TSTP Solution File: ALG166+1 by ePrincess---1.0
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- Process Solution
%------------------------------------------------------------------------------
% File : ePrincess---1.0
% Problem : ALG166+1 : TPTP v8.1.0. Released v2.7.0.
% Transfm : none
% Format : tptp:raw
% Command : ePrincess-casc -timeout=%d %s
% Computer : n029.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 : Thu Jul 14 15:37:03 EDT 2022
% Result : Theorem 9.04s 2.66s
% Output : Proof 18.90s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.08/0.14 % Problem : ALG166+1 : TPTP v8.1.0. Released v2.7.0.
% 0.08/0.15 % Command : ePrincess-casc -timeout=%d %s
% 0.14/0.36 % Computer : n029.cluster.edu
% 0.14/0.36 % Model : x86_64 x86_64
% 0.14/0.36 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.36 % Memory : 8042.1875MB
% 0.14/0.36 % OS : Linux 3.10.0-693.el7.x86_64
% 0.14/0.36 % CPULimit : 300
% 0.14/0.36 % WCLimit : 600
% 0.14/0.36 % DateTime : Tue Jun 7 23:11:35 EDT 2022
% 0.14/0.36 % CPUTime :
% 0.61/0.67 ____ _
% 0.61/0.67 ___ / __ \_____(_)___ ________ __________
% 0.61/0.67 / _ \/ /_/ / ___/ / __ \/ ___/ _ \/ ___/ ___/
% 0.61/0.67 / __/ ____/ / / / / / / /__/ __(__ |__ )
% 0.61/0.67 \___/_/ /_/ /_/_/ /_/\___/\___/____/____/
% 0.61/0.67
% 0.61/0.67 A Theorem Prover for First-Order Logic
% 0.61/0.67 (ePrincess v.1.0)
% 0.61/0.67
% 0.61/0.67 (c) Philipp Rümmer, 2009-2015
% 0.61/0.67 (c) Peter Backeman, 2014-2015
% 0.61/0.67 (contributions by Angelo Brillout, Peter Baumgartner)
% 0.61/0.67 Free software under GNU Lesser General Public License (LGPL).
% 0.61/0.67 Bug reports to peter@backeman.se
% 0.61/0.67
% 0.61/0.67 For more information, visit http://user.uu.se/~petba168/breu/
% 0.61/0.67
% 0.61/0.67 Loading /export/starexec/sandbox/benchmark/theBenchmark.p ...
% 0.77/0.72 Prover 0: Options: -triggersInConjecture -genTotalityAxioms -tightFunctionScopes -clausifier=simple -reverseFunctionalityPropagation +boolFunsAsPreds -triggerStrategy=allMaximal -resolutionMethod=nonUnifying +ignoreQuantifiers -generateTriggers=all
% 3.15/1.33 Prover 0: Preprocessing ...
% 6.08/1.98 Prover 0: Constructing countermodel ...
% 9.04/2.65 Prover 0: proved (1932ms)
% 9.04/2.66
% 9.04/2.66 No countermodel exists, formula is valid
% 9.04/2.66 % SZS status Theorem for theBenchmark
% 9.04/2.66
% 9.04/2.66 Generating proof ... found it (size 1742)
% 16.83/4.49
% 16.83/4.49 % SZS output start Proof for theBenchmark
% 16.83/4.49 Assumed formulas after preprocessing and simplification:
% 16.83/4.49 | (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] : ? [v27] : ? [v28] : ? [v29] : ? [v30] : ? [v31] : ? [v32] : ? [v33] : ? [v34] : ? [v35] : ? [v36] : ? [v37] : ? [v38] : ? [v39] : ? [v40] : ? [v41] : ? [v42] : ? [v43] : ? [v44] : ? [v45] : ? [v46] : ? [v47] : ? [v48] : ? [v49] : ? [v50] : ? [v51] : ? [v52] : ? [v53] : ? [v54] : ? [v55] : ? [v56] : ? [v57] : ? [v58] : ? [v59] : ? [v60] : ? [v61] : ? [v62] : ? [v63] : ? [v64] : ? [v65] : ? [v66] : ? [v67] : ? [v68] : ? [v69] : ? [v70] : ? [v71] : ? [v72] : ? [v73] : ? [v74] : ? [v75] : ? [v76] : ? [v77] : ? [v78] : ? [v79] : ? [v80] : ? [v81] : ? [v82] : ? [v83] : ? [v84] : ? [v85] : ? [v86] : ? [v87] : ? [v88] : ? [v89] : ? [v90] : ? [v91] : ? [v92] : ? [v93] : ? [v94] : ? [v95] : ? [v96] : ? [v97] : ? [v98] : ? [v99] : ? [v100] : ? [v101] : ? [v102] : ? [v103] : ? [v104] : ? [v105] : ? [v106] : ? [v107] : ? [v108] : ? [v109] : ? [v110] : ? [v111] : ? [v112] : ? [v113] : ? [v114] : ? [v115] : ? [v116] : ? [v117] : ? [v118] : ? [v119] : ? [v120] : ? [v121] : ? [v122] : ? [v123] : ? [v124] : ? [v125] : ? [v126] : ? [v127] : ? [v128] : ? [v129] : ? [v130] : ? [v131] : ? [v132] : ? [v133] : ? [v134] : ? [v135] : ? [v136] : ? [v137] : ? [v138] : ? [v139] : ? [v140] : ? [v141] : ? [v142] : ? [v143] : ? [v144] : ? [v145] : ? [v146] : ? [v147] : ? [v148] : ? [v149] : ? [v150] : ? [v151] : ? [v152] : ? [v153] : ? [v154] : ? [v155] : ? [v156] : ? [v157] : ? [v158] : ? [v159] : ? [v160] : ? [v161] : ? [v162] : ? [v163] : ? [v164] : ? [v165] : ? [v166] : ? [v167] : ? [v168] : ? [v169] : ? [v170] : ? [v171] : ? [v172] : ? [v173] : ? [v174] : ? [v175] : ? [v176] : ? [v177] : ? [v178] : ? [v179] : ? [v180] : ? [v181] : ? [v182] : ? [v183] : ? [v184] : ? [v185] : ? [v186] : ? [v187] : ? [v188] : ? [v189] : ? [v190] : ? [v191] : ? [v192] : ? [v193] : ? [v194] : ? [v195] : ? [v196] : ? [v197] : ? [v198] : ? [v199] : ? [v200] : ? [v201] : ? [v202] : ? [v203] : ? [v204] : ? [v205] : ? [v206] : ? [v207] : ? [v208] : ? [v209] : ? [v210] : ? [v211] : ? [v212] : ? [v213] : ? [v214] : ? [v215] : ? [v216] : ? [v217] : ? [v218] : ? [v219] : ? [v220] : ? [v221] : ? [v222] : ? [v223] : ? [v224] : ? [v225] : ? [v226] : ? [v227] : ? [v228] : ( ~ (v37 = v36) & ~ (v37 = v35) & ~ (v37 = v29) & ~ (v37 = v24) & ~ (v37 = v20) & ~ (v37 = e21) & ~ (v37 = e20) & ~ (v36 = v35) & ~ (v36 = v33) & ~ (v36 = v28) & ~ (v36 = v23) & ~ (v36 = v19) & ~ (v36 = e21) & ~ (v36 = e20) & ~ (v35 = v31) & ~ (v35 = v26) & ~ (v35 = v22) & ~ (v35 = e23) & ~ (v35 = e21) & ~ (v35 = e20) & ~ (v34 = v33) & ~ (v34 = v32) & ~ (v34 = v31) & ~ (v34 = v30) & ~ (v34 = v25) & ~ (v34 = v21) & ~ (v34 = e21) & ~ (v34 = e20) & ~ (v33 = v32) & ~ (v33 = v31) & ~ (v33 = v28) & ~ (v33 = v23) & ~ (v33 = v19) & ~ (v33 = e20) & ~ (v32 = v31) & ~ (v32 = v27) & ~ (v32 = e24) & ~ (v32 = e22) & ~ (v32 = e20) & ~ (v31 = v26) & ~ (v31 = v22) & ~ (v31 = e23) & ~ (v31 = e20) & ~ (v30 = v29) & ~ (v30 = v28) & ~ (v30 = v27) & ~ (v30 = v26) & ~ (v30 = v25) & ~ (v30 = v21) & ~ (v30 = e21) & ~ (v29 = v28) & ~ (v29 = v27) & ~ (v29 = v26) & ~ (v29 = v24) & ~ (v29 = v20) & ~ (v29 = e20) & ~ (v28 = v27) & ~ (v28 = v26) & ~ (v28 = v23) & ~ (v28 = v19) & ~ (v27 = v26) & ~ (v27 = e24) & ~ (v27 = e22) & ~ (v27 = e20) & ~ (v26 = v22) & ~ (v26 = e23) & ~ (v25 = v24) & ~ (v25 = v23) & ~ (v25 = v22) & ~ (v25 = v21) & ~ (v25 = e24) & ~ (v25 = e21) & ~ (v24 = v23) & ~ (v24 = v22) & ~ (v24 = v20) & ~ (v24 = e24) & ~ (v24 = e20) & ~ (v23 = v22) & ~ (v23 = v19) & ~ (v23 = e24) & ~ (v22 = e24) & ~ (v22 = e23) & ~ (v21 = v20) & ~ (v21 = v19) & ~ (v21 = e23) & ~ (v21 = e22) & ~ (v21 = e21) & ~ (v20 = v19) & ~ (v20 = e23) & ~ (v20 = e22) & ~ (v20 = e20) & ~ (v19 = e23) & ~ (v19 = e22) & ~ (v18 = v17) & ~ (v18 = v16) & ~ (v18 = v10) & ~ (v18 = v5) & ~ (v18 = v1) & ~ (v18 = e11) & ~ (v18 = e10) & ~ (v17 = v16) & ~ (v17 = v14) & ~ (v17 = v9) & ~ (v17 = v4) & ~ (v17 = v0) & ~ (v17 = e11) & ~ (v17 = e10) & ~ (v16 = v12) & ~ (v16 = v7) & ~ (v16 = v3) & ~ (v16 = e13) & ~ (v16 = e11) & ~ (v16 = e10) & ~ (v15 = v14) & ~ (v15 = v13) & ~ (v15 = v12) & ~ (v15 = v11) & ~ (v15 = v6) & ~ (v15 = v2) & ~ (v15 = e11) & ~ (v15 = e10) & ~ (v14 = v13) & ~ (v14 = v12) & ~ (v14 = v9) & ~ (v14 = v4) & ~ (v14 = v0) & ~ (v14 = e10) & ~ (v13 = v12) & ~ (v13 = v8) & ~ (v13 = e14) & ~ (v13 = e12) & ~ (v13 = e10) & ~ (v12 = v7) & ~ (v12 = v3) & ~ (v12 = e13) & ~ (v12 = e10) & ~ (v11 = v10) & ~ (v11 = v9) & ~ (v11 = v8) & ~ (v11 = v7) & ~ (v11 = v6) & ~ (v11 = v2) & ~ (v11 = e11) & ~ (v10 = v9) & ~ (v10 = v8) & ~ (v10 = v7) & ~ (v10 = v5) & ~ (v10 = v1) & ~ (v10 = e10) & ~ (v9 = v8) & ~ (v9 = v7) & ~ (v9 = v4) & ~ (v9 = v0) & ~ (v8 = v7) & ~ (v8 = e14) & ~ (v8 = e12) & ~ (v8 = e10) & ~ (v7 = v3) & ~ (v7 = e13) & ~ (v6 = v5) & ~ (v6 = v4) & ~ (v6 = v3) & ~ (v6 = v2) & ~ (v6 = e14) & ~ (v6 = e11) & ~ (v5 = v4) & ~ (v5 = v3) & ~ (v5 = v1) & ~ (v5 = e14) & ~ (v5 = e10) & ~ (v4 = v3) & ~ (v4 = v0) & ~ (v4 = e14) & ~ (v3 = e14) & ~ (v3 = e13) & ~ (v2 = v1) & ~ (v2 = v0) & ~ (v2 = e13) & ~ (v2 = e12) & ~ (v2 = e11) & ~ (v1 = v0) & ~ (v1 = e13) & ~ (v1 = e12) & ~ (v1 = e10) & ~ (v0 = e13) & ~ (v0 = e12) & ~ (e24 = e23) & ~ (e24 = e22) & ~ (e24 = e21) & ~ (e24 = e20) & ~ (e24 = e14) & ~ (e24 = e13) & ~ (e24 = e12) & ~ (e24 = e11) & ~ (e24 = e10) & ~ (e23 = e22) & ~ (e23 = e21) & ~ (e23 = e20) & ~ (e23 = e14) & ~ (e23 = e13) & ~ (e23 = e12) & ~ (e23 = e11) & ~ (e23 = e10) & ~ (e22 = e21) & ~ (e22 = e20) & ~ (e22 = e14) & ~ (e22 = e13) & ~ (e22 = e12) & ~ (e22 = e11) & ~ (e22 = e10) & ~ (e21 = e20) & ~ (e21 = e14) & ~ (e21 = e13) & ~ (e21 = e12) & ~ (e21 = e11) & ~ (e21 = e10) & ~ (e20 = e14) & ~ (e20 = e13) & ~ (e20 = e12) & ~ (e20 = e11) & ~ (e20 = e10) & ~ (e14 = e13) & ~ (e14 = e12) & ~ (e14 = e11) & ~ (e14 = e10) & ~ (e13 = e12) & ~ (e13 = e11) & ~ (e13 = e10) & ~ (e12 = e11) & ~ (e12 = e10) & ~ (e11 = e10) & op1(v18, v15) = e13 & op1(v17, v11) = e12 & op1(v16, v2) = e10 & op1(v15, v18) = e14 & op1(v14, v10) = e12 & op1(v13, v5) = e11 & op1(v12, v1) = e10 & op1(v11, v17) = e14 & op1(v10, v14) = e13 & op1(v9, v9) = e12 & op1(v8, v4) = e11 & op1(v7, v0) = e10 & op1(v6, e10) = e14 & op1(v5, v13) = e13 & op1(v4, v8) = e12 & op1(v3, e12) = e10 & op1(v2, v16) = e14 & op1(v1, v12) = e13 & op1(v0, v7) = e12 & op1(e14, e14) = e11 & op1(e14, e13) = v18 & op1(e14, e12) = v17 & op1(e14, e11) = e10 & op1(e14, e10) = v16 & op1(e13, e14) = v15 & op1(e13, e13) = e10 & op1(e13, e12) = v14 & op1(e13, e11) = v13 & op1(e13, e10) = v12 & op1(e12, v3) = e11 & op1(e12, e14) = v11 & op1(e12, e13) = v10 & op1(e12, e12) = v9 & op1(e12, e11) = v8 & op1(e12, e10) = v7 & op1(e11, e14) = v6 & op1(e11, e13) = v5 & op1(e11, e12) = v4 & op1(e11, e11) = e14 & op1(e11, e10) = v3 & op1(e10, v6) = e11 & op1(e10, e14) = v2 & op1(e10, e13) = v1 & op1(e10, e12) = v0 & op1(e10, e11) = e12 & op1(e10, e10) = e13 & h1(v18) = v85 & h1(v17) = v83 & h1(v16) = v81 & h1(v15) = v79 & h1(v14) = v76 & h1(v13) = v74 & h1(v12) = v72 & h1(v11) = v70 & h1(v10) = v68 & h1(v9) = v66 & h1(v8) = v64 & h1(v7) = v62 & h1(v6) = v61 & h1(v5) = v59 & h1(v4) = v57 & h1(v3) = v55 & h1(v2) = v53 & h1(v1) = v51 & h1(v0) = v49 & h1(e14) = e20 & h1(e13) = v39 & h1(e12) = v38 & h1(e11) = e23 & h1(e10) = v20 & h2(v18) = v125 & h2(v17) = v123 & h2(v16) = v121 & h2(v15) = v119 & h2(v14) = v116 & h2(v13) = v114 & h2(v12) = v112 & h2(v11) = v110 & h2(v10) = v108 & h2(v9) = v106 & h2(v8) = v104 & h2(v7) = v102 & h2(v6) = v101 & h2(v5) = v99 & h2(v4) = v97 & h2(v3) = v95 & h2(v2) = v93 & h2(v1) = v91 & h2(v0) = v89 & h2(e14) = e21 & h2(e13) = v41 & h2(e12) = v40 & h2(e11) = e24 & h2(e10) = v25 & h3(v18) = v168 & h3(v17) = v166 & h3(v16) = v163 & h3(v15) = v161 & h3(v14) = v158 & h3(v13) = v156 & h3(v12) = v154 & h3(v11) = v152 & h3(v10) = v150 & h3(v9) = v148 & h3(v8) = v146 & h3(v7) = v144 & h3(v6) = v142 & h3(v5) = v140 & h3(v4) = v138 & h3(v3) = v135 & h3(v2) = v133 & h3(v1) = v131 & h3(v0) = v129 & h3(e14) = e22 & h3(e13) = v44 & h3(e12) = v43 & h3(e11) = v28 & h3(e10) = v42 & h4(v18) = v208 & h4(v17) = v206 & h4(v16) = v204 & h4(v15) = v202 & h4(v14) = v199 & h4(v13) = v197 & h4(v12) = v195 & h4(v11) = v193 & h4(v10) = v191 & h4(v9) = v189 & h4(v8) = v187 & h4(v7) = v185 & h4(v6) = v184 & h4(v5) = v182 & h4(v4) = v180 & h4(v3) = v178 & h4(v2) = v176 & h4(v1) = v174 & h4(v0) = v172 & h4(e14) = e23 & h4(e13) = v46 & h4(e12) = v45 & h4(e11) = e20 & h4(e10) = v31 & h5(v18) = v228 & h5(v17) = v227 & h5(v16) = v226 & h5(v15) = v225 & h5(v14) = v224 & h5(v13) = v223 & h5(v12) = v222 & h5(v11) = v221 & h5(v10) = v220 & h5(v9) = v219 & h5(v8) = v218 & h5(v7) = v217 & h5(v6) = v216 & h5(v5) = v215 & h5(v4) = v214 & h5(v3) = v213 & h5(v2) = v212 & h5(v1) = v211 & h5(v0) = v210 & h5(e14) = e24 & h5(e13) = e23 & h5(e12) = e22 & h5(e11) = e21 & h5(e10) = e20 & op2(v46, v46) = v201 & op2(v46, v45) = v200 & op2(v46, v31) = v196 & op2(v46, e23) = v203 & op2(v46, e20) = v198 & op2(v45, v46) = v192 & op2(v45, v45) = v190 & op2(v45, v31) = v186 & op2(v45, e23) = v194 & op2(v45, e20) = v188 & op2(v44, v44) = v160 & op2(v44, v43) = v159 & op2(v44, v42) = v155 & op2(v44, v28) = v157 & op2(v44, e22) = v162 & op2(v43, v44) = v151 & op2(v43, v43) = v149 & op2(v43, v42) = v145 & op2(v43, v28) = v147 & op2(v43, e22) = v153 & op2(v42, v44) = v132 & op2(v42, v43) = v130 & op2(v42, v42) = v127 & op2(v42, v42) = v44 & op2(v42, v28) = v128 & op2(v42, v28) = v43 & op2(v42, e22) = v134 & op2(v41, v41) = v118 & op2(v41, v40) = v117 & op2(v41, v25) = v113 & op2(v41, e24) = v115 & op2(v41, e21) = v120 & op2(v40, v41) = v109 & op2(v40, v40) = v107 & op2(v40, v25) = v103 & op2(v40, e24) = v105 & op2(v40, e21) = v111 & op2(v39, v39) = v78 & op2(v39, v38) = v77 & op2(v39, v20) = v73 & op2(v39, e23) = v75 & op2(v39, e20) = v80 & op2(v38, v39) = v69 & op2(v38, v38) = v67 & op2(v38, v20) = v63 & op2(v38, e23) = v65 & op2(v38, e20) = v71 & op2(v37, v34) = e23 & op2(v36, v30) = e22 & op2(v35, v21) = e20 & op2(v34, v37) = e24 & op2(v33, v29) = e22 & op2(v32, v24) = e21 & op2(v31, v46) = v175 & op2(v31, v45) = v173 & op2(v31, v31) = v170 & op2(v31, v31) = v46 & op2(v31, v20) = e20 & op2(v31, e23) = v177 & op2(v31, e20) = v171 & op2(v31, e20) = v45 & op2(v30, v36) = e24 & op2(v29, v33) = e23 & op2(v28, v44) = v141 & op2(v28, v43) = v139 & op2(v28, v42) = v136 & op2(v28, v28) = v137 & op2(v28, v28) = e22 & op2(v28, e22) = v143 & op2(v27, v23) = e21 & op2(v26, v19) = e20 & op2(v25, v41) = v92 & op2(v25, v40) = v90 & op2(v25, v25) = v87 & op2(v25, v25) = v41 & op2(v25, e24) = v88 & op2(v25, e24) = v40 & op2(v25, e21) = v94 & op2(v25, e20) = e24 & op2(v24, v32) = e23 & op2(v23, v27) = e22 & op2(v22, e22) = e20 & op2(v21, v35) = e24 & op2(v20, v39) = v52 & op2(v20, v38) = v50 & op2(v20, v31) = e23 & op2(v20, v20) = v47 & op2(v20, v20) = v39 & op2(v20, e23) = v48 & op2(v20, e23) = v38 & op2(v20, e20) = v54 & op2(v19, v26) = e22 & op2(e24, v41) = v100 & op2(e24, v40) = v98 & op2(e24, v25) = v96 & op2(e24, e24) = e21 & op2(e24, e23) = v37 & op2(e24, e22) = v36 & op2(e24, e21) = e20 & op2(e24, e20) = v35 & op2(e23, v46) = v209 & op2(e23, v45) = v207 & op2(e23, v39) = v60 & op2(e23, v38) = v58 & op2(e23, v31) = v205 & op2(e23, v20) = v56 & op2(e23, e24) = v34 & op2(e23, e23) = e20 & op2(e23, e22) = v33 & op2(e23, e21) = v32 & op2(e23, e20) = v31 & op2(e22, v44) = v169 & op2(e22, v43) = v167 & op2(e22, v42) = v164 & op2(e22, v28) = v165 & op2(e22, v28) = v42 & op2(e22, v22) = e21 & op2(e22, e24) = v30 & op2(e22, e23) = v29 & op2(e22, e22) = v28 & op2(e22, e21) = v27 & op2(e22, e20) = v26 & op2(e21, v41) = v126 & op2(e21, v40) = v124 & op2(e21, v25) = v122 & op2(e21, e24) = v25 & op2(e21, e23) = v24 & op2(e21, e22) = v23 & op2(e21, e21) = e24 & op2(e21, e20) = v22 & op2(e20, v46) = v183 & op2(e20, v45) = v181 & op2(e20, v39) = v86 & op2(e20, v38) = v84 & op2(e20, v31) = v179 & op2(e20, v25) = e21 & op2(e20, v20) = v82 & op2(e20, e24) = v21 & op2(e20, e23) = v20 & op2(e20, e22) = v19 & op2(e20, e21) = e22 & op2(e20, e20) = e23 & ! [v229] : ! [v230] : ! [v231] : ! [v232] : (v230 = v229 | ~ (op1(v232, v231) = v230) | ~ (op1(v232, v231) = v229)) & ! [v229] : ! [v230] : ! [v231] : ! [v232] : (v230 = v229 | ~ (op2(v232, v231) = v230) | ~ (op2(v232, v231) = v229)) & ! [v229] : ! [v230] : ! [v231] : (v230 = v229 | ~ (h1(v231) = v230) | ~ (h1(v231) = v229)) & ! [v229] : ! [v230] : ! [v231] : (v230 = v229 | ~ (h2(v231) = v230) | ~ (h2(v231) = v229)) & ! [v229] : ! [v230] : ! [v231] : (v230 = v229 | ~ (h3(v231) = v230) | ~ (h3(v231) = v229)) & ! [v229] : ! [v230] : ! [v231] : (v230 = v229 | ~ (h4(v231) = v230) | ~ (h4(v231) = v229)) & ! [v229] : ! [v230] : ! [v231] : (v230 = v229 | ~ (h5(v231) = v230) | ~ (h5(v231) = v229)) & ( ~ (v228 = v37) | ~ (v227 = v36) | ~ (v226 = v35) | ~ (v225 = v34) | ~ (v224 = v33) | ~ (v223 = v32) | ~ (v222 = v31) | ~ (v221 = v30) | ~ (v220 = v29) | ~ (v219 = v28) | ~ (v218 = v27) | ~ (v217 = v26) | ~ (v216 = v25) | ~ (v215 = v24) | ~ (v214 = v23) | ~ (v213 = v22) | ~ (v212 = v21) | ~ (v211 = v20) | ~ (v210 = v19)) & ( ~ (v209 = v208) | ~ (v207 = v206) | ~ (v205 = v204) | ~ (v203 = v202) | ~ (v201 = v31) | ~ (v200 = v199) | ~ (v198 = v197) | ~ (v196 = v195) | ~ (v194 = v193) | ~ (v192 = v191) | ~ (v190 = v189) | ~ (v188 = v187) | ~ (v186 = v185) | ~ (v184 = v20) | ~ (v183 = v182) | ~ (v181 = v180) | ~ (v179 = v178) | ~ (v177 = v176) | ~ (v175 = v174) | ~ (v173 = v172) | ~ (v171 = v45) | ~ (v170 = v46) | ( ~ (v46 = e24) & ~ (v45 = e24) & ~ (v31 = e24)) | ( ~ (v46 = e22) & ~ (v45 = e22) & ~ (v31 = e22)) | ( ~ (v46 = e21) & ~ (v45 = e21) & ~ (v31 = e21))) & ( ~ (v169 = v168) | ~ (v167 = v166) | ~ (v165 = v42) | ~ (v164 = v163) | ~ (v162 = v161) | ~ (v160 = v42) | ~ (v159 = v158) | ~ (v157 = v156) | ~ (v155 = v154) | ~ (v153 = v152) | ~ (v151 = v150) | ~ (v149 = v148) | ~ (v147 = v146) | ~ (v145 = v144) | ~ (v143 = v142) | ~ (v141 = v140) | ~ (v139 = v138) | ~ (v137 = e22) | ~ (v136 = v135) | ~ (v134 = v133) | ~ (v132 = v131) | ~ (v130 = v129) | ~ (v128 = v43) | ~ (v127 = v44) | ( ~ (v44 = e24) & ~ (v43 = e24) & ~ (v42 = e24) & ~ (v28 = e24)) | ( ~ (v44 = e23) & ~ (v43 = e23) & ~ (v42 = e23) & ~ (v28 = e23)) | ( ~ (v44 = e21) & ~ (v43 = e21) & ~ (v42 = e21) & ~ (v28 = e21)) | ( ~ (v44 = e20) & ~ (v43 = e20) & ~ (v42 = e20) & ~ (v28 = e20))) & ( ~ (v126 = v125) | ~ (v124 = v123) | ~ (v122 = v121) | ~ (v120 = v119) | ~ (v118 = v25) | ~ (v117 = v116) | ~ (v115 = v114) | ~ (v113 = v112) | ~ (v111 = v110) | ~ (v109 = v108) | ~ (v107 = v106) | ~ (v105 = v104) | ~ (v103 = v102) | ~ (v101 = e20) | ~ (v100 = v99) | ~ (v98 = v97) | ~ (v96 = v95) | ~ (v94 = v93) | ~ (v92 = v91) | ~ (v90 = v89) | ~ (v88 = v40) | ~ (v87 = v41) | ( ~ (v41 = e23) & ~ (v40 = e23) & ~ (v25 = e23)) | ( ~ (v41 = e22) & ~ (v40 = e22) & ~ (v25 = e22)) | ( ~ (v41 = e20) & ~ (v40 = e20) & ~ (v25 = e20))) & ( ~ (v86 = v85) | ~ (v84 = v83) | ~ (v82 = v81) | ~ (v80 = v79) | ~ (v78 = v20) | ~ (v77 = v76) | ~ (v75 = v74) | ~ (v73 = v72) | ~ (v71 = v70) | ~ (v69 = v68) | ~ (v67 = v66) | ~ (v65 = v64) | ~ (v63 = v62) | ~ (v61 = v31) | ~ (v60 = v59) | ~ (v58 = v57) | ~ (v56 = v55) | ~ (v54 = v53) | ~ (v52 = v51) | ~ (v50 = v49) | ~ (v48 = v38) | ~ (v47 = v39) | ( ~ (v39 = e24) & ~ (v38 = e24) & ~ (v20 = e24)) | ( ~ (v39 = e22) & ~ (v38 = e22)) | ( ~ (v39 = e21) & ~ (v38 = e21) & ~ (v20 = e21))) & ( ~ (v32 = e23) | ( ~ (v37 = e24) & ~ (v29 = e22) & ~ (v24 = e21)) | ( ~ (v36 = e24) & ~ (v33 = e23) & ~ (v28 = e22) & ~ (v23 = e21) & ~ (v19 = e20)) | ( ~ (v35 = e24) & ~ (v26 = e22) & ~ (v22 = e21)) | ( ~ (v34 = e23) & ~ (v30 = e22) & ~ (v21 = e20))) & ( ~ (v13 = e13) | ( ~ (v18 = e14) & ~ (v10 = e12) & ~ (v5 = e11)) | ( ~ (v17 = e14) & ~ (v14 = e13) & ~ (v9 = e12) & ~ (v4 = e11) & ~ (v0 = e10)) | ( ~ (v16 = e14) & ~ (v7 = e12) & ~ (v3 = e11)) | ( ~ (v15 = e13) & ~ (v11 = e12) & ~ (v2 = e10))) & (v37 = e24 | v37 = e23 | v37 = e22) & (v37 = e24 | v36 = e24 | v35 = e24) & (v37 = e24 | v29 = e24 | v20 = e24) & (v37 = e23 | v36 = e23) & (v37 = e23 | v29 = e23 | v24 = e23) & (v37 = e22 | v36 = e22 | v35 = e22) & (v37 = e22 | v29 = e22 | v24 = e22) & (v36 = e24 | v36 = e23 | v36 = e22) & (v36 = e24 | v33 = e24 | v28 = e24 | v19 = e24) & (v36 = e23 | v33 = e23 | v28 = e23 | v23 = e23) & (v36 = e22 | v33 = e22 | v28 = e22 | v23 = e22) & (v35 = e24 | v35 = e22) & (v35 = e24 | v31 = e24 | v26 = e24) & (v35 = e22 | v31 = e22 | v26 = e22 | v22 = e22) & (v34 = e24 | v34 = e23 | v34 = e22) & (v34 = e24 | v33 = e24 | v31 = e24) & (v34 = e24 | v30 = e24 | v21 = e24) & (v34 = e23 | v33 = e23 | v32 = e23) & (v34 = e23 | v30 = e23 | v25 = e23) & (v34 = e22 | v33 = e22 | v31 = e22) & (v34 = e22 | v30 = e22 | v25 = e22) & (v33 = e24 | v33 = e23 | v33 = e22 | v33 = e21) & (v33 = e21 | v32 = e21 | v31 = e21) & (v33 = e21 | v28 = e21 | v23 = e21 | v19 = e21) & (v32 = e23 | v32 = e21) & (v32 = e23 | v27 = e23) & (v32 = e21 | v27 = e21) & (v31 = e24 | v31 = e22 | v31 = e21) & (v31 = e21 | v26 = e21 | v22 = e21) & (v30 = e24 | v30 = e23 | v30 = e22 | v30 = e20) & (v30 = e24 | v29 = e24 | v28 = e24 | v26 = e24) & (v30 = e23 | v29 = e23 | v28 = e23 | v27 = e23) & (v30 = e22 | v29 = e22 | v28 = e22 | v26 = e22) & (v30 = e20 | v28 = e20 | v26 = e20) & (v30 = e20 | v25 = e20 | v21 = e20) & (v29 = e24 | v29 = e23 | v29 = e22 | v29 = e21) & (v29 = e21 | v28 = e21 | v27 = e21 | v26 = e21) & (v29 = e21 | v24 = e21 | v20 = e21) & (v28 = e24 | v28 = e23 | v28 = e22 | v28 = e21 | v28 = e20) & (v28 = e20 | v23 = e20 | v19 = e20) & (v27 = e23 | v27 = e21) & (v26 = e24 | v26 = e22 | v26 = e21 | v26 = e20) & (v26 = e20 | v22 = e20) & (v25 = e23 | v25 = e22 | v25 = e20) & (v25 = e23 | v24 = e23 | v23 = e23) & (v25 = e22 | v24 = e22 | v23 = e22 | v22 = e22) & (v25 = e20 | v23 = e20 | v22 = e20) & (v24 = e23 | v24 = e22 | v24 = e21) & (v24 = e21 | v23 = e21 | v22 = e21) & (v23 = e23 | v23 = e22 | v23 = e21 | v23 = e20) & (v22 = e22 | v22 = e21 | v22 = e20) & (v21 = e24 | v21 = e20) & (v21 = e24 | v20 = e24 | v19 = e24) & (v21 = e20 | v19 = e20) & (v20 = e24 | v20 = e21) & (v20 = e21 | v19 = e21) & (v19 = e24 | v19 = e21 | v19 = e20) & (v18 = e14 | v18 = e13 | v18 = e12) & (v18 = e14 | v17 = e14 | v16 = e14) & (v18 = e14 | v10 = e14 | v1 = e14) & (v18 = e13 | v17 = e13) & (v18 = e13 | v10 = e13 | v5 = e13) & (v18 = e12 | v17 = e12 | v16 = e12) & (v18 = e12 | v10 = e12 | v5 = e12) & (v17 = e14 | v17 = e13 | v17 = e12) & (v17 = e14 | v14 = e14 | v9 = e14 | v0 = e14) & (v17 = e13 | v14 = e13 | v9 = e13 | v4 = e13) & (v17 = e12 | v14 = e12 | v9 = e12 | v4 = e12) & (v16 = e14 | v16 = e12) & (v16 = e14 | v12 = e14 | v7 = e14) & (v16 = e12 | v12 = e12 | v7 = e12 | v3 = e12) & (v15 = e14 | v15 = e13 | v15 = e12) & (v15 = e14 | v14 = e14 | v12 = e14) & (v15 = e14 | v11 = e14 | v2 = e14) & (v15 = e13 | v14 = e13 | v13 = e13) & (v15 = e13 | v11 = e13 | v6 = e13) & (v15 = e12 | v14 = e12 | v12 = e12) & (v15 = e12 | v11 = e12 | v6 = e12) & (v14 = e14 | v14 = e13 | v14 = e12 | v14 = e11) & (v14 = e11 | v13 = e11 | v12 = e11) & (v14 = e11 | v9 = e11 | v4 = e11 | v0 = e11) & (v13 = e13 | v13 = e11) & (v13 = e13 | v8 = e13) & (v13 = e11 | v8 = e11) & (v12 = e14 | v12 = e12 | v12 = e11) & (v12 = e11 | v7 = e11 | v3 = e11) & (v11 = e14 | v11 = e13 | v11 = e12 | v11 = e10) & (v11 = e14 | v10 = e14 | v9 = e14 | v7 = e14) & (v11 = e13 | v10 = e13 | v9 = e13 | v8 = e13) & (v11 = e12 | v10 = e12 | v9 = e12 | v7 = e12) & (v11 = e10 | v9 = e10 | v7 = e10) & (v11 = e10 | v6 = e10 | v2 = e10) & (v10 = e14 | v10 = e13 | v10 = e12 | v10 = e11) & (v10 = e11 | v9 = e11 | v8 = e11 | v7 = e11) & (v10 = e11 | v5 = e11 | v1 = e11) & (v9 = e14 | v9 = e13 | v9 = e12 | v9 = e11 | v9 = e10) & (v9 = e10 | v4 = e10 | v0 = e10) & (v8 = e13 | v8 = e11) & (v7 = e14 | v7 = e12 | v7 = e11 | v7 = e10) & (v7 = e10 | v3 = e10) & (v6 = e13 | v6 = e12 | v6 = e10) & (v6 = e13 | v5 = e13 | v4 = e13) & (v6 = e12 | v5 = e12 | v4 = e12 | v3 = e12) & (v6 = e10 | v4 = e10 | v3 = e10) & (v5 = e13 | v5 = e12 | v5 = e11) & (v5 = e11 | v4 = e11 | v3 = e11) & (v4 = e13 | v4 = e12 | v4 = e11 | v4 = e10) & (v3 = e12 | v3 = e11 | v3 = e10) & (v2 = e14 | v2 = e10) & (v2 = e14 | v1 = e14 | v0 = e14) & (v2 = e10 | v0 = e10) & (v1 = e14 | v1 = e11) & (v1 = e11 | v0 = e11) & (v0 = e14 | v0 = e11 | v0 = e10))
