895_3_896, all_895_4_897, all_895_5_898, all_895_6_899, all_895_7_900, all_895_8_901, all_895_9_902, all_895_10_903, all_895_11_904, all_895_12_905, all_895_13_906 yields:
% 90.22/47.46  																											| (862) k1_zfmisc_1(all_895_8_901) = all_895_7_900 & v3_orders_2(all_0_24_24) = all_895_12_905 & v4_orders_2(all_0_24_24) = all_895_11_904 & v1_lattice3(all_0_24_24) = all_895_10_903 & v2_orders_2(all_0_24_24) = all_895_13_906 & u1_struct_0(all_0_24_24) = all_895_8_901 & l1_orders_2(all_0_24_24) = all_895_9_902 & ( ~ (all_895_9_902 = 0) |  ~ (all_895_10_903 = 0) |  ~ (all_895_11_904 = 0) |  ~ (all_895_12_905 = 0) |  ~ (all_895_13_906 = 0) | (all_895_0_893 = 0 & all_895_1_894 = 0 & all_895_2_895 = 0 & all_895_3_896 = 0 & all_895_5_898 = 0 &  ~ (all_895_4_897 = 0) & v2_waybel_0(all_895_6_899, all_0_24_24) = 0 & v13_waybel_0(all_895_6_899, all_0_24_24) = 0 & v1_waybel_0(all_895_6_899, all_0_24_24) = 0 & v12_waybel_0(all_895_6_899, all_0_24_24) = 0 & m1_subset_1(all_895_6_899, all_895_7_900) = 0 & v1_xboole_0(all_895_6_899) = all_895_4_897))
% 90.22/47.46  																											|
% 90.22/47.46  																											| Applying alpha-rule on (862) yields:
% 90.22/47.46  																											| (863) v1_lattice3(all_0_24_24) = all_895_10_903
% 90.22/47.46  																											| (864) v4_orders_2(all_0_24_24) = all_895_11_904
% 90.22/47.46  																											| (865) l1_orders_2(all_0_24_24) = all_895_9_902
% 90.22/47.46  																											| (866)  ~ (all_895_9_902 = 0) |  ~ (all_895_10_903 = 0) |  ~ (all_895_11_904 = 0) |  ~ (all_895_12_905 = 0) |  ~ (all_895_13_906 = 0) | (all_895_0_893 = 0 & all_895_1_894 = 0 & all_895_2_895 = 0 & all_895_3_896 = 0 & all_895_5_898 = 0 &  ~ (all_895_4_897 = 0) & v2_waybel_0(all_895_6_899, all_0_24_24) = 0 & v13_waybel_0(all_895_6_899, all_0_24_24) = 0 & v1_waybel_0(all_895_6_899, all_0_24_24) = 0 & v12_waybel_0(all_895_6_899, all_0_24_24) = 0 & m1_subset_1(all_895_6_899, all_895_7_900) = 0 & v1_xboole_0(all_895_6_899) = all_895_4_897)
% 90.22/47.46  																											| (867) v3_orders_2(all_0_24_24) = all_895_12_905
% 90.22/47.46  																											| (868) v2_orders_2(all_0_24_24) = all_895_13_906
% 90.22/47.46  																											| (869) u1_struct_0(all_0_24_24) = all_895_8_901
% 90.22/47.46  																											| (870) k1_zfmisc_1(all_895_8_901) = all_895_7_900
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating (803) with all_916_0_979, all_916_1_980, all_916_2_981, all_916_3_982, all_916_4_983, all_916_5_984, all_916_6_985, all_916_7_986 yields:
% 90.22/47.46  																											| (871) k1_zfmisc_1(all_20_6_43) = all_916_5_984 & v3_struct_0(all_0_26_26) = all_916_7_986 & l1_orders_2(all_0_26_26) = all_916_6_985 & ( ~ (all_916_6_985 = 0) | all_916_7_986 = 0 | (all_916_0_979 = 0 & all_916_1_980 = 0 & all_916_3_982 = 0 &  ~ (all_916_2_981 = 0) & v13_waybel_0(all_916_4_983, all_0_26_26) = 0 & v12_waybel_0(all_916_4_983, all_0_26_26) = 0 & m1_subset_1(all_916_4_983, all_916_5_984) = 0 & v1_xboole_0(all_916_4_983) = all_916_2_981))
% 90.22/47.46  																											|
% 90.22/47.46  																											| Applying alpha-rule on (871) yields:
% 90.22/47.46  																											| (872) k1_zfmisc_1(all_20_6_43) = all_916_5_984
% 90.22/47.46  																											| (873) v3_struct_0(all_0_26_26) = all_916_7_986
% 90.22/47.46  																											| (874) l1_orders_2(all_0_26_26) = all_916_6_985
% 90.22/47.46  																											| (875)  ~ (all_916_6_985 = 0) | all_916_7_986 = 0 | (all_916_0_979 = 0 & all_916_1_980 = 0 & all_916_3_982 = 0 &  ~ (all_916_2_981 = 0) & v13_waybel_0(all_916_4_983, all_0_26_26) = 0 & v12_waybel_0(all_916_4_983, all_0_26_26) = 0 & m1_subset_1(all_916_4_983, all_916_5_984) = 0 & v1_xboole_0(all_916_4_983) = all_916_2_981)
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating (799) with all_954_0_1119, all_954_1_1120, all_954_2_1121, all_954_3_1122 yields:
% 90.22/47.46  																											| (876) k7_lattice3(all_30_1_63) = all_954_2_1121 & v4_orders_2(all_954_2_1121) = all_954_0_1119 & l1_orders_2(all_30_1_63) = all_954_3_1122 & v1_orders_2(all_954_2_1121) = all_954_1_1120 & ( ~ (all_954_3_1122 = 0) | (all_954_0_1119 = 0 & all_954_1_1120 = 0))
% 90.22/47.46  																											|
% 90.22/47.46  																											| Applying alpha-rule on (876) yields:
% 90.22/47.46  																											| (877) v1_orders_2(all_954_2_1121) = all_954_1_1120
% 90.22/47.46  																											| (878) v4_orders_2(all_954_2_1121) = all_954_0_1119
% 90.22/47.46  																											| (879) k7_lattice3(all_30_1_63) = all_954_2_1121
% 90.22/47.46  																											| (880)  ~ (all_954_3_1122 = 0) | (all_954_0_1119 = 0 & all_954_1_1120 = 0)
% 90.22/47.46  																											| (881) l1_orders_2(all_30_1_63) = all_954_3_1122
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating (798) with all_962_0_1132, all_962_1_1133, all_962_2_1134, all_962_3_1135, all_962_4_1136, all_962_5_1137, all_962_6_1138, all_962_7_1139 yields:
% 90.22/47.46  																											| (882) k7_lattice3(all_30_1_63) = all_962_4_1136 & v3_orders_2(all_962_4_1136) = all_962_1_1133 & v3_orders_2(all_30_1_63) = all_962_6_1138 & v4_orders_2(all_962_4_1136) = all_962_0_1132 & v2_orders_2(all_962_4_1136) = all_962_2_1134 & v2_orders_2(all_30_1_63) = all_962_7_1139 & l1_orders_2(all_30_1_63) = all_962_5_1137 & v1_orders_2(all_962_4_1136) = all_962_3_1135 & ( ~ (all_962_5_1137 = 0) |  ~ (all_962_6_1138 = 0) |  ~ (all_962_7_1139 = 0) | (all_962_0_1132 = 0 & all_962_1_1133 = 0 & all_962_2_1134 = 0 & all_962_3_1135 = 0))
% 90.22/47.46  																											|
% 90.22/47.46  																											| Applying alpha-rule on (882) yields:
% 90.22/47.46  																											| (883) v1_orders_2(all_962_4_1136) = all_962_3_1135
% 90.22/47.46  																											| (884) v2_orders_2(all_30_1_63) = all_962_7_1139
% 90.22/47.46  																											| (885) v3_orders_2(all_30_1_63) = all_962_6_1138
% 90.22/47.46  																											| (886) k7_lattice3(all_30_1_63) = all_962_4_1136
% 90.22/47.46  																											| (887)  ~ (all_962_5_1137 = 0) |  ~ (all_962_6_1138 = 0) |  ~ (all_962_7_1139 = 0) | (all_962_0_1132 = 0 & all_962_1_1133 = 0 & all_962_2_1134 = 0 & all_962_3_1135 = 0)
% 90.22/47.46  																											| (888) v3_orders_2(all_962_4_1136) = all_962_1_1133
% 90.22/47.46  																											| (889) v2_orders_2(all_962_4_1136) = all_962_2_1134
% 90.22/47.46  																											| (890) l1_orders_2(all_30_1_63) = all_962_5_1137
% 90.22/47.46  																											| (891) v4_orders_2(all_962_4_1136) = all_962_0_1132
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating (797) with all_986_0_1209, all_986_1_1210, all_986_2_1211, all_986_3_1212, all_986_4_1213, all_986_5_1214, all_986_6_1215, all_986_7_1216, all_986_8_1217, all_986_9_1218 yields:
% 90.22/47.46  																											| (892) k1_zfmisc_1(all_986_6_1215) = all_986_5_1214 & v3_struct_0(all_0_24_24) = all_986_9_1218 & v2_orders_2(all_0_24_24) = all_986_8_1217 & u1_struct_0(all_0_24_24) = all_986_6_1215 & l1_orders_2(all_0_24_24) = all_986_7_1216 & ( ~ (all_986_7_1216 = 0) |  ~ (all_986_8_1217 = 0) | all_986_9_1218 = 0 | (all_986_0_1209 = 0 & all_986_1_1210 = 0 & all_986_3_1212 = 0 &  ~ (all_986_2_1211 = 0) & v1_waybel_0(all_986_4_1213, all_0_24_24) = 0 & v12_waybel_0(all_986_4_1213, all_0_24_24) = 0 & m1_subset_1(all_986_4_1213, all_986_5_1214) = 0 & v1_xboole_0(all_986_4_1213) = all_986_2_1211))