% 17.46/4.57 | 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, all_0_27_27, all_0_28_28, all_0_29_29, all_0_30_30, all_0_31_31, all_0_32_32, all_0_33_33, all_0_34_34, all_0_35_35, all_0_36_36, all_0_37_37, all_0_38_38, all_0_39_39, all_0_40_40, all_0_41_41, all_0_42_42, all_0_43_43, all_0_44_44, all_0_45_45, all_0_46_46, all_0_47_47, all_0_48_48, all_0_49_49, all_0_50_50, all_0_51_51, all_0_52_52, all_0_53_53, all_0_54_54, all_0_55_55, all_0_56_56, all_0_57_57, all_0_58_58, all_0_59_59, all_0_60_60, all_0_61_61, all_0_62_62, all_0_63_63, all_0_64_64, all_0_65_65, all_0_66_66, all_0_67_67, all_0_68_68, all_0_69_69, all_0_70_70, all_0_71_71, all_0_72_72, all_0_73_73, all_0_74_74, all_0_75_75, all_0_76_76, all_0_77_77, all_0_78_78, all_0_79_79, all_0_80_80, all_0_81_81, all_0_82_82, all_0_83_83, all_0_84_84, all_0_85_85, all_0_86_86, all_0_87_87, all_0_88_88, all_0_89_89, all_0_90_90, all_0_91_91, all_0_92_92, all_0_93_93, all_0_94_94, all_0_95_95, all_0_96_96, all_0_97_97, all_0_98_98, all_0_99_99, all_0_100_100, all_0_101_101, all_0_102_102, all_0_103_103, all_0_104_104, all_0_105_105, all_0_106_106, all_0_107_107, all_0_108_108, all_0_109_109, all_0_110_110, all_0_111_111, all_0_112_112, all_0_113_113, all_0_114_114, all_0_115_115, all_0_116_116, all_0_117_117, all_0_118_118, all_0_119_119, all_0_120_120, all_0_121_121, all_0_122_122, all_0_123_123, all_0_124_124, all_0_125_125, all_0_126_126, all_0_127_127, all_0_128_128, all_0_129_129, all_0_130_130, all_0_131_131, all_0_132_132, all_0_133_133, all_0_134_134, all_0_135_135, all_0_136_136, all_0_137_137, all_0_138_138, all_0_139_139, all_0_140_140, all_0_141_141, all_0_142_142, all_0_143_143, all_0_144_144, all_0_145_145, all_0_146_146, all_0_147_147, all_0_148_148, all_0_149_149, all_0_150_150, all_0_151_151, all_0_152_152, all_0_153_153, all_0_154_154, all_0_155_155, all_0_156_156, all_0_157_157, all_0_158_158, all_0_159_159, all_0_160_160, all_0_161_161, all_0_162_162, all_0_163_163, all_0_164_164, all_0_165_165, all_0_166_166, all_0_167_167, all_0_168_168, all_0_169_169, all_0_170_170, all_0_171_171, all_0_172_172, all_0_173_173, all_0_174_174, all_0_175_175, all_0_176_176, all_0_177_177, all_0_178_178, all_0_179_179, all_0_180_180, all_0_181_181, all_0_182_182, all_0_183_183, all_0_184_184, all_0_185_185, all_0_186_186, all_0_187_187, all_0_188_188, all_0_189_189, all_0_190_190, all_0_191_191, all_0_192_192, all_0_193_193, all_0_194_194, all_0_195_195, all_0_196_196, all_0_197_197, all_0_198_198, all_0_199_199, all_0_200_200, all_0_201_201, all_0_202_202, all_0_203_203, all_0_204_204, all_0_205_205, all_0_206_206, all_0_207_207, all_0_208_208, all_0_209_209, all_0_210_210, all_0_211_211, all_0_212_212, all_0_213_213, all_0_214_214, all_0_215_215, all_0_216_216, all_0_217_217, all_0_218_218, all_0_219_219, all_0_220_220, all_0_221_221, all_0_222_222, all_0_223_223, all_0_224_224, all_0_225_225, all_0_226_226, all_0_227_227, all_0_228_228 yields:
% 17.46/4.57 | (1) ~ (all_0_191_191 = all_0_192_192) & ~ (all_0_191_191 = all_0_193_193) & ~ (all_0_191_191 = all_0_199_199) & ~ (all_0_191_191 = all_0_204_204) & ~ (all_0_191_191 = all_0_208_208) & ~ (all_0_191_191 = e21) & ~ (all_0_191_191 = e20) & ~ (all_0_192_192 = all_0_193_193) & ~ (all_0_192_192 = all_0_195_195) & ~ (all_0_192_192 = all_0_200_200) & ~ (all_0_192_192 = all_0_205_205) & ~ (all_0_192_192 = all_0_209_209) & ~ (all_0_192_192 = e21) & ~ (all_0_192_192 = e20) & ~ (all_0_193_193 = all_0_197_197) & ~ (all_0_193_193 = all_0_202_202) & ~ (all_0_193_193 = all_0_206_206) & ~ (all_0_193_193 = e23) & ~ (all_0_193_193 = e21) & ~ (all_0_193_193 = e20) & ~ (all_0_194_194 = all_0_195_195) & ~ (all_0_194_194 = all_0_196_196) & ~ (all_0_194_194 = all_0_197_197) & ~ (all_0_194_194 = all_0_198_198) & ~ (all_0_194_194 = all_0_203_203) & ~ (all_0_194_194 = all_0_207_207) & ~ (all_0_194_194 = e21) & ~ (all_0_194_194 = e20) & ~ (all_0_195_195 = all_0_196_196) & ~ (all_0_195_195 = all_0_197_197) & ~ (all_0_195_195 = all_0_200_200) & ~ (all_0_195_195 = all_0_205_205) & ~ (all_0_195_195 = all_0_209_209) & ~ (all_0_195_195 = e20) & ~ (all_0_196_196 = all_0_197_197) & ~ (all_0_196_196 = all_0_201_201) & ~ (all_0_196_196 = e24) & ~ (all_0_196_196 = e22) & ~ (all_0_196_196 = e20) & ~ (all_0_197_197 = all_0_202_202) & ~ (all_0_197_197 = all_0_206_206) & ~ (all_0_197_197 = e23) & ~ (all_0_197_197 = e20) & ~ (all_0_198_198 = all_0_199_199) & ~ (all_0_198_198 = all_0_200_200) & ~ (all_0_198_198 = all_0_201_201) & ~ (all_0_198_198 = all_0_202_202) & ~ (all_0_198_198 = all_0_203_203) & ~ (all_0_198_198 = all_0_207_207) & ~ (all_0_198_198 = e21) & ~ (all_0_199_199 = all_0_200_200) & ~ (all_0_199_199 = all_0_201_201) & ~ (all_0_199_199 = all_0_202_202) & ~ (all_0_199_199 = all_0_204_204) & ~ (all_0_199_199 = all_0_208_208) & ~ (all_0_199_199 = e20) & ~ (all_0_200_200 = all_0_201_201) & ~ (all_0_200_200 = all_0_202_202) & ~ (all_0_200_200 = all_0_205_205) & ~ (all_0_200_200 = all_0_209_209) & ~ (all_0_201_201 = all_0_202_202) & ~ (all_0_201_201 = e24) & ~ (all_0_201_201 = e22) & ~ (all_0_201_201 = e20) & ~ (all_0_202_202 = all_0_206_206) & ~ (all_0_202_202 = e23) & ~ (all_0_203_203 = all_0_204_204) & ~ (all_0_203_203 = all_0_205_205) & ~ (all_0_203_203 = all_0_206_206) & ~ (all_0_203_203 = all_0_207_207) & ~ (all_0_203_203 = e24) & ~ (all_0_203_203 = e21) & ~ (all_0_204_204 = all_0_205_205) & ~ (all_0_204_204 = all_0_206_206) & ~ (all_0_204_204 = all_0_208_208) & ~ (all_0_204_204 = e24) & ~ (all_0_204_204 = e20) & ~ (all_0_205_205 = all_0_206_206) & ~ (all_0_205_205 = all_0_209_209) & ~ (all_0_205_205 = e24) & ~ (all_0_206_206 = e24) & ~ (all_0_206_206 = e23) & ~ (all_0_207_207 = all_0_208_208) & ~ (all_0_207_207 = all_0_209_209) & ~ (all_0_207_207 = e23) & ~ (all_0_207_207 = e22) & ~ (all_0_207_207 = e21) & ~ (all_0_208_208 = all_0_209_209) & ~ (all_0_208_208 = e23) & ~ (all_0_208_208 = e22) & ~ (all_0_208_208 = e20) & ~ (all_0_209_209 = e23) & ~ (all_0_209_209 = e22) & ~ (all_0_210_210 = all_0_211_211) & ~ (all_0_210_210 = all_0_212_212) & ~ (all_0_210_210 = all_0_218_218) & ~ (all_0_210_210 = all_0_223_223) & ~ (all_0_210_210 = all_0_227_227) & ~ (all_0_210_210 = e11) & ~ (all_0_210_210 = e10) & ~ (all_0_211_211 = all_0_212_212) & ~ (all_0_211_211 = all_0_214_214) & ~ (all_0_211_211 = all_0_219_219) & ~ (all_0_211_211 = all_0_224_224) & ~ (all_0_211_211 = all_0_228_228) & ~ (all_0_211_211 = e11) & ~ (all_0_211_211 = e10) & ~ (all_0_212_212 = all_0_216_216) & ~ (all_0_212_212 = all_0_221_221) & ~ (all_0_212_212 = all_0_225_225) & ~ (all_0_212_212 = e13) & ~ (all_0_212_212 = e11) & ~ (all_0_212_212 = e10) & ~ (all_0_213_213 = all_0_214_214) & ~ (all_0_213_213 = all_0_215_215) & ~ (all_0_213_213 = all_0_216_216) & ~ (all_0_213_213 = all_0_217_217) & ~ (all_0_213_213 = all_0_222_222) & ~ (all_0_213_213 = all_0_226_226) & ~ (all_0_213_213 = e11) & ~ (all_0_213_213 = e10) & ~ (all_0_214_214 = all_0_215_215) & ~ (all_0_214_214 = all_0_216_216) & ~ (all_0_214_214 = all_0_219_219) & ~ (all_0_214_214 = all_0_224_224) & ~ (all_0_214_214 = all_0_228_228) & ~ (all_0_214_214 = e10) & ~ (all_0_215_215 = all_0_216_216) & ~ (all_0_215_215 = all_0_220_220) & ~ (all_0_215_215 = e14) & ~ (all_0_215_215 = e12) & ~ (all_0_215_215 = e10) & ~ (all_0_216_216 = all_0_221_221) & ~ (all_0_216_216 = all_0_225_225) & ~ (all_0_216_216 = e13) & ~ (all_0_216_216 = e10) & ~ (all_0_217_217 = all_0_218_218) & ~ (all_0_217_217 = all_0_219_219) & ~ (all_0_217_217 = all_0_220_220) & ~ (all_0_217_217 = all_0_221_221) & ~ (all_0_217_217 = all_0_222_222) & ~ (all_0_217_217 = all_0_226_226) & ~ (all_0_217_217 = e11) & ~ (all_0_218_218 = all_0_219_219) & ~ (all_0_218_218 = all_0_220_220) & ~ (all_0_218_218 = all_0_221_221) & ~ (all_0_218_218 = all_0_223_223) & ~ (all_0_218_218 = all_0_227_227) & ~ (all_0_218_218 = e10) & ~ (all_0_219_219 = all_0_220_220) & ~ (all_0_219_219 = all_0_221_221) & ~ (all_0_219_219 = all_0_224_224) & ~ (all_0_219_219 = all_0_228_228) & ~ (all_0_220_220 = all_0_221_221) & ~ (all_0_220_220 = e14) & ~ (all_0_220_220 = e12) & ~ (all_0_220_220 = e10) & ~ (all_0_221_221 = all_0_225_225) & ~ (all_0_221_221 = e13) & ~ (all_0_222_222 = all_0_223_223) & ~ (all_0_222_222 = all_0_224_224) & ~ (all_0_222_222 = all_0_225_225) & ~ (all_0_222_222 = all_0_226_226) & ~ (all_0_222_222 = e14) & ~ (all_0_222_222 = e11) & ~ (all_0_223_223 = all_0_224_224) & ~ (all_0_223_223 = all_0_225_225) & ~ (all_0_223_223 = all_0_227_227) & ~ (all_0_223_223 = e14) & ~ (all_0_223_223 = e10) & ~ (all_0_224_224 = all_0_225_225) & ~ (all_0_224_224 = all_0_228_228) & ~ (all_0_224_224 = e14) & ~ (all_0_225_225 = e14) & ~ (all_0_225_225 = e13) & ~ (all_0_226_226 = all_0_227_227) & ~ (all_0_226_226 = all_0_228_228) & ~ (all_0_226_226 = e13) & ~ (all_0_226_226 = e12) & ~ (all_0_226_226 = e11) & ~ (all_0_227_227 = all_0_228_228) & ~ (all_0_227_227 = e13) & ~ (all_0_227_227 = e12) & ~ (all_0_227_227 = e10) & ~ (all_0_228_228 = e13) & ~ (all_0_228_228 = e12) & ~ (e24 = e23) & ~ (e24 = e22) & ~ (e24 = e21) & ~ (e24 = e20) & ~ (e24 = e14) & ~ (e24 = e13) & ~ (e24 = e12) & ~ (e24 = e11) & ~ (e24 = e10) & ~ (e23 = e22) & ~ (e23 = e21) & ~ (e23 = e20) & ~ (e23 = e14) & ~ (e23 = e13) & ~ (e23 = e12) & ~ (e23 = e11) & ~ (e23 = e10) & ~ (e22 = e21) & ~ (e22 = e20) & ~ (e22 = e14) & ~ (e22 = e13) & ~ (e22 = e12) & ~ (e22 = e11) & ~ (e22 = e10) & ~ (e21 = e20) & ~ (e21 = e14) & ~ (e21 = e13) & ~ (e21 = e12) & ~ (e21 = e11) & ~ (e21 = e10) & ~ (e20 = e14) & ~ (e20 = e13) & ~ (e20 = e12) & ~ (e20 = e11) & ~ (e20 = e10) & ~ (e14 = e13) & ~ (e14 = e12) & ~ (e14 = e11) & ~ (e14 = e10) & ~ (e13 = e12) & ~ (e13 = e11) & ~ (e13 = e10) & ~ (e12 = e11) & ~ (e12 = e10) & ~ (e11 = e10) & op1(all_0_210_210, all_0_213_213) = e13 & op1(all_0_211_211, all_0_217_217) = e12 & op1(all_0_212_212, all_0_226_226) = e10 & op1(all_0_213_213, all_0_210_210) = e14 & op1(all_0_214_214, all_0_218_218) = e12 & op1(all_0_215_215, all_0_223_223) = e11 & op1(all_0_216_216, all_0_227_227) = e10 & op1(all_0_217_217, all_0_211_211) = e14 & op1(all_0_218_218, all_0_214_214) = e13 & op1(all_0_219_219, all_0_219_219) = e12 & op1(all_0_220_220, all_0_224_224) = e11 & op1(all_0_221_221, all_0_228_228) = e10 & op1(all_0_222_222, e10) = e14 & op1(all_0_223_223, all_0_215_215) = e13 & op1(all_0_224_224, all_0_220_220) = e12 & op1(all_0_225_225, e12) = e10 & op1(all_0_226_226, all_0_212_212) = e14 & op1(all_0_227_227, all_0_216_216) = e13 & op1(all_0_228_228, all_0_221_221) = e12 & op1(e14, e14) = e11 & op1(e14, e13) = all_0_210_210 & op1(e14, e12) = all_0_211_211 & op1(e14, e11) = e10 & op1(e14, e10) = all_0_212_212 & op1(e13, e14) = all_0_213_213 & op1(e13, e13) = e10 & op1(e13, e12) = all_0_214_214 & op1(e13, e11) = all_0_215_215 & op1(e13, e10) = all_0_216_216 & op1(e12, all_0_225_225) = e11 & op1(e12, e14) = all_0_217_217 & op1(e12, e13) = all_0_218_218 & op1(e12, e12) = all_0_219_219 & op1(e12, e11) = all_0_220_220 & op1(e12, e10) = all_0_221_221 & op1(e11, e14) = all_0_222_222 & op1(e11, e13) = all_0_223_223 & op1(e11, e12) = all_0_224_224 & op1(e11, e11) = e14 & op1(e11, e10) = all_0_225_225 & op1(e10, all_0_222_222) = e11 & op1(e10, e14) = all_0_226_226 & op1(e10, e13) = all_0_227_227 & op1(e10, e12) = all_0_228_228 & op1(e10, e11) = e12 & op1(e10, e10) = e13 & h1(all_0_210_210) = all_0_143_143 & h1(all_0_211_211) = all_0_145_145 & h1(all_0_212_212) = all_0_147_147 & h1(all_0_213_213) = all_0_149_149 & h1(all_0_214_214) = all_0_152_152 & h1(all_0_215_215) = all_0_154_154 & h1(all_0_216_216) = all_0_156_156 & h1(all_0_217_217) = all_0_158_158 & h1(all_0_218_218) = all_0_160_160 & h1(all_0_219_219) = all_0_162_162 & h1(all_0_220_220) = all_0_164_164 & h1(all_0_221_221) = all_0_166_166 & h1(all_0_222_222) = all_0_167_167 & h1(all_0_223_223) = all_0_169_169 & h1(all_0_224_224) = all_0_171_171 & h1(all_0_225_225) = all_0_173_173 & h1(all_0_226_226) = all_0_175_175 & h1(all_0_227_227) = all_0_177_177 & h1(all_0_228_228) = all_0_179_179 & h1(e14) = e20 & h1(e13) = all_0_189_189 & h1(e12) = all_0_190_190 & h1(e11) = e23 & h1(e10) = all_0_208_208 & h2(all_0_210_210) = all_0_103_103 & h2(all_0_211_211) = all_0_105_105 & h2(all_0_212_212) = all_0_107_107 & h2(all_0_213_213) = all_0_109_109 & h2(all_0_214_214) = all_0_112_112 & h2(all_0_215_215) = all_0_114_114 & h2(all_0_216_216) = all_0_116_116 & h2(all_0_217_217) = all_0_118_118 & h2(all_0_218_218) = all_0_120_120 & h2(all_0_219_219) = all_0_122_122 & h2(all_0_220_220) = all_0_124_124 & h2(all_0_221_221) = all_0_126_126 & h2(all_0_222_222) = all_0_127_127 & h2(all_0_223_223) = all_0_129_129 & h2(all_0_224_224) = all_0_131_131 & h2(all_0_225_225) = all_0_133_133 & h2(all_0_226_226) = all_0_135_135 & h2(all_0_227_227) = all_0_137_137 & h2(all_0_228_228) = all_0_139_139 & h2(e14) = e21 & h2(e13) = all_0_187_187 & h2(e12) = all_0_188_188 & h2(e11) = e24 & h2(e10) = all_0_203_203 & h3(all_0_210_210) = all_0_60_60 & h3(all_0_211_211) = all_0_62_62 & h3(all_0_212_212) = all_0_65_65 & h3(all_0_213_213) = all_0_67_67 & h3(all_0_214_214) = all_0_70_70 & h3(all_0_215_215) = all_0_72_72 & h3(all_0_216_216) = all_0_74_74 & h3(all_0_217_217) = all_0_76_76 & h3(all_0_218_218) = all_0_78_78 & h3(all_0_219_219) = all_0_80_80 & h3(all_0_220_220) = all_0_82_82 & h3(all_0_221_221) = all_0_84_84 & h3(all_0_222_222) = all_0_86_86 & h3(all_0_223_223) = all_0_88_88 & h3(all_0_224_224) = all_0_90_90 & h3(all_0_225_225) = all_0_93_93 & h3(all_0_226_226) = all_0_95_95 & h3(all_0_227_227) = all_0_97_97 & h3(all_0_228_228) = all_0_99_99 & h3(e14) = e22 & h3(e13) = all_0_184_184 & h3(e12) = all_0_185_185 & h3(e11) = all_0_200_200 & h3(e10) = all_0_186_186 & h4(all_0_210_210) = all_0_20_20 & h4(all_0_211_211) = all_0_22_22 & h4(all_0_212_212) = all_0_24_24 & h4(all_0_213_213) = all_0_26_26 & h4(all_0_214_214) = all_0_29_29 & h4(all_0_215_215) = all_0_31_31 & h4(all_0_216_216) = all_0_33_33 & h4(all_0_217_217) = all_0_35_35 & h4(all_0_218_218) = all_0_37_37 & h4(all_0_219_219) = all_0_39_39 & h4(all_0_220_220) = all_0_41_41 & h4(all_0_221_221) = all_0_43_43 & h4(all_0_222_222) = all_0_44_44 & h4(all_0_223_223) = all_0_46_46 & h4(all_0_224_224) = all_0_48_48 & h4(all_0_225_225) = all_0_50_50 & h4(all_0_226_226) = all_0_52_52 & h4(all_0_227_227) = all_0_54_54 & h4(all_0_228_228) = all_0_56_56 & h4(e14) = e23 & h4(e13) = all_0_182_182 & h4(e12) = all_0_183_183 & h4(e11) = e20 & h4(e10) = all_0_197_197 & h5(all_0_210_210) = all_0_0_0 & h5(all_0_211_211) = all_0_1_1 & h5(all_0_212_212) = all_0_2_2 & h5(all_0_213_213) = all_0_3_3 & h5(all_0_214_214) = all_0_4_4 & h5(all_0_215_215) = all_0_5_5 & h5(all_0_216_216) = all_0_6_6 & h5(all_0_217_217) = all_0_7_7 & h5(all_0_218_218) = all_0_8_8 & h5(all_0_219_219) = all_0_9_9 & h5(all_0_220_220) = all_0_10_10 & h5(all_0_221_221) = all_0_11_11 & h5(all_0_222_222) = all_0_12_12 & h5(all_0_223_223) = all_0_13_13 & h5(all_0_224_224) = all_0_14_14 & h5(all_0_225_225) = all_0_15_15 & h5(all_0_226_226) = all_0_16_16 & h5(all_0_227_227) = all_0_17_17 & h5(all_0_228_228) = all_0_18_18 & h5(e14) = e24 & h5(e13) = e23 & h5(e12) = e22 & h5(e11) = e21 & h5(e10) = e20 & op2(all_0_182_182, all_0_182_182) = all_0_27_27 & op2(all_0_182_182, all_0_183_183) = all_0_28_28 & op2(all_0_182_182, all_0_197_197) = all_0_32_32 & op2(all_0_182_182, e23) = all_0_25_25 & op2(all_0_182_182, e20) = all_0_30_30 & op2(all_0_183_183, all_0_182_182) = all_0_36_36 & op2(all_0_183_183, all_0_183_183) = all_0_38_38 & op2(all_0_183_183, all_0_197_197) = all_0_42_42 & op2(all_0_183_183, e23) = all_0_34_34 & op2(all_0_183_183, e20) = all_0_40_40 & op2(all_0_184_184, all_0_184_184) = all_0_68_68 & op2(all_0_184_184, all_0_185_185) = all_0_69_69 & op2(all_0_184_184, all_0_186_186) = all_0_73_73 & op2(all_0_184_184, all_0_200_200) = all_0_71_71 & op2(all_0_184_184, e22) = all_0_66_66 & op2(all_0_185_185, all_0_184_184) = all_0_77_77 & op2(all_0_185_185, all_0_185_185) = all_0_79_79 & op2(all_0_185_185, all_0_186_186) = all_0_83_83 & op2(all_0_185_185, all_0_200_200) = all_0_81_81 & op2(all_0_185_185, e22) = all_0_75_75 & op2(all_0_186_186, all_0_184_184) = all_0_96_96 & op2(all_0_186_186, all_0_185_185) = all_0_98_98 & op2(all_0_186_186, all_0_186_186) = all_0_101_101 & op2(all_0_186_186, all_0_186_186) = all_0_184_184 & op2(all_0_186_186, all_0_200_200) = all_0_100_100 & op2(all_0_186_186, all_0_200_200) = all_0_185_185 & op2(all_0_186_186, e22) = all_0_94_94 & op2(all_0_187_187, all_0_187_187) = all_0_110_110 & op2(all_0_187_187, all_0_188_188) = all_0_111_111 & op2(all_0_187_187, all_0_203_203) = all_0_115_115 & op2(all_0_187_187, e24) = all_0_113_113 & op2(all_0_187_187, e21) = all_0_108_108 & op2(all_0_188_188, all_0_187_187) = all_0_119_119 & op2(all_0_188_188, all_0_188_188) = all_0_121_121 & op2(all_0_188_188, all_0_203_203) = all_0_125_125 & op2(all_0_188_188, e24) = all_0_123_123 & op2(all_0_188_188, e21) = all_0_117_117 & op2(all_0_189_189, all_0_189_189) = all_0_150_150 & op2(all_0_189_189, all_0_190_190) = all_0_151_151 & op2(all_0_189_189, all_0_208_208) = all_0_155_155 & op2(all_0_189_189, e23) = all_0_153_153 & op2(all_0_189_189, e20) = all_0_148_148 & op2(all_0_190_190, all_0_189_189) = all_0_159_159 & op2(all_0_190_190, all_0_190_190) = all_0_161_161 & op2(all_0_190_190, all_0_208_208) = all_0_165_165 & op2(all_0_190_190, e23) = all_0_163_163 & op2(all_0_190_190, e20) = all_0_157_157 & op2(all_0_191_191, all_0_194_194) = e23 & op2(all_0_192_192, all_0_198_198) = e22 & op2(all_0_193_193, all_0_207_207) = e20 & op2(all_0_194_194, all_0_191_191) = e24 & op2(all_0_195_195, all_0_199_199) = e22 & op2(all_0_196_196, all_0_204_204) = e21 & op2(all_0_197_197, all_0_182_182) = all_0_53_53 & op2(all_0_197_197, all_0_183_183) = all_0_55_55 & op2(all_0_197_197, all_0_197_197) = all_0_58_58 & op2(all_0_197_197, all_0_197_197) = all_0_182_182 & op2(all_0_197_197, all_0_208_208) = e20 & op2(all_0_197_197, e23) = all_0_51_51 & op2(all_0_197_197, e20) = all_0_57_57 & op2(all_0_197_197, e20) = all_0_183_183 & op2(all_0_198_198, all_0_192_192) = e24 & op2(all_0_199_199, all_0_195_195) = e23 & op2(all_0_200_200, all_0_184_184) = all_0_87_87 & op2(all_0_200_200, all_0_185_185) = all_0_89_89 & op2(all_0_200_200, all_0_186_186) = all_0_92_92 & op2(all_0_200_200, all_0_200_200) = all_0_91_91 & op2(all_0_200_200, all_0_200_200) = e22 & op2(all_0_200_200, e22) = all_0_85_85 & op2(all_0_201_201, all_0_205_205) = e21 & op2(all_0_202_202, all_0_209_209) = e20 & op2(all_0_203_203, all_0_187_187) = all_0_136_136 & op2(all_0_203_203, all_0_188_188) = all_0_138_138 & op2(all_0_203_203, all_0_203_203) = all_0_141_141 & op2(all_0_203_203, all_0_203_203) = all_0_187_187 & op2(all_0_203_203, e24) = all_0_140_140 & op2(all_0_203_203, e24) = all_0_188_188 & op2(all_0_203_203, e21) = all_0_134_134 & op2(all_0_203_203, e20) = e24 & op2(all_0_204_204, all_0_196_196) = e23 & op2(all_0_205_205, all_0_201_201) = e22 & op2(all_0_206_206, e22) = e20 & op2(all_0_207_207, all_0_193_193) = e24 & op2(all_0_208_208, all_0_189_189) = all_0_176_176 & op2(all_0_208_208, all_0_190_190) = all_0_178_178 & op2(all_0_208_208, all_0_197_197) = e23 & op2(all_0_208_208, all_0_208_208) = all_0_181_181 & op2(all_0_208_208, all_0_208_208) = all_0_189_189 & op2(all_0_208_208, e23) = all_0_180_180 & op2(all_0_208_208, e23) = all_0_190_190 & op2(all_0_208_208, e20) = all_0_174_174 & op2(all_0_209_209, all_0_202_202) = e22 & op2(e24, all_0_187_187) = all_0_128_128 & op2(e24, all_0_188_188) = all_0_130_130 & op2(e24, all_0_203_203) = all_0_132_132 & op2(e24, e24) = e21 & op2(e24, e23) = all_0_191_191 & op2(e24, e22) = all_0_192_192 & op2(e24, e21) = e20 & op2(e24, e20) = all_0_193_193 & op2(e23, all_0_182_182) = all_0_19_19 & op2(e23, all_0_183_183) = all_0_21_21 & op2(e23, all_0_189_189) = all_0_168_168 & op2(e23, all_0_190_190) = all_0_170_170 & op2(e23, all_0_197_197) = all_0_23_23 & op2(e23, all_0_208_208) = all_0_172_172 & op2(e23, e24) = all_0_194_194 & op2(e23, e23) = e20 & op2(e23, e22) = all_0_195_195 & op2(e23, e21) = all_0_196_196 & op2(e23, e20) = all_0_197_197 & op2(e22, all_0_184_184) = all_0_59_59 & op2(e22, all_0_185_185) = all_0_61_61 & op2(e22, all_0_186_186) = all_0_64_64 & op2(e22, all_0_200_200) = all_0_63_63 & op2(e22, all_0_200_200) = all_0_186_186 & op2(e22, all_0_206_206) = e21 & op2(e22, e24) = all_0_198_198 & op2(e22, e23) = all_0_199_199 & op2(e22, e22) = all_0_200_200 & op2(e22, e21) = all_0_201_201 & op2(e22, e20) = all_0_202_202 & op2(e21, all_0_187_187) = all_0_102_102 & op2(e21, all_0_188_188) = all_0_104_104 & op2(e21, all_0_203_203) = all_0_106_106 & op2(e21, e24) = all_0_203_203 & op2(e21, e23) = all_0_204_204 & op2(e21, e22) = all_0_205_205 & op2(e21, e21) = e24 & op2(e21, e20) = all_0_206_206 & op2(e20, all_0_182_182) = all_0_45_45 & op2(e20, all_0_183_183) = all_0_47_47 & op2(e20, all_0_189_189) = all_0_142_142 & op2(e20, all_0_190_190) = all_0_144_144 & op2(e20, all_0_197_197) = all_0_49_49 & op2(e20, all_0_203_203) = e21 & op2(e20, all_0_208_208) = all_0_146_146 & op2(e20, e24) = all_0_207_207 & op2(e20, e23) = all_0_208_208 & op2(e20, e22) = all_0_209_209 & op2(e20, e21) = e22 & op2(e20, e20) = e23 & ! [v0] : ! [v1] : ! [v2] : ! [v3] : (v1 = v0 | ~ (op1(v3, v2) = v1) | ~ (op1(v3, v2) = v0)) & ! [v0] : ! [v1] : ! [v2] : ! [v3] : (v1 = v0 | ~ (op2(v3, v2) = v1) | ~ (op2(v3, v2) = v0)) & ! [v0] : ! [v1] : ! [v2] : (v1 = v0 | ~ (h1(v2) = v1) | ~ (h1(v2) = v0)) & ! [v0] : ! [v1] : ! [v2] : (v1 = v0 | ~ (h2(v2) = v1) | ~ (h2(v2) = v0)) & ! [v0] : ! [v1] : ! [v2] : (v1 = v0 | ~ (h3(v2) = v1) | ~ (h3(v2) = v0)) & ! [v0] : ! [v1] : ! [v2] : (v1 = v0 | ~ (h4(v2) = v1) | ~ (h4(v2) = v0)) & ! [v0] : ! [v1] : ! [v2] : (v1 = v0 | ~ (h5(v2) = v1) | ~ (h5(v2) = v0)) & ( ~ (all_0_0_0 = all_0_191_191) | ~ (all_0_1_1 = all_0_192_192) | ~ (all_0_2_2 = all_0_193_193) | ~ (all_0_3_3 = all_0_194_194) | ~ (all_0_4_4 = all_0_195_195) | ~ (all_0_5_5 = all_0_196_196) | ~ (all_0_6_6 = all_0_197_197) | ~ (all_0_7_7 = all_0_198_198) | ~ (all_0_8_8 = all_0_199_199) | ~ (all_0_9_9 = all_0_200_200) | ~ (all_0_10_10 = all_0_201_201) | ~ (all_0_11_11 = all_0_202_202) | ~ (all_0_12_12 = all_0_203_203) | ~ (all_0_13_13 = all_0_204_204) | ~ (all_0_14_14 = all_0_205_205) | ~ (all_0_15_15 = all_0_206_206) | ~ (all_0_16_16 = all_0_207_207) | ~ (all_0_17_17 = all_0_208_208) | ~ (all_0_18_18 = all_0_209_209)) & ( ~ (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) | ~ (all_0_27_27 = all_0_197_197) | ~ (all_0_28_28 = all_0_29_29) | ~ (all_0_30_30 = all_0_31_31) | ~ (all_0_32_32 = all_0_33_33) | ~ (all_0_34_34 = all_0_35_35) | ~ (all_0_36_36 = all_0_37_37) | ~ (all_0_38_38 = all_0_39_39) | ~ (all_0_40_40 = all_0_41_41) | ~ (all_0_42_42 = all_0_43_43) | ~ (all_0_44_44 = all_0_208_208) | ~ (all_0_45_45 = all_0_46_46) | ~ (all_0_47_47 = all_0_48_48) | ~ (all_0_49_49 = all_0_50_50) | ~ (all_0_51_51 = all_0_52_52) | ~ (all_0_53_53 = all_0_54_54) | ~ (all_0_55_55 = all_0_56_56) | ~ (all_0_57_57 = all_0_183_183) | ~ (all_0_58_58 = all_0_182_182) | ( ~ (all_0_182_182 = e24) & ~ (all_0_183_183 = e24) & ~ (all_0_197_197 = e24)) | ( ~ (all_0_182_182 = e22) & ~ (all_0_183_183 = e22) & ~ (all_0_197_197 = e22)) | ( ~ (all_0_182_182 = e21) & ~ (all_0_183_183 = e21) & ~ (all_0_197_197 = e21))) & ( ~ (all_0_59_59 = all_0_60_60) | ~ (all_0_61_61 = all_0_62_62) | ~ (all_0_63_63 = all_0_186_186) | ~ (all_0_64_64 = all_0_65_65) | ~ (all_0_66_66 = all_0_67_67) | ~ (all_0_68_68 = all_0_186_186) | ~ (all_0_69_69 = all_0_70_70) | ~ (all_0_71_71 = all_0_72_72) | ~ (all_0_73_73 = all_0_74_74) | ~ (all_0_75_75 = all_0_76_76) | ~ (all_0_77_77 = all_0_78_78) | ~ (all_0_79_79 = all_0_80_80) | ~ (all_0_81_81 = all_0_82_82) | ~ (all_0_83_83 = all_0_84_84) | ~ (all_0_85_85 = all_0_86_86) | ~ (all_0_87_87 = all_0_88_88) | ~ (all_0_89_89 = all_0_90_90) | ~ (all_0_91_91 = e22) | ~ (all_0_92_92 = all_0_93_93) | ~ (all_0_94_94 = all_0_95_95) | ~ (all_0_96_96 = all_0_97_97) | ~ (all_0_98_98 = all_0_99_99) | ~ (all_0_100_100 = all_0_185_185) | ~ (all_0_101_101 = all_0_184_184) | ( ~ (all_0_184_184 = e24) & ~ (all_0_185_185 = e24) & ~ (all_0_186_186 = e24) & ~ (all_0_200_200 = e24)) | ( ~ (all_0_184_184 = e23) & ~ (all_0_185_185 = e23) & ~ (all_0_186_186 = e23) & ~ (all_0_200_200 = e23)) | ( ~ (all_0_184_184 = e21) & ~ (all_0_185_185 = e21) & ~ (all_0_186_186 = e21) & ~ (all_0_200_200 = e21)) | ( ~ (all_0_184_184 = e20) & ~ (all_0_185_185 = e20) & ~ (all_0_186_186 = e20) & ~ (all_0_200_200 = e20))) & ( ~ (all_0_102_102 = all_0_103_103) | ~ (all_0_104_104 = all_0_105_105) | ~ (all_0_106_106 = all_0_107_107) | ~ (all_0_108_108 = all_0_109_109) | ~ (all_0_110_110 = all_0_203_203) | ~ (all_0_111_111 = all_0_112_112) | ~ (all_0_113_113 = all_0_114_114) | ~ (all_0_115_115 = all_0_116_116) | ~ (all_0_117_117 = all_0_118_118) | ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_127_127 = e20) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))) & ( ~ (all_0_142_142 = all_0_143_143) | ~ (all_0_144_144 = all_0_145_145) | ~ (all_0_146_146 = all_0_147_147) | ~ (all_0_148_148 = all_0_149_149) | ~ (all_0_150_150 = all_0_208_208) | ~ (all_0_151_151 = all_0_152_152) | ~ (all_0_153_153 = all_0_154_154) | ~ (all_0_155_155 = all_0_156_156) | ~ (all_0_157_157 = all_0_158_158) | ~ (all_0_159_159 = all_0_160_160) | ~ (all_0_161_161 = all_0_162_162) | ~ (all_0_163_163 = all_0_164_164) | ~ (all_0_165_165 = all_0_166_166) | ~ (all_0_167_167 = all_0_197_197) | ~ (all_0_168_168 = all_0_169_169) | ~ (all_0_170_170 = all_0_171_171) | ~ (all_0_172_172 = all_0_173_173) | ~ (all_0_174_174 = all_0_175_175) | ~ (all_0_176_176 = all_0_177_177) | ~ (all_0_178_178 = all_0_179_179) | ~ (all_0_180_180 = all_0_190_190) | ~ (all_0_181_181 = all_0_189_189) | ( ~ (all_0_189_189 = e24) & ~ (all_0_190_190 = e24) & ~ (all_0_208_208 = e24)) | ( ~ (all_0_189_189 = e22) & ~ (all_0_190_190 = e22)) | ( ~ (all_0_189_189 = e21) & ~ (all_0_190_190 = e21) & ~ (all_0_208_208 = e21))) & ( ~ (all_0_196_196 = e23) | ( ~ (all_0_191_191 = e24) & ~ (all_0_199_199 = e22) & ~ (all_0_204_204 = e21)) | ( ~ (all_0_192_192 = e24) & ~ (all_0_195_195 = e23) & ~ (all_0_200_200 = e22) & ~ (all_0_205_205 = e21) & ~ (all_0_209_209 = e20)) | ( ~ (all_0_193_193 = e24) & ~ (all_0_202_202 = e22) & ~ (all_0_206_206 = e21)) | ( ~ (all_0_194_194 = e23) & ~ (all_0_198_198 = e22) & ~ (all_0_207_207 = e20))) & ( ~ (all_0_215_215 = e13) | ( ~ (all_0_210_210 = e14) & ~ (all_0_218_218 = e12) & ~ (all_0_223_223 = e11)) | ( ~ (all_0_211_211 = e14) & ~ (all_0_214_214 = e13) & ~ (all_0_219_219 = e12) & ~ (all_0_224_224 = e11) & ~ (all_0_228_228 = e10)) | ( ~ (all_0_212_212 = e14) & ~ (all_0_221_221 = e12) & ~ (all_0_225_225 = e11)) | ( ~ (all_0_213_213 = e13) & ~ (all_0_217_217 = e12) & ~ (all_0_226_226 = e10))) & (all_0_191_191 = e24 | all_0_191_191 = e23 | all_0_191_191 = e22) & (all_0_191_191 = e24 | all_0_192_192 = e24 | all_0_193_193 = e24) & (all_0_191_191 = e24 | all_0_199_199 = e24 | all_0_208_208 = e24) & (all_0_191_191 = e23 | all_0_192_192 = e23) & (all_0_191_191 = e23 | all_0_199_199 = e23 | all_0_204_204 = e23) & (all_0_191_191 = e22 | all_0_192_192 = e22 | all_0_193_193 = e22) & (all_0_191_191 = e22 | all_0_199_199 = e22 | all_0_204_204 = e22) & (all_0_192_192 = e24 | all_0_192_192 = e23 | all_0_192_192 = e22) & (all_0_192_192 = e24 | all_0_195_195 = e24 | all_0_200_200 = e24 | all_0_209_209 = e24) & (all_0_192_192 = e23 | all_0_195_195 = e23 | all_0_200_200 = e23 | all_0_205_205 = e23) & (all_0_192_192 = e22 | all_0_195_195 = e22 | all_0_200_200 = e22 | all_0_205_205 = e22) & (all_0_193_193 = e24 | all_0_193_193 = e22) & (all_0_193_193 = e24 | all_0_197_197 = e24 | all_0_202_202 = e24) & (all_0_193_193 = e22 | all_0_197_197 = e22 | all_0_202_202 = e22 | all_0_206_206 = e22) & (all_0_194_194 = e24 | all_0_194_194 = e23 | all_0_194_194 = e22) & (all_0_194_194 = e24 | all_0_195_195 = e24 | all_0_197_197 = e24) & (all_0_194_194 = e24 | all_0_198_198 = e24 | all_0_207_207 = e24) & (all_0_194_194 = e23 | all_0_195_195 = e23 | all_0_196_196 = e23) & (all_0_194_194 = e23 | all_0_198_198 = e23 | all_0_203_203 = e23) & (all_0_194_194 = e22 | all_0_195_195 = e22 | all_0_197_197 = e22) & (all_0_194_194 = e22 | all_0_198_198 = e22 | all_0_203_203 = e22) & (all_0_195_195 = e24 | all_0_195_195 = e23 | all_0_195_195 = e22 | all_0_195_195 = e21) & (all_0_195_195 = e21 | all_0_196_196 = e21 | all_0_197_197 = e21) & (all_0_195_195 = e21 | all_0_200_200 = e21 | all_0_205_205 = e21 | all_0_209_209 = e21) & (all_0_196_196 = e23 | all_0_196_196 = e21) & (all_0_196_196 = e23 | all_0_201_201 = e23) & (all_0_196_196 = e21 | all_0_201_201 = e21) & (all_0_197_197 = e24 | all_0_197_197 = e22 | all_0_197_197 = e21) & (all_0_197_197 = e21 | all_0_202_202 = e21 | all_0_206_206 = e21) & (all_0_198_198 = e24 | all_0_198_198 = e23 | all_0_198_198 = e22 | all_0_198_198 = e20) & (all_0_198_198 = e24 | all_0_199_199 = e24 | all_0_200_200 = e24 | all_0_202_202 = e24) & (all_0_198_198 = e23 | all_0_199_199 = e23 | all_0_200_200 = e23 | all_0_201_201 = e23) & (all_0_198_198 = e22 | all_0_199_199 = e22 | all_0_200_200 = e22 | all_0_202_202 = e22) & (all_0_198_198 = e20 | all_0_200_200 = e20 | all_0_202_202 = e20) & (all_0_198_198 = e20 | all_0_203_203 = e20 | all_0_207_207 = e20) & (all_0_199_199 = e24 | all_0_199_199 = e23 | all_0_199_199 = e22 | all_0_199_199 = e21) & (all_0_199_199 = e21 | all_0_200_200 = e21 | all_0_201_201 = e21 | all_0_202_202 = e21) & (all_0_199_199 = e21 | all_0_204_204 = e21 | all_0_208_208 = e21) & (all_0_200_200 = e24 | all_0_200_200 = e23 | all_0_200_200 = e22 | all_0_200_200 = e21 | all_0_200_200 = e20) & (all_0_200_200 = e20 | all_0_205_205 = e20 | all_0_209_209 = e20) & (all_0_201_201 = e23 | all_0_201_201 = e21) & (all_0_202_202 = e24 | all_0_202_202 = e22 | all_0_202_202 = e21 | all_0_202_202 = e20) & (all_0_202_202 = e20 | all_0_206_206 = e20) & (all_0_203_203 = e23 | all_0_203_203 = e22 | all_0_203_203 = e20) & (all_0_203_203 = e23 | all_0_204_204 = e23 | all_0_205_205 = e23) & (all_0_203_203 = e22 | all_0_204_204 = e22 | all_0_205_205 = e22 | all_0_206_206 = e22) & (all_0_203_203 = e20 | all_0_205_205 = e20 | all_0_206_206 = e20) & (all_0_204_204 = e23 | all_0_204_204 = e22 | all_0_204_204 = e21) & (all_0_204_204 = e21 | all_0_205_205 = e21 | all_0_206_206 = e21) & (all_0_205_205 = e23 | all_0_205_205 = e22 | all_0_205_205 = e21 | all_0_205_205 = e20) & (all_0_206_206 = e22 | all_0_206_206 = e21 | all_0_206_206 = e20) & (all_0_207_207 = e24 | all_0_207_207 = e20) & (all_0_207_207 = e24 | all_0_208_208 = e24 | all_0_209_209 = e24) & (all_0_207_207 = e20 | all_0_209_209 = e20) & (all_0_208_208 = e24 | all_0_208_208 = e21) & (all_0_208_208 = e21 | all_0_209_209 = e21) & (all_0_209_209 = e24 | all_0_209_209 = e21 | all_0_209_209 = e20) & (all_0_210_210 = e14 | all_0_210_210 = e13 | all_0_210_210 = e12) & (all_0_210_210 = e14 | all_0_211_211 = e14 | all_0_212_212 = e14) & (all_0_210_210 = e14 | all_0_218_218 = e14 | all_0_227_227 = e14) & (all_0_210_210 = e13 | all_0_211_211 = e13) & (all_0_210_210 = e13 | all_0_218_218 = e13 | all_0_223_223 = e13) & (all_0_210_210 = e12 | all_0_211_211 = e12 | all_0_212_212 = e12) & (all_0_210_210 = e12 | all_0_218_218 = e12 | all_0_223_223 = e12) & (all_0_211_211 = e14 | all_0_211_211 = e13 | all_0_211_211 = e12) & (all_0_211_211 = e14 | all_0_214_214 = e14 | all_0_219_219 = e14 | all_0_228_228 = e14) & (all_0_211_211 = e13 | all_0_214_214 = e13 | all_0_219_219 = e13 | all_0_224_224 = e13) & (all_0_211_211 = e12 | all_0_214_214 = e12 | all_0_219_219 = e12 | all_0_224_224 = e12) & (all_0_212_212 = e14 | all_0_212_212 = e12) & (all_0_212_212 = e14 | all_0_216_216 = e14 | all_0_221_221 = e14) & (all_0_212_212 = e12 | all_0_216_216 = e12 | all_0_221_221 = e12 | all_0_225_225 = e12) & (all_0_213_213 = e14 | all_0_213_213 = e13 | all_0_213_213 = e12) & (all_0_213_213 = e14 | all_0_214_214 = e14 | all_0_216_216 = e14) & (all_0_213_213 = e14 | all_0_217_217 = e14 | all_0_226_226 = e14) & (all_0_213_213 = e13 | all_0_214_214 = e13 | all_0_215_215 = e13) & (all_0_213_213 = e13 | all_0_217_217 = e13 | all_0_222_222 = e13) & (all_0_213_213 = e12 | all_0_214_214 = e12 | all_0_216_216 = e12) & (all_0_213_213 = e12 | all_0_217_217 = e12 | all_0_222_222 = e12) & (all_0_214_214 = e14 | all_0_214_214 = e13 | all_0_214_214 = e12 | all_0_214_214 = e11) & (all_0_214_214 = e11 | all_0_215_215 = e11 | all_0_216_216 = e11) & (all_0_214_214 = e11 | all_0_219_219 = e11 | all_0_224_224 = e11 | all_0_228_228 = e11) & (all_0_215_215 = e13 | all_0_215_215 = e11) & (all_0_215_215 = e13 | all_0_220_220 = e13) & (all_0_215_215 = e11 | all_0_220_220 = e11) & (all_0_216_216 = e14 | all_0_216_216 = e12 | all_0_216_216 = e11) & (all_0_216_216 = e11 | all_0_221_221 = e11 | all_0_225_225 = e11) & (all_0_217_217 = e14 | all_0_217_217 = e13 | all_0_217_217 = e12 | all_0_217_217 = e10) & (all_0_217_217 = e14 | all_0_218_218 = e14 | all_0_219_219 = e14 | all_0_221_221 = e14) & (all_0_217_217 = e13 | all_0_218_218 = e13 | all_0_219_219 = e13 | all_0_220_220 = e13) & (all_0_217_217 = e12 | all_0_218_218 = e12 | all_0_219_219 = e12 | all_0_221_221 = e12) & (all_0_217_217 = e10 | all_0_219_219 = e10 | all_0_221_221 = e10) & (all_0_217_217 = e10 | all_0_222_222 = e10 | all_0_226_226 = e10) & (all_0_218_218 = e14 | all_0_218_218 = e13 | all_0_218_218 = e12 | all_0_218_218 = e11) & (all_0_218_218 = e11 | all_0_219_219 = e11 | all_0_220_220 = e11 | all_0_221_221 = e11) & (all_0_218_218 = e11 | all_0_223_223 = e11 | all_0_227_227 = e11) & (all_0_219_219 = e14 | all_0_219_219 = e13 | all_0_219_219 = e12 | all_0_219_219 = e11 | all_0_219_219 = e10) & (all_0_219_219 = e10 | all_0_224_224 = e10 | all_0_228_228 = e10) & (all_0_220_220 = e13 | all_0_220_220 = e11) & (all_0_221_221 = e14 | all_0_221_221 = e12 | all_0_221_221 = e11 | all_0_221_221 = e10) & (all_0_221_221 = e10 | all_0_225_225 = e10) & (all_0_222_222 = e13 | all_0_222_222 = e12 | all_0_222_222 = e10) & (all_0_222_222 = e13 | all_0_223_223 = e13 | all_0_224_224 = e13) & (all_0_222_222 = e12 | all_0_223_223 = e12 | all_0_224_224 = e12 | all_0_225_225 = e12) & (all_0_222_222 = e10 | all_0_224_224 = e10 | all_0_225_225 = e10) & (all_0_223_223 = e13 | all_0_223_223 = e12 | all_0_223_223 = e11) & (all_0_223_223 = e11 | all_0_224_224 = e11 | all_0_225_225 = e11) & (all_0_224_224 = e13 | all_0_224_224 = e12 | all_0_224_224 = e11 | all_0_224_224 = e10) & (all_0_225_225 = e12 | all_0_225_225 = e11 | all_0_225_225 = e10) & (all_0_226_226 = e14 | all_0_226_226 = e10) & (all_0_226_226 = e14 | all_0_227_227 = e14 | all_0_228_228 = e14) & (all_0_226_226 = e10 | all_0_228_228 = e10) & (all_0_227_227 = e14 | all_0_227_227 = e11) & (all_0_227_227 = e11 | all_0_228_228 = e11) & (all_0_228_228 = e14 | all_0_228_228 = e11 | all_0_228_228 = e10)
% 17.46/4.59 |
% 17.46/4.59 | Applying alpha-rule on (1) yields:
% 17.46/4.59 | (2) op2(all_0_200_200, all_0_200_200) = e22
% 17.46/4.59 | (3) ~ (all_0_208_208 = e23)
% 17.46/4.60 | (4) ~ (all_0_194_194 = e20)
% 17.46/4.60 | (5) all_0_217_217 = e10 | all_0_222_222 = e10 | all_0_226_226 = e10
% 17.46/4.60 | (6) all_0_208_208 = e24 | all_0_208_208 = e21
% 17.46/4.60 | (7) op1(e14, e14) = e11
% 17.46/4.60 | (8) op1(e14, e11) = e10
% 17.46/4.60 | (9) all_0_194_194 = e24 | all_0_195_195 = e24 | all_0_197_197 = e24
% 17.46/4.60 | (10) all_0_209_209 = e24 | all_0_209_209 = e21 | all_0_209_209 = e20
% 17.46/4.60 | (11) ~ (e14 = e10)
% 17.46/4.60 | (12) ~ (all_0_191_191 = all_0_193_193)
% 17.46/4.60 | (13) op2(all_0_203_203, all_0_188_188) = all_0_138_138
% 17.46/4.60 | (14) ~ (all_0_210_210 = all_0_211_211)
% 17.46/4.60 | (15) op2(all_0_184_184, e22) = all_0_66_66
% 17.46/4.60 | (16) ~ (all_0_198_198 = all_0_199_199)
% 17.46/4.60 | (17) op2(all_0_186_186, e22) = all_0_94_94
% 17.46/4.60 | (18) op2(all_0_188_188, e21) = all_0_117_117
% 17.46/4.60 | (19) h4(all_0_216_216) = all_0_33_33
% 17.46/4.60 | (20) h3(e11) = all_0_200_200
% 17.46/4.60 | (21) op2(all_0_201_201, all_0_205_205) = e21
% 17.46/4.60 | (22) op2(all_0_182_182, e23) = all_0_25_25
% 17.46/4.60 | (23) ~ (all_0_201_201 = e20)
% 17.46/4.60 | (24) all_0_218_218 = e14 | all_0_218_218 = e13 | all_0_218_218 = e12 | all_0_218_218 = e11
% 17.46/4.60 | (25) ~ (all_0_217_217 = all_0_226_226)
% 17.46/4.60 | (26) ~ (all_0_222_222 = all_0_223_223)
% 17.46/4.60 | (27) op2(e20, e20) = e23
% 17.46/4.60 | (28) all_0_222_222 = e10 | all_0_224_224 = e10 | all_0_225_225 = e10
% 17.46/4.60 | (29) h2(all_0_214_214) = all_0_112_112
% 17.46/4.60 | (30) op2(all_0_208_208, all_0_190_190) = all_0_178_178
% 17.46/4.60 | (31) op2(all_0_200_200, all_0_186_186) = all_0_92_92
% 17.46/4.60 | (32) ~ (all_0_211_211 = all_0_212_212)
% 17.46/4.60 | (33) all_0_211_211 = e13 | all_0_214_214 = e13 | all_0_219_219 = e13 | all_0_224_224 = e13
% 17.46/4.60 | (34) ~ (e20 = e12)
% 17.46/4.60 | (35) op1(e11, e14) = all_0_222_222
% 17.46/4.60 | (36) ~ (all_0_195_195 = e20)
% 17.46/4.60 | (37) h4(all_0_228_228) = all_0_56_56
% 17.46/4.60 | (38) h2(all_0_226_226) = all_0_135_135
% 17.46/4.60 | (39) ~ (all_0_216_216 = e13)
% 17.46/4.60 | (40) ~ (all_0_211_211 = all_0_224_224)
% 17.46/4.60 | (41) op2(all_0_183_183, e20) = all_0_40_40
% 17.46/4.60 | (42) ~ (all_0_212_212 = e11)
% 17.46/4.60 | (43) ~ (all_0_196_196 = all_0_197_197)
% 17.46/4.60 | (44) ~ (all_0_196_196 = e20)
% 17.46/4.60 | (45) ~ (all_0_223_223 = e10)
% 17.46/4.60 | (46) all_0_191_191 = e24 | all_0_199_199 = e24 | all_0_208_208 = e24
% 17.46/4.60 | (47) all_0_191_191 = e22 | all_0_199_199 = e22 | all_0_204_204 = e22
% 17.46/4.60 | (48) all_0_194_194 = e24 | all_0_194_194 = e23 | all_0_194_194 = e22
% 17.46/4.60 | (49) all_0_228_228 = e14 | all_0_228_228 = e11 | all_0_228_228 = e10
% 17.46/4.60 | (50) h5(all_0_217_217) = all_0_7_7
% 17.46/4.60 | (51) ~ (all_0_191_191 = e20)
% 17.46/4.60 | (52) op1(all_0_210_210, all_0_213_213) = e13
% 17.46/4.60 | (53) ~ (all_0_199_199 = all_0_208_208)
% 17.46/4.60 | (54) op1(all_0_216_216, all_0_227_227) = e10
% 17.46/4.60 | (55) op2(all_0_187_187, e21) = all_0_108_108
% 17.46/4.60 | (56) all_0_223_223 = e11 | all_0_224_224 = e11 | all_0_225_225 = e11
% 17.46/4.60 | (57) ~ (all_0_193_193 = e20)
% 17.46/4.60 | (58) op2(all_0_197_197, all_0_183_183) = all_0_55_55
% 17.46/4.60 | (59) ~ (all_0_216_216 = all_0_221_221)
% 17.46/4.60 | (60) op1(e12, all_0_225_225) = e11
% 17.46/4.60 | (61) h3(e10) = all_0_186_186
% 17.46/4.60 | (62) op2(e20, e21) = e22
% 17.46/4.60 | (63) all_0_203_203 = e23 | all_0_203_203 = e22 | all_0_203_203 = e20
% 17.46/4.60 | (64) all_0_191_191 = e22 | all_0_192_192 = e22 | all_0_193_193 = e22
% 17.46/4.60 | (65) ~ (all_0_198_198 = all_0_203_203)
% 17.46/4.60 | (66) all_0_194_194 = e22 | all_0_198_198 = e22 | all_0_203_203 = e22
% 17.46/4.60 | (67) op2(all_0_186_186, all_0_186_186) = all_0_184_184
% 17.46/4.60 | (68) all_0_217_217 = e14 | all_0_217_217 = e13 | all_0_217_217 = e12 | all_0_217_217 = e10
% 17.46/4.60 | (69) all_0_200_200 = e20 | all_0_205_205 = e20 | all_0_209_209 = e20
% 17.46/4.60 | (70) all_0_227_227 = e11 | all_0_228_228 = e11
% 17.46/4.60 | (71) all_0_213_213 = e13 | all_0_214_214 = e13 | all_0_215_215 = e13
% 17.46/4.60 | (72) h1(all_0_215_215) = all_0_154_154
% 17.46/4.60 | (73) ~ (all_0_210_210 = e11)
% 17.46/4.60 | (74) ~ (all_0_193_193 = e21)
% 17.46/4.60 | (75) ~ (all_0_216_216 = e10)
% 17.46/4.60 | (76) op2(all_0_208_208, all_0_197_197) = e23
% 17.46/4.60 | (77) ~ (all_0_219_219 = all_0_220_220)
% 17.46/4.60 | (78) op2(all_0_198_198, all_0_192_192) = e24
% 17.46/4.60 | (79) h1(all_0_227_227) = all_0_177_177
% 17.46/4.60 | (80) all_0_216_216 = e14 | all_0_216_216 = e12 | all_0_216_216 = e11
% 17.46/4.60 | (81) op1(all_0_214_214, all_0_218_218) = e12
% 17.46/4.60 | (82) ~ (all_0_217_217 = all_0_218_218)
% 17.46/4.60 | (83) all_0_213_213 = e14 | all_0_214_214 = e14 | all_0_216_216 = e14
% 17.46/4.60 | (84) ~ (e14 = e13)
% 17.46/4.60 | (85) ~ (all_0_224_224 = all_0_225_225)
% 17.46/4.60 | (86) op1(e13, e10) = all_0_216_216
% 17.46/4.60 | (87) ~ (all_0_210_210 = e10)
% 17.46/4.60 | (88) all_0_213_213 = e13 | all_0_217_217 = e13 | all_0_222_222 = e13
% 17.46/4.60 | (89) op2(e20, all_0_189_189) = all_0_142_142
% 17.46/4.60 | (90) ! [v0] : ! [v1] : ! [v2] : ! [v3] : (v1 = v0 | ~ (op1(v3, v2) = v1) | ~ (op1(v3, v2) = v0))
% 17.46/4.60 | (91) op2(all_0_208_208, e23) = all_0_190_190
% 17.46/4.60 | (92) ~ (all_0_196_196 = all_0_201_201)
% 17.46/4.60 | (93) op2(all_0_202_202, all_0_209_209) = e20
% 17.46/4.60 | (94) ~ (all_0_227_227 = e13)
% 17.46/4.60 | (95) ~ (e24 = e20)
% 17.46/4.60 | (96) all_0_218_218 = e11 | all_0_219_219 = e11 | all_0_220_220 = e11 | all_0_221_221 = e11
% 17.46/4.60 | (97) h3(e14) = e22
% 17.46/4.60 | (98) ~ (all_0_221_221 = e13)
% 17.46/4.60 | (99) ~ (all_0_215_215 = all_0_220_220)
% 17.46/4.60 | (100) ~ (all_0_226_226 = e11)
% 17.46/4.60 | (101) op2(e24, e20) = all_0_193_193
% 17.46/4.60 | (102) ~ (all_0_193_193 = all_0_197_197)
% 17.46/4.60 | (103) all_0_222_222 = e12 | all_0_223_223 = e12 | all_0_224_224 = e12 | all_0_225_225 = e12
% 17.46/4.60 | (104) ~ (all_0_212_212 = all_0_216_216)
% 17.46/4.60 | (105) op2(e24, e24) = e21
% 17.46/4.60 | (106) op2(all_0_189_189, e20) = all_0_148_148
% 17.46/4.60 | (107) h5(all_0_226_226) = all_0_16_16
% 17.46/4.60 | (108) op2(e21, all_0_188_188) = all_0_104_104
% 17.46/4.60 | (109) h2(all_0_218_218) = all_0_120_120
% 17.46/4.61 | (110) ~ (all_0_215_215 = e12)
% 17.46/4.61 | (111) op2(all_0_206_206, e22) = e20
% 17.46/4.61 | (112) h5(e13) = e23
% 17.46/4.61 | (113) h3(e13) = all_0_184_184
% 17.46/4.61 | (114) all_0_217_217 = e14 | all_0_218_218 = e14 | all_0_219_219 = e14 | all_0_221_221 = e14
% 17.46/4.61 | (115) op2(all_0_186_186, all_0_186_186) = all_0_101_101
% 17.46/4.61 | (116) all_0_212_212 = e14 | all_0_216_216 = e14 | all_0_221_221 = e14
% 17.46/4.61 | (117) op1(all_0_228_228, all_0_221_221) = e12
% 17.46/4.61 | (118) h1(all_0_218_218) = all_0_160_160
% 17.46/4.61 | (119) all_0_219_219 = e10 | all_0_224_224 = e10 | all_0_228_228 = e10
% 17.46/4.61 | (120) h2(all_0_223_223) = all_0_129_129
% 17.46/4.61 | (121) h3(all_0_227_227) = all_0_97_97
% 17.46/4.61 | (122) h2(e13) = all_0_187_187
% 17.46/4.61 | (123) h4(e14) = e23
% 17.46/4.61 | (124) h3(all_0_228_228) = all_0_99_99
% 17.46/4.61 | (125) op2(all_0_197_197, all_0_197_197) = all_0_58_58
% 17.46/4.61 | (126) op2(e21, e20) = all_0_206_206
% 17.46/4.61 | (127) ~ (all_0_209_209 = e22)
% 17.46/4.61 | (128) op1(e10, e10) = e13
% 17.46/4.61 | (129) op2(e23, all_0_189_189) = all_0_168_168
% 17.46/4.61 | (130) all_0_210_210 = e14 | all_0_218_218 = e14 | all_0_227_227 = e14
% 17.46/4.61 | (131) op2(all_0_197_197, all_0_208_208) = e20
% 17.46/4.61 | (132) h1(all_0_224_224) = all_0_171_171
% 17.46/4.61 | (133) op2(e24, e21) = e20
% 17.46/4.61 | (134) ~ (all_0_218_218 = all_0_220_220)
% 17.46/4.61 | (135) op2(e23, all_0_183_183) = all_0_21_21
% 17.46/4.61 | (136) h3(all_0_210_210) = all_0_60_60
% 17.46/4.61 | (137) op1(e12, e13) = all_0_218_218
% 17.46/4.61 | (138) all_0_214_214 = e14 | all_0_214_214 = e13 | all_0_214_214 = e12 | all_0_214_214 = e11
% 17.46/4.61 | (139) all_0_194_194 = e23 | all_0_198_198 = e23 | all_0_203_203 = e23
% 17.46/4.61 | (140) all_0_220_220 = e13 | all_0_220_220 = e11
% 17.46/4.61 | (141) op2(e23, e23) = e20
% 17.46/4.61 | (142) op2(all_0_203_203, e24) = all_0_140_140
% 17.46/4.61 | (143) h5(all_0_211_211) = all_0_1_1
% 17.46/4.61 | (144) op2(all_0_186_186, all_0_200_200) = all_0_185_185
% 17.46/4.61 | (145) ~ (all_0_207_207 = all_0_208_208)
% 17.46/4.61 | (146) h3(all_0_220_220) = all_0_82_82
% 17.46/4.61 | (147) all_0_210_210 = e14 | all_0_211_211 = e14 | all_0_212_212 = e14
% 17.46/4.61 | (148) h1(e14) = e20
% 17.46/4.61 | (149) op1(e12, e11) = all_0_220_220
% 17.46/4.61 | (150) op2(all_0_203_203, all_0_203_203) = all_0_141_141
% 17.46/4.61 | (151) ~ (all_0_191_191 = all_0_199_199)
% 17.46/4.61 | (152) all_0_213_213 = e14 | all_0_213_213 = e13 | all_0_213_213 = e12
% 17.46/4.61 | (153) ~ (all_0_220_220 = e14)
% 17.46/4.61 | (154) all_0_193_193 = e24 | all_0_193_193 = e22
% 17.46/4.61 | (155) h4(all_0_218_218) = all_0_37_37
% 17.46/4.61 | (156) ~ (all_0_213_213 = all_0_215_215)
% 17.46/4.61 | (157) h4(all_0_213_213) = all_0_26_26
% 17.46/4.61 | (158) op2(all_0_189_189, all_0_190_190) = all_0_151_151
% 17.46/4.61 | (159) ~ (e12 = e10)
% 17.46/4.61 | (160) ~ (all_0_201_201 = all_0_202_202)
% 17.46/4.61 | (161) h4(all_0_219_219) = all_0_39_39
% 17.46/4.61 | (162) ~ (all_0_193_193 = all_0_206_206)
% 17.46/4.61 | (163) ~ (all_0_220_220 = e12)
% 17.46/4.61 | (164) ~ (e22 = e12)
% 17.46/4.61 | (165) ~ (e22 = e11)
% 17.46/4.61 | (166) h1(all_0_210_210) = all_0_143_143
% 17.46/4.61 | (167) ~ (all_0_204_204 = e20)
% 17.46/4.61 | (168) h5(all_0_223_223) = all_0_13_13
% 17.46/4.61 | (169) ~ (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) | ~ (all_0_27_27 = all_0_197_197) | ~ (all_0_28_28 = all_0_29_29) | ~ (all_0_30_30 = all_0_31_31) | ~ (all_0_32_32 = all_0_33_33) | ~ (all_0_34_34 = all_0_35_35) | ~ (all_0_36_36 = all_0_37_37) | ~ (all_0_38_38 = all_0_39_39) | ~ (all_0_40_40 = all_0_41_41) | ~ (all_0_42_42 = all_0_43_43) | ~ (all_0_44_44 = all_0_208_208) | ~ (all_0_45_45 = all_0_46_46) | ~ (all_0_47_47 = all_0_48_48) | ~ (all_0_49_49 = all_0_50_50) | ~ (all_0_51_51 = all_0_52_52) | ~ (all_0_53_53 = all_0_54_54) | ~ (all_0_55_55 = all_0_56_56) | ~ (all_0_57_57 = all_0_183_183) | ~ (all_0_58_58 = all_0_182_182) | ( ~ (all_0_182_182 = e24) & ~ (all_0_183_183 = e24) & ~ (all_0_197_197 = e24)) | ( ~ (all_0_182_182 = e22) & ~ (all_0_183_183 = e22) & ~ (all_0_197_197 = e22)) | ( ~ (all_0_182_182 = e21) & ~ (all_0_183_183 = e21) & ~ (all_0_197_197 = e21))
% 17.46/4.61 | (170) h1(all_0_225_225) = all_0_173_173
% 17.46/4.61 | (171) all_0_197_197 = e24 | all_0_197_197 = e22 | all_0_197_197 = e21
% 17.46/4.61 | (172) ~ (e20 = e10)
% 17.46/4.61 | (173) ~ (all_0_200_200 = all_0_205_205)
% 17.46/4.61 | (174) op2(e22, e20) = all_0_202_202
% 17.46/4.61 | (175) op2(all_0_203_203, all_0_187_187) = all_0_136_136
% 17.46/4.61 | (176) op2(e21, e24) = all_0_203_203
% 17.46/4.61 | (177) op2(all_0_185_185, all_0_200_200) = all_0_81_81
% 17.46/4.61 | (178) op2(all_0_193_193, all_0_207_207) = e20
% 17.46/4.61 | (179) op1(e11, e13) = all_0_223_223
% 17.46/4.61 | (180) ~ (all_0_224_224 = e14)
% 17.46/4.61 | (181) h2(e11) = e24
% 17.46/4.61 | (182) all_0_210_210 = e12 | all_0_211_211 = e12 | all_0_212_212 = e12
% 17.46/4.61 | (183) ~ (all_0_219_219 = all_0_228_228)
% 17.46/4.61 | (184) h4(all_0_220_220) = all_0_41_41
% 17.46/4.61 | (185) ~ (all_0_208_208 = e20)
% 17.46/4.61 | (186) all_0_200_200 = e24 | all_0_200_200 = e23 | all_0_200_200 = e22 | all_0_200_200 = e21 | all_0_200_200 = e20
% 17.46/4.61 | (187) op2(all_0_197_197, e20) = all_0_57_57
% 17.46/4.61 | (188) op2(all_0_187_187, all_0_187_187) = all_0_110_110
% 17.46/4.61 | (189) op2(all_0_207_207, all_0_193_193) = e24
% 17.46/4.61 | (190) op2(all_0_197_197, all_0_182_182) = all_0_53_53
% 17.46/4.61 | (191) op2(all_0_185_185, all_0_184_184) = all_0_77_77
% 17.46/4.61 | (192) ~ (e20 = e13)
% 17.46/4.61 | (193) h3(all_0_211_211) = all_0_62_62
% 17.46/4.61 | (194) ~ (all_0_214_214 = all_0_224_224)
% 17.46/4.61 | (195) ~ (e13 = e10)
% 17.46/4.61 | (196) op2(e22, all_0_184_184) = all_0_59_59
% 17.46/4.61 | (197) op2(all_0_197_197, all_0_197_197) = all_0_182_182
% 17.46/4.61 | (198) op2(all_0_205_205, all_0_201_201) = e22
% 17.46/4.61 | (199) ! [v0] : ! [v1] : ! [v2] : (v1 = v0 | ~ (h1(v2) = v1) | ~ (h1(v2) = v0))
% 17.46/4.61 | (200) op2(all_0_190_190, all_0_208_208) = all_0_165_165
% 17.46/4.61 | (201) op2(e21, all_0_203_203) = all_0_106_106
% 17.46/4.61 | (202) all_0_211_211 = e12 | all_0_214_214 = e12 | all_0_219_219 = e12 | all_0_224_224 = e12
% 17.46/4.61 | (203) all_0_198_198 = e23 | all_0_199_199 = e23 | all_0_200_200 = e23 | all_0_201_201 = e23
% 17.46/4.61 | (204) ~ (e23 = e12)
% 17.46/4.61 | (205) op2(all_0_184_184, all_0_184_184) = all_0_68_68
% 17.46/4.62 | (206) op2(all_0_200_200, e22) = all_0_85_85
% 17.46/4.62 | (207) ~ (all_0_222_222 = all_0_226_226)
% 17.46/4.62 | (208) ! [v0] : ! [v1] : ! [v2] : (v1 = v0 | ~ (h5(v2) = v1) | ~ (h5(v2) = v0))
% 17.46/4.62 | (209) h2(all_0_212_212) = all_0_107_107
% 17.46/4.62 | (210) ~ (all_0_213_213 = all_0_214_214)
% 17.46/4.62 | (211) h4(all_0_212_212) = all_0_24_24
% 17.46/4.62 | (212) h4(all_0_223_223) = all_0_46_46
% 17.46/4.62 | (213) ~ (all_0_191_191 = all_0_208_208)
% 17.46/4.62 | (214) ~ (all_0_198_198 = all_0_201_201)
% 17.46/4.62 | (215) h5(e10) = e20
% 17.46/4.62 | (216) all_0_225_225 = e12 | all_0_225_225 = e11 | all_0_225_225 = e10
% 17.46/4.62 | (217) all_0_194_194 = e23 | all_0_195_195 = e23 | all_0_196_196 = e23
% 17.46/4.62 | (218) h1(e12) = all_0_190_190
% 17.46/4.62 | (219) ~ (all_0_200_200 = all_0_209_209)
% 17.46/4.62 | (220) ~ (all_0_102_102 = all_0_103_103) | ~ (all_0_104_104 = all_0_105_105) | ~ (all_0_106_106 = all_0_107_107) | ~ (all_0_108_108 = all_0_109_109) | ~ (all_0_110_110 = all_0_203_203) | ~ (all_0_111_111 = all_0_112_112) | ~ (all_0_113_113 = all_0_114_114) | ~ (all_0_115_115 = all_0_116_116) | ~ (all_0_117_117 = all_0_118_118) | ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_127_127 = e20) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 17.46/4.62 | (221) all_0_196_196 = e21 | all_0_201_201 = e21
% 17.46/4.62 | (222) ~ (all_0_228_228 = e12)
% 17.46/4.62 | (223) all_0_198_198 = e24 | all_0_198_198 = e23 | all_0_198_198 = e22 | all_0_198_198 = e20
% 17.46/4.62 | (224) all_0_192_192 = e23 | all_0_195_195 = e23 | all_0_200_200 = e23 | all_0_205_205 = e23
% 17.46/4.62 | (225) op1(e13, e11) = all_0_215_215
% 17.46/4.62 | (226) ~ (all_0_207_207 = e21)
% 17.46/4.62 | (227) ~ (all_0_200_200 = all_0_201_201)
% 17.46/4.62 | (228) h5(all_0_224_224) = all_0_14_14
% 17.46/4.62 | (229) ~ (all_0_222_222 = e11)
% 17.46/4.62 | (230) ~ (e20 = e11)
% 17.46/4.62 | (231) op2(e23, e24) = all_0_194_194
% 17.46/4.62 | (232) op2(all_0_187_187, all_0_203_203) = all_0_115_115
% 17.46/4.62 | (233) ~ (all_0_211_211 = e10)
% 17.46/4.62 | (234) all_0_194_194 = e24 | all_0_198_198 = e24 | all_0_207_207 = e24
% 17.46/4.62 | (235) ~ (all_0_213_213 = all_0_222_222)
% 17.46/4.62 | (236) ~ (all_0_227_227 = e12)
% 17.46/4.62 | (237) ~ (all_0_196_196 = e24)
% 17.46/4.62 | (238) h1(all_0_216_216) = all_0_156_156
% 17.46/4.62 | (239) ~ (all_0_194_194 = all_0_207_207)
% 17.46/4.62 | (240) op2(e20, all_0_182_182) = all_0_45_45
% 17.46/4.62 | (241) h1(e13) = all_0_189_189
% 17.46/4.62 | (242) ~ (all_0_205_205 = e24)
% 17.46/4.62 | (243) h1(all_0_213_213) = all_0_149_149
% 17.46/4.62 | (244) op2(e22, all_0_200_200) = all_0_63_63
% 17.46/4.62 | (245) h2(all_0_228_228) = all_0_139_139
% 17.46/4.62 | (246) all_0_201_201 = e23 | all_0_201_201 = e21
% 17.46/4.62 | (247) h5(all_0_227_227) = all_0_17_17
% 17.46/4.62 | (248) ~ (all_0_193_193 = all_0_202_202)
% 17.46/4.62 | (249) all_0_194_194 = e22 | all_0_195_195 = e22 | all_0_197_197 = e22
% 17.46/4.62 | (250) ~ (e23 = e11)
% 17.46/4.62 | (251) op2(e22, e24) = all_0_198_198
% 17.46/4.62 | (252) op2(e22, e21) = all_0_201_201
% 17.46/4.62 | (253) ~ (all_0_192_192 = all_0_205_205)
% 17.46/4.62 | (254) h3(all_0_225_225) = all_0_93_93
% 17.46/4.62 | (255) op2(e23, all_0_197_197) = all_0_23_23
% 17.46/4.62 | (256) h5(e14) = e24
% 17.46/4.62 | (257) all_0_191_191 = e23 | all_0_192_192 = e23
% 17.46/4.62 | (258) op2(e23, e20) = all_0_197_197
% 17.46/4.62 | (259) h3(all_0_217_217) = all_0_76_76
% 17.46/4.62 | (260) op1(all_0_219_219, all_0_219_219) = e12
% 17.46/4.62 | (261) ~ (e21 = e13)
% 17.46/4.62 | (262) op1(all_0_227_227, all_0_216_216) = e13
% 17.46/4.62 | (263) ~ (all_0_199_199 = all_0_200_200)
% 17.46/4.62 | (264) op2(e24, all_0_188_188) = all_0_130_130
% 17.46/4.62 | (265) op1(e12, e14) = all_0_217_217
% 17.46/4.62 | (266) op2(all_0_188_188, e24) = all_0_123_123
% 17.46/4.62 | (267) h2(all_0_222_222) = all_0_127_127
% 17.46/4.62 | (268) ! [v0] : ! [v1] : ! [v2] : (v1 = v0 | ~ (h3(v2) = v1) | ~ (h3(v2) = v0))
% 17.46/4.62 | (269) op2(all_0_189_189, e23) = all_0_153_153
% 17.46/4.62 | (270) h3(all_0_226_226) = all_0_95_95
% 17.46/4.62 | (271) h5(all_0_212_212) = all_0_2_2
% 17.46/4.62 | (272) op2(all_0_191_191, all_0_194_194) = e23
% 17.46/4.62 | (273) ~ (all_0_215_215 = e10)
% 17.46/4.62 | (274) ~ (all_0_204_204 = all_0_206_206)
% 17.46/4.62 | (275) h2(all_0_227_227) = all_0_137_137
% 17.46/4.62 | (276) h5(all_0_222_222) = all_0_12_12
% 17.46/4.62 | (277) ~ (all_0_226_226 = all_0_227_227)
% 17.46/4.62 | (278) ~ (e24 = e21)
% 17.46/4.62 | (279) ~ (e21 = e20)
% 17.46/4.62 | (280) h1(e10) = all_0_208_208
% 17.46/4.62 | (281) ~ (all_0_223_223 = all_0_224_224)
% 17.46/4.62 | (282) ~ (all_0_215_215 = e14)
% 17.46/4.62 | (283) ~ (all_0_216_216 = all_0_225_225)
% 17.46/4.62 | (284) ~ (all_0_193_193 = e23)
% 17.46/4.62 | (285) op2(all_0_183_183, all_0_183_183) = all_0_38_38
% 17.46/4.62 | (286) op2(all_0_190_190, e20) = all_0_157_157
% 17.46/4.62 | (287) op2(e20, all_0_183_183) = all_0_47_47
% 17.46/4.62 | (288) h2(all_0_215_215) = all_0_114_114
% 17.46/4.62 | (289) ~ (all_0_197_197 = all_0_206_206)
% 17.46/4.62 | (290) h1(all_0_212_212) = all_0_147_147
% 17.46/4.62 | (291) all_0_193_193 = e24 | all_0_197_197 = e24 | all_0_202_202 = e24
% 17.46/4.62 | (292) h5(all_0_225_225) = all_0_15_15
% 17.46/4.62 | (293) op2(e20, all_0_208_208) = all_0_146_146
% 17.46/4.62 | (294) ~ (all_0_223_223 = all_0_225_225)
% 17.46/4.62 | (295) all_0_215_215 = e11 | all_0_220_220 = e11
% 17.46/4.62 | (296) op1(e10, all_0_222_222) = e11
% 17.46/4.62 | (297) ~ (e24 = e14)
% 17.46/4.62 | (298) op2(all_0_204_204, all_0_196_196) = e23
% 17.46/4.62 | (299) h3(e12) = all_0_185_185
% 17.46/4.62 | (300) op2(e21, e23) = all_0_204_204
% 17.46/4.62 | (301) op2(all_0_188_188, all_0_203_203) = all_0_125_125
% 17.46/4.62 | (302) ~ (all_0_192_192 = all_0_193_193)
% 17.46/4.62 | (303) all_0_199_199 = e21 | all_0_200_200 = e21 | all_0_201_201 = e21 | all_0_202_202 = e21
% 17.46/4.62 | (304) ~ (all_0_214_214 = all_0_228_228)
% 17.46/4.62 | (305) all_0_211_211 = e14 | all_0_211_211 = e13 | all_0_211_211 = e12
% 17.46/4.62 | (306) ~ (all_0_192_192 = e20)
% 17.46/4.62 | (307) ~ (all_0_191_191 = all_0_192_192)
% 17.46/4.62 | (308) h4(all_0_227_227) = all_0_54_54
% 17.46/4.62 | (309) all_0_222_222 = e13 | all_0_223_223 = e13 | all_0_224_224 = e13
% 17.46/4.62 | (310) all_0_226_226 = e14 | all_0_227_227 = e14 | all_0_228_228 = e14
% 17.46/4.62 | (311) op2(all_0_200_200, all_0_184_184) = all_0_87_87
% 17.46/4.62 | (312) op2(all_0_208_208, all_0_189_189) = all_0_176_176
% 17.46/4.62 | (313) all_0_221_221 = e10 | all_0_225_225 = e10
% 17.46/4.62 | (314) ~ (all_0_191_191 = e21)
% 17.46/4.62 | (315) ~ (all_0_59_59 = all_0_60_60) | ~ (all_0_61_61 = all_0_62_62) | ~ (all_0_63_63 = all_0_186_186) | ~ (all_0_64_64 = all_0_65_65) | ~ (all_0_66_66 = all_0_67_67) | ~ (all_0_68_68 = all_0_186_186) | ~ (all_0_69_69 = all_0_70_70) | ~ (all_0_71_71 = all_0_72_72) | ~ (all_0_73_73 = all_0_74_74) | ~ (all_0_75_75 = all_0_76_76) | ~ (all_0_77_77 = all_0_78_78) | ~ (all_0_79_79 = all_0_80_80) | ~ (all_0_81_81 = all_0_82_82) | ~ (all_0_83_83 = all_0_84_84) | ~ (all_0_85_85 = all_0_86_86) | ~ (all_0_87_87 = all_0_88_88) | ~ (all_0_89_89 = all_0_90_90) | ~ (all_0_91_91 = e22) | ~ (all_0_92_92 = all_0_93_93) | ~ (all_0_94_94 = all_0_95_95) | ~ (all_0_96_96 = all_0_97_97) | ~ (all_0_98_98 = all_0_99_99) | ~ (all_0_100_100 = all_0_185_185) | ~ (all_0_101_101 = all_0_184_184) | ( ~ (all_0_184_184 = e24) & ~ (all_0_185_185 = e24) & ~ (all_0_186_186 = e24) & ~ (all_0_200_200 = e24)) | ( ~ (all_0_184_184 = e23) & ~ (all_0_185_185 = e23) & ~ (all_0_186_186 = e23) & ~ (all_0_200_200 = e23)) | ( ~ (all_0_184_184 = e21) & ~ (all_0_185_185 = e21) & ~ (all_0_186_186 = e21) & ~ (all_0_200_200 = e21)) | ( ~ (all_0_184_184 = e20) & ~ (all_0_185_185 = e20) & ~ (all_0_186_186 = e20) & ~ (all_0_200_200 = e20))
% 17.46/4.63 | (316) h5(e12) = e22
% 17.46/4.63 | (317) op2(e24, all_0_187_187) = all_0_128_128
% 17.46/4.63 | (318) ~ (all_0_222_222 = all_0_225_225)
% 17.46/4.63 | (319) ~ (all_0_194_194 = all_0_198_198)
% 17.46/4.63 | (320) all_0_212_212 = e12 | all_0_216_216 = e12 | all_0_221_221 = e12 | all_0_225_225 = e12
% 17.46/4.63 | (321) op2(all_0_208_208, e20) = all_0_174_174
% 17.46/4.63 | (322) ~ (all_0_207_207 = e22)
% 17.46/4.63 | (323) h3(all_0_216_216) = all_0_74_74
% 17.46/4.63 | (324) h1(all_0_228_228) = all_0_179_179
% 17.46/4.63 | (325) ~ (all_0_202_202 = e23)
% 17.46/4.63 | (326) ~ (all_0_222_222 = all_0_224_224)
% 17.46/4.63 | (327) op2(e20, all_0_190_190) = all_0_144_144
% 17.46/4.63 | (328) all_0_222_222 = e13 | all_0_222_222 = e12 | all_0_222_222 = e10
% 17.46/4.63 | (329) op2(e22, e23) = all_0_199_199
% 17.46/4.63 | (330) op2(e20, e22) = all_0_209_209
% 17.46/4.63 | (331) op2(all_0_186_186, all_0_184_184) = all_0_96_96
% 17.46/4.63 | (332) ~ (all_0_218_218 = all_0_223_223)
% 17.46/4.63 | (333) ~ (e21 = e10)
% 17.46/4.63 | (334) ~ (all_0_191_191 = all_0_204_204)
% 17.46/4.63 | (335) op1(all_0_215_215, all_0_223_223) = e11
% 17.46/4.63 | (336) all_0_213_213 = e12 | all_0_214_214 = e12 | all_0_216_216 = e12
% 17.46/4.63 | (337) ~ (all_0_210_210 = all_0_227_227)
% 17.46/4.63 | (338) ~ (all_0_196_196 = e22)
% 17.46/4.63 | (339) ~ (all_0_223_223 = all_0_227_227)
% 17.46/4.63 | (340) op1(e10, e12) = all_0_228_228
% 17.46/4.63 | (341) ~ (all_0_225_225 = e13)
% 17.46/4.63 | (342) h5(all_0_228_228) = all_0_18_18
% 17.46/4.63 | (343) op2(e22, all_0_185_185) = all_0_61_61
% 17.46/4.63 | (344) h2(all_0_217_217) = all_0_118_118
% 17.46/4.63 | (345) all_0_213_213 = e14 | all_0_217_217 = e14 | all_0_226_226 = e14
% 17.46/4.63 | (346) ~ (all_0_195_195 = all_0_196_196)
% 17.46/4.63 | (347) op2(all_0_190_190, all_0_190_190) = all_0_161_161
% 17.46/4.63 | (348) all_0_212_212 = e14 | all_0_212_212 = e12
% 17.46/4.63 | (349) all_0_224_224 = e13 | all_0_224_224 = e12 | all_0_224_224 = e11 | all_0_224_224 = e10
% 17.46/4.63 | (350) h1(all_0_226_226) = all_0_175_175
% 17.46/4.63 | (351) ~ (all_0_208_208 = all_0_209_209)
% 17.46/4.63 | (352) ~ (all_0_213_213 = all_0_226_226)
% 17.46/4.63 | (353) all_0_210_210 = e14 | all_0_210_210 = e13 | all_0_210_210 = e12
% 17.46/4.63 | (354) op2(e24, e22) = all_0_192_192
% 17.46/4.63 | (355) ~ (all_0_206_206 = e23)
% 17.46/4.63 | (356) ~ (all_0_226_226 = e13)
% 17.46/4.63 | (357) h3(all_0_213_213) = all_0_67_67
% 17.46/4.63 | (358) op2(e23, all_0_190_190) = all_0_170_170
% 17.46/4.63 | (359) h3(all_0_218_218) = all_0_78_78
% 17.46/4.63 | (360) op2(e22, all_0_200_200) = all_0_186_186
% 17.46/4.63 | (361) op1(all_0_221_221, all_0_228_228) = e10
% 17.46/4.63 | (362) h3(all_0_222_222) = all_0_86_86
% 17.46/4.63 | (363) ~ (all_0_224_224 = all_0_228_228)
% 17.46/4.63 | (364) ! [v0] : ! [v1] : ! [v2] : (v1 = v0 | ~ (h4(v2) = v1) | ~ (h4(v2) = v0))
% 17.46/4.63 | (365) ~ (all_0_211_211 = all_0_219_219)
% 17.46/4.63 | (366) ~ (all_0_197_197 = e23)
% 17.46/4.63 | (367) ~ (all_0_199_199 = all_0_201_201)
% 17.46/4.63 | (368) op2(e22, all_0_206_206) = e21
% 17.46/4.63 | (369) op1(all_0_211_211, all_0_217_217) = e12
% 17.46/4.63 | (370) all_0_198_198 = e24 | all_0_199_199 = e24 | all_0_200_200 = e24 | all_0_202_202 = e24
% 17.46/4.63 | (371) all_0_210_210 = e12 | all_0_218_218 = e12 | all_0_223_223 = e12
% 17.46/4.63 | (372) ~ (all_0_221_221 = all_0_225_225)
% 17.46/4.63 | (373) h4(all_0_225_225) = all_0_50_50
% 17.46/4.63 | (374) op1(all_0_226_226, all_0_212_212) = e14
% 17.46/4.63 | (375) ~ (all_0_202_202 = all_0_206_206)
% 17.46/4.63 | (376) op1(e10, e13) = all_0_227_227
% 17.46/4.63 | (377) op2(all_0_188_188, all_0_187_187) = all_0_119_119
% 17.46/4.63 | (378) h1(e11) = e23
% 17.46/4.63 | (379) ~ (all_0_194_194 = all_0_196_196)
% 17.46/4.63 | (380) ~ (e21 = e11)
% 17.46/4.63 | (381) ~ (all_0_192_192 = all_0_195_195)
% 17.46/4.63 | (382) ~ (all_0_205_205 = all_0_209_209)
% 17.46/4.63 | (383) op1(e11, e12) = all_0_224_224
% 17.46/4.63 | (384) all_0_219_219 = e14 | all_0_219_219 = e13 | all_0_219_219 = e12 | all_0_219_219 = e11 | all_0_219_219 = e10
% 17.46/4.63 | (385) ~ (all_0_212_212 = e13)
% 17.46/4.63 | (386) all_0_226_226 = e10 | all_0_228_228 = e10
% 17.46/4.63 | (387) ~ (e11 = e10)
% 17.46/4.63 | (388) all_0_199_199 = e21 | all_0_204_204 = e21 | all_0_208_208 = e21
% 17.46/4.63 | (389) op2(e21, all_0_187_187) = all_0_102_102
% 17.46/4.63 | (390) all_0_207_207 = e24 | all_0_208_208 = e24 | all_0_209_209 = e24
% 17.46/4.63 | (391) ~ (e13 = e11)
% 17.46/4.63 | (392) h5(all_0_213_213) = all_0_3_3
% 17.46/4.63 | (393) h2(all_0_224_224) = all_0_131_131
% 17.46/4.63 | (394) h2(e12) = all_0_188_188
% 17.46/4.63 | (395) op2(e23, e22) = all_0_195_195
% 17.46/4.63 | (396) op1(e13, e13) = e10
% 17.46/4.63 | (397) ~ (all_0_203_203 = all_0_207_207)
% 17.46/4.63 | (398) ~ (all_0_197_197 = all_0_202_202)
% 17.46/4.63 | (399) ~ (all_0_192_192 = all_0_209_209)
% 17.46/4.63 | (400) op2(all_0_182_182, all_0_183_183) = all_0_28_28
% 17.46/4.63 | (401) ~ (all_0_211_211 = all_0_228_228)
% 17.46/4.63 | (402) ~ (e12 = e11)
% 17.46/4.63 | (403) ~ (e23 = e20)
% 17.46/4.63 | (404) h3(all_0_215_215) = all_0_72_72
% 17.46/4.63 | (405) ~ (all_0_203_203 = all_0_205_205)
% 17.46/4.63 | (406) ~ (all_0_227_227 = e10)
% 17.46/4.63 | (407) h4(all_0_210_210) = all_0_20_20
% 17.46/4.63 | (408) op1(all_0_218_218, all_0_214_214) = e13
% 17.46/4.63 | (409) op2(all_0_203_203, e20) = e24
% 17.46/4.63 | (410) op2(all_0_183_183, all_0_197_197) = all_0_42_42
% 17.46/4.63 | (411) op1(all_0_225_225, e12) = e10
% 17.46/4.63 | (412) op2(all_0_183_183, all_0_182_182) = all_0_36_36
% 17.46/4.63 | (413) all_0_195_195 = e24 | all_0_195_195 = e23 | all_0_195_195 = e22 | all_0_195_195 = e21
% 17.46/4.63 | (414) op2(all_0_186_186, all_0_200_200) = all_0_100_100
% 17.46/4.63 | (415) all_0_214_214 = e11 | all_0_215_215 = e11 | all_0_216_216 = e11
% 17.46/4.63 | (416) ~ (e22 = e21)
% 17.46/4.63 | (417) ~ (all_0_218_218 = all_0_221_221)
% 17.46/4.63 | (418) ~ (all_0_213_213 = all_0_217_217)
% 17.46/4.63 | (419) ~ (e24 = e13)
% 17.46/4.63 | (420) h3(all_0_214_214) = all_0_70_70
% 17.46/4.63 | (421) h4(all_0_214_214) = all_0_29_29
% 17.46/4.63 | (422) op1(e13, e12) = all_0_214_214
% 17.46/4.63 | (423) h5(all_0_219_219) = all_0_9_9
% 17.46/4.63 | (424) ~ (all_0_195_195 = all_0_200_200)
% 17.46/4.63 | (425) h5(all_0_221_221) = all_0_11_11
% 17.46/4.64 | (426) ~ (all_0_214_214 = all_0_219_219)
% 17.46/4.64 | (427) all_0_210_210 = e13 | all_0_211_211 = e13
% 17.46/4.64 | (428) ~ (all_0_203_203 = all_0_206_206)
% 17.46/4.64 | (429) op2(e24, all_0_203_203) = all_0_132_132
% 17.46/4.64 | (430) all_0_226_226 = e14 | all_0_226_226 = e10
% 17.46/4.64 | (431) ~ (all_0_217_217 = all_0_222_222)
% 17.46/4.64 | (432) ~ (all_0_199_199 = all_0_204_204)
% 17.46/4.64 | (433) ~ (e23 = e10)
% 17.46/4.64 | (434) all_0_221_221 = e14 | all_0_221_221 = e12 | all_0_221_221 = e11 | all_0_221_221 = e10
% 17.46/4.64 | (435) op2(all_0_185_185, e22) = all_0_75_75
% 17.46/4.64 | (436) op2(all_0_182_182, all_0_197_197) = all_0_32_32
% 17.46/4.64 | (437) op2(all_0_197_197, e20) = all_0_183_183
% 17.46/4.64 | (438) ~ (all_0_142_142 = all_0_143_143) | ~ (all_0_144_144 = all_0_145_145) | ~ (all_0_146_146 = all_0_147_147) | ~ (all_0_148_148 = all_0_149_149) | ~ (all_0_150_150 = all_0_208_208) | ~ (all_0_151_151 = all_0_152_152) | ~ (all_0_153_153 = all_0_154_154) | ~ (all_0_155_155 = all_0_156_156) | ~ (all_0_157_157 = all_0_158_158) | ~ (all_0_159_159 = all_0_160_160) | ~ (all_0_161_161 = all_0_162_162) | ~ (all_0_163_163 = all_0_164_164) | ~ (all_0_165_165 = all_0_166_166) | ~ (all_0_167_167 = all_0_197_197) | ~ (all_0_168_168 = all_0_169_169) | ~ (all_0_170_170 = all_0_171_171) | ~ (all_0_172_172 = all_0_173_173) | ~ (all_0_174_174 = all_0_175_175) | ~ (all_0_176_176 = all_0_177_177) | ~ (all_0_178_178 = all_0_179_179) | ~ (all_0_180_180 = all_0_190_190) | ~ (all_0_181_181 = all_0_189_189) | ( ~ (all_0_189_189 = e24) & ~ (all_0_190_190 = e24) & ~ (all_0_208_208 = e24)) | ( ~ (all_0_189_189 = e22) & ~ (all_0_190_190 = e22)) | ( ~ (all_0_189_189 = e21) & ~ (all_0_190_190 = e21) & ~ (all_0_208_208 = e21))
% 17.46/4.64 | (439) op2(all_0_187_187, e24) = all_0_113_113
% 17.46/4.64 | (440) ~ (all_0_195_195 = all_0_209_209)
% 17.46/4.64 | (441) op2(all_0_200_200, all_0_185_185) = all_0_89_89
% 17.46/4.64 | (442) h4(e13) = all_0_182_182
% 17.46/4.64 | (443) all_0_202_202 = e20 | all_0_206_206 = e20
% 17.46/4.64 | (444) ~ (all_0_223_223 = e14)
% 17.46/4.64 | (445) op2(all_0_189_189, all_0_189_189) = all_0_150_150
% 17.46/4.64 | (446) all_0_210_210 = e13 | all_0_218_218 = e13 | all_0_223_223 = e13
% 17.46/4.64 | (447) h2(all_0_213_213) = all_0_109_109
% 17.46/4.64 | (448) op2(e20, all_0_203_203) = e21
% 17.46/4.64 | (449) all_0_195_195 = e21 | all_0_196_196 = e21 | all_0_197_197 = e21
% 17.46/4.64 | (450) ~ (all_0_217_217 = all_0_219_219)
% 17.46/4.64 | (451) ~ (all_0_204_204 = e24)
% 17.46/4.64 | (452) ~ (all_0_214_214 = all_0_216_216)
% 17.46/4.64 | (453) op2(all_0_208_208, e23) = all_0_180_180
% 17.46/4.64 | (454) ~ (all_0_201_201 = e24)
% 17.46/4.64 | (455) all_0_198_198 = e20 | all_0_200_200 = e20 | all_0_202_202 = e20
% 17.46/4.64 | (456) all_0_203_203 = e23 | all_0_204_204 = e23 | all_0_205_205 = e23
% 17.46/4.64 | (457) all_0_223_223 = e13 | all_0_223_223 = e12 | all_0_223_223 = e11
% 17.46/4.64 | (458) h3(all_0_212_212) = all_0_65_65
% 17.46/4.64 | (459) ~ (all_0_204_204 = all_0_208_208)
% 17.46/4.64 | (460) ~ (e24 = e10)
% 17.46/4.64 | (461) op2(all_0_208_208, all_0_208_208) = all_0_181_181
% 17.46/4.64 | (462) all_0_216_216 = e11 | all_0_221_221 = e11 | all_0_225_225 = e11
% 17.46/4.64 | (463) ~ (all_0_196_196 = e23) | ( ~ (all_0_191_191 = e24) & ~ (all_0_199_199 = e22) & ~ (all_0_204_204 = e21)) | ( ~ (all_0_192_192 = e24) & ~ (all_0_195_195 = e23) & ~ (all_0_200_200 = e22) & ~ (all_0_205_205 = e21) & ~ (all_0_209_209 = e20)) | ( ~ (all_0_193_193 = e24) & ~ (all_0_202_202 = e22) & ~ (all_0_206_206 = e21)) | ( ~ (all_0_194_194 = e23) & ~ (all_0_198_198 = e22) & ~ (all_0_207_207 = e20))
% 17.46/4.64 | (464) op2(all_0_189_189, all_0_208_208) = all_0_155_155
% 17.46/4.64 | (465) all_0_218_218 = e11 | all_0_223_223 = e11 | all_0_227_227 = e11
% 17.46/4.64 | (466) h5(e11) = e21
% 17.46/4.64 | (467) ~ (e20 = e14)
% 17.46/4.64 | (468) h2(all_0_221_221) = all_0_126_126
% 17.46/4.64 | (469) all_0_204_204 = e21 | all_0_205_205 = e21 | all_0_206_206 = e21
% 17.46/4.64 | (470) all_0_217_217 = e13 | all_0_218_218 = e13 | all_0_219_219 = e13 | all_0_220_220 = e13
% 17.46/4.64 | (471) ~ (all_0_215_215 = e13) | ( ~ (all_0_210_210 = e14) & ~ (all_0_218_218 = e12) & ~ (all_0_223_223 = e11)) | ( ~ (all_0_211_211 = e14) & ~ (all_0_214_214 = e13) & ~ (all_0_219_219 = e12) & ~ (all_0_224_224 = e11) & ~ (all_0_228_228 = e10)) | ( ~ (all_0_212_212 = e14) & ~ (all_0_221_221 = e12) & ~ (all_0_225_225 = e11)) | ( ~ (all_0_213_213 = e13) & ~ (all_0_217_217 = e12) & ~ (all_0_226_226 = e10))
% 17.46/4.64 | (472) op1(e14, e12) = all_0_211_211
% 17.46/4.64 | (473) ~ (all_0_195_195 = all_0_197_197)
% 17.46/4.64 | (474) h2(all_0_216_216) = all_0_116_116
% 17.46/4.64 | (475) op2(all_0_203_203, e24) = all_0_188_188
% 17.46/4.64 | (476) ~ (e24 = e11)
% 17.46/4.64 | (477) op2(e20, e23) = all_0_208_208
% 17.46/4.64 | (478) op2(all_0_182_182, e20) = all_0_30_30
% 17.46/4.64 | (479) ~ (all_0_192_192 = e21)
% 17.46/4.64 | (480) h4(all_0_215_215) = all_0_31_31
% 17.46/4.64 | (481) all_0_203_203 = e22 | all_0_204_204 = e22 | all_0_205_205 = e22 | all_0_206_206 = e22
% 17.46/4.64 | (482) h2(all_0_220_220) = all_0_124_124
% 17.46/4.64 | (483) ~ (e22 = e20)
% 17.46/4.64 | (484) ~ (all_0_211_211 = all_0_214_214)
% 17.46/4.64 | (485) op2(all_0_184_184, all_0_186_186) = all_0_73_73
% 17.46/4.64 | (486) all_0_195_195 = e21 | all_0_200_200 = e21 | all_0_205_205 = e21 | all_0_209_209 = e21
% 17.46/4.64 | (487) h1(all_0_217_217) = all_0_158_158
% 17.46/4.64 | (488) ~ (all_0_219_219 = all_0_224_224)
% 17.46/4.64 | (489) all_0_196_196 = e23 | all_0_196_196 = e21
% 17.46/4.64 | (490) all_0_198_198 = e22 | all_0_199_199 = e22 | all_0_200_200 = e22 | all_0_202_202 = e22
% 17.46/4.64 | (491) all_0_215_215 = e13 | all_0_220_220 = e13
% 17.46/4.64 | (492) h2(all_0_219_219) = all_0_122_122
% 17.46/4.64 | (493) ~ (all_0_228_228 = e13)
% 17.46/4.64 | (494) ~ (all_0_213_213 = e11)
% 17.46/4.64 | (495) ~ (all_0_212_212 = all_0_221_221)
% 17.46/4.64 | (496) h1(all_0_223_223) = all_0_169_169
% 17.46/4.64 | (497) ~ (all_0_217_217 = all_0_220_220)
% 17.46/4.64 | (498) all_0_206_206 = e22 | all_0_206_206 = e21 | all_0_206_206 = e20
% 17.46/4.64 | (499) ~ (all_0_0_0 = all_0_191_191) | ~ (all_0_1_1 = all_0_192_192) | ~ (all_0_2_2 = all_0_193_193) | ~ (all_0_3_3 = all_0_194_194) | ~ (all_0_4_4 = all_0_195_195) | ~ (all_0_5_5 = all_0_196_196) | ~ (all_0_6_6 = all_0_197_197) | ~ (all_0_7_7 = all_0_198_198) | ~ (all_0_8_8 = all_0_199_199) | ~ (all_0_9_9 = all_0_200_200) | ~ (all_0_10_10 = all_0_201_201) | ~ (all_0_11_11 = all_0_202_202) | ~ (all_0_12_12 = all_0_203_203) | ~ (all_0_13_13 = all_0_204_204) | ~ (all_0_14_14 = all_0_205_205) | ~ (all_0_15_15 = all_0_206_206) | ~ (all_0_16_16 = all_0_207_207) | ~ (all_0_17_17 = all_0_208_208) | ~ (all_0_18_18 = all_0_209_209)
% 17.46/4.64 | (500) ~ (all_0_208_208 = e22)
% 17.46/4.64 | (501) ~ (all_0_197_197 = e20)
% 17.46/4.64 | (502) ~ (e24 = e22)
% 17.46/4.64 | (503) h2(all_0_210_210) = all_0_103_103