% 90.22/47.46  																											|
% 90.22/47.46  																											| Applying alpha-rule on (892) yields:
% 90.22/47.46  																											| (893) u1_struct_0(all_0_24_24) = all_986_6_1215
% 90.22/47.46  																											| (894) l1_orders_2(all_0_24_24) = all_986_7_1216
% 90.22/47.46  																											| (895)  ~ (all_986_7_1216 = 0) |  ~ (all_986_8_1217 = 0) | all_986_9_1218 = 0 | (all_986_0_1209 = 0 & all_986_1_1210 = 0 & all_986_3_1212 = 0 &  ~ (all_986_2_1211 = 0) & v1_waybel_0(all_986_4_1213, all_0_24_24) = 0 & v12_waybel_0(all_986_4_1213, all_0_24_24) = 0 & m1_subset_1(all_986_4_1213, all_986_5_1214) = 0 & v1_xboole_0(all_986_4_1213) = all_986_2_1211)
% 90.22/47.46  																											| (896) k1_zfmisc_1(all_986_6_1215) = all_986_5_1214
% 90.22/47.46  																											| (897) v3_struct_0(all_0_24_24) = all_986_9_1218
% 90.22/47.46  																											| (898) v2_orders_2(all_0_24_24) = all_986_8_1217
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating (796) with all_988_0_1219, all_988_1_1220, all_988_2_1221, all_988_3_1222, all_988_4_1223, all_988_5_1224, all_988_6_1225, all_988_7_1226, all_988_8_1227, all_988_9_1228 yields:
% 90.22/47.46  																											| (899) k1_zfmisc_1(all_988_6_1225) = all_988_5_1224 & v3_struct_0(all_0_24_24) = all_988_9_1228 & v2_orders_2(all_0_24_24) = all_988_8_1227 & u1_struct_0(all_0_24_24) = all_988_6_1225 & l1_orders_2(all_0_24_24) = all_988_7_1226 & ( ~ (all_988_7_1226 = 0) |  ~ (all_988_8_1227 = 0) | all_988_9_1228 = 0 | (all_988_0_1219 = 0 & all_988_1_1220 = 0 & all_988_3_1222 = 0 &  ~ (all_988_2_1221 = 0) & v2_waybel_0(all_988_4_1223, all_0_24_24) = 0 & v13_waybel_0(all_988_4_1223, all_0_24_24) = 0 & m1_subset_1(all_988_4_1223, all_988_5_1224) = 0 & v1_xboole_0(all_988_4_1223) = all_988_2_1221))
% 90.22/47.46  																											|
% 90.22/47.46  																											| Applying alpha-rule on (899) yields:
% 90.22/47.46  																											| (900) k1_zfmisc_1(all_988_6_1225) = all_988_5_1224
% 90.22/47.46  																											| (901) v3_struct_0(all_0_24_24) = all_988_9_1228
% 90.22/47.46  																											| (902) v2_orders_2(all_0_24_24) = all_988_8_1227
% 90.22/47.46  																											| (903) u1_struct_0(all_0_24_24) = all_988_6_1225
% 90.22/47.46  																											| (904)  ~ (all_988_7_1226 = 0) |  ~ (all_988_8_1227 = 0) | all_988_9_1228 = 0 | (all_988_0_1219 = 0 & all_988_1_1220 = 0 & all_988_3_1222 = 0 &  ~ (all_988_2_1221 = 0) & v2_waybel_0(all_988_4_1223, all_0_24_24) = 0 & v13_waybel_0(all_988_4_1223, all_0_24_24) = 0 & m1_subset_1(all_988_4_1223, all_988_5_1224) = 0 & v1_xboole_0(all_988_4_1223) = all_988_2_1221)
% 90.22/47.46  																											| (905) l1_orders_2(all_0_24_24) = all_988_7_1226
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating (795) with all_1000_0_1257, all_1000_1_1258, all_1000_2_1259, all_1000_3_1260 yields:
% 90.22/47.46  																											| (906) k7_lattice3(all_30_1_63) = all_1000_2_1259 & v3_orders_2(all_1000_2_1259) = all_1000_0_1257 & l1_orders_2(all_30_1_63) = all_1000_3_1260 & v1_orders_2(all_1000_2_1259) = all_1000_1_1258 & ( ~ (all_1000_3_1260 = 0) | (all_1000_0_1257 = 0 & all_1000_1_1258 = 0))
% 90.22/47.46  																											|
% 90.22/47.46  																											| Applying alpha-rule on (906) yields:
% 90.22/47.46  																											| (907) v3_orders_2(all_1000_2_1259) = all_1000_0_1257
% 90.22/47.46  																											| (908) v1_orders_2(all_1000_2_1259) = all_1000_1_1258
% 90.22/47.46  																											| (909) l1_orders_2(all_30_1_63) = all_1000_3_1260
% 90.22/47.46  																											| (910) k7_lattice3(all_30_1_63) = all_1000_2_1259
% 90.22/47.46  																											| (911)  ~ (all_1000_3_1260 = 0) | (all_1000_0_1257 = 0 & all_1000_1_1258 = 0)
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating (802) with all_1090_0_1571, all_1090_1_1572, all_1090_2_1573, all_1090_3_1574 yields:
% 90.22/47.46  																											| (912) k7_lattice3(all_30_1_63) = all_1090_2_1573 & v2_yellow_0(all_1090_2_1573) = all_1090_0_1571 & l1_orders_2(all_30_1_63) = all_1090_3_1574 & v1_orders_2(all_1090_2_1573) = all_1090_1_1572 & ( ~ (all_1090_3_1574 = 0) | (all_1090_0_1571 = 0 & all_1090_1_1572 = 0))
% 90.22/47.46  																											|
% 90.22/47.46  																											| Applying alpha-rule on (912) yields:
% 90.22/47.46  																											| (913)  ~ (all_1090_3_1574 = 0) | (all_1090_0_1571 = 0 & all_1090_1_1572 = 0)
% 90.22/47.46  																											| (914) v2_yellow_0(all_1090_2_1573) = all_1090_0_1571
% 90.22/47.46  																											| (915) k7_lattice3(all_30_1_63) = all_1090_2_1573
% 90.22/47.46  																											| (916) v1_orders_2(all_1090_2_1573) = all_1090_1_1572
% 90.22/47.46  																											| (917) l1_orders_2(all_30_1_63) = all_1090_3_1574
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating formula (204) with all_0_25_25, all_833_2_735, all_0_24_24 and discharging atoms k2_yellow_1(all_0_25_25) = all_833_2_735, k2_yellow_1(all_0_25_25) = all_0_24_24, yields:
% 90.22/47.46  																											| (918) all_833_2_735 = all_0_24_24
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating formula (90) with all_0_23_23, all_986_5_1214, all_0_22_22 and discharging atoms k1_zfmisc_1(all_0_23_23) = all_0_22_22, yields:
% 90.22/47.46  																											| (919) all_986_5_1214 = all_0_22_22 |  ~ (k1_zfmisc_1(all_0_23_23) = all_986_5_1214)
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating formula (90) with all_986_6_1215, all_986_5_1214, all_988_5_1224 and discharging atoms k1_zfmisc_1(all_986_6_1215) = all_986_5_1214, yields:
% 90.22/47.46  																											| (920) all_988_5_1224 = all_986_5_1214 |  ~ (k1_zfmisc_1(all_986_6_1215) = all_988_5_1224)
% 90.22/47.46  																											|
% 90.22/47.46  																											| Instantiating formula (90) with all_0_23_23, all_833_0_733, all_0_22_22 and discharging atoms k1_zfmisc_1(all_0_23_23) = all_0_22_22, yields:
% 90.22/47.46  																											| (921) all_833_0_733 = all_0_22_22 |  ~ (k1_zfmisc_1(all_0_23_23) = all_833_0_733)
% 90.22/47.46  																											|
% 90.22/47.47  																											| Instantiating formula (90) with all_833_1_734, all_833_0_733, all_986_5_1214 and discharging atoms k1_zfmisc_1(all_833_1_734) = all_833_0_733, yields:
% 90.22/47.47  																											| (922) all_986_5_1214 = all_833_0_733 |  ~ (k1_zfmisc_1(all_833_1_734) = all_986_5_1214)
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (31) with all_853_0_771 and discharging atoms v1_xboole_0(all_853_0_771) = 0, yields:
% 90.22/47.47  																											| (923) all_853_0_771 = k1_xboole_0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (114) with all_851_0_770, all_853_0_771 and discharging atoms v1_xboole_0(all_853_0_771) = 0, v1_xboole_0(all_851_0_770) = 0, yields:
% 90.22/47.47  																											| (924) all_853_0_771 = all_851_0_770
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (114) with all_825_0_723, all_851_0_770 and discharging atoms v1_xboole_0(all_851_0_770) = 0, v1_xboole_0(all_825_0_723) = 0, yields:
% 90.22/47.47  																											| (925) all_851_0_770 = all_825_0_723
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (114) with all_825_0_723, all_845_0_763 and discharging atoms v1_xboole_0(all_845_0_763) = 0, v1_xboole_0(all_825_0_723) = 0, yields:
% 90.22/47.47  																											| (926) all_845_0_763 = all_825_0_723
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (114) with all_820_0_713, all_845_0_763 and discharging atoms v1_xboole_0(all_845_0_763) = 0, v1_xboole_0(all_820_0_713) = 0, yields:
% 90.22/47.47  																											| (927) all_845_0_763 = all_820_0_713
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (114) with all_755_0_520, all_845_0_763 and discharging atoms v1_xboole_0(all_845_0_763) = 0, v1_xboole_0(all_755_0_520) = 0, yields:
% 90.22/47.47  																											| (928) all_845_0_763 = all_755_0_520
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (114) with all_751_0_518, all_755_0_520 and discharging atoms v1_xboole_0(all_755_0_520) = 0, v1_xboole_0(all_751_0_518) = 0, yields:
% 90.22/47.47  																											| (929) all_755_0_520 = all_751_0_518
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (81) with all_30_1_63, all_962_6_1138, 0 and discharging atoms v3_orders_2(all_30_1_63) = all_962_6_1138, v3_orders_2(all_30_1_63) = 0, yields:
% 90.22/47.47  																											| (930) all_962_6_1138 = 0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (81) with all_30_1_63, all_833_7_740, all_962_6_1138 and discharging atoms v3_orders_2(all_30_1_63) = all_962_6_1138, v3_orders_2(all_30_1_63) = all_833_7_740, yields:
% 90.22/47.47  																											| (931) all_962_6_1138 = all_833_7_740
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (152) with all_30_1_63, all_833_6_739, 0 and discharging atoms v4_orders_2(all_30_1_63) = all_833_6_739, v4_orders_2(all_30_1_63) = 0, yields:
% 90.22/47.47  																											| (932) all_833_6_739 = 0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (34) with all_30_1_63, all_833_5_738, 0 and discharging atoms v1_lattice3(all_30_1_63) = all_833_5_738, v1_lattice3(all_30_1_63) = 0, yields:
% 90.22/47.47  																											| (933) all_833_5_738 = 0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (136) with all_30_1_63, all_833_4_737, 0 and discharging atoms v1_yellow_0(all_30_1_63) = all_833_4_737, v1_yellow_0(all_30_1_63) = 0, yields:
% 90.22/47.47  																											| (934) all_833_4_737 = 0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (60) with all_30_1_63, all_833_8_741, 0 and discharging atoms v2_orders_2(all_30_1_63) = all_833_8_741, v2_orders_2(all_30_1_63) = 0, yields:
% 90.22/47.47  																											| (935) all_833_8_741 = 0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (60) with all_30_1_63, all_833_8_741, all_962_7_1139 and discharging atoms v2_orders_2(all_30_1_63) = all_962_7_1139, v2_orders_2(all_30_1_63) = all_833_8_741, yields:
% 90.22/47.47  																											| (936) all_962_7_1139 = all_833_8_741
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (60) with all_30_1_63, all_765_8_560, all_962_7_1139 and discharging atoms v2_orders_2(all_30_1_63) = all_962_7_1139, v2_orders_2(all_30_1_63) = all_765_8_560, yields:
% 90.22/47.47  																											| (937) all_962_7_1139 = all_765_8_560
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (108) with all_0_24_24, all_988_6_1225, all_0_23_23 and discharging atoms u1_struct_0(all_0_24_24) = all_988_6_1225, u1_struct_0(all_0_24_24) = all_0_23_23, yields:
% 90.22/47.47  																											| (938) all_988_6_1225 = all_0_23_23
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (108) with all_0_24_24, all_986_6_1215, all_988_6_1225 and discharging atoms u1_struct_0(all_0_24_24) = all_988_6_1225, u1_struct_0(all_0_24_24) = all_986_6_1215, yields:
% 90.22/47.47  																											| (939) all_988_6_1225 = all_986_6_1215
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (108) with all_0_24_24, all_895_8_901, all_833_1_734 and discharging atoms u1_struct_0(all_0_24_24) = all_895_8_901, yields:
% 90.22/47.47  																											| (940) all_895_8_901 = all_833_1_734 |  ~ (u1_struct_0(all_0_24_24) = all_833_1_734)
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (108) with all_0_24_24, all_895_8_901, all_988_6_1225 and discharging atoms u1_struct_0(all_0_24_24) = all_988_6_1225, u1_struct_0(all_0_24_24) = all_895_8_901, yields:
% 90.22/47.47  																											| (941) all_988_6_1225 = all_895_8_901
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (41) with all_30_1_63, all_962_5_1137, all_1090_3_1574 and discharging atoms l1_orders_2(all_30_1_63) = all_1090_3_1574, l1_orders_2(all_30_1_63) = all_962_5_1137, yields:
% 90.22/47.47  																											| (942) all_1090_3_1574 = all_962_5_1137
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (41) with all_30_1_63, all_962_5_1137, all_1000_3_1260 and discharging atoms l1_orders_2(all_30_1_63) = all_1000_3_1260, l1_orders_2(all_30_1_63) = all_962_5_1137, yields:
% 90.22/47.47  																											| (943) all_1000_3_1260 = all_962_5_1137
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (41) with all_30_1_63, all_954_3_1122, all_1090_3_1574 and discharging atoms l1_orders_2(all_30_1_63) = all_1090_3_1574, l1_orders_2(all_30_1_63) = all_954_3_1122, yields:
% 90.22/47.47  																											| (944) all_1090_3_1574 = all_954_3_1122
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (41) with all_30_1_63, all_847_0_764, all_1090_3_1574 and discharging atoms l1_orders_2(all_30_1_63) = all_1090_3_1574, l1_orders_2(all_30_1_63) = all_847_0_764, yields:
% 90.22/47.47  																											| (945) all_1090_3_1574 = all_847_0_764
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (41) with all_30_1_63, all_833_3_736, all_847_0_764 and discharging atoms l1_orders_2(all_30_1_63) = all_847_0_764, l1_orders_2(all_30_1_63) = all_833_3_736, yields:
% 90.22/47.47  																											| (946) all_847_0_764 = all_833_3_736
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (41) with all_30_1_63, all_759_1_536, all_1000_3_1260 and discharging atoms l1_orders_2(all_30_1_63) = all_1000_3_1260, l1_orders_2(all_30_1_63) = all_759_1_536, yields:
% 90.22/47.47  																											| (947) all_1000_3_1260 = all_759_1_536
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (41) with all_0_26_26, all_859_5_784, 0 and discharging atoms l1_orders_2(all_0_26_26) = all_859_5_784, l1_orders_2(all_0_26_26) = 0, yields:
% 90.22/47.47  																											| (948) all_859_5_784 = 0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (41) with all_0_26_26, all_859_5_784, all_916_6_985 and discharging atoms l1_orders_2(all_0_26_26) = all_916_6_985, l1_orders_2(all_0_26_26) = all_859_5_784, yields:
% 90.22/47.47  																											| (949) all_916_6_985 = all_859_5_784
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (41) with all_0_26_26, all_857_5_778, all_916_6_985 and discharging atoms l1_orders_2(all_0_26_26) = all_916_6_985, l1_orders_2(all_0_26_26) = all_857_5_778, yields:
% 90.22/47.47  																											| (950) all_916_6_985 = all_857_5_778
% 90.22/47.47  																											|
% 90.22/47.47  																											| Instantiating formula (41) with all_0_26_26, all_847_2_766, all_859_5_784 and discharging atoms l1_orders_2(all_0_26_26) = all_859_5_784, l1_orders_2(all_0_26_26) = all_847_2_766, yields:
% 90.22/47.47  																											| (951) all_859_5_784 = all_847_2_766
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (945,944) yields a new equation:
% 90.22/47.47  																											| (952) all_954_3_1122 = all_847_0_764
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (942,944) yields a new equation:
% 90.22/47.47  																											| (953) all_962_5_1137 = all_954_3_1122