% 17.46/4.64 | (504) h4(e12) = all_0_183_183
% 17.46/4.64 | (505) all_0_227_227 = e14 | all_0_227_227 = e11
% 17.46/4.64 | (506) h2(e10) = all_0_203_203
% 17.46/4.64 | (507) op1(e14, e10) = all_0_212_212
% 17.46/4.64 | (508) all_0_207_207 = e20 | all_0_209_209 = e20
% 17.46/4.64 | (509) h4(all_0_224_224) = all_0_48_48
% 17.46/4.64 | (510) ~ (all_0_198_198 = all_0_202_202)
% 17.46/4.64 | (511) op2(all_0_184_184, all_0_185_185) = all_0_69_69
% 17.46/4.64 | (512) ~ (all_0_222_222 = e14)
% 17.46/4.64 | (513) h5(all_0_215_215) = all_0_5_5
% 17.46/4.64 | (514) ~ (all_0_210_210 = all_0_218_218)
% 17.46/4.64 | (515) ~ (all_0_212_212 = e10)
% 17.46/4.64 | (516) ~ (all_0_201_201 = e22)
% 17.46/4.64 | (517) all_0_217_217 = e12 | all_0_218_218 = e12 | all_0_219_219 = e12 | all_0_221_221 = e12
% 17.46/4.64 | (518) h2(all_0_225_225) = all_0_133_133
% 17.46/4.65 | (519) ~ (all_0_194_194 = e21)
% 17.46/4.65 | (520) op1(all_0_223_223, all_0_215_215) = e13
% 17.46/4.65 | (521) ~ (e23 = e13)
% 17.46/4.65 | (522) op1(e12, e10) = all_0_221_221
% 17.46/4.65 | (523) all_0_208_208 = e21 | all_0_209_209 = e21
% 17.46/4.65 | (524) op2(all_0_196_196, all_0_204_204) = e21
% 17.46/4.65 | (525) ~ (e21 = e14)
% 17.46/4.65 | (526) ~ (all_0_217_217 = all_0_221_221)
% 17.46/4.65 | (527) h2(all_0_211_211) = all_0_105_105
% 17.46/4.65 | (528) op2(all_0_185_185, all_0_186_186) = all_0_83_83
% 17.46/4.65 | (529) op2(e22, all_0_186_186) = all_0_64_64
% 17.46/4.65 | (530) ~ (all_0_198_198 = all_0_207_207)
% 17.46/4.65 | (531) ~ (all_0_194_194 = all_0_197_197)
% 17.46/4.65 | (532) op2(e24, e23) = all_0_191_191
% 17.46/4.65 | (533) all_0_204_204 = e23 | all_0_204_204 = e22 | all_0_204_204 = e21
% 17.46/4.65 | (534) ~ (all_0_204_204 = all_0_205_205)
% 17.46/4.65 | (535) op2(e22, e22) = all_0_200_200
% 17.46/4.65 | (536) h1(all_0_222_222) = all_0_167_167
% 17.46/4.65 | (537) ~ (all_0_226_226 = all_0_228_228)
% 17.46/4.65 | (538) op1(e10, e11) = e12
% 17.46/4.65 | (539) h1(all_0_214_214) = all_0_152_152
% 17.46/4.65 | (540) all_0_191_191 = e23 | all_0_199_199 = e23 | all_0_204_204 = e23
% 17.46/4.65 | (541) ~ (all_0_198_198 = all_0_200_200)
% 17.46/4.65 | (542) ~ (all_0_210_210 = all_0_212_212)
% 17.46/4.65 | (543) op2(all_0_190_190, all_0_189_189) = all_0_159_159
% 17.46/4.65 | (544) op1(all_0_224_224, all_0_220_220) = e12
% 17.46/4.65 | (545) h1(all_0_211_211) = all_0_145_145
% 17.46/4.65 | (546) op2(all_0_194_194, all_0_191_191) = e24
% 17.46/4.65 | (547) h4(all_0_222_222) = all_0_44_44
% 17.46/4.65 | (548) h3(all_0_221_221) = all_0_84_84
% 17.46/4.65 | (549) op2(e21, e21) = e24
% 17.46/4.65 | (550) h4(e11) = e20
% 17.46/4.65 | (551) op2(all_0_182_182, all_0_182_182) = all_0_27_27
% 17.46/4.65 | (552) h1(all_0_221_221) = all_0_166_166
% 17.46/4.65 | (553) op1(e11, e11) = e14
% 17.46/4.65 | (554) h4(all_0_211_211) = all_0_22_22
% 17.46/4.65 | (555) all_0_214_214 = e11 | all_0_219_219 = e11 | all_0_224_224 = e11 | all_0_228_228 = e11
% 17.46/4.65 | (556) ~ (all_0_194_194 = all_0_203_203)
% 17.46/4.65 | (557) ~ (all_0_210_210 = all_0_223_223)
% 17.46/4.65 | (558) ~ (e22 = e14)
% 17.46/4.65 | (559) ~ (e22 = e13)
% 17.46/4.65 | (560) all_0_205_205 = e23 | all_0_205_205 = e22 | all_0_205_205 = e21 | all_0_205_205 = e20
% 17.46/4.65 | (561) all_0_207_207 = e24 | all_0_207_207 = e20
% 17.46/4.65 | (562) op2(all_0_186_186, all_0_185_185) = all_0_98_98
% 17.46/4.65 | (563) all_0_198_198 = e20 | all_0_203_203 = e20 | all_0_207_207 = e20
% 17.46/4.65 | (564) op2(all_0_183_183, e23) = all_0_34_34
% 17.46/4.65 | (565) op1(e10, e14) = all_0_226_226
% 17.46/4.65 | (566) all_0_191_191 = e24 | all_0_192_192 = e24 | all_0_193_193 = e24
% 17.46/4.65 | (567) ~ (e24 = e23)
% 17.46/4.65 | (568) op2(all_0_187_187, all_0_188_188) = all_0_111_111
% 17.46/4.65 | (569) all_0_193_193 = e22 | all_0_197_197 = e22 | all_0_202_202 = e22 | all_0_206_206 = e22
% 17.46/4.65 | (570) all_0_213_213 = e12 | all_0_217_217 = e12 | all_0_222_222 = e12
% 17.46/4.65 | (571) h5(all_0_214_214) = all_0_4_4
% 17.46/4.65 | (572) op2(all_0_200_200, all_0_200_200) = all_0_91_91
% 17.46/4.65 | (573) op2(e21, e22) = all_0_205_205
% 17.46/4.65 | (574) op1(e12, e12) = all_0_219_219
% 17.46/4.65 | (575) op2(all_0_190_190, e23) = all_0_163_163
% 17.46/4.65 | (576) all_0_196_196 = e23 | all_0_201_201 = e23
% 17.46/4.65 | (577) ~ (all_0_207_207 = all_0_209_209)
% 17.46/4.65 | (578) ~ (all_0_194_194 = all_0_195_195)
% 17.46/4.65 | (579) ~ (all_0_215_215 = all_0_216_216)
% 17.46/4.65 | (580) ~ (all_0_195_195 = all_0_205_205)
% 17.46/4.65 | (581) ~ (all_0_214_214 = e10)
% 17.46/4.65 | (582) op1(e13, e14) = all_0_213_213
% 17.46/4.65 | (583) all_0_197_197 = e21 | all_0_202_202 = e21 | all_0_206_206 = e21
% 17.46/4.65 | (584) h5(all_0_220_220) = all_0_10_10
% 17.46/4.65 | (585) op2(e23, all_0_182_182) = all_0_19_19
% 17.46/4.65 | (586) op2(all_0_185_185, all_0_185_185) = all_0_79_79
% 17.46/4.65 | (587) all_0_199_199 = e24 | all_0_199_199 = e23 | all_0_199_199 = e22 | all_0_199_199 = e21
% 17.46/4.65 | (588) ~ (e21 = e12)
% 17.46/4.65 | (589) h4(all_0_217_217) = all_0_35_35
% 17.46/4.65 | (590) ~ (e13 = e12)
% 17.46/4.65 | (591) h3(all_0_224_224) = all_0_90_90
% 17.46/4.65 | (592) op2(all_0_199_199, all_0_195_195) = e23
% 17.46/4.65 | (593) op1(e14, e13) = all_0_210_210
% 17.46/4.65 | (594) ~ (all_0_218_218 = e10)
% 17.46/4.65 | (595) ~ (all_0_199_199 = all_0_202_202)
% 17.46/4.65 | (596) ~ (all_0_200_200 = all_0_202_202)
% 17.46/4.65 | (597) op2(all_0_184_184, all_0_200_200) = all_0_71_71
% 17.46/4.65 | (598) ~ (all_0_213_213 = all_0_216_216)
% 17.46/4.65 | (599) ~ (e22 = e10)
% 17.46/4.65 | (600) ~ (e23 = e21)
% 17.46/4.65 | (601) ~ (all_0_203_203 = all_0_204_204)
% 17.46/4.65 | (602) all_0_192_192 = e24 | all_0_192_192 = e23 | all_0_192_192 = e22
% 17.46/4.65 | (603) all_0_203_203 = e20 | all_0_205_205 = e20 | all_0_206_206 = e20
% 17.46/4.65 | (604) op1(all_0_220_220, all_0_224_224) = e11
% 17.46/4.65 | (605) op2(all_0_208_208, all_0_208_208) = all_0_189_189
% 17.46/4.65 | (606) h2(e14) = e21
% 17.46/4.65 | (607) h4(all_0_221_221) = all_0_43_43
% 17.46/4.65 | (608) op2(all_0_209_209, all_0_202_202) = e22
% 17.46/4.65 | (609) ~ (all_0_219_219 = all_0_221_221)
% 17.46/4.65 | (610) ~ (all_0_218_218 = all_0_219_219)
% 17.46/4.65 | (611) ~ (all_0_205_205 = all_0_206_206)
% 17.46/4.65 | (612) ~ (all_0_212_212 = all_0_225_225)
% 17.46/4.65 | (613) ~ (all_0_211_211 = e11)
% 17.46/4.65 | (614) ~ (all_0_214_214 = all_0_215_215)
% 17.46/4.65 | (615) all_0_192_192 = e22 | all_0_195_195 = e22 | all_0_200_200 = e22 | all_0_205_205 = e22
% 17.46/4.65 | (616) all_0_211_211 = e14 | all_0_214_214 = e14 | all_0_219_219 = e14 | all_0_228_228 = e14
% 17.46/4.65 | (617) op1(all_0_222_222, e10) = e14
% 17.46/4.65 | (618) op2(all_0_203_203, e21) = all_0_134_134
% 17.46/4.65 | (619) ~ (all_0_209_209 = e23)
% 17.46/4.65 | (620) ~ (all_0_203_203 = e21)
% 17.46/4.65 | (621) ~ (e14 = e12)
% 17.46/4.65 | (622) ~ (all_0_213_213 = e10)
% 17.46/4.65 | (623) ~ (all_0_192_192 = all_0_200_200)
% 17.46/4.65 | (624) ~ (all_0_226_226 = e12)
% 17.46/4.65 | (625) h4(all_0_226_226) = all_0_52_52
% 17.46/4.65 | (626) op1(e11, e10) = all_0_225_225
% 17.46/4.66 | (627) ~ (all_0_203_203 = e24)
% 17.46/4.66 | (628) ~ (all_0_220_220 = all_0_221_221)
% 17.46/4.66 | (629) ~ (all_0_225_225 = e14)
% 17.46/4.66 | (630) h3(all_0_223_223) = all_0_88_88
% 17.46/4.66 | (631) ~ (all_0_218_218 = all_0_227_227)
% 17.46/4.66 | (632) all_0_191_191 = e24 | all_0_191_191 = e23 | all_0_191_191 = e22
% 17.46/4.66 | (633) all_0_215_215 = e13 | all_0_215_215 = e11
% 17.46/4.66 | (634) ~ (all_0_206_206 = e24)
% 17.46/4.66 | (635) op1(all_0_213_213, all_0_210_210) = e14
% 17.46/4.66 | (636) h5(all_0_216_216) = all_0_6_6
% 17.46/4.66 | (637) op2(all_0_192_192, all_0_198_198) = e22
% 17.46/4.66 | (638) h3(all_0_219_219) = all_0_80_80
% 17.46/4.66 | (639) ~ (all_0_198_198 = e21)
% 17.46/4.66 | (640) op2(e23, e21) = all_0_196_196
% 17.46/4.66 | (641) op1(all_0_217_217, all_0_211_211) = e14
% 17.46/4.66 | (642) op2(e20, e24) = all_0_207_207
% 17.46/4.66 | (643) op2(all_0_195_195, all_0_199_199) = e22
% 17.46/4.66 | (644) op2(e20, all_0_197_197) = all_0_49_49
% 17.46/4.66 | (645) all_0_202_202 = e24 | all_0_202_202 = e22 | all_0_202_202 = e21 | all_0_202_202 = e20
% 17.46/4.66 | (646) h4(e10) = all_0_197_197
% 17.46/4.66 | (647) ~ (all_0_220_220 = e10)
% 17.46/4.66 | (648) all_0_217_217 = e10 | all_0_219_219 = e10 | all_0_221_221 = e10
% 17.46/4.66 | (649) op2(all_0_188_188, all_0_188_188) = all_0_121_121
% 17.46/4.66 | (650) ! [v0] : ! [v1] : ! [v2] : ! [v3] : (v1 = v0 | ~ (op2(v3, v2) = v1) | ~ (op2(v3, v2) = v0))
% 17.46/4.66 | (651) h1(all_0_220_220) = all_0_164_164
% 17.46/4.66 | (652) ~ (all_0_207_207 = e23)
% 17.46/4.66 | (653) op2(e23, all_0_208_208) = all_0_172_172
% 17.46/4.66 | (654) op1(all_0_212_212, all_0_226_226) = e10
% 17.46/4.66 | (655) ~ (all_0_199_199 = e20)
% 17.46/4.66 | (656) ~ (all_0_227_227 = all_0_228_228)
% 17.46/4.66 | (657) ~ (all_0_217_217 = e11)
% 17.46/4.66 | (658) h1(all_0_219_219) = all_0_162_162
% 17.46/4.66 | (659) h5(all_0_218_218) = all_0_8_8
% 17.46/4.66 | (660) h5(all_0_210_210) = all_0_0_0
% 17.46/4.66 | (661) ~ (e14 = e11)
% 17.46/4.66 | (662) ~ (e23 = e14)
% 17.46/4.66 | (663) ~ (e24 = e12)
% 17.46/4.66 | (664) all_0_192_192 = e24 | all_0_195_195 = e24 | all_0_200_200 = e24 | all_0_209_209 = e24
% 17.46/4.66 | (665) ~ (e23 = e22)
% 17.46/4.66 | (666) op2(all_0_203_203, all_0_203_203) = all_0_187_187
% 17.46/4.66 | (667) ! [v0] : ! [v1] : ! [v2] : (v1 = v0 | ~ (h2(v2) = v1) | ~ (h2(v2) = v0))
% 17.46/4.66 | (668) op2(all_0_197_197, e23) = all_0_51_51
% 17.46/4.66 |
% 17.46/4.66 | Instantiating formula (650) with all_0_186_186, all_0_186_186, all_0_184_184, all_0_101_101 and discharging atoms op2(all_0_186_186, all_0_186_186) = all_0_101_101, op2(all_0_186_186, all_0_186_186) = all_0_184_184, yields:
% 17.46/4.66 | (669) all_0_101_101 = all_0_184_184
% 17.46/4.66 |
% 17.46/4.66 | Instantiating formula (650) with all_0_186_186, all_0_200_200, all_0_185_185, all_0_100_100 and discharging atoms op2(all_0_186_186, all_0_200_200) = all_0_100_100, op2(all_0_186_186, all_0_200_200) = all_0_185_185, yields:
% 17.46/4.66 | (670) all_0_100_100 = all_0_185_185
% 17.46/4.66 |
% 17.46/4.66 | Instantiating formula (650) with all_0_197_197, all_0_197_197, all_0_182_182, all_0_58_58 and discharging atoms op2(all_0_197_197, all_0_197_197) = all_0_58_58, op2(all_0_197_197, all_0_197_197) = all_0_182_182, yields:
% 17.46/4.66 | (671) all_0_58_58 = all_0_182_182
% 17.46/4.66 |
% 17.46/4.66 | Instantiating formula (650) with all_0_197_197, e20, all_0_183_183, all_0_57_57 and discharging atoms op2(all_0_197_197, e20) = all_0_57_57, op2(all_0_197_197, e20) = all_0_183_183, yields:
% 17.46/4.66 | (672) all_0_57_57 = all_0_183_183
% 17.46/4.66 |
% 17.46/4.66 | Instantiating formula (650) with all_0_203_203, all_0_203_203, all_0_187_187, all_0_141_141 and discharging atoms op2(all_0_203_203, all_0_203_203) = all_0_141_141, op2(all_0_203_203, all_0_203_203) = all_0_187_187, yields:
% 17.46/4.66 | (673) all_0_141_141 = all_0_187_187
% 17.46/4.66 |
% 17.46/4.66 | Instantiating formula (650) with all_0_203_203, e24, all_0_188_188, all_0_140_140 and discharging atoms op2(all_0_203_203, e24) = all_0_140_140, op2(all_0_203_203, e24) = all_0_188_188, yields:
% 17.46/4.66 | (674) all_0_140_140 = all_0_188_188
% 17.46/4.66 |
% 17.46/4.66 | Instantiating formula (650) with all_0_208_208, all_0_208_208, all_0_189_189, all_0_181_181 and discharging atoms op2(all_0_208_208, all_0_208_208) = all_0_181_181, op2(all_0_208_208, all_0_208_208) = all_0_189_189, yields:
% 17.46/4.66 | (675) all_0_181_181 = all_0_189_189
% 17.46/4.66 |
% 17.46/4.66 | Instantiating formula (650) with all_0_208_208, e23, all_0_190_190, all_0_180_180 and discharging atoms op2(all_0_208_208, e23) = all_0_180_180, op2(all_0_208_208, e23) = all_0_190_190, yields:
% 17.46/4.66 | (676) all_0_180_180 = all_0_190_190
% 17.46/4.66 |
% 17.46/4.66 | Instantiating formula (650) with e22, all_0_200_200, all_0_186_186, all_0_63_63 and discharging atoms op2(e22, all_0_200_200) = all_0_63_63, op2(e22, all_0_200_200) = all_0_186_186, yields:
% 17.46/4.66 | (677) all_0_63_63 = all_0_186_186
% 17.46/4.66 |
% 17.46/4.66 | From (669) and (115) follows:
% 17.46/4.66 | (67) op2(all_0_186_186, all_0_186_186) = all_0_184_184
% 17.46/4.66 |
% 17.46/4.66 | From (670) and (414) follows:
% 17.46/4.66 | (144) op2(all_0_186_186, all_0_200_200) = all_0_185_185
% 17.46/4.66 |
% 17.46/4.66 | From (671) and (125) follows:
% 17.46/4.66 | (197) op2(all_0_197_197, all_0_197_197) = all_0_182_182
% 17.46/4.66 |
% 17.46/4.66 | From (672) and (187) follows:
% 17.46/4.66 | (437) op2(all_0_197_197, e20) = all_0_183_183
% 17.46/4.66 |
% 17.46/4.66 | From (673) and (150) follows:
% 17.46/4.66 | (666) op2(all_0_203_203, all_0_203_203) = all_0_187_187
% 17.46/4.66 |
% 17.46/4.66 | From (674) and (142) follows:
% 17.46/4.66 | (475) op2(all_0_203_203, e24) = all_0_188_188
% 17.46/4.66 |
% 17.46/4.66 | From (675) and (461) follows:
% 17.46/4.66 | (605) op2(all_0_208_208, all_0_208_208) = all_0_189_189
% 17.46/4.66 |
% 17.46/4.66 | From (676) and (453) follows:
% 17.46/4.66 | (91) op2(all_0_208_208, e23) = all_0_190_190
% 17.46/4.66 |
% 17.46/4.66 | From (677) and (244) follows:
% 17.46/4.66 | (360) op2(e22, all_0_200_200) = all_0_186_186
% 17.46/4.66 |
% 17.46/4.66 +-Applying beta-rule and splitting (154), into two cases.
% 17.46/4.66 |-Branch one:
% 17.46/4.66 | (687) all_0_193_193 = e22
% 17.46/4.66 |
% 17.93/4.66 | Equations (687) can reduce 12 to:
% 17.93/4.66 | (688) ~ (all_0_191_191 = e22)
% 17.93/4.67 |
% 17.93/4.67 | Equations (687) can reduce 302 to:
% 17.93/4.67 | (689) ~ (all_0_192_192 = e22)
% 17.93/4.67 |
% 17.93/4.67 | Equations (687) can reduce 102 to:
% 17.93/4.67 | (690) ~ (all_0_197_197 = e22)
% 17.93/4.67 |
% 17.93/4.67 | Simplifying 690 yields:
% 17.93/4.67 | (691) ~ (all_0_197_197 = e22)
% 17.93/4.67 |
% 17.93/4.67 | Equations (687) can reduce 248 to:
% 17.93/4.67 | (692) ~ (all_0_202_202 = e22)
% 17.93/4.67 |
% 17.93/4.67 | Simplifying 692 yields:
% 17.93/4.67 | (693) ~ (all_0_202_202 = e22)
% 17.93/4.67 |
% 17.93/4.67 | Equations (687) can reduce 162 to:
% 17.93/4.67 | (694) ~ (all_0_206_206 = e22)
% 17.93/4.67 |
% 17.93/4.67 | Simplifying 694 yields:
% 17.93/4.67 | (695) ~ (all_0_206_206 = e22)
% 17.93/4.67 |
% 17.93/4.67 | From (687) and (178) follows:
% 17.93/4.67 | (696) op2(e22, all_0_207_207) = e20
% 17.93/4.67 |
% 17.93/4.67 | From (687) and (189) follows:
% 17.93/4.67 | (697) op2(all_0_207_207, e22) = e24
% 17.93/4.67 |
% 17.93/4.67 +-Applying beta-rule and splitting (561), into two cases.
% 17.93/4.67 |-Branch one:
% 17.93/4.67 | (698) all_0_207_207 = e24
% 17.93/4.67 |
% 17.93/4.67 | Equations (698) can reduce 239 to:
% 17.93/4.67 | (699) ~ (all_0_194_194 = e24)
% 17.93/4.67 |
% 17.93/4.67 | Equations (698) can reduce 145 to:
% 17.93/4.67 | (700) ~ (all_0_208_208 = e24)
% 17.93/4.67 |
% 17.93/4.67 | Simplifying 700 yields:
% 17.93/4.67 | (701) ~ (all_0_208_208 = e24)
% 17.93/4.67 |
% 17.93/4.67 | From (698) and (697) follows:
% 17.93/4.67 | (702) op2(e24, e22) = e24
% 17.93/4.67 |
% 17.93/4.67 | From (698) and (696) follows:
% 17.93/4.67 | (703) op2(e22, e24) = e20
% 17.93/4.67 |
% 17.93/4.67 +-Applying beta-rule and splitting (6), into two cases.
% 17.93/4.67 |-Branch one:
% 17.93/4.67 | (704) all_0_208_208 = e24
% 17.93/4.67 |
% 17.93/4.67 | Equations (704) can reduce 701 to:
% 17.93/4.67 | (705) $false
% 17.93/4.67 |
% 17.93/4.67 |-The branch is then unsatisfiable
% 17.93/4.67 |-Branch two:
% 17.93/4.67 | (701) ~ (all_0_208_208 = e24)
% 17.93/4.67 | (707) all_0_208_208 = e21
% 17.93/4.67 |
% 17.93/4.67 | Equations (707) can reduce 459 to:
% 17.93/4.67 | (708) ~ (all_0_204_204 = e21)
% 17.93/4.67 |
% 17.93/4.67 | From (707) and (200) follows:
% 17.93/4.67 | (709) op2(all_0_190_190, e21) = all_0_165_165
% 17.93/4.67 |
% 17.93/4.67 | From (707) and (30) follows:
% 17.93/4.67 | (710) op2(e21, all_0_190_190) = all_0_178_178
% 17.93/4.67 |
% 17.93/4.67 | From (707)(707) and (605) follows:
% 17.93/4.67 | (711) op2(e21, e21) = all_0_189_189
% 17.93/4.67 |
% 17.93/4.67 | From (707) and (91) follows:
% 17.93/4.67 | (712) op2(e21, e23) = all_0_190_190
% 17.93/4.67 |
% 17.93/4.67 +-Applying beta-rule and splitting (508), into two cases.
% 17.93/4.67 |-Branch one:
% 17.93/4.67 | (713) all_0_207_207 = e20
% 17.93/4.67 |
% 17.93/4.67 | Combining equations (698,713) yields a new equation:
% 17.93/4.67 | (714) e24 = e20
% 17.93/4.67 |
% 17.93/4.67 | Simplifying 714 yields:
% 17.93/4.67 | (715) e24 = e20
% 17.93/4.67 |
% 17.93/4.67 | Equations (715) can reduce 95 to:
% 17.93/4.67 | (705) $false
% 17.93/4.67 |
% 17.93/4.67 |-The branch is then unsatisfiable
% 17.93/4.67 |-Branch two:
% 17.93/4.67 | (717) ~ (all_0_207_207 = e20)
% 17.93/4.67 | (718) all_0_209_209 = e20
% 17.93/4.67 |
% 17.93/4.67 | From (718) and (93) follows:
% 17.93/4.67 | (719) op2(all_0_202_202, e20) = e20
% 17.93/4.67 |
% 17.93/4.67 | From (718) and (608) follows:
% 17.93/4.67 | (720) op2(e20, all_0_202_202) = e22
% 17.93/4.67 |
% 17.93/4.67 | Instantiating formula (650) with e24, e22, e24, all_0_192_192 and discharging atoms op2(e24, e22) = all_0_192_192, op2(e24, e22) = e24, yields:
% 17.93/4.67 | (721) all_0_192_192 = e24
% 17.93/4.67 |
% 17.93/4.67 | Instantiating formula (650) with e22, e24, e20, all_0_198_198 and discharging atoms op2(e22, e24) = all_0_198_198, op2(e22, e24) = e20, yields:
% 17.93/4.67 | (722) all_0_198_198 = e20
% 17.93/4.67 |
% 17.93/4.67 | Instantiating formula (650) with e21, e23, all_0_190_190, all_0_204_204 and discharging atoms op2(e21, e23) = all_0_190_190, op2(e21, e23) = all_0_204_204, yields:
% 17.93/4.67 | (723) all_0_190_190 = all_0_204_204
% 17.93/4.67 |
% 17.93/4.67 | Instantiating formula (650) with e21, e21, all_0_189_189, e24 and discharging atoms op2(e21, e21) = all_0_189_189, op2(e21, e21) = e24, yields:
% 17.93/4.67 | (724) all_0_189_189 = e24
% 17.93/4.67 |
% 17.93/4.67 | Equations (721) can reduce 307 to:
% 17.93/4.67 | (725) ~ (all_0_191_191 = e24)
% 17.93/4.67 |
% 17.93/4.67 | Equations (721) can reduce 381 to:
% 17.93/4.67 | (726) ~ (all_0_195_195 = e24)
% 17.93/4.67 |
% 17.93/4.67 | Simplifying 726 yields:
% 17.93/4.67 | (727) ~ (all_0_195_195 = e24)
% 17.93/4.67 |
% 17.93/4.67 | Equations (721) can reduce 479 to:
% 17.93/4.67 | (278) ~ (e24 = e21)
% 17.93/4.67 |
% 17.93/4.67 | Equations (722) can reduce 510 to:
% 17.93/4.67 | (729) ~ (all_0_202_202 = e20)
% 17.93/4.67 |
% 17.93/4.67 | Simplifying 729 yields:
% 17.93/4.67 | (730) ~ (all_0_202_202 = e20)
% 17.93/4.67 |
% 17.93/4.67 | Equations (722) can reduce 639 to:
% 17.93/4.67 | (731) ~ (e21 = e20)
% 17.93/4.67 |
% 17.93/4.67 | Simplifying 731 yields:
% 17.93/4.67 | (279) ~ (e21 = e20)
% 17.93/4.67 |
% 17.93/4.67 | From (724)(724) and (445) follows:
% 17.93/4.67 | (733) op2(e24, e24) = all_0_150_150
% 17.93/4.67 |
% 17.93/4.67 | From (724)(723) and (158) follows:
% 17.93/4.67 | (734) op2(e24, all_0_204_204) = all_0_151_151
% 17.93/4.67 |
% 17.93/4.67 | From (724) and (106) follows:
% 17.93/4.67 | (735) op2(e24, e20) = all_0_148_148
% 17.93/4.67 |
% 17.93/4.67 | From (723)(724) and (543) follows:
% 17.93/4.67 | (736) op2(all_0_204_204, e24) = all_0_159_159
% 17.93/4.67 |
% 17.93/4.67 | From (723)(723) and (347) follows:
% 17.93/4.67 | (737) op2(all_0_204_204, all_0_204_204) = all_0_161_161
% 17.93/4.67 |
% 17.93/4.67 | From (723) and (575) follows:
% 17.93/4.68 | (738) op2(all_0_204_204, e23) = all_0_163_163
% 17.93/4.68 |
% 17.93/4.68 | From (723) and (709) follows:
% 17.93/4.68 | (739) op2(all_0_204_204, e21) = all_0_165_165
% 17.93/4.68 |
% 17.93/4.68 | From (723) and (286) follows:
% 17.93/4.68 | (740) op2(all_0_204_204, e20) = all_0_157_157
% 17.93/4.68 |
% 17.93/4.68 | From (721)(722) and (637) follows:
% 17.93/4.68 | (741) op2(e24, e20) = e22
% 17.93/4.68 |
% 17.93/4.68 | From (722)(721) and (78) follows:
% 17.93/4.68 | (742) op2(e20, e24) = e24
% 17.93/4.68 |
% 17.93/4.68 | From (721) and (354) follows:
% 17.93/4.68 | (702) op2(e24, e22) = e24
% 17.93/4.68 |
% 17.93/4.68 | From (724) and (129) follows:
% 17.93/4.68 | (744) op2(e23, e24) = all_0_168_168
% 17.93/4.68 |
% 17.93/4.68 | From (723) and (358) follows:
% 17.93/4.68 | (745) op2(e23, all_0_204_204) = all_0_170_170
% 17.93/4.68 |
% 17.93/4.68 | From (722) and (251) follows:
% 17.93/4.68 | (703) op2(e22, e24) = e20
% 17.93/4.68 |
% 17.93/4.68 | From (723) and (710) follows:
% 17.93/4.68 | (747) op2(e21, all_0_204_204) = all_0_178_178
% 17.93/4.68 |
% 17.93/4.68 | From (724) and (89) follows:
% 17.93/4.68 | (748) op2(e20, e24) = all_0_142_142
% 17.93/4.68 |
% 17.93/4.68 | From (723) and (327) follows:
% 17.93/4.68 | (749) op2(e20, all_0_204_204) = all_0_144_144
% 17.93/4.68 |
% 17.93/4.68 +-Applying beta-rule and splitting (9), into two cases.
% 17.93/4.68 |-Branch one:
% 17.93/4.68 | (750) all_0_194_194 = e24
% 17.93/4.68 |
% 17.93/4.68 | Equations (750) can reduce 699 to:
% 17.93/4.68 | (705) $false
% 17.93/4.68 |
% 17.93/4.68 |-The branch is then unsatisfiable
% 17.93/4.68 |-Branch two:
% 17.93/4.68 | (699) ~ (all_0_194_194 = e24)
% 17.93/4.68 | (753) all_0_195_195 = e24 | all_0_197_197 = e24
% 17.93/4.68 |
% 17.93/4.68 +-Applying beta-rule and splitting (753), into two cases.
% 17.93/4.68 |-Branch one:
% 17.93/4.68 | (754) all_0_195_195 = e24
% 17.93/4.68 |
% 17.93/4.68 | Equations (754) can reduce 727 to:
% 17.93/4.68 | (705) $false
% 17.93/4.68 |
% 17.93/4.68 |-The branch is then unsatisfiable
% 17.93/4.68 |-Branch two:
% 17.93/4.68 | (727) ~ (all_0_195_195 = e24)
% 17.93/4.68 | (757) all_0_197_197 = e24
% 17.93/4.68 |
% 17.93/4.68 | Equations (757) can reduce 531 to:
% 17.93/4.68 | (699) ~ (all_0_194_194 = e24)
% 17.93/4.68 |
% 17.93/4.68 | Equations (757) can reduce 398 to:
% 17.93/4.68 | (759) ~ (all_0_202_202 = e24)
% 17.93/4.68 |
% 17.93/4.68 | Simplifying 759 yields:
% 17.93/4.68 | (760) ~ (all_0_202_202 = e24)
% 17.93/4.68 |
% 17.93/4.68 | Equations (757) can reduce 691 to:
% 17.93/4.68 | (502) ~ (e24 = e22)
% 17.93/4.68 |
% 17.93/4.68 | From (757) and (410) follows:
% 17.93/4.68 | (762) op2(all_0_183_183, e24) = all_0_42_42
% 17.93/4.68 |
% 17.93/4.68 | From (757) and (58) follows:
% 17.93/4.68 | (763) op2(e24, all_0_183_183) = all_0_55_55
% 17.93/4.68 |
% 17.93/4.68 | From (757)(757) and (197) follows:
% 17.93/4.68 | (764) op2(e24, e24) = all_0_182_182
% 17.93/4.68 |
% 17.93/4.68 | From (757) and (668) follows:
% 17.93/4.68 | (765) op2(e24, e23) = all_0_51_51
% 17.93/4.68 |
% 17.93/4.68 | From (757) and (437) follows:
% 17.93/4.68 | (766) op2(e24, e20) = all_0_183_183
% 17.93/4.68 |
% 17.93/4.68 | From (757) and (255) follows:
% 17.93/4.68 | (767) op2(e23, e24) = all_0_23_23
% 17.93/4.68 |
% 17.93/4.68 | From (757) and (644) follows:
% 17.93/4.68 | (768) op2(e20, e24) = all_0_49_49
% 17.93/4.68 |
% 17.93/4.68 +-Applying beta-rule and splitting (443), into two cases.