% 90.22/47.47  																											|
% 90.22/47.47  																											| Simplifying 953 yields:
% 90.22/47.47  																											| (954) all_962_5_1137 = all_954_3_1122
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (943,947) yields a new equation:
% 90.22/47.47  																											| (955) all_962_5_1137 = all_759_1_536
% 90.22/47.47  																											|
% 90.22/47.47  																											| Simplifying 955 yields:
% 90.22/47.47  																											| (956) all_962_5_1137 = all_759_1_536
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (941,939) yields a new equation:
% 90.22/47.47  																											| (957) all_986_6_1215 = all_895_8_901
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (938,939) yields a new equation:
% 90.22/47.47  																											| (958) all_986_6_1215 = all_0_23_23
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (958,957) yields a new equation:
% 90.22/47.47  																											| (959) all_895_8_901 = all_0_23_23
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (954,956) yields a new equation:
% 90.22/47.47  																											| (960) all_954_3_1122 = all_759_1_536
% 90.22/47.47  																											|
% 90.22/47.47  																											| Simplifying 960 yields:
% 90.22/47.47  																											| (961) all_954_3_1122 = all_759_1_536
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (930,931) yields a new equation:
% 90.22/47.47  																											| (962) all_833_7_740 = 0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (936,937) yields a new equation:
% 90.22/47.47  																											| (963) all_833_8_741 = all_765_8_560
% 90.22/47.47  																											|
% 90.22/47.47  																											| Simplifying 963 yields:
% 90.22/47.47  																											| (964) all_833_8_741 = all_765_8_560
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (952,961) yields a new equation:
% 90.22/47.47  																											| (965) all_847_0_764 = all_759_1_536
% 90.22/47.47  																											|
% 90.22/47.47  																											| Simplifying 965 yields:
% 90.22/47.47  																											| (966) all_847_0_764 = all_759_1_536
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (949,950) yields a new equation:
% 90.22/47.47  																											| (967) all_859_5_784 = all_857_5_778
% 90.22/47.47  																											|
% 90.22/47.47  																											| Simplifying 967 yields:
% 90.22/47.47  																											| (968) all_859_5_784 = all_857_5_778
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (948,968) yields a new equation:
% 90.22/47.47  																											| (969) all_857_5_778 = 0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (951,968) yields a new equation:
% 90.22/47.47  																											| (970) all_857_5_778 = all_847_2_766
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (969,970) yields a new equation:
% 90.22/47.47  																											| (971) all_847_2_766 = 0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (924,923) yields a new equation:
% 90.22/47.47  																											| (972) all_851_0_770 = k1_xboole_0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Simplifying 972 yields:
% 90.22/47.47  																											| (973) all_851_0_770 = k1_xboole_0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (925,973) yields a new equation:
% 90.22/47.47  																											| (974) all_825_0_723 = k1_xboole_0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Simplifying 974 yields:
% 90.22/47.47  																											| (975) all_825_0_723 = k1_xboole_0
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (946,966) yields a new equation:
% 90.22/47.47  																											| (976) all_833_3_736 = all_759_1_536
% 90.22/47.47  																											|
% 90.22/47.47  																											| Simplifying 976 yields:
% 90.22/47.47  																											| (977) all_833_3_736 = all_759_1_536
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (926,927) yields a new equation:
% 90.22/47.47  																											| (978) all_825_0_723 = all_820_0_713
% 90.22/47.47  																											|
% 90.22/47.47  																											| Simplifying 978 yields:
% 90.22/47.47  																											| (979) all_825_0_723 = all_820_0_713
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (928,927) yields a new equation:
% 90.22/47.47  																											| (980) all_820_0_713 = all_755_0_520
% 90.22/47.47  																											|
% 90.22/47.47  																											| Combining equations (935,964) yields a new equation:
% 90.22/47.48  																											| (981) all_765_8_560 = 0
% 90.22/47.48  																											|
% 90.22/47.48  																											| Combining equations (979,975) yields a new equation:
% 90.22/47.48  																											| (982) all_820_0_713 = k1_xboole_0
% 90.22/47.48  																											|
% 90.22/47.48  																											| Simplifying 982 yields:
% 90.22/47.48  																											| (983) all_820_0_713 = k1_xboole_0
% 90.22/47.48  																											|
% 90.22/47.48  																											| Combining equations (980,983) yields a new equation:
% 90.22/47.48  																											| (984) all_755_0_520 = k1_xboole_0
% 90.22/47.48  																											|
% 90.22/47.48  																											| Simplifying 984 yields:
% 90.22/47.48  																											| (985) all_755_0_520 = k1_xboole_0
% 90.22/47.48  																											|
% 90.22/47.48  																											| Combining equations (929,985) yields a new equation:
% 90.22/47.48  																											| (986) all_751_0_518 = k1_xboole_0
% 90.22/47.48  																											|
% 90.22/47.48  																											| Simplifying 986 yields:
% 90.22/47.48  																											| (987) all_751_0_518 = k1_xboole_0
% 90.22/47.48  																											|
% 90.22/47.48  																											| Combining equations (981,964) yields a new equation:
% 90.22/47.48  																											| (935) all_833_8_741 = 0
% 90.22/47.48  																											|
% 90.22/47.48  																											| Combining equations (959,957) yields a new equation:
% 90.22/47.48  																											| (958) all_986_6_1215 = all_0_23_23
% 90.22/47.48  																											|
% 90.22/47.48  																											| Combining equations (958,939) yields a new equation:
% 90.22/47.48  																											| (938) all_988_6_1225 = all_0_23_23
% 90.22/47.48  																											|
% 90.22/47.48  																											| From (938) and (900) follows:
% 90.22/47.48  																											| (991) k1_zfmisc_1(all_0_23_23) = all_988_5_1224
% 90.22/47.48  																											|
% 90.22/47.48  																											| From (958) and (896) follows:
% 90.22/47.48  																											| (992) k1_zfmisc_1(all_0_23_23) = all_986_5_1214
% 90.22/47.48  																											|
% 90.22/47.48  																											| From (987) and (808) follows:
% 90.22/47.48  																											| (186) v1_xboole_0(k1_xboole_0) = 0
% 90.22/47.48  																											|
% 90.22/47.48  																											| From (918) and (832) follows:
% 90.22/47.48  																											| (994) u1_struct_0(all_0_24_24) = all_833_1_734
% 90.22/47.48  																											|
% 90.22/47.48  																											+-Applying beta-rule and splitting (847), into two cases.
% 90.22/47.48  																											|-Branch one:
% 90.22/47.48  																											| (995)  ~ (all_847_2_766 = 0)
% 90.22/47.48  																											|
% 90.22/47.48  																												| Equations (971) can reduce 995 to:
% 90.22/47.48  																												| (633) $false
% 90.22/47.48  																												|
% 90.22/47.48  																												|-The branch is then unsatisfiable
% 90.22/47.48  																											|-Branch two:
% 90.22/47.48  																											| (971) all_847_2_766 = 0
% 90.22/47.48  																											| (998) all_847_0_764 = 0 & all_847_1_765 = 0
% 90.22/47.48  																											|
% 90.22/47.48  																												| Applying alpha-rule on (998) yields:
% 90.22/47.48  																												| (999) all_847_0_764 = 0
% 90.22/47.48  																												| (1000) all_847_1_765 = 0
% 90.22/47.48  																												|
% 90.22/47.48  																												| Combining equations (999,966) yields a new equation:
% 90.22/47.48  																												| (1001) all_759_1_536 = 0
% 90.22/47.48  																												|
% 90.22/47.48  																												| Combining equations (1001,977) yields a new equation:
% 90.22/47.48  																												| (1002) all_833_3_736 = 0
% 90.22/47.48  																												|
% 90.22/47.48  																												+-Applying beta-rule and splitting (940), into two cases.
% 90.22/47.48  																												|-Branch one:
% 90.22/47.48  																												| (1003)  ~ (u1_struct_0(all_0_24_24) = all_833_1_734)
% 90.22/47.48  																												|
% 90.22/47.48  																													| Using (994) and (1003) yields:
% 90.22/47.48  																													| (731) $false
% 90.22/47.48  																													|
% 90.22/47.48  																													|-The branch is then unsatisfiable
% 90.22/47.48  																												|-Branch two:
% 90.22/47.48  																												| (994) u1_struct_0(all_0_24_24) = all_833_1_734
% 90.22/47.48  																												| (1006) all_895_8_901 = all_833_1_734
% 90.22/47.48  																												|
% 90.22/47.48  																													| Combining equations (1006,959) yields a new equation:
% 90.22/47.48  																													| (1007) all_833_1_734 = all_0_23_23
% 90.22/47.48  																													|
% 90.22/47.48  																													| Simplifying 1007 yields:
% 90.22/47.48  																													| (1008) all_833_1_734 = all_0_23_23
% 90.22/47.48  																													|
% 90.22/47.48  																													| From (1008) and (833) follows:
% 90.22/47.48  																													| (1009) k1_zfmisc_1(all_0_23_23) = all_833_0_733
% 90.22/47.48  																													|
% 90.22/47.48  																													+-Applying beta-rule and splitting (835), into two cases.
% 90.22/47.48  																													|-Branch one:
% 90.22/47.48  																													| (1010)  ~ (all_833_3_736 = 0)
% 90.22/47.48  																													|
% 90.22/47.48  																														| Equations (1002) can reduce 1010 to:
% 90.22/47.48  																														| (633) $false
% 90.22/47.48  																														|
% 90.22/47.48  																														|-The branch is then unsatisfiable
% 90.22/47.48  																													|-Branch two:
% 90.22/47.48  																													| (1002) all_833_3_736 = 0
% 90.22/47.48  																													| (1013)  ~ (all_833_4_737 = 0) |  ~ (all_833_5_738 = 0) |  ~ (all_833_6_739 = 0) |  ~ (all_833_7_740 = 0) |  ~ (all_833_8_741 = 0) |  ! [v0] : ( ~ (m1_subset_1(v0, all_833_0_733) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k3_tarski(v0) = v4 & v1_waybel_0(v0, all_833_2_735) = v2 & k1_yellow_0(all_833_2_735, v0) = v3 & v1_xboole_0(v0) = v1 & ( ~ (v2 = 0) | v4 = v3 | v1 = 0)))
% 90.22/47.48  																													|
% 90.22/47.48  																														+-Applying beta-rule and splitting (1013), into two cases.
% 90.22/47.48  																														|-Branch one:
% 90.22/47.48  																														| (1014)  ~ (all_833_4_737 = 0)
% 90.22/47.48  																														|
% 90.22/47.48  																															| Equations (934) can reduce 1014 to:
% 90.22/47.48  																															| (633) $false
% 90.22/47.48  																															|
% 90.22/47.48  																															|-The branch is then unsatisfiable
% 90.22/47.48  																														|-Branch two:
% 90.22/47.48  																														| (934) all_833_4_737 = 0
% 90.22/47.48  																														| (1017)  ~ (all_833_5_738 = 0) |  ~ (all_833_6_739 = 0) |  ~ (all_833_7_740 = 0) |  ~ (all_833_8_741 = 0) |  ! [v0] : ( ~ (m1_subset_1(v0, all_833_0_733) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k3_tarski(v0) = v4 & v1_waybel_0(v0, all_833_2_735) = v2 & k1_yellow_0(all_833_2_735, v0) = v3 & v1_xboole_0(v0) = v1 & ( ~ (v2 = 0) | v4 = v3 | v1 = 0)))
% 90.22/47.48  																														|
% 90.22/47.48  																															+-Applying beta-rule and splitting (1017), into two cases.