% 17.93/4.68 |-Branch one:
% 17.93/4.68 | (769) all_0_202_202 = e20
% 17.93/4.68 |
% 17.93/4.68 | Equations (769) can reduce 730 to:
% 17.93/4.68 | (705) $false
% 17.93/4.68 |
% 17.93/4.68 |-The branch is then unsatisfiable
% 17.93/4.68 |-Branch two:
% 17.93/4.68 | (730) ~ (all_0_202_202 = e20)
% 17.93/4.68 | (772) all_0_206_206 = e20
% 17.93/4.68 |
% 17.93/4.68 | Equations (772) can reduce 695 to:
% 17.93/4.68 | (773) ~ (e22 = e20)
% 17.93/4.68 |
% 17.93/4.68 | Simplifying 773 yields:
% 17.93/4.68 | (483) ~ (e22 = e20)
% 17.93/4.68 |
% 17.93/4.68 | From (772) and (111) follows:
% 17.93/4.68 | (775) op2(e20, e22) = e20
% 17.93/4.68 |
% 17.93/4.68 +-Applying beta-rule and splitting (46), into two cases.
% 17.93/4.68 |-Branch one:
% 17.93/4.68 | (776) all_0_191_191 = e24
% 17.93/4.68 |
% 17.93/4.68 | Equations (776) can reduce 725 to:
% 17.93/4.68 | (705) $false
% 17.93/4.68 |
% 17.93/4.68 |-The branch is then unsatisfiable
% 17.93/4.68 |-Branch two:
% 17.93/4.68 | (725) ~ (all_0_191_191 = e24)
% 17.93/4.68 | (779) all_0_199_199 = e24 | all_0_208_208 = e24
% 17.93/4.68 |
% 17.93/4.68 +-Applying beta-rule and splitting (583), into two cases.
% 17.93/4.68 |-Branch one:
% 17.93/4.68 | (780) all_0_197_197 = e21
% 17.93/4.68 |
% 17.93/4.68 | Combining equations (780,757) yields a new equation:
% 17.93/4.68 | (781) e24 = e21
% 17.93/4.68 |
% 17.93/4.68 | Equations (781) can reduce 278 to:
% 17.93/4.68 | (705) $false
% 17.93/4.68 |
% 17.93/4.68 |-The branch is then unsatisfiable
% 17.93/4.68 |-Branch two:
% 17.93/4.68 | (783) ~ (all_0_197_197 = e21)
% 17.93/4.68 | (784) all_0_202_202 = e21 | all_0_206_206 = e21
% 17.93/4.68 |
% 17.93/4.68 +-Applying beta-rule and splitting (784), into two cases.
% 17.93/4.68 |-Branch one:
% 17.93/4.68 | (785) all_0_202_202 = e21
% 17.93/4.68 |
% 17.93/4.68 | Equations (785) can reduce 160 to:
% 17.93/4.68 | (786) ~ (all_0_201_201 = e21)
% 17.93/4.68 |
% 17.93/4.68 | Equations (785) can reduce 760 to:
% 17.93/4.68 | (787) ~ (e24 = e21)
% 17.93/4.68 |
% 17.93/4.68 | Simplifying 787 yields:
% 17.93/4.68 | (278) ~ (e24 = e21)
% 17.93/4.68 |
% 17.93/4.68 | Equations (785) can reduce 693 to:
% 17.93/4.68 | (789) ~ (e22 = e21)
% 17.93/4.68 |
% 17.93/4.68 | Simplifying 789 yields:
% 17.93/4.68 | (416) ~ (e22 = e21)
% 17.93/4.68 |
% 17.93/4.68 | From (785) and (719) follows:
% 17.93/4.68 | (791) op2(e21, e20) = e20
% 17.93/4.68 |
% 17.93/4.68 | From (785) and (174) follows:
% 17.93/4.68 | (792) op2(e22, e20) = e21
% 17.93/4.68 |
% 17.93/4.68 | From (785) and (720) follows:
% 17.93/4.68 | (62) op2(e20, e21) = e22
% 17.93/4.68 |
% 17.93/4.68 +-Applying beta-rule and splitting (246), into two cases.
% 17.93/4.68 |-Branch one:
% 17.93/4.68 | (794) all_0_201_201 = e23
% 17.93/4.68 |
% 17.93/4.68 | Equations (794) can reduce 92 to:
% 17.93/4.68 | (795) ~ (all_0_196_196 = e23)
% 17.93/4.69 |
% 17.93/4.69 | Equations (794) can reduce 227 to:
% 17.93/4.69 | (796) ~ (all_0_200_200 = e23)
% 17.93/4.69 |
% 17.93/4.69 | Equations (794) can reduce 454 to:
% 17.93/4.69 | (797) ~ (e24 = e23)
% 17.93/4.69 |
% 17.93/4.69 | Simplifying 797 yields:
% 17.93/4.69 | (567) ~ (e24 = e23)
% 17.93/4.69 |
% 17.93/4.69 | From (794) and (21) follows:
% 17.93/4.69 | (799) op2(e23, all_0_205_205) = e21
% 17.93/4.69 |
% 17.93/4.69 | From (794) and (198) follows:
% 17.93/4.69 | (800) op2(all_0_205_205, e23) = e22
% 17.93/4.69 |
% 17.93/4.69 +-Applying beta-rule and splitting (257), into two cases.
% 17.93/4.69 |-Branch one:
% 17.93/4.69 | (801) all_0_191_191 = e23
% 17.93/4.69 |
% 17.93/4.69 | Equations (801) can reduce 334 to:
% 17.93/4.69 | (802) ~ (all_0_204_204 = e23)
% 17.93/4.69 |
% 17.93/4.69 | Simplifying 802 yields:
% 17.93/4.69 | (803) ~ (all_0_204_204 = e23)
% 17.93/4.69 |
% 17.93/4.69 | From (801) and (546) follows:
% 17.93/4.69 | (804) op2(all_0_194_194, e23) = e24
% 17.93/4.69 |
% 17.93/4.69 +-Applying beta-rule and splitting (469), into two cases.
% 17.93/4.69 |-Branch one:
% 17.93/4.69 | (805) all_0_204_204 = e21
% 17.93/4.69 |
% 17.93/4.69 | Equations (805) can reduce 708 to:
% 17.93/4.69 | (705) $false
% 17.93/4.69 |
% 17.93/4.69 |-The branch is then unsatisfiable
% 17.93/4.69 |-Branch two:
% 17.93/4.69 | (708) ~ (all_0_204_204 = e21)
% 17.93/4.69 | (808) all_0_205_205 = e21 | all_0_206_206 = e21
% 17.93/4.69 |
% 17.93/4.69 +-Applying beta-rule and splitting (779), into two cases.
% 17.93/4.69 |-Branch one:
% 17.93/4.69 | (809) all_0_199_199 = e24
% 17.93/4.69 |
% 17.93/4.69 | Equations (809) can reduce 263 to:
% 17.93/4.69 | (810) ~ (all_0_200_200 = e24)
% 17.93/4.69 |
% 17.93/4.69 | Simplifying 810 yields:
% 17.93/4.69 | (811) ~ (all_0_200_200 = e24)
% 17.93/4.69 |
% 17.93/4.69 | From (809) and (643) follows:
% 17.93/4.69 | (812) op2(all_0_195_195, e24) = e22
% 17.93/4.69 |
% 17.93/4.69 | From (809) and (592) follows:
% 17.93/4.69 | (813) op2(e24, all_0_195_195) = e23
% 17.93/4.69 |
% 17.93/4.69 +-Applying beta-rule and splitting (490), into two cases.
% 17.93/4.69 |-Branch one:
% 17.93/4.69 | (814) all_0_198_198 = e22
% 17.93/4.69 |
% 17.93/4.69 | Combining equations (814,722) yields a new equation:
% 17.93/4.69 | (815) e22 = e20
% 17.93/4.69 |
% 17.93/4.69 | Simplifying 815 yields:
% 17.93/4.69 | (816) e22 = e20
% 17.93/4.69 |
% 17.93/4.69 | Equations (816) can reduce 483 to:
% 17.93/4.69 | (705) $false
% 17.93/4.69 |
% 17.93/4.69 |-The branch is then unsatisfiable
% 17.93/4.69 |-Branch two:
% 17.93/4.69 | (818) ~ (all_0_198_198 = e22)
% 17.93/4.69 | (819) all_0_199_199 = e22 | all_0_200_200 = e22 | all_0_202_202 = e22
% 17.93/4.69 |
% 17.93/4.69 +-Applying beta-rule and splitting (819), into two cases.
% 17.93/4.69 |-Branch one:
% 17.93/4.69 | (820) all_0_199_199 = e22
% 17.93/4.69 |
% 17.93/4.69 | Combining equations (820,809) yields a new equation:
% 17.93/4.69 | (821) e24 = e22
% 17.93/4.69 |
% 17.93/4.69 | Equations (821) can reduce 502 to:
% 17.93/4.69 | (705) $false
% 17.93/4.69 |
% 17.93/4.69 |-The branch is then unsatisfiable
% 17.93/4.69 |-Branch two:
% 17.93/4.69 | (823) ~ (all_0_199_199 = e22)
% 17.93/4.69 | (824) all_0_200_200 = e22 | all_0_202_202 = e22
% 17.93/4.69 |
% 17.93/4.69 +-Applying beta-rule and splitting (824), into two cases.
% 17.93/4.69 |-Branch one:
% 17.93/4.69 | (825) all_0_200_200 = e22
% 17.93/4.69 |
% 17.93/4.69 | Equations (825) can reduce 424 to:
% 17.93/4.69 | (826) ~ (all_0_195_195 = e22)
% 17.93/4.69 |
% 17.93/4.69 | Equations (825) can reduce 811 to:
% 17.93/4.69 | (827) ~ (e24 = e22)
% 17.93/4.69 |
% 17.93/4.69 | Simplifying 827 yields:
% 17.93/4.69 | (502) ~ (e24 = e22)
% 17.93/4.69 |
% 17.93/4.69 | Equations (825) can reduce 796 to:
% 17.93/4.69 | (829) ~ (e23 = e22)
% 17.93/4.69 |
% 17.93/4.69 | Simplifying 829 yields:
% 17.93/4.69 | (665) ~ (e23 = e22)
% 17.93/4.69 |
% 17.93/4.69 | From (825) and (144) follows:
% 17.93/4.69 | (831) op2(all_0_186_186, e22) = all_0_185_185
% 17.93/4.69 |
% 17.93/4.69 | From (825) and (31) follows:
% 17.93/4.69 | (832) op2(e22, all_0_186_186) = all_0_92_92
% 17.93/4.69 |
% 17.93/4.69 | From (825) and (206) follows:
% 17.93/4.69 | (833) op2(e22, e22) = all_0_85_85
% 17.93/4.69 |
% 17.93/4.69 | From (825) and (360) follows:
% 17.93/4.69 | (834) op2(e22, e22) = all_0_186_186
% 17.93/4.69 |
% 17.93/4.69 | From (825) and (535) follows:
% 17.93/4.69 | (835) op2(e22, e22) = e22
% 17.93/4.69 |
% 17.93/4.69 +-Applying beta-rule and splitting (489), into two cases.
% 17.93/4.69 |-Branch one:
% 17.93/4.69 | (836) all_0_196_196 = e23
% 17.93/4.69 |
% 17.93/4.69 | Equations (836) can reduce 795 to:
% 17.93/4.69 | (705) $false
% 17.93/4.69 |
% 17.93/4.69 |-The branch is then unsatisfiable
% 17.93/4.69 |-Branch two:
% 17.93/4.69 | (795) ~ (all_0_196_196 = e23)
% 17.93/4.69 | (839) all_0_196_196 = e21
% 17.93/4.69 |
% 17.93/4.69 | Equations (839) can reduce 346 to:
% 17.93/4.69 | (840) ~ (all_0_195_195 = e21)
% 17.93/4.69 |
% 17.93/4.69 | Equations (839) can reduce 795 to:
% 17.93/4.69 | (841) ~ (e23 = e21)
% 17.93/4.69 |
% 17.93/4.69 | Simplifying 841 yields:
% 17.93/4.69 | (600) ~ (e23 = e21)
% 17.93/4.69 |
% 17.93/4.69 | Equations (839) can reduce 44 to:
% 17.93/4.69 | (279) ~ (e21 = e20)
% 17.93/4.69 |
% 17.93/4.69 | From (839) and (298) follows:
% 17.93/4.69 | (844) op2(all_0_204_204, e21) = e23
% 17.93/4.69 |
% 17.93/4.69 +-Applying beta-rule and splitting (249), into two cases.
% 17.93/4.69 |-Branch one:
% 17.93/4.69 | (845) all_0_194_194 = e22
% 17.93/4.69 |
% 17.93/4.69 | Equations (845) can reduce 699 to:
% 17.93/4.69 | (827) ~ (e24 = e22)
% 17.93/4.69 |
% 17.93/4.69 | Simplifying 827 yields:
% 17.93/4.69 | (502) ~ (e24 = e22)
% 17.93/4.69 |
% 17.93/4.69 | From (845) and (804) follows:
% 17.93/4.69 | (848) op2(e22, e23) = e24
% 17.93/4.69 |
% 17.93/4.69 +-Applying beta-rule and splitting (47), into two cases.
% 17.93/4.69 |-Branch one:
% 17.93/4.69 | (849) all_0_191_191 = e22
% 17.93/4.69 |
% 17.93/4.69 | Combining equations (801,849) yields a new equation:
% 17.93/4.69 | (850) e23 = e22
% 17.93/4.69 |
% 17.93/4.69 | Simplifying 850 yields:
% 17.93/4.69 | (851) e23 = e22
% 17.93/4.69 |
% 17.93/4.69 | Equations (851) can reduce 665 to:
% 17.93/4.69 | (705) $false
% 17.93/4.69 |
% 17.93/4.69 |-The branch is then unsatisfiable
% 17.93/4.69 |-Branch two:
% 17.93/4.69 | (688) ~ (all_0_191_191 = e22)
% 17.93/4.69 | (854) all_0_199_199 = e22 | all_0_204_204 = e22
% 17.93/4.69 |
% 17.93/4.69 +-Applying beta-rule and splitting (854), into two cases.
% 17.93/4.69 |-Branch one:
% 17.93/4.70 | (820) all_0_199_199 = e22
% 17.93/4.70 |
% 17.93/4.70 | Combining equations (809,820) yields a new equation:
% 17.93/4.70 | (856) e24 = e22
% 17.93/4.70 |
% 17.93/4.70 | Simplifying 856 yields:
% 17.93/4.70 | (821) e24 = e22
% 17.93/4.70 |
% 17.93/4.70 | Equations (821) can reduce 502 to:
% 17.93/4.70 | (705) $false
% 17.93/4.70 |
% 17.93/4.70 |-The branch is then unsatisfiable
% 17.93/4.70 |-Branch two:
% 17.93/4.70 | (823) ~ (all_0_199_199 = e22)
% 17.93/4.70 | (860) all_0_204_204 = e22
% 17.93/4.70 |
% 17.93/4.70 | Equations (860) can reduce 601 to:
% 17.93/4.70 | (861) ~ (all_0_203_203 = e22)
% 17.93/4.70 |
% 17.93/4.70 | Equations (860) can reduce 803 to:
% 17.93/4.70 | (829) ~ (e23 = e22)
% 17.93/4.70 |
% 17.93/4.70 | Simplifying 829 yields:
% 17.93/4.70 | (665) ~ (e23 = e22)
% 17.93/4.70 |
% 17.93/4.70 | Equations (860) can reduce 708 to:
% 17.93/4.70 | (416) ~ (e22 = e21)
% 17.93/4.70 |
% 17.93/4.70 | From (860)(860) and (737) follows:
% 17.93/4.70 | (865) op2(e22, e22) = all_0_161_161
% 17.93/4.70 |
% 17.93/4.70 | From (860) and (736) follows:
% 18.06/4.70 | (866) op2(e22, e24) = all_0_159_159
% 18.06/4.70 |
% 18.06/4.70 | From (860) and (738) follows:
% 18.06/4.70 | (867) op2(e22, e23) = all_0_163_163
% 18.06/4.70 |
% 18.06/4.70 | From (860) and (739) follows:
% 18.06/4.70 | (868) op2(e22, e21) = all_0_165_165
% 18.06/4.70 |
% 18.06/4.70 | From (860) and (844) follows:
% 18.06/4.70 | (869) op2(e22, e21) = e23
% 18.06/4.70 |
% 18.06/4.70 | From (860) and (740) follows:
% 18.06/4.70 | (870) op2(e22, e20) = all_0_157_157
% 18.06/4.70 |
% 18.06/4.70 | From (860) and (734) follows:
% 18.06/4.70 | (871) op2(e24, e22) = all_0_151_151
% 18.06/4.70 |
% 18.06/4.70 | From (860) and (745) follows:
% 18.06/4.70 | (872) op2(e23, e22) = all_0_170_170
% 18.06/4.70 |
% 18.06/4.70 | From (860) and (747) follows:
% 18.06/4.70 | (873) op2(e21, e22) = all_0_178_178
% 18.06/4.70 |
% 18.06/4.70 | From (860) and (749) follows:
% 18.06/4.70 | (874) op2(e20, e22) = all_0_144_144
% 18.06/4.70 |
% 18.06/4.70 +-Applying beta-rule and splitting (486), into two cases.
% 18.06/4.70 |-Branch one:
% 18.06/4.70 | (875) all_0_195_195 = e21
% 18.06/4.70 |
% 18.06/4.70 | Equations (875) can reduce 840 to:
% 18.06/4.70 | (705) $false
% 18.06/4.70 |
% 18.06/4.70 |-The branch is then unsatisfiable
% 18.06/4.70 |-Branch two:
% 18.06/4.70 | (840) ~ (all_0_195_195 = e21)
% 18.06/4.70 | (878) all_0_200_200 = e21 | all_0_205_205 = e21 | all_0_209_209 = e21
% 18.06/4.70 |
% 18.06/4.70 +-Applying beta-rule and splitting (878), into two cases.
% 18.06/4.70 |-Branch one:
% 18.06/4.70 | (879) all_0_200_200 = e21
% 18.06/4.70 |
% 18.06/4.70 | Combining equations (825,879) yields a new equation:
% 18.06/4.70 | (880) e22 = e21
% 18.06/4.70 |
% 18.06/4.70 | Simplifying 880 yields:
% 18.06/4.70 | (881) e22 = e21
% 18.06/4.70 |
% 18.06/4.70 | Equations (881) can reduce 416 to:
% 18.06/4.70 | (705) $false
% 18.06/4.70 |
% 18.06/4.70 |-The branch is then unsatisfiable
% 18.06/4.70 |-Branch two:
% 18.06/4.70 | (883) ~ (all_0_200_200 = e21)
% 18.06/4.70 | (884) all_0_205_205 = e21 | all_0_209_209 = e21
% 18.06/4.70 |
% 18.06/4.70 +-Applying beta-rule and splitting (884), into two cases.
% 18.06/4.70 |-Branch one:
% 18.06/4.70 | (885) all_0_205_205 = e21
% 18.06/4.70 |
% 18.06/4.70 | Equations (885) can reduce 405 to:
% 18.06/4.70 | (620) ~ (all_0_203_203 = e21)
% 18.06/4.70 |
% 18.06/4.70 | From (885) and (800) follows:
% 18.06/4.70 | (887) op2(e21, e23) = e22
% 18.06/4.70 |
% 18.06/4.70 | From (885) and (799) follows:
% 18.06/4.70 | (888) op2(e23, e21) = e21
% 18.06/4.70 |
% 18.06/4.70 | From (885) and (573) follows:
% 18.06/4.70 | (889) op2(e21, e22) = e21
% 18.06/4.70 |
% 18.06/4.70 +-Applying beta-rule and splitting (456), into two cases.
% 18.06/4.70 |-Branch one:
% 18.06/4.70 | (890) all_0_203_203 = e23
% 18.06/4.70 |
% 18.06/4.70 | Equations (890) can reduce 861 to:
% 18.06/4.70 | (665) ~ (e23 = e22)
% 18.06/4.70 |
% 18.06/4.70 | Equations (890) can reduce 620 to:
% 18.06/4.70 | (600) ~ (e23 = e21)
% 18.06/4.70 |
% 18.06/4.70 | From (890) and (506) follows:
% 18.06/4.70 | (893) h2(e10) = e23
% 18.06/4.70 |
% 18.06/4.70 | From (890) and (232) follows:
% 18.06/4.70 | (894) op2(all_0_187_187, e23) = all_0_115_115
% 18.06/4.70 |
% 18.06/4.70 | From (890) and (301) follows:
% 18.06/4.70 | (895) op2(all_0_188_188, e23) = all_0_125_125
% 18.06/4.70 |
% 18.06/4.70 | From (890) and (175) follows:
% 18.06/4.70 | (896) op2(e23, all_0_187_187) = all_0_136_136
% 18.06/4.70 |
% 18.06/4.70 | From (890) and (13) follows:
% 18.06/4.70 | (897) op2(e23, all_0_188_188) = all_0_138_138
% 18.06/4.70 |
% 18.06/4.70 | From (890)(890) and (666) follows:
% 18.06/4.70 | (898) op2(e23, e23) = all_0_187_187
% 18.06/4.70 |
% 18.06/4.70 | From (890) and (475) follows:
% 18.06/4.70 | (899) op2(e23, e24) = all_0_188_188
% 18.06/4.70 |
% 18.06/4.70 | From (890) and (618) follows:
% 18.06/4.70 | (900) op2(e23, e21) = all_0_134_134
% 18.06/4.70 |
% 18.06/4.70 | From (890) and (409) follows:
% 18.06/4.71 | (901) op2(e23, e20) = e24
% 18.06/4.71 |
% 18.06/4.71 | From (890) and (429) follows:
% 18.06/4.71 | (902) op2(e24, e23) = all_0_132_132
% 18.06/4.71 |
% 18.06/4.71 | From (890) and (201) follows:
% 18.06/4.71 | (903) op2(e21, e23) = all_0_106_106
% 18.06/4.71 |
% 18.06/4.71 | From (890) and (448) follows:
% 18.06/4.71 | (904) op2(e20, e23) = e21
% 18.06/4.71 |
% 18.06/4.71 +-Applying beta-rule and splitting (217), into two cases.
% 18.06/4.71 |-Branch one:
% 18.06/4.71 | (905) all_0_194_194 = e23
% 18.06/4.71 |
% 18.06/4.71 | Combining equations (845,905) yields a new equation:
% 18.06/4.71 | (851) e23 = e22
% 18.06/4.71 |
% 18.06/4.71 | Equations (851) can reduce 665 to:
% 18.06/4.71 | (705) $false
% 18.06/4.71 |
% 18.06/4.71 |-The branch is then unsatisfiable
% 18.06/4.71 |-Branch two:
% 18.06/4.71 | (908) ~ (all_0_194_194 = e23)
% 18.06/4.71 | (909) all_0_195_195 = e23 | all_0_196_196 = e23
% 18.06/4.71 |
% 18.06/4.71 +-Applying beta-rule and splitting (909), into two cases.
% 18.06/4.71 |-Branch one:
% 18.06/4.71 | (910) all_0_195_195 = e23
% 18.06/4.71 |
% 18.06/4.71 | From (910) and (812) follows:
% 18.06/4.71 | (911) op2(e23, e24) = e22
% 18.06/4.71 |
% 18.06/4.71 | From (910) and (813) follows:
% 18.06/4.71 | (912) op2(e24, e23) = e23
% 18.06/4.71 |
% 18.06/4.71 | From (910) and (395) follows:
% 18.06/4.71 | (913) op2(e23, e22) = e23
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e24, e24, all_0_150_150, e21 and discharging atoms op2(e24, e24) = all_0_150_150, op2(e24, e24) = e21, yields:
% 18.06/4.71 | (914) all_0_150_150 = e21
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e24, e24, all_0_182_182, all_0_150_150 and discharging atoms op2(e24, e24) = all_0_150_150, op2(e24, e24) = all_0_182_182, yields:
% 18.06/4.71 | (915) all_0_150_150 = all_0_182_182
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e24, e23, all_0_132_132, all_0_51_51 and discharging atoms op2(e24, e23) = all_0_51_51, op2(e24, e23) = all_0_132_132, yields:
% 18.06/4.71 | (916) all_0_51_51 = all_0_132_132
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e24, e23, e23, all_0_51_51 and discharging atoms op2(e24, e23) = all_0_51_51, op2(e24, e23) = e23, yields:
% 18.06/4.71 | (917) all_0_51_51 = e23
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e24, e22, all_0_151_151, e24 and discharging atoms op2(e24, e22) = all_0_151_151, op2(e24, e22) = e24, yields:
% 18.06/4.71 | (918) all_0_151_151 = e24
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e24, e20, all_0_148_148, e22 and discharging atoms op2(e24, e20) = all_0_148_148, op2(e24, e20) = e22, yields:
% 18.06/4.71 | (919) all_0_148_148 = e22
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e24, e20, all_0_183_183, all_0_148_148 and discharging atoms op2(e24, e20) = all_0_148_148, op2(e24, e20) = all_0_183_183, yields:
% 18.06/4.71 | (920) all_0_148_148 = all_0_183_183
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e23, e24, all_0_168_168, all_0_23_23 and discharging atoms op2(e23, e24) = all_0_23_23, op2(e23, e24) = all_0_168_168, yields:
% 18.06/4.71 | (921) all_0_23_23 = all_0_168_168
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e23, e24, all_0_188_188, all_0_23_23 and discharging atoms op2(e23, e24) = all_0_23_23, op2(e23, e24) = all_0_188_188, yields:
% 18.06/4.71 | (922) all_0_23_23 = all_0_188_188
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e23, e24, e22, all_0_23_23 and discharging atoms op2(e23, e24) = all_0_23_23, op2(e23, e24) = e22, yields:
% 18.06/4.71 | (923) all_0_23_23 = e22
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e23, e23, all_0_187_187, e20 and discharging atoms op2(e23, e23) = all_0_187_187, op2(e23, e23) = e20, yields:
% 18.06/4.71 | (924) all_0_187_187 = e20
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e23, e22, e23, all_0_170_170 and discharging atoms op2(e23, e22) = all_0_170_170, op2(e23, e22) = e23, yields:
% 18.06/4.71 | (925) all_0_170_170 = e23
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e23, e21, e21, all_0_134_134 and discharging atoms op2(e23, e21) = all_0_134_134, op2(e23, e21) = e21, yields:
% 18.06/4.71 | (926) all_0_134_134 = e21
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e22, e24, all_0_159_159, e20 and discharging atoms op2(e22, e24) = all_0_159_159, op2(e22, e24) = e20, yields:
% 18.06/4.71 | (927) all_0_159_159 = e20
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e22, e23, e24, all_0_163_163 and discharging atoms op2(e22, e23) = all_0_163_163, op2(e22, e23) = e24, yields:
% 18.06/4.71 | (928) all_0_163_163 = e24
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e22, e22, all_0_161_161, all_0_85_85 and discharging atoms op2(e22, e22) = all_0_85_85, op2(e22, e22) = all_0_161_161, yields:
% 18.06/4.71 | (929) all_0_85_85 = all_0_161_161
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e22, e22, all_0_186_186, all_0_85_85 and discharging atoms op2(e22, e22) = all_0_85_85, op2(e22, e22) = all_0_186_186, yields:
% 18.06/4.71 | (930) all_0_85_85 = all_0_186_186
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e22, e22, e22, all_0_85_85 and discharging atoms op2(e22, e22) = all_0_85_85, op2(e22, e22) = e22, yields:
% 18.06/4.71 | (931) all_0_85_85 = e22
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e22, e21, e23, all_0_165_165 and discharging atoms op2(e22, e21) = all_0_165_165, op2(e22, e21) = e23, yields:
% 18.06/4.71 | (932) all_0_165_165 = e23
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e22, e20, e21, all_0_157_157 and discharging atoms op2(e22, e20) = all_0_157_157, op2(e22, e20) = e21, yields:
% 18.06/4.71 | (933) all_0_157_157 = e21
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e21, e23, e22, all_0_106_106 and discharging atoms op2(e21, e23) = all_0_106_106, op2(e21, e23) = e22, yields:
% 18.06/4.71 | (934) all_0_106_106 = e22
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e21, e22, e21, all_0_178_178 and discharging atoms op2(e21, e22) = all_0_178_178, op2(e21, e22) = e21, yields:
% 18.06/4.71 | (935) all_0_178_178 = e21
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e20, e24, all_0_49_49, e24 and discharging atoms op2(e20, e24) = all_0_49_49, op2(e20, e24) = e24, yields:
% 18.06/4.71 | (936) all_0_49_49 = e24
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e20, e24, all_0_142_142, all_0_49_49 and discharging atoms op2(e20, e24) = all_0_49_49, op2(e20, e24) = all_0_142_142, yields:
% 18.06/4.71 | (937) all_0_49_49 = all_0_142_142
% 18.06/4.71 |
% 18.06/4.71 | Instantiating formula (650) with e20, e22, all_0_144_144, e20 and discharging atoms op2(e20, e22) = all_0_144_144, op2(e20, e22) = e20, yields:
% 18.06/4.71 | (938) all_0_144_144 = e20
% 18.06/4.71 |
% 18.06/4.71 | Combining equations (922,921) yields a new equation:
% 18.06/4.71 | (939) all_0_168_168 = all_0_188_188
% 18.06/4.71 |
% 18.06/4.71 | Combining equations (923,921) yields a new equation:
% 18.06/4.71 | (940) all_0_168_168 = e22
% 18.06/4.71 |
% 18.06/4.71 | Combining equations (936,937) yields a new equation:
% 18.06/4.71 | (941) all_0_142_142 = e24
% 18.06/4.71 |
% 18.06/4.71 | Combining equations (916,917) yields a new equation:
% 18.06/4.71 | (942) all_0_132_132 = e23
% 18.06/4.71 |
% 18.06/4.71 | Simplifying 942 yields:
% 18.06/4.71 | (943) all_0_132_132 = e23
% 18.06/4.71 |
% 18.06/4.72 | Combining equations (930,929) yields a new equation:
% 18.06/4.72 | (944) all_0_161_161 = all_0_186_186
% 18.06/4.72 |
% 18.06/4.72 | Combining equations (931,929) yields a new equation:
% 18.06/4.72 | (945) all_0_161_161 = e22
% 18.06/4.72 |
% 18.06/4.72 | Combining equations (919,920) yields a new equation:
% 18.06/4.72 | (946) all_0_183_183 = e22
% 18.06/4.72 |
% 18.06/4.72 | Combining equations (914,915) yields a new equation:
% 18.06/4.72 | (947) all_0_182_182 = e21
% 18.06/4.72 |
% 18.06/4.72 | Combining equations (945,944) yields a new equation:
% 18.06/4.72 | (948) all_0_186_186 = e22
% 18.06/4.72 |
% 18.06/4.72 | Combining equations (940,939) yields a new equation:
% 18.06/4.72 | (949) all_0_188_188 = e22
% 18.06/4.72 |
% 18.06/4.72 | Combining equations (924,673) yields a new equation:
% 18.06/4.72 | (950) all_0_141_141 = e20
% 18.06/4.72 |
% 18.06/4.72 | Combining equations (949,674) yields a new equation:
% 18.06/4.72 | (951) all_0_140_140 = e22
% 18.06/4.72 |
% 18.06/4.72 | From (924) and (122) follows:
% 18.06/4.72 | (952) h2(e13) = e20
% 18.06/4.72 |
% 18.06/4.72 | From (949) and (394) follows:
% 18.06/4.72 | (953) h2(e12) = e22
% 18.06/4.72 |
% 18.06/4.72 | From (947)(946) and (400) follows:
% 18.06/4.72 | (954) op2(e21, e22) = all_0_28_28
% 18.06/4.72 |
% 18.06/4.72 | From (947) and (478) follows:
% 18.06/4.72 | (955) op2(e21, e20) = all_0_30_30
% 18.06/4.72 |
% 18.06/4.72 | From (946)(947) and (412) follows:
% 18.06/4.72 | (956) op2(e22, e21) = all_0_36_36
% 18.06/4.72 |
% 18.06/4.72 | From (946)(946) and (285) follows:
% 18.06/4.72 | (957) op2(e22, e22) = all_0_38_38
% 18.06/4.72 |
% 18.06/4.72 | From (946) and (762) follows:
% 18.06/4.72 | (958) op2(e22, e24) = all_0_42_42
% 18.06/4.72 |
% 18.06/4.72 | From (946) and (564) follows:
% 18.06/4.72 | (959) op2(e22, e23) = all_0_34_34
% 18.06/4.72 |
% 18.06/4.72 | From (946) and (41) follows:
% 18.06/4.72 | (960) op2(e22, e20) = all_0_40_40
% 18.06/4.72 |
% 18.06/4.72 | From (948)(948) and (67) follows:
% 18.06/4.72 | (961) op2(e22, e22) = all_0_184_184
% 18.06/4.72 |
% 18.06/4.72 | From (948) and (831) follows:
% 18.06/4.72 | (962) op2(e22, e22) = all_0_185_185
% 18.06/4.72 |
% 18.06/4.72 | From (924)(924) and (188) follows:
% 18.06/4.72 | (963) op2(e20, e20) = all_0_110_110
% 18.06/4.72 |
% 18.06/4.72 | From (924)(949) and (568) follows:
% 18.06/4.72 | (964) op2(e20, e22) = all_0_111_111
% 18.06/4.72 |
% 18.06/4.72 | From (924) and (439) follows:
% 18.06/4.72 | (965) op2(e20, e24) = all_0_113_113
% 18.06/4.72 |
% 18.06/4.72 | From (924) and (894) follows:
% 18.06/4.72 | (966) op2(e20, e23) = all_0_115_115
% 18.06/4.72 |
% 18.06/4.72 | From (924) and (55) follows:
% 18.06/4.72 | (967) op2(e20, e21) = all_0_108_108
% 18.06/4.72 |
% 18.06/4.72 | From (949)(924) and (377) follows:
% 18.06/4.72 | (968) op2(e22, e20) = all_0_119_119
% 18.06/4.72 |
% 18.06/4.72 | From (949)(949) and (649) follows:
% 18.06/4.72 | (969) op2(e22, e22) = all_0_121_121
% 18.06/4.72 |
% 18.06/4.72 | From (949) and (266) follows:
% 18.06/4.72 | (970) op2(e22, e24) = all_0_123_123
% 18.06/4.72 |
% 18.06/4.72 | From (949) and (895) follows:
% 18.06/4.72 | (971) op2(e22, e23) = all_0_125_125
% 18.06/4.72 |
% 18.06/4.72 | From (949) and (18) follows:
% 18.06/4.72 | (972) op2(e22, e21) = all_0_117_117
% 18.06/4.72 |
% 18.06/4.72 | From (946) and (763) follows:
% 18.06/4.72 | (973) op2(e24, e22) = all_0_55_55
% 18.06/4.72 |
% 18.06/4.72 | From (924) and (317) follows:
% 18.06/4.72 | (974) op2(e24, e20) = all_0_128_128
% 18.06/4.72 |
% 18.06/4.72 | From (949) and (264) follows:
% 18.06/4.72 | (975) op2(e24, e22) = all_0_130_130
% 18.06/4.72 |
% 18.06/4.72 | From (918) and (871) follows:
% 18.06/4.72 | (702) op2(e24, e22) = e24
% 18.06/4.72 |
% 18.06/4.72 | From (946) and (766) follows:
% 18.06/4.72 | (741) op2(e24, e20) = e22
% 18.06/4.72 |
% 18.06/4.72 | From (946) and (135) follows:
% 18.06/4.72 | (978) op2(e23, e22) = all_0_21_21
% 18.06/4.72 |
% 18.06/4.72 | From (924) and (896) follows:
% 18.06/4.72 | (979) op2(e23, e20) = all_0_136_136
% 18.06/4.72 |
% 18.06/4.72 | From (949) and (897) follows:
% 18.06/4.72 | (980) op2(e23, e22) = all_0_138_138
% 18.06/4.72 |
% 18.06/4.72 | From (925) and (872) follows:
% 18.06/4.73 | (913) op2(e23, e22) = e23
% 18.06/4.73 |
% 18.06/4.73 | From (948) and (832) follows:
% 18.06/4.73 | (982) op2(e22, e22) = all_0_92_92
% 18.06/4.73 |
% 18.06/4.73 | From (927) and (866) follows:
% 18.06/4.73 | (703) op2(e22, e24) = e20
% 18.06/4.73 |
% 18.06/4.73 | From (928) and (867) follows:
% 18.06/4.73 | (848) op2(e22, e23) = e24
% 18.06/4.73 |
% 18.06/4.73 | From (948) and (834) follows:
% 18.06/4.73 | (835) op2(e22, e22) = e22
% 18.06/4.73 |
% 18.06/4.73 | From (932) and (868) follows:
% 18.06/4.73 | (869) op2(e22, e21) = e23
% 18.06/4.73 |
% 18.06/4.73 | From (933) and (870) follows:
% 18.06/4.73 | (792) op2(e22, e20) = e21
% 18.06/4.73 |
% 18.06/4.73 | From (924) and (389) follows:
% 18.06/4.73 | (988) op2(e21, e20) = all_0_102_102
% 18.06/4.73 |
% 18.06/4.73 | From (949) and (108) follows:
% 18.06/4.73 | (989) op2(e21, e22) = all_0_104_104
% 18.06/4.73 |
% 18.06/4.73 | From (935) and (873) follows:
% 18.06/4.73 | (889) op2(e21, e22) = e21
% 18.06/4.73 |
% 18.06/4.73 | From (947) and (240) follows:
% 18.06/4.73 | (991) op2(e20, e21) = all_0_45_45
% 18.06/4.73 |
% 18.06/4.73 | From (946) and (287) follows:
% 18.06/4.73 | (992) op2(e20, e22) = all_0_47_47
% 18.06/4.73 |
% 18.06/4.73 | From (941) and (748) follows:
% 18.06/4.73 | (742) op2(e20, e24) = e24
% 18.06/4.73 |
% 18.06/4.73 | From (938) and (874) follows:
% 18.06/4.73 | (775) op2(e20, e22) = e20
% 18.06/4.73 |
% 18.06/4.73 | Instantiating formula (650) with e24, e22, all_0_55_55, e24 and discharging atoms op2(e24, e22) = all_0_55_55, op2(e24, e22) = e24, yields:
% 18.06/4.73 | (995) all_0_55_55 = e24
% 18.06/4.73 |
% 18.06/4.73 | Instantiating formula (650) with e24, e22, all_0_130_130, all_0_55_55 and discharging atoms op2(e24, e22) = all_0_55_55, op2(e24, e22) = all_0_130_130, yields:
% 18.19/4.73 | (996) all_0_55_55 = all_0_130_130
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e24, e20, all_0_128_128, e22 and discharging atoms op2(e24, e20) = all_0_128_128, op2(e24, e20) = e22, yields:
% 18.19/4.73 | (997) all_0_128_128 = e22
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e23, e22, all_0_21_21, e23 and discharging atoms op2(e23, e22) = all_0_21_21, op2(e23, e22) = e23, yields:
% 18.19/4.73 | (998) all_0_21_21 = e23
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e23, e22, all_0_138_138, all_0_21_21 and discharging atoms op2(e23, e22) = all_0_21_21, op2(e23, e22) = all_0_138_138, yields:
% 18.19/4.73 | (999) all_0_21_21 = all_0_138_138
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e23, e20, all_0_136_136, e24 and discharging atoms op2(e23, e20) = all_0_136_136, op2(e23, e20) = e24, yields:
% 18.19/4.73 | (1000) all_0_136_136 = e24
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e24, all_0_42_42, e20 and discharging atoms op2(e22, e24) = all_0_42_42, op2(e22, e24) = e20, yields:
% 18.19/4.73 | (1001) all_0_42_42 = e20
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e24, all_0_123_123, all_0_42_42 and discharging atoms op2(e22, e24) = all_0_42_42, op2(e22, e24) = all_0_123_123, yields:
% 18.19/4.73 | (1002) all_0_42_42 = all_0_123_123
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e23, all_0_34_34, e24 and discharging atoms op2(e22, e23) = all_0_34_34, op2(e22, e23) = e24, yields:
% 18.19/4.73 | (1003) all_0_34_34 = e24
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e23, all_0_125_125, all_0_34_34 and discharging atoms op2(e22, e23) = all_0_34_34, op2(e22, e23) = all_0_125_125, yields:
% 18.19/4.73 | (1004) all_0_34_34 = all_0_125_125
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e22, all_0_121_121, e22 and discharging atoms op2(e22, e22) = all_0_121_121, op2(e22, e22) = e22, yields:
% 18.19/4.73 | (1005) all_0_121_121 = e22
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e22, all_0_121_121, all_0_38_38 and discharging atoms op2(e22, e22) = all_0_38_38, op2(e22, e22) = all_0_121_121, yields:
% 18.19/4.73 | (1006) all_0_38_38 = all_0_121_121
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e22, all_0_121_121, all_0_92_92 and discharging atoms op2(e22, e22) = all_0_92_92, op2(e22, e22) = all_0_121_121, yields:
% 18.19/4.73 | (1007) all_0_92_92 = all_0_121_121
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e22, all_0_184_184, all_0_92_92 and discharging atoms op2(e22, e22) = all_0_92_92, op2(e22, e22) = all_0_184_184, yields:
% 18.19/4.73 | (1008) all_0_92_92 = all_0_184_184
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e22, all_0_185_185, all_0_38_38 and discharging atoms op2(e22, e22) = all_0_38_38, op2(e22, e22) = all_0_185_185, yields:
% 18.19/4.73 | (1009) all_0_38_38 = all_0_185_185
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e21, all_0_36_36, e23 and discharging atoms op2(e22, e21) = all_0_36_36, op2(e22, e21) = e23, yields:
% 18.19/4.73 | (1010) all_0_36_36 = e23
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e21, all_0_117_117, all_0_36_36 and discharging atoms op2(e22, e21) = all_0_36_36, op2(e22, e21) = all_0_117_117, yields:
% 18.19/4.73 | (1011) all_0_36_36 = all_0_117_117
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e20, all_0_40_40, e21 and discharging atoms op2(e22, e20) = all_0_40_40, op2(e22, e20) = e21, yields:
% 18.19/4.73 | (1012) all_0_40_40 = e21
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e22, e20, all_0_119_119, all_0_40_40 and discharging atoms op2(e22, e20) = all_0_40_40, op2(e22, e20) = all_0_119_119, yields:
% 18.19/4.73 | (1013) all_0_40_40 = all_0_119_119
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e21, e22, all_0_28_28, e21 and discharging atoms op2(e21, e22) = all_0_28_28, op2(e21, e22) = e21, yields:
% 18.19/4.73 | (1014) all_0_28_28 = e21
% 18.19/4.73 |
% 18.19/4.73 | Instantiating formula (650) with e21, e22, all_0_104_104, all_0_28_28 and discharging atoms op2(e21, e22) = all_0_28_28, op2(e21, e22) = all_0_104_104, yields:
% 18.19/4.73 | (1015) all_0_28_28 = all_0_104_104
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (650) with e21, e20, all_0_30_30, e20 and discharging atoms op2(e21, e20) = all_0_30_30, op2(e21, e20) = e20, yields:
% 18.19/4.74 | (1016) all_0_30_30 = e20
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (650) with e21, e20, all_0_102_102, all_0_30_30 and discharging atoms op2(e21, e20) = all_0_30_30, op2(e21, e20) = all_0_102_102, yields:
% 18.19/4.74 | (1017) all_0_30_30 = all_0_102_102
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (650) with e20, e24, all_0_113_113, e24 and discharging atoms op2(e20, e24) = all_0_113_113, op2(e20, e24) = e24, yields:
% 18.19/4.74 | (1018) all_0_113_113 = e24
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (650) with e20, e23, all_0_115_115, e21 and discharging atoms op2(e20, e23) = all_0_115_115, op2(e20, e23) = e21, yields:
% 18.19/4.74 | (1019) all_0_115_115 = e21
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (650) with e20, e22, all_0_47_47, e20 and discharging atoms op2(e20, e22) = all_0_47_47, op2(e20, e22) = e20, yields:
% 18.19/4.74 | (1020) all_0_47_47 = e20
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (650) with e20, e22, all_0_111_111, all_0_47_47 and discharging atoms op2(e20, e22) = all_0_47_47, op2(e20, e22) = all_0_111_111, yields:
% 18.19/4.74 | (1021) all_0_47_47 = all_0_111_111
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (650) with e20, e21, all_0_45_45, e22 and discharging atoms op2(e20, e21) = all_0_45_45, op2(e20, e21) = e22, yields:
% 18.19/4.74 | (1022) all_0_45_45 = e22
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (650) with e20, e21, all_0_108_108, all_0_45_45 and discharging atoms op2(e20, e21) = all_0_45_45, op2(e20, e21) = all_0_108_108, yields:
% 18.19/4.74 | (1023) all_0_45_45 = all_0_108_108
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (650) with e20, e20, all_0_110_110, e23 and discharging atoms op2(e20, e20) = all_0_110_110, op2(e20, e20) = e23, yields:
% 18.19/4.74 | (1024) all_0_110_110 = e23
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (998,999) yields a new equation:
% 18.19/4.74 | (1025) all_0_138_138 = e23
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1015,1014) yields a new equation:
% 18.19/4.74 | (1026) all_0_104_104 = e21
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1026 yields:
% 18.19/4.74 | (1027) all_0_104_104 = e21
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1016,1017) yields a new equation:
% 18.19/4.74 | (1028) all_0_102_102 = e20
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1003,1004) yields a new equation:
% 18.19/4.74 | (1029) all_0_125_125 = e24
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1010,1011) yields a new equation:
% 18.19/4.74 | (1030) all_0_117_117 = e23
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1006,1009) yields a new equation:
% 18.19/4.74 | (1031) all_0_121_121 = all_0_185_185
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1031 yields:
% 18.19/4.74 | (1032) all_0_121_121 = all_0_185_185
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1013,1012) yields a new equation:
% 18.19/4.74 | (1033) all_0_119_119 = e21
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1033 yields:
% 18.19/4.74 | (1034) all_0_119_119 = e21
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1001,1002) yields a new equation:
% 18.19/4.74 | (1035) all_0_123_123 = e20
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1022,1023) yields a new equation:
% 18.19/4.74 | (1036) all_0_108_108 = e22
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1020,1021) yields a new equation:
% 18.19/4.74 | (1037) all_0_111_111 = e20
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (995,996) yields a new equation:
% 18.19/4.74 | (1038) all_0_130_130 = e24
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1007,1008) yields a new equation:
% 18.19/4.74 | (1039) all_0_121_121 = all_0_184_184
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1039 yields:
% 18.19/4.74 | (1040) all_0_121_121 = all_0_184_184
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1005,1040) yields a new equation:
% 18.19/4.74 | (1041) all_0_184_184 = e22
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1032,1040) yields a new equation:
% 18.19/4.74 | (1042) all_0_184_184 = all_0_185_185
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1041,1042) yields a new equation:
% 18.19/4.74 | (1043) all_0_185_185 = e22
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1043,1042) yields a new equation:
% 18.19/4.74 | (1041) all_0_184_184 = e22
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1041,1040) yields a new equation:
% 18.19/4.74 | (1005) all_0_121_121 = e22
% 18.19/4.74 |
% 18.19/4.74 +-Applying beta-rule and splitting (348), into two cases.
% 18.19/4.74 |-Branch one:
% 18.19/4.74 | (1046) all_0_212_212 = e12
% 18.19/4.74 |
% 18.19/4.74 | Equations (1046) can reduce 32 to:
% 18.19/4.74 | (1047) ~ (all_0_211_211 = e12)
% 18.19/4.74 |
% 18.19/4.74 | Equations (1046) can reduce 104 to:
% 18.19/4.74 | (1048) ~ (all_0_216_216 = e12)
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1048 yields:
% 18.19/4.74 | (1049) ~ (all_0_216_216 = e12)
% 18.19/4.74 |
% 18.19/4.74 | Equations (1046) can reduce 495 to:
% 18.19/4.74 | (1050) ~ (all_0_221_221 = e12)
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1050 yields:
% 18.19/4.74 | (1051) ~ (all_0_221_221 = e12)
% 18.19/4.74 |
% 18.19/4.74 | Equations (1046) can reduce 612 to:
% 18.19/4.74 | (1052) ~ (all_0_225_225 = e12)
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1052 yields:
% 18.19/4.74 | (1053) ~ (all_0_225_225 = e12)
% 18.19/4.74 |
% 18.19/4.74 | From (1046) and (654) follows:
% 18.19/4.74 | (1054) op1(e12, all_0_226_226) = e10
% 18.19/4.74 |
% 18.19/4.74 | From (1046) and (374) follows:
% 18.19/4.74 | (1055) op1(all_0_226_226, e12) = e14
% 18.19/4.74 |
% 18.19/4.74 | From (1046) and (209) follows:
% 18.19/4.74 | (1056) h2(e12) = all_0_107_107
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (667) with e12, all_0_107_107, e22 and discharging atoms h2(e12) = all_0_107_107, h2(e12) = e22, yields:
% 18.19/4.74 | (1057) all_0_107_107 = e22
% 18.19/4.74 |
% 18.19/4.74 | From (1057) and (1056) follows:
% 18.19/4.74 | (953) h2(e12) = e22
% 18.19/4.74 |
% 18.19/4.74 +-Applying beta-rule and splitting (427), into two cases.
% 18.19/4.74 |-Branch one:
% 18.19/4.74 | (1059) all_0_210_210 = e13
% 18.19/4.74 |
% 18.19/4.74 | Equations (1059) can reduce 557 to:
% 18.19/4.74 | (1060) ~ (all_0_223_223 = e13)
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1060 yields:
% 18.19/4.74 | (1061) ~ (all_0_223_223 = e13)
% 18.19/4.74 |
% 18.19/4.74 | From (1059) and (503) follows:
% 18.19/4.74 | (1062) h2(e13) = all_0_103_103
% 18.19/4.74 |
% 18.19/4.74 +-Applying beta-rule and splitting (305), into two cases.
% 18.19/4.74 |-Branch one:
% 18.19/4.74 | (1063) all_0_211_211 = e12
% 18.19/4.74 |
% 18.19/4.74 | Equations (1063) can reduce 1047 to:
% 18.19/4.74 | (705) $false
% 18.19/4.74 |
% 18.19/4.74 |-The branch is then unsatisfiable
% 18.19/4.74 |-Branch two:
% 18.19/4.74 | (1047) ~ (all_0_211_211 = e12)
% 18.19/4.74 | (1066) all_0_211_211 = e14 | all_0_211_211 = e13
% 18.19/4.74 |
% 18.19/4.74 +-Applying beta-rule and splitting (147), into two cases.
% 18.19/4.74 |-Branch one:
% 18.19/4.74 | (1067) all_0_210_210 = e14
% 18.19/4.74 |
% 18.19/4.74 | Combining equations (1059,1067) yields a new equation:
% 18.19/4.74 | (1068) e14 = e13
% 18.19/4.74 |
% 18.19/4.74 | Equations (1068) can reduce 84 to:
% 18.19/4.74 | (705) $false
% 18.19/4.74 |
% 18.19/4.74 |-The branch is then unsatisfiable
% 18.19/4.74 |-Branch two:
% 18.19/4.74 | (1070) ~ (all_0_210_210 = e14)
% 18.19/4.74 | (1071) all_0_211_211 = e14 | all_0_212_212 = e14
% 18.19/4.74 |
% 18.19/4.74 +-Applying beta-rule and splitting (1071), into two cases.
% 18.19/4.74 |-Branch one:
% 18.19/4.74 | (1072) all_0_211_211 = e14
% 18.19/4.74 |
% 18.19/4.74 | Equations (1072) can reduce 484 to:
% 18.19/4.74 | (1073) ~ (all_0_214_214 = e14)
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1073 yields:
% 18.19/4.74 | (1074) ~ (all_0_214_214 = e14)
% 18.19/4.74 |
% 18.19/4.74 | Equations (1072) can reduce 365 to:
% 18.19/4.74 | (1075) ~ (all_0_219_219 = e14)
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1075 yields:
% 18.19/4.74 | (1076) ~ (all_0_219_219 = e14)
% 18.19/4.74 |
% 18.19/4.74 | Equations (1072) can reduce 40 to:
% 18.19/4.74 | (1077) ~ (all_0_224_224 = e14)
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1077 yields:
% 18.19/4.74 | (180) ~ (all_0_224_224 = e14)
% 18.19/4.74 |
% 18.19/4.74 | Equations (1072) can reduce 401 to:
% 18.19/4.74 | (1079) ~ (all_0_228_228 = e14)
% 18.19/4.74 |
% 18.19/4.74 | Simplifying 1079 yields:
% 18.19/4.74 | (1080) ~ (all_0_228_228 = e14)
% 18.19/4.74 |
% 18.19/4.74 | Equations (1072) can reduce 1047 to:
% 18.19/4.74 | (621) ~ (e14 = e12)
% 18.19/4.74 |
% 18.19/4.74 | Equations (1072) can reduce 613 to:
% 18.19/4.74 | (661) ~ (e14 = e11)
% 18.19/4.74 |
% 18.19/4.74 | Equations (1072) can reduce 233 to:
% 18.19/4.74 | (11) ~ (e14 = e10)
% 18.19/4.74 |
% 18.19/4.74 | From (1072) and (527) follows:
% 18.19/4.74 | (1084) h2(e14) = all_0_105_105
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (667) with e14, all_0_105_105, e21 and discharging atoms h2(e14) = all_0_105_105, h2(e14) = e21, yields:
% 18.19/4.74 | (1085) all_0_105_105 = e21
% 18.19/4.74 |
% 18.19/4.74 | Instantiating formula (667) with e13, all_0_103_103, e20 and discharging atoms h2(e13) = all_0_103_103, h2(e13) = e20, yields:
% 18.19/4.74 | (1086) all_0_103_103 = e20
% 18.19/4.74 |
% 18.19/4.74 | From (1085) and (1084) follows:
% 18.19/4.74 | (606) h2(e14) = e21
% 18.19/4.74 |
% 18.19/4.74 | From (1086) and (1062) follows:
% 18.19/4.75 | (952) h2(e13) = e20
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (313), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1089) all_0_221_221 = e10
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (116), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1090) all_0_212_212 = e14
% 18.19/4.75 |
% 18.19/4.75 | Combining equations (1046,1090) yields a new equation:
% 18.19/4.75 | (1091) e14 = e12
% 18.19/4.75 |
% 18.19/4.75 | Equations (1091) can reduce 621 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1093) ~ (all_0_212_212 = e14)
% 18.19/4.75 | (1094) all_0_216_216 = e14 | all_0_221_221 = e14
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (1094), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1095) all_0_216_216 = e14
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (462), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1096) all_0_216_216 = e11
% 18.19/4.75 |
% 18.19/4.75 | Combining equations (1095,1096) yields a new equation:
% 18.19/4.75 | (1097) e14 = e11
% 18.19/4.75 |
% 18.19/4.75 | Simplifying 1097 yields:
% 18.19/4.75 | (1098) e14 = e11
% 18.19/4.75 |
% 18.19/4.75 | Equations (1098) can reduce 661 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1100) ~ (all_0_216_216 = e11)
% 18.19/4.75 | (1101) all_0_221_221 = e11 | all_0_225_225 = e11
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (1101), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1102) all_0_221_221 = e11
% 18.19/4.75 |
% 18.19/4.75 | Combining equations (1102,1089) yields a new equation:
% 18.19/4.75 | (1103) e11 = e10
% 18.19/4.75 |
% 18.19/4.75 | Simplifying 1103 yields:
% 18.19/4.75 | (1104) e11 = e10
% 18.19/4.75 |
% 18.19/4.75 | Equations (1104) can reduce 387 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1106) ~ (all_0_221_221 = e11)
% 18.19/4.75 | (1107) all_0_225_225 = e11
% 18.19/4.75 |
% 18.19/4.75 | Equations (1107) can reduce 294 to:
% 18.19/4.75 | (1108) ~ (all_0_223_223 = e11)
% 18.19/4.75 |
% 18.19/4.75 | From (1107) and (411) follows:
% 18.19/4.75 | (1109) op1(e11, e12) = e10
% 18.19/4.75 |
% 18.19/4.75 | From (1107) and (60) follows:
% 18.19/4.75 | (1110) op1(e12, e11) = e11
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (457), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1111) all_0_223_223 = e12
% 18.19/4.75 |
% 18.19/4.75 | Instantiating formula (90) with e12, e11, e11, all_0_220_220 and discharging atoms op1(e12, e11) = all_0_220_220, op1(e12, e11) = e11, yields:
% 18.19/4.75 | (1112) all_0_220_220 = e11
% 18.19/4.75 |
% 18.19/4.75 | Instantiating formula (90) with e11, e12, e10, all_0_224_224 and discharging atoms op1(e11, e12) = all_0_224_224, op1(e11, e12) = e10, yields:
% 18.19/4.75 | (1113) all_0_224_224 = e10
% 18.19/4.75 |
% 18.19/4.75 | Equations (1112) can reduce 497 to:
% 18.19/4.75 | (657) ~ (all_0_217_217 = e11)
% 18.19/4.75 |
% 18.19/4.75 | Equations (1112) can reduce 134 to:
% 18.19/4.75 | (1115) ~ (all_0_218_218 = e11)
% 18.19/4.75 |
% 18.19/4.75 | Equations (1112) can reduce 153 to:
% 18.19/4.75 | (1116) ~ (e14 = e11)
% 18.19/4.75 |
% 18.19/4.75 | Simplifying 1116 yields:
% 18.19/4.75 | (661) ~ (e14 = e11)
% 18.19/4.75 |
% 18.19/4.75 | Equations (1113) can reduce 363 to:
% 18.19/4.75 | (1118) ~ (all_0_228_228 = e10)
% 18.19/4.75 |
% 18.19/4.75 | Simplifying 1118 yields:
% 18.19/4.75 | (1119) ~ (all_0_228_228 = e10)
% 18.19/4.75 |
% 18.19/4.75 | Equations (1113) can reduce 180 to:
% 18.19/4.75 | (1120) ~ (e14 = e10)
% 18.19/4.75 |
% 18.19/4.75 | Simplifying 1120 yields:
% 18.19/4.75 | (11) ~ (e14 = e10)
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (386), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1122) all_0_226_226 = e10
% 18.19/4.75 |
% 18.19/4.75 | Equations (1122) can reduce 277 to:
% 18.19/4.75 | (1123) ~ (all_0_227_227 = e10)
% 18.19/4.75 |
% 18.19/4.75 | Simplifying 1123 yields:
% 18.19/4.75 | (406) ~ (all_0_227_227 = e10)
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (310), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1125) all_0_226_226 = e14
% 18.19/4.75 |
% 18.19/4.75 | Combining equations (1122,1125) yields a new equation:
% 18.19/4.75 | (1126) e14 = e10
% 18.19/4.75 |
% 18.19/4.75 | Equations (1126) can reduce 11 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1128) ~ (all_0_226_226 = e14)
% 18.19/4.75 | (1129) all_0_227_227 = e14 | all_0_228_228 = e14
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (1129), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1130) all_0_227_227 = e14
% 18.19/4.75 |
% 18.19/4.75 | Equations (1130) can reduce 631 to:
% 18.19/4.75 | (1131) ~ (all_0_218_218 = e14)
% 18.19/4.75 |
% 18.19/4.75 | Equations (1130) can reduce 406 to:
% 18.19/4.75 | (11) ~ (e14 = e10)
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (70), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1133) all_0_227_227 = e11
% 18.19/4.75 |
% 18.19/4.75 | Combining equations (1130,1133) yields a new equation:
% 18.19/4.75 | (1097) e14 = e11
% 18.19/4.75 |
% 18.19/4.75 | Simplifying 1097 yields:
% 18.19/4.75 | (1098) e14 = e11
% 18.19/4.75 |
% 18.19/4.75 | Equations (1098) can reduce 661 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1137) ~ (all_0_227_227 = e11)
% 18.19/4.75 | (1138) all_0_228_228 = e11
% 18.19/4.75 |
% 18.19/4.75 | Equations (1138) can reduce 222 to:
% 18.19/4.75 | (1139) ~ (e12 = e11)
% 18.19/4.75 |
% 18.19/4.75 | Simplifying 1139 yields:
% 18.19/4.75 | (402) ~ (e12 = e11)
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (114), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1141) all_0_217_217 = e14
% 18.19/4.75 |
% 18.19/4.75 | Equations (1141) can reduce 657 to:
% 18.19/4.75 | (661) ~ (e14 = e11)
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (465), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1143) all_0_218_218 = e11
% 18.19/4.75 |
% 18.19/4.75 | Equations (1143) can reduce 1115 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1115) ~ (all_0_218_218 = e11)
% 18.19/4.75 | (1146) all_0_223_223 = e11 | all_0_227_227 = e11
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (1146), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1147) all_0_223_223 = e11
% 18.19/4.75 |
% 18.19/4.75 | Combining equations (1111,1147) yields a new equation:
% 18.19/4.75 | (1148) e12 = e11
% 18.19/4.75 |
% 18.19/4.75 | Simplifying 1148 yields:
% 18.19/4.75 | (1149) e12 = e11
% 18.19/4.75 |
% 18.19/4.75 | Equations (1149) can reduce 402 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1108) ~ (all_0_223_223 = e11)
% 18.19/4.75 | (1133) all_0_227_227 = e11
% 18.19/4.75 |
% 18.19/4.75 | Combining equations (1130,1133) yields a new equation:
% 18.19/4.75 | (1097) e14 = e11
% 18.19/4.75 |
% 18.19/4.75 | Simplifying 1097 yields:
% 18.19/4.75 | (1098) e14 = e11
% 18.19/4.75 |
% 18.19/4.75 | Equations (1098) can reduce 661 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1156) ~ (all_0_217_217 = e14)
% 18.19/4.75 | (1157) all_0_218_218 = e14 | all_0_219_219 = e14 | all_0_221_221 = e14
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (1157), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1158) all_0_218_218 = e14
% 18.19/4.75 |
% 18.19/4.75 | Equations (1158) can reduce 1131 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1131) ~ (all_0_218_218 = e14)
% 18.19/4.75 | (1161) all_0_219_219 = e14 | all_0_221_221 = e14
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (1161), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1162) all_0_219_219 = e14
% 18.19/4.75 |
% 18.19/4.75 | Equations (1162) can reduce 1076 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1076) ~ (all_0_219_219 = e14)
% 18.19/4.75 | (1165) all_0_221_221 = e14
% 18.19/4.75 |
% 18.19/4.75 | Combining equations (1089,1165) yields a new equation:
% 18.19/4.75 | (1126) e14 = e10
% 18.19/4.75 |
% 18.19/4.75 | Equations (1126) can reduce 11 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1168) ~ (all_0_227_227 = e14)
% 18.19/4.75 | (1169) all_0_228_228 = e14
% 18.19/4.75 |
% 18.19/4.75 | Equations (1169) can reduce 1080 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1171) ~ (all_0_226_226 = e10)
% 18.19/4.75 | (1172) all_0_228_228 = e10
% 18.19/4.75 |
% 18.19/4.75 | Equations (1172) can reduce 1119 to:
% 18.19/4.75 | (705) $false
% 18.19/4.75 |
% 18.19/4.75 |-The branch is then unsatisfiable
% 18.19/4.75 |-Branch two:
% 18.19/4.75 | (1174) ~ (all_0_223_223 = e12)
% 18.19/4.75 | (1175) all_0_223_223 = e13 | all_0_223_223 = e11
% 18.19/4.75 |
% 18.19/4.75 +-Applying beta-rule and splitting (1175), into two cases.
% 18.19/4.75 |-Branch one:
% 18.19/4.75 | (1176) all_0_223_223 = e13
% 18.19/4.75 |
% 18.19/4.76 | Equations (1176) can reduce 1061 to:
% 18.19/4.76 | (705) $false
% 18.19/4.76 |
% 18.19/4.76 |-The branch is then unsatisfiable
% 18.19/4.76 |-Branch two:
% 18.19/4.76 | (1061) ~ (all_0_223_223 = e13)
% 18.19/4.76 | (1147) all_0_223_223 = e11
% 18.19/4.76 |
% 18.19/4.76 | Equations (1147) can reduce 1108 to:
% 18.19/4.76 | (705) $false
% 18.19/4.76 |
% 18.19/4.76 |-The branch is then unsatisfiable
% 18.19/4.76 |-Branch two:
% 18.19/4.76 | (1181) ~ (all_0_216_216 = e14)
% 18.19/4.76 | (1165) all_0_221_221 = e14
% 18.19/4.76 |
% 18.19/4.76 | Combining equations (1089,1165) yields a new equation:
% 18.19/4.76 | (1126) e14 = e10
% 18.19/4.76 |
% 18.19/4.76 | Equations (1126) can reduce 11 to:
% 18.19/4.76 | (705) $false
% 18.19/4.76 |
% 18.19/4.76 |-The branch is then unsatisfiable
% 18.19/4.76 |-Branch two:
% 18.19/4.76 | (1185) ~ (all_0_221_221 = e10)
% 18.19/4.76 | (1186) all_0_225_225 = e10
% 18.19/4.76 |
% 18.19/4.76 | Equations (1186) can reduce 372 to:
% 18.19/4.76 | (1185) ~ (all_0_221_221 = e10)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1186) can reduce 318 to:
% 18.19/4.76 | (1188) ~ (all_0_222_222 = e10)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1186) can reduce 294 to:
% 18.19/4.76 | (45) ~ (all_0_223_223 = e10)
% 18.19/4.76 |
% 18.19/4.76 | From (1186) and (411) follows:
% 18.19/4.76 | (1190) op1(e10, e12) = e10
% 18.19/4.76 |
% 18.19/4.76 | From (1186) and (60) follows:
% 18.19/4.76 | (1191) op1(e12, e10) = e11
% 18.19/4.76 |
% 18.19/4.76 | From (1186) and (518) follows:
% 18.19/4.76 | (1192) h2(e10) = all_0_133_133
% 18.19/4.76 |
% 18.19/4.76 | Instantiating formula (90) with e12, e10, e11, all_0_221_221 and discharging atoms op1(e12, e10) = all_0_221_221, op1(e12, e10) = e11, yields:
% 18.19/4.76 | (1102) all_0_221_221 = e11
% 18.19/4.76 |
% 18.19/4.76 | Instantiating formula (90) with e10, e12, e10, all_0_228_228 and discharging atoms op1(e10, e12) = all_0_228_228, op1(e10, e12) = e10, yields:
% 18.19/4.76 | (1172) all_0_228_228 = e10
% 18.19/4.76 |
% 18.19/4.76 | Instantiating formula (667) with e10, all_0_133_133, e23 and discharging atoms h2(e10) = all_0_133_133, h2(e10) = e23, yields:
% 18.19/4.76 | (1195) all_0_133_133 = e23
% 18.19/4.76 |
% 18.19/4.76 | Equations (1102) can reduce 628 to:
% 18.19/4.76 | (1196) ~ (all_0_220_220 = e11)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1102) can reduce 1185 to:
% 18.19/4.76 | (387) ~ (e11 = e10)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1172) can reduce 537 to:
% 18.19/4.76 | (1171) ~ (all_0_226_226 = e10)
% 18.19/4.76 |
% 18.19/4.76 | From (1102) and (468) follows:
% 18.19/4.76 | (1199) h2(e11) = all_0_126_126
% 18.19/4.76 |
% 18.19/4.76 | From (1172) and (245) follows:
% 18.19/4.76 | (1200) h2(e10) = all_0_139_139
% 18.19/4.76 |
% 18.19/4.76 | From (1195) and (1192) follows:
% 18.19/4.76 | (893) h2(e10) = e23
% 18.19/4.76 |
% 18.19/4.76 +-Applying beta-rule and splitting (70), into two cases.
% 18.19/4.76 |-Branch one:
% 18.19/4.76 | (1133) all_0_227_227 = e11
% 18.19/4.76 |
% 18.19/4.76 | Equations (1133) can reduce 339 to:
% 18.19/4.76 | (1108) ~ (all_0_223_223 = e11)
% 18.19/4.76 |
% 18.19/4.76 | From (1133) and (275) follows:
% 18.19/4.76 | (1204) h2(e11) = all_0_137_137
% 18.19/4.76 |
% 18.19/4.76 +-Applying beta-rule and splitting (457), into two cases.