% 90.22/47.48  																															|-Branch one:
% 90.22/47.48  																															| (1018)  ~ (all_833_5_738 = 0)
% 90.22/47.48  																															|
% 90.22/47.48  																																| Equations (933) can reduce 1018 to:
% 90.22/47.48  																																| (633) $false
% 90.22/47.48  																																|
% 90.22/47.48  																																|-The branch is then unsatisfiable
% 90.22/47.48  																															|-Branch two:
% 90.22/47.48  																															| (933) all_833_5_738 = 0
% 90.22/47.48  																															| (1021)  ~ (all_833_6_739 = 0) |  ~ (all_833_7_740 = 0) |  ~ (all_833_8_741 = 0) |  ! [v0] : ( ~ (m1_subset_1(v0, all_833_0_733) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k3_tarski(v0) = v4 & v1_waybel_0(v0, all_833_2_735) = v2 & k1_yellow_0(all_833_2_735, v0) = v3 & v1_xboole_0(v0) = v1 & ( ~ (v2 = 0) | v4 = v3 | v1 = 0)))
% 90.22/47.48  																															|
% 90.22/47.48  																																+-Applying beta-rule and splitting (1021), into two cases.
% 90.22/47.48  																																|-Branch one:
% 90.22/47.48  																																| (1022)  ~ (all_833_6_739 = 0)
% 90.22/47.48  																																|
% 90.22/47.48  																																	| Equations (932) can reduce 1022 to:
% 90.22/47.48  																																	| (633) $false
% 90.22/47.48  																																	|
% 90.22/47.48  																																	|-The branch is then unsatisfiable
% 90.22/47.48  																																|-Branch two:
% 90.22/47.48  																																| (932) all_833_6_739 = 0
% 90.22/47.48  																																| (1025)  ~ (all_833_7_740 = 0) |  ~ (all_833_8_741 = 0) |  ! [v0] : ( ~ (m1_subset_1(v0, all_833_0_733) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k3_tarski(v0) = v4 & v1_waybel_0(v0, all_833_2_735) = v2 & k1_yellow_0(all_833_2_735, v0) = v3 & v1_xboole_0(v0) = v1 & ( ~ (v2 = 0) | v4 = v3 | v1 = 0)))
% 90.22/47.48  																																|
% 90.22/47.48  																																	+-Applying beta-rule and splitting (1025), into two cases.
% 90.22/47.48  																																	|-Branch one:
% 90.22/47.48  																																	| (1026)  ~ (all_833_7_740 = 0)
% 90.22/47.48  																																	|
% 90.22/47.48  																																		| Equations (962) can reduce 1026 to:
% 90.22/47.48  																																		| (633) $false
% 90.22/47.48  																																		|
% 90.22/47.48  																																		|-The branch is then unsatisfiable
% 90.22/47.48  																																	|-Branch two:
% 90.22/47.48  																																	| (962) all_833_7_740 = 0
% 90.22/47.48  																																	| (1029)  ~ (all_833_8_741 = 0) |  ! [v0] : ( ~ (m1_subset_1(v0, all_833_0_733) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k3_tarski(v0) = v4 & v1_waybel_0(v0, all_833_2_735) = v2 & k1_yellow_0(all_833_2_735, v0) = v3 & v1_xboole_0(v0) = v1 & ( ~ (v2 = 0) | v4 = v3 | v1 = 0)))
% 90.22/47.48  																																	|
% 90.22/47.48  																																		+-Applying beta-rule and splitting (1029), into two cases.
% 90.22/47.48  																																		|-Branch one:
% 90.22/47.48  																																		| (1030)  ~ (all_833_8_741 = 0)
% 90.22/47.48  																																		|
% 90.22/47.48  																																			| Equations (935) can reduce 1030 to:
% 90.22/47.48  																																			| (633) $false
% 90.22/47.48  																																			|
% 90.22/47.48  																																			|-The branch is then unsatisfiable
% 90.22/47.48  																																		|-Branch two:
% 90.22/47.48  																																		| (935) all_833_8_741 = 0
% 90.22/47.48  																																		| (1033)  ! [v0] : ( ~ (m1_subset_1(v0, all_833_0_733) = 0) |  ? [v1] :  ? [v2] :  ? [v3] :  ? [v4] : (k3_tarski(v0) = v4 & v1_waybel_0(v0, all_833_2_735) = v2 & k1_yellow_0(all_833_2_735, v0) = v3 & v1_xboole_0(v0) = v1 & ( ~ (v2 = 0) | v4 = v3 | v1 = 0)))
% 90.22/47.48  																																		|
% 90.22/47.48  																																			| Instantiating formula (1033) with all_0_21_21 yields:
% 90.22/47.48  																																			| (1034)  ~ (m1_subset_1(all_0_21_21, all_833_0_733) = 0) |  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] : (k3_tarski(all_0_21_21) = v3 & v1_waybel_0(all_0_21_21, all_833_2_735) = v1 & k1_yellow_0(all_833_2_735, all_0_21_21) = v2 & v1_xboole_0(all_0_21_21) = v0 & ( ~ (v1 = 0) | v3 = v2 | v0 = 0))
% 90.22/47.48  																																			|
% 90.22/47.48  																																			| Instantiating formula (1033) with k1_xboole_0 yields:
% 90.22/47.48  																																			| (1035)  ~ (m1_subset_1(k1_xboole_0, all_833_0_733) = 0) |  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] : (k3_tarski(k1_xboole_0) = v3 & v1_waybel_0(k1_xboole_0, all_833_2_735) = v1 & k1_yellow_0(all_833_2_735, k1_xboole_0) = v2 & v1_xboole_0(k1_xboole_0) = v0 & ( ~ (v1 = 0) | v3 = v2 | v0 = 0))
% 90.22/47.48  																																			|
% 90.22/47.48  																																			+-Applying beta-rule and splitting (1034), into two cases.
% 90.22/47.48  																																			|-Branch one:
% 90.22/47.48  																																			| (1036)  ~ (m1_subset_1(all_0_21_21, all_833_0_733) = 0)
% 90.22/47.48  																																			|
% 90.22/47.48  																																				+-Applying beta-rule and splitting (919), into two cases.
% 90.22/47.48  																																				|-Branch one:
% 90.22/47.48  																																				| (1037)  ~ (k1_zfmisc_1(all_0_23_23) = all_986_5_1214)
% 90.22/47.48  																																				|
% 90.22/47.48  																																					| Using (992) and (1037) yields:
% 90.22/47.48  																																					| (731) $false
% 90.22/47.48  																																					|
% 90.22/47.48  																																					|-The branch is then unsatisfiable
% 90.22/47.48  																																				|-Branch two:
% 90.22/47.48  																																				| (992) k1_zfmisc_1(all_0_23_23) = all_986_5_1214
% 90.22/47.48  																																				| (1040) all_986_5_1214 = all_0_22_22
% 90.22/47.48  																																				|
% 90.22/47.48  																																					+-Applying beta-rule and splitting (920), into two cases.
% 90.22/47.48  																																					|-Branch one:
% 90.22/47.48  																																					| (1041)  ~ (k1_zfmisc_1(all_986_6_1215) = all_988_5_1224)
% 90.22/47.48  																																					|
% 90.22/47.48  																																						| From (958) and (1041) follows:
% 90.22/47.48  																																						| (1042)  ~ (k1_zfmisc_1(all_0_23_23) = all_988_5_1224)
% 90.22/47.48  																																						|
% 90.22/47.48  																																						| Using (991) and (1042) yields:
% 90.22/47.48  																																						| (731) $false
% 90.22/47.48  																																						|
% 90.22/47.48  																																						|-The branch is then unsatisfiable
% 90.22/47.48  																																					|-Branch two:
% 90.22/47.48  																																					| (1044) k1_zfmisc_1(all_986_6_1215) = all_988_5_1224
% 90.22/47.48  																																					| (1045) all_988_5_1224 = all_986_5_1214
% 90.22/47.48  																																					|
% 90.22/47.48  																																						| Combining equations (1040,1045) yields a new equation:
% 90.22/47.48  																																						| (1046) all_988_5_1224 = all_0_22_22
% 90.22/47.48  																																						|
% 90.22/47.48  																																						| From (1046) and (991) follows:
% 90.22/47.48  																																						| (161) k1_zfmisc_1(all_0_23_23) = all_0_22_22
% 90.22/47.48  																																						|
% 90.22/47.48  																																						+-Applying beta-rule and splitting (922), into two cases.
% 90.22/47.48  																																						|-Branch one:
% 90.22/47.48  																																						| (1048)  ~ (k1_zfmisc_1(all_833_1_734) = all_986_5_1214)
% 90.22/47.48  																																						|
% 90.22/47.48  																																							| From (1008)(1040) and (1048) follows:
% 90.22/47.48  																																							| (1049)  ~ (k1_zfmisc_1(all_0_23_23) = all_0_22_22)
% 90.22/47.48  																																							|
% 90.22/47.48  																																							| Using (161) and (1049) yields:
% 90.22/47.48  																																							| (731) $false
% 90.22/47.48  																																							|
% 90.22/47.48  																																							|-The branch is then unsatisfiable
% 90.22/47.48  																																						|-Branch two:
% 90.22/47.48  																																						| (1051) k1_zfmisc_1(all_833_1_734) = all_986_5_1214
% 90.22/47.49  																																						| (1052) all_986_5_1214 = all_833_0_733
% 90.22/47.49  																																						|
% 90.22/47.49  																																							| Combining equations (1040,1052) yields a new equation:
% 90.22/47.49  																																							| (1053) all_833_0_733 = all_0_22_22
% 90.22/47.49  																																							|
% 90.22/47.49  																																							| From (1053) and (1036) follows:
% 90.22/47.49  																																							| (1054)  ~ (m1_subset_1(all_0_21_21, all_0_22_22) = 0)
% 90.22/47.49  																																							|
% 90.22/47.49  																																							| Using (123) and (1054) yields:
% 90.22/47.49  																																							| (731) $false
% 90.22/47.49  																																							|
% 90.22/47.49  																																							|-The branch is then unsatisfiable
% 90.22/47.49  																																			|-Branch two:
% 90.22/47.49  																																			| (1056) m1_subset_1(all_0_21_21, all_833_0_733) = 0
% 90.22/47.49  																																			| (1057)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] : (k3_tarski(all_0_21_21) = v3 & v1_waybel_0(all_0_21_21, all_833_2_735) = v1 & k1_yellow_0(all_833_2_735, all_0_21_21) = v2 & v1_xboole_0(all_0_21_21) = v0 & ( ~ (v1 = 0) | v3 = v2 | v0 = 0))
% 90.22/47.49  																																			|
% 90.22/47.49  																																				| Instantiating (1057) with all_1695_0_1583, all_1695_1_1584, all_1695_2_1585, all_1695_3_1586 yields:
% 90.22/47.49  																																				| (1058) k3_tarski(all_0_21_21) = all_1695_0_1583 & v1_waybel_0(all_0_21_21, all_833_2_735) = all_1695_2_1585 & k1_yellow_0(all_833_2_735, all_0_21_21) = all_1695_1_1584 & v1_xboole_0(all_0_21_21) = all_1695_3_1586 & ( ~ (all_1695_2_1585 = 0) | all_1695_0_1583 = all_1695_1_1584 | all_1695_3_1586 = 0)
% 90.22/47.49  																																				|
% 90.22/47.49  																																				| Applying alpha-rule on (1058) yields:
% 90.22/47.49  																																				| (1059) k1_yellow_0(all_833_2_735, all_0_21_21) = all_1695_1_1584
% 90.22/47.49  																																				| (1060)  ~ (all_1695_2_1585 = 0) | all_1695_0_1583 = all_1695_1_1584 | all_1695_3_1586 = 0
% 90.22/47.49  																																				| (1061) v1_xboole_0(all_0_21_21) = all_1695_3_1586
% 90.22/47.49  																																				| (1062) k3_tarski(all_0_21_21) = all_1695_0_1583
% 90.22/47.49  																																				| (1063) v1_waybel_0(all_0_21_21, all_833_2_735) = all_1695_2_1585
% 90.22/47.49  																																				|
% 90.22/47.49  																																				| From (918) and (1063) follows:
% 90.22/47.49  																																				| (1064) v1_waybel_0(all_0_21_21, all_0_24_24) = all_1695_2_1585
% 90.22/47.49  																																				|
% 90.22/47.49  																																				| From (918) and (1059) follows:
% 90.22/47.49  																																				| (1065) k1_yellow_0(all_0_24_24, all_0_21_21) = all_1695_1_1584
% 90.22/47.49  																																				|
% 90.22/47.49  																																				+-Applying beta-rule and splitting (921), into two cases.
% 90.22/47.49  																																				|-Branch one:
% 90.22/47.49  																																				| (1066)  ~ (k1_zfmisc_1(all_0_23_23) = all_833_0_733)
% 90.22/47.49  																																				|
% 90.22/47.49  																																					| Using (1009) and (1066) yields:
% 90.22/47.49  																																					| (731) $false
% 90.22/47.49  																																					|
% 90.22/47.49  																																					|-The branch is then unsatisfiable
% 90.22/47.49  																																				|-Branch two:
% 90.22/47.49  																																				| (1009) k1_zfmisc_1(all_0_23_23) = all_833_0_733
% 90.22/47.49  																																				| (1053) all_833_0_733 = all_0_22_22
% 90.22/47.49  																																				|
% 90.22/47.49  																																					+-Applying beta-rule and splitting (1035), into two cases.
% 90.22/47.49  																																					|-Branch one:
% 90.22/47.49  																																					| (1070)  ~ (m1_subset_1(k1_xboole_0, all_833_0_733) = 0)
% 90.22/47.49  																																					|
% 90.22/47.49  																																						| From (1053) and (1070) follows:
% 90.22/47.49  																																						| (1071)  ~ (m1_subset_1(k1_xboole_0, all_0_22_22) = 0)
% 90.22/47.49  																																						|
% 90.22/47.49  																																						| Using (621) and (1071) yields:
% 90.22/47.49  																																						| (731) $false
% 90.22/47.49  																																						|
% 90.22/47.49  																																						|-The branch is then unsatisfiable
% 90.22/47.49  																																					|-Branch two:
% 90.22/47.49  																																					| (1073) m1_subset_1(k1_xboole_0, all_833_0_733) = 0
% 90.22/47.49  																																					| (1074)  ? [v0] :  ? [v1] :  ? [v2] :  ? [v3] : (k3_tarski(k1_xboole_0) = v3 & v1_waybel_0(k1_xboole_0, all_833_2_735) = v1 & k1_yellow_0(all_833_2_735, k1_xboole_0) = v2 & v1_xboole_0(k1_xboole_0) = v0 & ( ~ (v1 = 0) | v3 = v2 | v0 = 0))
% 90.22/47.49  																																					|
% 90.22/47.49  																																						| Instantiating (1074) with all_2280_0_1587, all_2280_1_1588, all_2280_2_1589, all_2280_3_1590 yields:
% 90.22/47.49  																																						| (1075) k3_tarski(k1_xboole_0) = all_2280_0_1587 & v1_waybel_0(k1_xboole_0, all_833_2_735) = all_2280_2_1589 & k1_yellow_0(all_833_2_735, k1_xboole_0) = all_2280_1_1588 & v1_xboole_0(k1_xboole_0) = all_2280_3_1590 & ( ~ (all_2280_2_1589 = 0) | all_2280_0_1587 = all_2280_1_1588 | all_2280_3_1590 = 0)
% 90.22/47.49  																																						|
% 90.22/47.49  																																						| Applying alpha-rule on (1075) yields:
% 90.22/47.49  																																						| (1076) k3_tarski(k1_xboole_0) = all_2280_0_1587
% 90.22/47.49  																																						| (1077) k1_yellow_0(all_833_2_735, k1_xboole_0) = all_2280_1_1588
% 90.22/47.49  																																						| (1078)  ~ (all_2280_2_1589 = 0) | all_2280_0_1587 = all_2280_1_1588 | all_2280_3_1590 = 0
% 90.22/47.49  																																						| (1079) v1_waybel_0(k1_xboole_0, all_833_2_735) = all_2280_2_1589
% 90.22/47.49  																																						| (1080) v1_xboole_0(k1_xboole_0) = all_2280_3_1590
% 90.22/47.49  																																						|
% 90.22/47.49  																																						+-Applying beta-rule and splitting (210), into two cases.
% 90.22/47.49  																																						|-Branch one:
% 90.22/47.49  																																						| (1081)  ~ (v1_xboole_0(k1_xboole_0) = all_0_20_20)
% 90.22/47.49  																																						|
% 90.22/47.49  																																							| Instantiating formula (129) with all_0_21_21, all_1695_0_1583, all_0_18_18 and discharging atoms k3_tarski(all_0_21_21) = all_1695_0_1583, k3_tarski(all_0_21_21) = all_0_18_18, yields:
% 90.22/47.49  																																							| (1082) all_1695_0_1583 = all_0_18_18
% 90.22/47.49  																																							|
% 90.22/47.49  																																							| Instantiating formula (173) with all_0_21_21, all_0_24_24, all_1695_2_1585, 0 and discharging atoms v1_waybel_0(all_0_21_21, all_0_24_24) = all_1695_2_1585, v1_waybel_0(all_0_21_21, all_0_24_24) = 0, yields:
% 90.22/47.49  																																							| (1083) all_1695_2_1585 = 0
% 90.22/47.49  																																							|
% 90.22/47.49  																																							| Instantiating formula (110) with all_0_24_24, all_0_21_21, all_1695_1_1584, all_0_19_19 and discharging atoms k1_yellow_0(all_0_24_24, all_0_21_21) = all_1695_1_1584, k1_yellow_0(all_0_24_24, all_0_21_21) = all_0_19_19, yields:
% 90.22/47.49  																																							| (1084) all_1695_1_1584 = all_0_19_19
% 90.22/47.49  																																							|
% 90.22/47.49  																																							| Instantiating formula (141) with all_0_21_21, all_1695_3_1586, all_0_20_20 and discharging atoms v1_xboole_0(all_0_21_21) = all_1695_3_1586, v1_xboole_0(all_0_21_21) = all_0_20_20, yields:
% 90.22/47.49  																																							| (1085) all_1695_3_1586 = all_0_20_20
% 90.22/47.49  																																							|
% 90.22/47.49  																																							| Instantiating formula (141) with k1_xboole_0, all_2280_3_1590, 0 and discharging atoms v1_xboole_0(k1_xboole_0) = all_2280_3_1590, v1_xboole_0(k1_xboole_0) = 0, yields:
% 90.22/47.49  																																							| (1086) all_2280_3_1590 = 0
% 90.22/47.49  																																							|
% 90.22/47.49  																																							| Using (1080) and (1081) yields:
% 90.22/47.49  																																							| (1087)  ~ (all_2280_3_1590 = all_0_20_20)
% 90.22/47.49  																																							|
% 90.22/47.49  																																							| Equations (1086) can reduce 1087 to:
% 90.22/47.49  																																							| (1088)  ~ (all_0_20_20 = 0)
% 90.22/47.49  																																							|
% 90.22/47.49  																																							| Simplifying 1088 yields:
% 90.22/47.49  																																							| (187)  ~ (all_0_20_20 = 0)
% 90.22/47.49  																																							|
% 90.22/47.49  																																							+-Applying beta-rule and splitting (1060), into two cases.
% 90.22/47.49  																																							|-Branch one:
% 90.22/47.49  																																							| (1090)  ~ (all_1695_2_1585 = 0)
% 90.22/47.49  																																							|
% 90.22/47.49  																																								| Equations (1083) can reduce 1090 to:
% 90.22/47.49  																																								| (633) $false
% 90.22/47.49  																																								|
% 90.22/47.49  																																								|-The branch is then unsatisfiable
% 90.22/47.49  																																							|-Branch two:
% 90.22/47.49  																																							| (1083) all_1695_2_1585 = 0
% 90.22/47.49  																																							| (1093) all_1695_0_1583 = all_1695_1_1584 | all_1695_3_1586 = 0
% 90.22/47.49  																																							|
% 90.22/47.49  																																								+-Applying beta-rule and splitting (1093), into two cases.
% 90.22/47.49  																																								|-Branch one:
% 90.22/47.49  																																								| (1094) all_1695_3_1586 = 0
% 90.22/47.49  																																								|
% 90.22/47.49  																																									| Combining equations (1085,1094) yields a new equation:
% 90.22/47.49  																																									| (1095) all_0_20_20 = 0
% 90.22/47.49  																																									|
% 90.22/47.49  																																									| Simplifying 1095 yields:
% 90.22/47.49  																																									| (1096) all_0_20_20 = 0
% 90.22/47.49  																																									|
% 90.22/47.49  																																									| Equations (1096) can reduce 187 to:
% 90.22/47.49  																																									| (633) $false
% 90.22/47.49  																																									|
% 90.22/47.49  																																									|-The branch is then unsatisfiable
% 90.22/47.49  																																								|-Branch two:
% 90.22/47.49  																																								| (1098)  ~ (all_1695_3_1586 = 0)
% 90.22/47.49  																																								| (1099) all_1695_0_1583 = all_1695_1_1584
% 90.22/47.49  																																								|
% 90.22/47.49  																																									| Combining equations (1099,1082) yields a new equation:
% 90.22/47.49  																																									| (1100) all_1695_1_1584 = all_0_18_18
% 90.22/47.49  																																									|
% 90.22/47.49  																																									| Simplifying 1100 yields:
% 90.22/47.49  																																									| (1101) all_1695_1_1584 = all_0_18_18
% 90.22/47.49  																																									|
% 90.22/47.49  																																									| Combining equations (1101,1084) yields a new equation:
% 90.22/47.49  																																									| (1102) all_0_18_18 = all_0_19_19
% 90.22/47.49  																																									|
% 90.22/47.49  																																									| Simplifying 1102 yields:
% 90.22/47.49  																																									| (1103) all_0_18_18 = all_0_19_19
% 90.22/47.49  																																									|
% 90.22/47.49  																																									| Equations (1103) can reduce 26 to:
% 90.22/47.49  																																									| (633) $false
% 90.22/47.49  																																									|
% 90.22/47.49  																																									|-The branch is then unsatisfiable
% 90.22/47.49  																																						|-Branch two:
% 90.22/47.49  																																						| (1105) v1_xboole_0(k1_xboole_0) = all_0_20_20
% 90.22/47.49  																																						| (1096) all_0_20_20 = 0
% 90.22/47.49  																																						|
% 90.22/47.49  																																							| Equations (1096) can reduce 187 to:
% 90.22/47.49  																																							| (633) $false
% 90.22/47.49  																																							|
% 90.22/47.49  																																							|-The branch is then unsatisfiable
% 90.22/47.49  |-Branch two:
% 90.22/47.49  | (1108) all_58_0_181 = 0
% 90.22/47.49  | (1109)  ~ (all_58_1_182 = 0)
% 90.22/47.49  |
% 90.22/47.49  	| Equations (597) can reduce 1109 to:
% 90.22/47.49  	| (633) $false
% 90.22/47.49  	|
% 90.22/47.49  	|-The branch is then unsatisfiable
% 90.22/47.49  % SZS output end Proof for theBenchmark
% 90.22/47.49  
% 90.22/47.49  46904ms
%------------------------------------------------------------------------------