% 18.19/4.76 |-Branch one:
% 18.19/4.76 | (1111) all_0_223_223 = e12
% 18.19/4.76 |
% 18.19/4.76 | Equations (1111) can reduce 332 to:
% 18.19/4.76 | (1206) ~ (all_0_218_218 = e12)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1111) can reduce 26 to:
% 18.19/4.76 | (1207) ~ (all_0_222_222 = e12)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1111) can reduce 45 to:
% 18.19/4.76 | (159) ~ (e12 = e10)
% 18.19/4.76 |
% 18.19/4.76 | From (1111) and (120) follows:
% 18.19/4.76 | (1209) h2(e12) = all_0_129_129
% 18.19/4.76 |
% 18.19/4.76 +-Applying beta-rule and splitting (648), into two cases.
% 18.19/4.76 |-Branch one:
% 18.19/4.76 | (1210) all_0_217_217 = e10
% 18.19/4.76 |
% 18.19/4.76 | Equations (1210) can reduce 450 to:
% 18.19/4.76 | (1211) ~ (all_0_219_219 = e10)
% 18.19/4.76 |
% 18.19/4.76 | Simplifying 1211 yields:
% 18.19/4.76 | (1212) ~ (all_0_219_219 = e10)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1210) can reduce 431 to:
% 18.19/4.76 | (1213) ~ (all_0_222_222 = e10)
% 18.19/4.76 |
% 18.19/4.76 | Simplifying 1213 yields:
% 18.19/4.76 | (1188) ~ (all_0_222_222 = e10)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1210) can reduce 25 to:
% 18.19/4.76 | (1215) ~ (all_0_226_226 = e10)
% 18.19/4.76 |
% 18.19/4.76 | Simplifying 1215 yields:
% 18.19/4.76 | (1171) ~ (all_0_226_226 = e10)
% 18.19/4.76 |
% 18.19/4.76 | From (1210) and (344) follows:
% 18.19/4.76 | (1217) h2(e10) = all_0_118_118
% 18.19/4.76 |
% 18.19/4.76 +-Applying beta-rule and splitting (140), into two cases.
% 18.19/4.76 |-Branch one:
% 18.19/4.76 | (1218) all_0_220_220 = e13
% 18.19/4.76 |
% 18.19/4.76 | Equations (1218) can reduce 1196 to:
% 18.19/4.76 | (391) ~ (e13 = e11)
% 18.19/4.76 |
% 18.19/4.76 | From (1218) and (482) follows:
% 18.19/4.76 | (1220) h2(e13) = all_0_124_124
% 18.19/4.76 |
% 18.19/4.76 +-Applying beta-rule and splitting (384), into two cases.
% 18.19/4.76 |-Branch one:
% 18.19/4.76 | (1221) all_0_219_219 = e12
% 18.19/4.76 |
% 18.19/4.76 | Equations (1221) can reduce 1212 to:
% 18.19/4.76 | (159) ~ (e12 = e10)
% 18.19/4.76 |
% 18.19/4.76 | From (1221) and (492) follows:
% 18.19/4.76 | (1223) h2(e12) = all_0_122_122
% 18.19/4.76 |
% 18.19/4.76 +-Applying beta-rule and splitting (430), into two cases.
% 18.19/4.76 |-Branch one:
% 18.19/4.76 | (1125) all_0_226_226 = e14
% 18.19/4.76 |
% 18.19/4.76 | Equations (1125) can reduce 352 to:
% 18.19/4.76 | (1225) ~ (all_0_213_213 = e14)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1125) can reduce 207 to:
% 18.19/4.76 | (512) ~ (all_0_222_222 = e14)
% 18.19/4.76 |
% 18.19/4.76 | From (1125) and (38) follows:
% 18.19/4.76 | (1227) h2(e14) = all_0_135_135
% 18.19/4.76 |
% 18.19/4.76 +-Applying beta-rule and splitting (328), into two cases.
% 18.19/4.76 |-Branch one:
% 18.19/4.76 | (1228) all_0_222_222 = e12
% 18.19/4.76 |
% 18.19/4.76 | Equations (1228) can reduce 1207 to:
% 18.19/4.76 | (705) $false
% 18.19/4.76 |
% 18.19/4.76 |-The branch is then unsatisfiable
% 18.19/4.76 |-Branch two:
% 18.19/4.76 | (1207) ~ (all_0_222_222 = e12)
% 18.19/4.76 | (1231) all_0_222_222 = e13 | all_0_222_222 = e10
% 18.19/4.76 |
% 18.19/4.76 +-Applying beta-rule and splitting (295), into two cases.
% 18.19/4.76 |-Branch one:
% 18.19/4.76 | (1232) all_0_215_215 = e11
% 18.19/4.76 |
% 18.19/4.76 | Equations (1232) can reduce 156 to:
% 18.19/4.76 | (494) ~ (all_0_213_213 = e11)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1232) can reduce 579 to:
% 18.19/4.76 | (1234) ~ (all_0_216_216 = e11)
% 18.19/4.76 |
% 18.19/4.76 | Simplifying 1234 yields:
% 18.19/4.76 | (1100) ~ (all_0_216_216 = e11)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1232) can reduce 273 to:
% 18.19/4.76 | (387) ~ (e11 = e10)
% 18.19/4.76 |
% 18.19/4.76 | From (1232) and (288) follows:
% 18.19/4.76 | (1237) h2(e11) = all_0_114_114
% 18.19/4.76 |
% 18.19/4.76 +-Applying beta-rule and splitting (1231), into two cases.
% 18.19/4.76 |-Branch one:
% 18.19/4.76 | (1238) all_0_222_222 = e13
% 18.19/4.76 |
% 18.19/4.76 | Equations (1238) can reduce 512 to:
% 18.19/4.76 | (1239) ~ (e14 = e13)
% 18.19/4.76 |
% 18.19/4.76 | Simplifying 1239 yields:
% 18.19/4.76 | (84) ~ (e14 = e13)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1238) can reduce 1207 to:
% 18.19/4.76 | (590) ~ (e13 = e12)
% 18.19/4.76 |
% 18.19/4.76 | From (1238) and (267) follows:
% 18.19/4.76 | (1242) h2(e13) = all_0_127_127
% 18.19/4.76 |
% 18.19/4.76 +-Applying beta-rule and splitting (336), into two cases.
% 18.19/4.76 |-Branch one:
% 18.19/4.76 | (1243) all_0_213_213 = e12
% 18.19/4.76 |
% 18.19/4.76 | Equations (1243) can reduce 210 to:
% 18.19/4.76 | (1244) ~ (all_0_214_214 = e12)
% 18.19/4.76 |
% 18.19/4.76 | Simplifying 1244 yields:
% 18.19/4.76 | (1245) ~ (all_0_214_214 = e12)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1243) can reduce 598 to:
% 18.19/4.76 | (1048) ~ (all_0_216_216 = e12)
% 18.19/4.76 |
% 18.19/4.76 | Simplifying 1048 yields:
% 18.19/4.76 | (1049) ~ (all_0_216_216 = e12)
% 18.19/4.76 |
% 18.19/4.76 | Equations (1243) can reduce 1225 to:
% 18.19/4.77 | (1248) ~ (e14 = e12)
% 18.19/4.77 |
% 18.19/4.77 | Simplifying 1248 yields:
% 18.19/4.77 | (621) ~ (e14 = e12)
% 18.19/4.77 |
% 18.19/4.77 | Equations (1243) can reduce 494 to:
% 18.19/4.77 | (402) ~ (e12 = e11)
% 18.19/4.77 |
% 18.19/4.77 | From (1243) and (447) follows:
% 18.19/4.77 | (1251) h2(e12) = all_0_109_109
% 18.19/4.77 |
% 18.19/4.77 +-Applying beta-rule and splitting (80), into two cases.
% 18.19/4.77 |-Branch one:
% 18.19/4.77 | (1252) all_0_216_216 = e12
% 18.19/4.77 |
% 18.19/4.77 | Equations (1252) can reduce 1049 to:
% 18.19/4.77 | (705) $false
% 18.19/4.77 |
% 18.19/4.77 |-The branch is then unsatisfiable
% 18.19/4.77 |-Branch two:
% 18.19/4.77 | (1049) ~ (all_0_216_216 = e12)
% 18.19/4.77 | (1255) all_0_216_216 = e14 | all_0_216_216 = e11
% 18.19/4.77 |
% 18.19/4.77 +-Applying beta-rule and splitting (83), into two cases.
% 18.19/4.77 |-Branch one:
% 18.19/4.77 | (1256) all_0_213_213 = e14
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1256,1243) yields a new equation:
% 18.19/4.77 | (1257) e14 = e12
% 18.19/4.77 |
% 18.19/4.77 | Simplifying 1257 yields:
% 18.19/4.77 | (1091) e14 = e12
% 18.19/4.77 |
% 18.19/4.77 | Equations (1091) can reduce 621 to:
% 18.19/4.77 | (705) $false
% 18.19/4.77 |
% 18.19/4.77 |-The branch is then unsatisfiable
% 18.19/4.77 |-Branch two:
% 18.19/4.77 | (1225) ~ (all_0_213_213 = e14)
% 18.19/4.77 | (1261) all_0_214_214 = e14 | all_0_216_216 = e14
% 18.19/4.77 |
% 18.19/4.77 +-Applying beta-rule and splitting (56), into two cases.
% 18.19/4.77 |-Branch one:
% 18.19/4.77 | (1147) all_0_223_223 = e11
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1111,1147) yields a new equation:
% 18.19/4.77 | (1148) e12 = e11
% 18.19/4.77 |
% 18.19/4.77 | Simplifying 1148 yields:
% 18.19/4.77 | (1149) e12 = e11
% 18.19/4.77 |
% 18.19/4.77 | Equations (1149) can reduce 402 to:
% 18.19/4.77 | (705) $false
% 18.19/4.77 |
% 18.19/4.77 |-The branch is then unsatisfiable
% 18.19/4.77 |-Branch two:
% 18.19/4.77 | (1108) ~ (all_0_223_223 = e11)
% 18.19/4.77 | (1267) all_0_224_224 = e11 | all_0_225_225 = e11
% 18.19/4.77 |
% 18.19/4.77 +-Applying beta-rule and splitting (130), into two cases.
% 18.19/4.77 |-Branch one:
% 18.19/4.77 | (1067) all_0_210_210 = e14
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1067,1059) yields a new equation:
% 18.19/4.77 | (1269) e14 = e13
% 18.19/4.77 |
% 18.19/4.77 | Simplifying 1269 yields:
% 18.19/4.77 | (1068) e14 = e13
% 18.19/4.77 |
% 18.19/4.77 | Equations (1068) can reduce 84 to:
% 18.19/4.77 | (705) $false
% 18.19/4.77 |
% 18.19/4.77 |-The branch is then unsatisfiable
% 18.19/4.77 |-Branch two:
% 18.19/4.77 | (1070) ~ (all_0_210_210 = e14)
% 18.19/4.77 | (1273) all_0_218_218 = e14 | all_0_227_227 = e14
% 18.19/4.77 |
% 18.19/4.77 | Equations (1059) can reduce 1070 to:
% 18.19/4.77 | (1239) ~ (e14 = e13)
% 18.19/4.77 |
% 18.19/4.77 | Simplifying 1239 yields:
% 18.19/4.77 | (84) ~ (e14 = e13)
% 18.19/4.77 |
% 18.19/4.77 +-Applying beta-rule and splitting (138), into two cases.
% 18.19/4.77 |-Branch one:
% 18.19/4.77 | (1276) all_0_214_214 = e12
% 18.19/4.77 |
% 18.19/4.77 | Equations (1276) can reduce 1245 to:
% 18.19/4.77 | (705) $false
% 18.19/4.77 |
% 18.19/4.77 |-The branch is then unsatisfiable
% 18.19/4.77 |-Branch two:
% 18.19/4.77 | (1245) ~ (all_0_214_214 = e12)
% 18.19/4.77 | (1279) all_0_214_214 = e14 | all_0_214_214 = e13 | all_0_214_214 = e11
% 18.19/4.77 |
% 18.19/4.77 +-Applying beta-rule and splitting (33), into two cases.
% 18.19/4.77 |-Branch one:
% 18.19/4.77 | (1280) all_0_211_211 = e13
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1280,1072) yields a new equation:
% 18.19/4.77 | (1068) e14 = e13
% 18.19/4.77 |
% 18.19/4.77 | Equations (1068) can reduce 84 to:
% 18.19/4.77 | (705) $false
% 18.19/4.77 |
% 18.19/4.77 |-The branch is then unsatisfiable
% 18.19/4.77 |-Branch two:
% 18.19/4.77 | (1283) ~ (all_0_211_211 = e13)
% 18.19/4.77 | (1284) all_0_214_214 = e13 | all_0_219_219 = e13 | all_0_224_224 = e13
% 18.19/4.77 |
% 18.19/4.77 +-Applying beta-rule and splitting (1284), into two cases.
% 18.19/4.77 |-Branch one:
% 18.19/4.77 | (1285) all_0_214_214 = e13
% 18.19/4.77 |
% 18.19/4.77 | From (1285) and (29) follows:
% 18.19/4.77 | (1286) h2(e13) = all_0_112_112
% 18.19/4.77 |
% 18.19/4.77 +-Applying beta-rule and splitting (1255), into two cases.
% 18.19/4.77 |-Branch one:
% 18.19/4.77 | (1095) all_0_216_216 = e14
% 18.19/4.77 |
% 18.19/4.77 | From (1095) and (474) follows:
% 18.19/4.77 | (1288) h2(e14) = all_0_116_116
% 18.19/4.77 |
% 18.19/4.77 +-Applying beta-rule and splitting (1267), into two cases.
% 18.19/4.77 |-Branch one:
% 18.19/4.77 | (1289) all_0_224_224 = e11
% 18.19/4.77 |
% 18.19/4.77 | Equations (1289) can reduce 180 to:
% 18.19/4.77 | (1116) ~ (e14 = e11)
% 18.19/4.77 |
% 18.19/4.77 | Simplifying 1116 yields:
% 18.19/4.77 | (661) ~ (e14 = e11)
% 18.19/4.77 |
% 18.19/4.77 | From (1289) and (393) follows:
% 18.19/4.77 | (1292) h2(e11) = all_0_131_131
% 18.19/4.77 |
% 18.19/4.77 +-Applying beta-rule and splitting (1273), into two cases.
% 18.19/4.77 |-Branch one:
% 18.19/4.77 | (1158) all_0_218_218 = e14
% 18.19/4.77 |
% 18.19/4.77 | From (1158) and (109) follows:
% 18.19/4.77 | (1294) h2(e14) = all_0_120_120
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e14, all_0_116_116, e21 and discharging atoms h2(e14) = all_0_116_116, h2(e14) = e21, yields:
% 18.19/4.77 | (1295) all_0_116_116 = e21
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e14, all_0_120_120, all_0_116_116 and discharging atoms h2(e14) = all_0_116_116, h2(e14) = all_0_120_120, yields:
% 18.19/4.77 | (1296) all_0_116_116 = all_0_120_120
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e14, all_0_135_135, all_0_120_120 and discharging atoms h2(e14) = all_0_120_120, h2(e14) = all_0_135_135, yields:
% 18.19/4.77 | (1297) all_0_120_120 = all_0_135_135
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e13, all_0_124_124, e20 and discharging atoms h2(e13) = all_0_124_124, h2(e13) = e20, yields:
% 18.19/4.77 | (1298) all_0_124_124 = e20
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e13, all_0_124_124, all_0_112_112 and discharging atoms h2(e13) = all_0_112_112, h2(e13) = all_0_124_124, yields:
% 18.19/4.77 | (1299) all_0_112_112 = all_0_124_124
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e13, all_0_127_127, all_0_112_112 and discharging atoms h2(e13) = all_0_112_112, h2(e13) = all_0_127_127, yields:
% 18.19/4.77 | (1300) all_0_112_112 = all_0_127_127
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e12, all_0_122_122, e22 and discharging atoms h2(e12) = all_0_122_122, h2(e12) = e22, yields:
% 18.19/4.77 | (1301) all_0_122_122 = e22
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e12, all_0_122_122, all_0_109_109 and discharging atoms h2(e12) = all_0_109_109, h2(e12) = all_0_122_122, yields:
% 18.19/4.77 | (1302) all_0_109_109 = all_0_122_122
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e12, all_0_129_129, all_0_109_109 and discharging atoms h2(e12) = all_0_109_109, h2(e12) = all_0_129_129, yields:
% 18.19/4.77 | (1303) all_0_109_109 = all_0_129_129
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e11, all_0_114_114, e24 and discharging atoms h2(e11) = all_0_114_114, h2(e11) = e24, yields:
% 18.19/4.77 | (1304) all_0_114_114 = e24
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e11, all_0_126_126, all_0_114_114 and discharging atoms h2(e11) = all_0_114_114, h2(e11) = all_0_126_126, yields:
% 18.19/4.77 | (1305) all_0_114_114 = all_0_126_126
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e11, all_0_131_131, all_0_114_114 and discharging atoms h2(e11) = all_0_114_114, h2(e11) = all_0_131_131, yields:
% 18.19/4.77 | (1306) all_0_114_114 = all_0_131_131
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e11, all_0_137_137, all_0_114_114 and discharging atoms h2(e11) = all_0_114_114, h2(e11) = all_0_137_137, yields:
% 18.19/4.77 | (1307) all_0_114_114 = all_0_137_137
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e10, all_0_118_118, e23 and discharging atoms h2(e10) = all_0_118_118, h2(e10) = e23, yields:
% 18.19/4.77 | (1308) all_0_118_118 = e23
% 18.19/4.77 |
% 18.19/4.77 | Instantiating formula (667) with e10, all_0_139_139, all_0_118_118 and discharging atoms h2(e10) = all_0_118_118, h2(e10) = all_0_139_139, yields:
% 18.19/4.77 | (1309) all_0_118_118 = all_0_139_139
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1302,1303) yields a new equation:
% 18.19/4.77 | (1310) all_0_122_122 = all_0_129_129
% 18.19/4.77 |
% 18.19/4.77 | Simplifying 1310 yields:
% 18.19/4.77 | (1311) all_0_122_122 = all_0_129_129
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1299,1300) yields a new equation:
% 18.19/4.77 | (1312) all_0_124_124 = all_0_127_127
% 18.19/4.77 |
% 18.19/4.77 | Simplifying 1312 yields:
% 18.19/4.77 | (1313) all_0_124_124 = all_0_127_127
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1306,1305) yields a new equation:
% 18.19/4.77 | (1314) all_0_126_126 = all_0_131_131
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1307,1305) yields a new equation:
% 18.19/4.77 | (1315) all_0_126_126 = all_0_137_137
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1304,1305) yields a new equation:
% 18.19/4.77 | (1316) all_0_126_126 = e24
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1296,1295) yields a new equation:
% 18.19/4.77 | (1317) all_0_120_120 = e21
% 18.19/4.77 |
% 18.19/4.77 | Simplifying 1317 yields:
% 18.19/4.77 | (1318) all_0_120_120 = e21
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1309,1308) yields a new equation:
% 18.19/4.77 | (1319) all_0_139_139 = e23
% 18.19/4.77 |
% 18.19/4.77 | Simplifying 1319 yields:
% 18.19/4.77 | (1320) all_0_139_139 = e23
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1297,1318) yields a new equation:
% 18.19/4.77 | (1321) all_0_135_135 = e21
% 18.19/4.77 |
% 18.19/4.77 | Simplifying 1321 yields:
% 18.19/4.77 | (1322) all_0_135_135 = e21
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1301,1311) yields a new equation:
% 18.19/4.77 | (1323) all_0_129_129 = e22
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1298,1313) yields a new equation:
% 18.19/4.77 | (1324) all_0_127_127 = e20
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1315,1314) yields a new equation:
% 18.19/4.77 | (1325) all_0_131_131 = all_0_137_137
% 18.19/4.77 |
% 18.19/4.77 | Combining equations (1316,1314) yields a new equation:
% 18.19/4.77 | (1326) all_0_131_131 = e24
% 18.19/4.77 |
% 18.19/4.78 | Combining equations (1325,1326) yields a new equation:
% 18.19/4.78 | (1327) all_0_137_137 = e24
% 18.19/4.78 |
% 18.19/4.78 | Simplifying 1327 yields:
% 18.19/4.78 | (1328) all_0_137_137 = e24
% 18.19/4.78 |
% 18.19/4.78 | Combining equations (1326,1314) yields a new equation:
% 18.19/4.78 | (1316) all_0_126_126 = e24
% 18.19/4.78 |
% 18.19/4.78 | Combining equations (1324,1313) yields a new equation:
% 18.19/4.78 | (1298) all_0_124_124 = e20
% 18.19/4.78 |
% 18.19/4.78 | Combining equations (1323,1311) yields a new equation:
% 18.19/4.78 | (1301) all_0_122_122 = e22
% 18.19/4.78 |
% 18.19/4.78 | Combining equations (1316,1305) yields a new equation:
% 18.19/4.78 | (1304) all_0_114_114 = e24
% 18.19/4.78 |
% 18.19/4.78 | Combining equations (1324,1300) yields a new equation:
% 18.19/4.78 | (1333) all_0_112_112 = e20
% 18.19/4.78 |
% 18.19/4.78 | Combining equations (1323,1303) yields a new equation:
% 18.19/4.78 | (1334) all_0_109_109 = e22
% 18.19/4.78 |
% 18.19/4.78 +-Applying beta-rule and splitting (220), into two cases.
% 18.19/4.78 |-Branch one:
% 18.19/4.78 | (1335) ~ (all_0_127_127 = e20)
% 18.19/4.78 |
% 18.19/4.78 | Equations (1324) can reduce 1335 to:
% 18.19/4.78 | (705) $false
% 18.19/4.78 |
% 18.19/4.78 |-The branch is then unsatisfiable
% 18.19/4.78 |-Branch two:
% 18.19/4.78 | (1324) all_0_127_127 = e20
% 18.19/4.78 | (1338) ~ (all_0_102_102 = all_0_103_103) | ~ (all_0_104_104 = all_0_105_105) | ~ (all_0_106_106 = all_0_107_107) | ~ (all_0_108_108 = all_0_109_109) | ~ (all_0_110_110 = all_0_203_203) | ~ (all_0_111_111 = all_0_112_112) | ~ (all_0_113_113 = all_0_114_114) | ~ (all_0_115_115 = all_0_116_116) | ~ (all_0_117_117 = all_0_118_118) | ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.78 |
% 18.19/4.78 +-Applying beta-rule and splitting (1338), into two cases.
% 18.19/4.78 |-Branch one:
% 18.19/4.78 | (1339) ~ (all_0_102_102 = all_0_103_103)
% 18.19/4.78 |
% 18.19/4.78 | Equations (1028,1086) can reduce 1339 to:
% 18.19/4.78 | (705) $false
% 18.19/4.78 |
% 18.19/4.78 |-The branch is then unsatisfiable
% 18.19/4.78 |-Branch two:
% 18.19/4.78 | (1341) all_0_102_102 = all_0_103_103
% 18.19/4.78 | (1342) ~ (all_0_104_104 = all_0_105_105) | ~ (all_0_106_106 = all_0_107_107) | ~ (all_0_108_108 = all_0_109_109) | ~ (all_0_110_110 = all_0_203_203) | ~ (all_0_111_111 = all_0_112_112) | ~ (all_0_113_113 = all_0_114_114) | ~ (all_0_115_115 = all_0_116_116) | ~ (all_0_117_117 = all_0_118_118) | ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.78 |
% 18.19/4.78 +-Applying beta-rule and splitting (1342), into two cases.
% 18.19/4.78 |-Branch one:
% 18.19/4.78 | (1343) ~ (all_0_104_104 = all_0_105_105)
% 18.19/4.78 |
% 18.19/4.78 | Equations (1027,1085) can reduce 1343 to:
% 18.19/4.78 | (705) $false
% 18.19/4.78 |
% 18.19/4.78 |-The branch is then unsatisfiable
% 18.19/4.78 |-Branch two:
% 18.19/4.78 | (1345) all_0_104_104 = all_0_105_105
% 18.19/4.78 | (1346) ~ (all_0_106_106 = all_0_107_107) | ~ (all_0_108_108 = all_0_109_109) | ~ (all_0_110_110 = all_0_203_203) | ~ (all_0_111_111 = all_0_112_112) | ~ (all_0_113_113 = all_0_114_114) | ~ (all_0_115_115 = all_0_116_116) | ~ (all_0_117_117 = all_0_118_118) | ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.78 |
% 18.19/4.78 +-Applying beta-rule and splitting (1346), into two cases.
% 18.19/4.78 |-Branch one:
% 18.19/4.78 | (1347) ~ (all_0_106_106 = all_0_107_107)
% 18.19/4.78 |
% 18.19/4.78 | Equations (934,1057) can reduce 1347 to:
% 18.19/4.78 | (705) $false
% 18.19/4.78 |
% 18.19/4.78 |-The branch is then unsatisfiable
% 18.19/4.78 |-Branch two:
% 18.19/4.78 | (1349) all_0_106_106 = all_0_107_107
% 18.19/4.78 | (1350) ~ (all_0_108_108 = all_0_109_109) | ~ (all_0_110_110 = all_0_203_203) | ~ (all_0_111_111 = all_0_112_112) | ~ (all_0_113_113 = all_0_114_114) | ~ (all_0_115_115 = all_0_116_116) | ~ (all_0_117_117 = all_0_118_118) | ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.78 |
% 18.19/4.78 +-Applying beta-rule and splitting (1350), into two cases.
% 18.19/4.78 |-Branch one:
% 18.19/4.78 | (1351) ~ (all_0_108_108 = all_0_109_109)
% 18.19/4.78 |
% 18.19/4.78 | Equations (1036,1334) can reduce 1351 to:
% 18.19/4.78 | (705) $false
% 18.19/4.78 |
% 18.19/4.78 |-The branch is then unsatisfiable
% 18.19/4.78 |-Branch two:
% 18.19/4.78 | (1353) all_0_108_108 = all_0_109_109
% 18.19/4.78 | (1354) ~ (all_0_110_110 = all_0_203_203) | ~ (all_0_111_111 = all_0_112_112) | ~ (all_0_113_113 = all_0_114_114) | ~ (all_0_115_115 = all_0_116_116) | ~ (all_0_117_117 = all_0_118_118) | ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.78 |
% 18.19/4.78 +-Applying beta-rule and splitting (1354), into two cases.
% 18.19/4.78 |-Branch one:
% 18.19/4.78 | (1355) ~ (all_0_110_110 = all_0_203_203)
% 18.19/4.78 |
% 18.19/4.78 | Equations (1024,890) can reduce 1355 to:
% 18.19/4.78 | (705) $false
% 18.19/4.78 |
% 18.19/4.78 |-The branch is then unsatisfiable
% 18.19/4.78 |-Branch two:
% 18.19/4.78 | (1357) all_0_110_110 = all_0_203_203
% 18.19/4.78 | (1358) ~ (all_0_111_111 = all_0_112_112) | ~ (all_0_113_113 = all_0_114_114) | ~ (all_0_115_115 = all_0_116_116) | ~ (all_0_117_117 = all_0_118_118) | ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.78 |
% 18.19/4.78 | Combining equations (1357,1024) yields a new equation:
% 18.19/4.78 | (1359) all_0_203_203 = e23
% 18.19/4.78 |
% 18.19/4.78 | Simplifying 1359 yields:
% 18.19/4.78 | (890) all_0_203_203 = e23
% 18.19/4.78 |
% 18.19/4.78 +-Applying beta-rule and splitting (1358), into two cases.
% 18.19/4.78 |-Branch one:
% 18.19/4.78 | (1361) ~ (all_0_111_111 = all_0_112_112)
% 18.19/4.78 |
% 18.19/4.78 | Equations (1037,1333) can reduce 1361 to:
% 18.19/4.78 | (705) $false
% 18.19/4.78 |
% 18.19/4.78 |-The branch is then unsatisfiable
% 18.19/4.78 |-Branch two:
% 18.19/4.78 | (1363) all_0_111_111 = all_0_112_112
% 18.19/4.78 | (1364) ~ (all_0_113_113 = all_0_114_114) | ~ (all_0_115_115 = all_0_116_116) | ~ (all_0_117_117 = all_0_118_118) | ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.78 |
% 18.19/4.78 +-Applying beta-rule and splitting (1364), into two cases.
% 18.19/4.78 |-Branch one:
% 18.19/4.78 | (1365) ~ (all_0_113_113 = all_0_114_114)
% 18.19/4.78 |
% 18.19/4.78 | Equations (1018,1304) can reduce 1365 to:
% 18.19/4.78 | (705) $false
% 18.19/4.78 |
% 18.19/4.78 |-The branch is then unsatisfiable
% 18.19/4.78 |-Branch two:
% 18.19/4.78 | (1367) all_0_113_113 = all_0_114_114
% 18.19/4.78 | (1368) ~ (all_0_115_115 = all_0_116_116) | ~ (all_0_117_117 = all_0_118_118) | ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.78 |
% 18.19/4.78 +-Applying beta-rule and splitting (1368), into two cases.
% 18.19/4.78 |-Branch one:
% 18.19/4.78 | (1369) ~ (all_0_115_115 = all_0_116_116)
% 18.19/4.78 |
% 18.19/4.78 | Equations (1019,1295) can reduce 1369 to:
% 18.19/4.78 | (705) $false
% 18.19/4.78 |
% 18.19/4.78 |-The branch is then unsatisfiable
% 18.19/4.78 |-Branch two:
% 18.19/4.78 | (1371) all_0_115_115 = all_0_116_116
% 18.19/4.78 | (1372) ~ (all_0_117_117 = all_0_118_118) | ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.78 |
% 18.19/4.78 +-Applying beta-rule and splitting (1372), into two cases.
% 18.19/4.78 |-Branch one:
% 18.19/4.78 | (1373) ~ (all_0_117_117 = all_0_118_118)
% 18.19/4.78 |
% 18.19/4.78 | Equations (1030,1308) can reduce 1373 to:
% 18.19/4.78 | (705) $false
% 18.19/4.78 |
% 18.19/4.78 |-The branch is then unsatisfiable
% 18.19/4.78 |-Branch two:
% 18.19/4.78 | (1375) all_0_117_117 = all_0_118_118
% 18.19/4.78 | (1376) ~ (all_0_119_119 = all_0_120_120) | ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.78 |
% 18.19/4.78 +-Applying beta-rule and splitting (1376), into two cases.
% 18.19/4.78 |-Branch one:
% 18.19/4.78 | (1377) ~ (all_0_119_119 = all_0_120_120)
% 18.19/4.78 |
% 18.19/4.79 | Equations (1034,1318) can reduce 1377 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1379) all_0_119_119 = all_0_120_120
% 18.19/4.79 | (1380) ~ (all_0_121_121 = all_0_122_122) | ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1380), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1381) ~ (all_0_121_121 = all_0_122_122)
% 18.19/4.79 |
% 18.19/4.79 | Equations (1005,1301) can reduce 1381 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1383) all_0_121_121 = all_0_122_122
% 18.19/4.79 | (1384) ~ (all_0_123_123 = all_0_124_124) | ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1384), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1385) ~ (all_0_123_123 = all_0_124_124)
% 18.19/4.79 |
% 18.19/4.79 | Equations (1035,1298) can reduce 1385 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1387) all_0_123_123 = all_0_124_124
% 18.19/4.79 | (1388) ~ (all_0_125_125 = all_0_126_126) | ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1388), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1389) ~ (all_0_125_125 = all_0_126_126)
% 18.19/4.79 |
% 18.19/4.79 | Equations (1029,1316) can reduce 1389 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1391) all_0_125_125 = all_0_126_126
% 18.19/4.79 | (1392) ~ (all_0_128_128 = all_0_129_129) | ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1392), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1393) ~ (all_0_128_128 = all_0_129_129)
% 18.19/4.79 |
% 18.19/4.79 | Equations (997,1323) can reduce 1393 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1395) all_0_128_128 = all_0_129_129
% 18.19/4.79 | (1396) ~ (all_0_130_130 = all_0_131_131) | ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1396), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1397) ~ (all_0_130_130 = all_0_131_131)
% 18.19/4.79 |
% 18.19/4.79 | Equations (1038,1326) can reduce 1397 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1399) all_0_130_130 = all_0_131_131
% 18.19/4.79 | (1400) ~ (all_0_132_132 = all_0_133_133) | ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1400), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1401) ~ (all_0_132_132 = all_0_133_133)
% 18.19/4.79 |
% 18.19/4.79 | Equations (943,1195) can reduce 1401 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1403) all_0_132_132 = all_0_133_133
% 18.19/4.79 | (1404) ~ (all_0_134_134 = all_0_135_135) | ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1404), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1405) ~ (all_0_134_134 = all_0_135_135)
% 18.19/4.79 |
% 18.19/4.79 | Equations (926,1322) can reduce 1405 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1407) all_0_134_134 = all_0_135_135
% 18.19/4.79 | (1408) ~ (all_0_136_136 = all_0_137_137) | ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1408), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1409) ~ (all_0_136_136 = all_0_137_137)
% 18.19/4.79 |
% 18.19/4.79 | Equations (1000,1328) can reduce 1409 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1411) all_0_136_136 = all_0_137_137
% 18.19/4.79 | (1412) ~ (all_0_138_138 = all_0_139_139) | ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1412), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1413) ~ (all_0_138_138 = all_0_139_139)
% 18.19/4.79 |
% 18.19/4.79 | Equations (1025,1320) can reduce 1413 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1415) all_0_138_138 = all_0_139_139
% 18.19/4.79 | (1416) ~ (all_0_140_140 = all_0_188_188) | ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1416), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1417) ~ (all_0_140_140 = all_0_188_188)
% 18.19/4.79 |
% 18.19/4.79 | Equations (951,949) can reduce 1417 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (674) all_0_140_140 = all_0_188_188
% 18.19/4.79 | (1420) ~ (all_0_141_141 = all_0_187_187) | ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 | Combining equations (951,674) yields a new equation:
% 18.19/4.79 | (949) all_0_188_188 = e22
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1420), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1422) ~ (all_0_141_141 = all_0_187_187)
% 18.19/4.79 |
% 18.19/4.79 | Equations (950,924) can reduce 1422 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (673) all_0_141_141 = all_0_187_187
% 18.19/4.79 | (1425) ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)) | ( ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20))
% 18.19/4.79 |
% 18.19/4.79 | Combining equations (950,673) yields a new equation:
% 18.19/4.79 | (924) all_0_187_187 = e20
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1425), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1427) ( ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)) | ( ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22))
% 18.19/4.79 |
% 18.19/4.79 +-Applying beta-rule and splitting (1427), into two cases.
% 18.19/4.79 |-Branch one:
% 18.19/4.79 | (1428) ~ (all_0_187_187 = e23) & ~ (all_0_188_188 = e23) & ~ (all_0_203_203 = e23)
% 18.19/4.79 |
% 18.19/4.79 | Applying alpha-rule on (1428) yields:
% 18.19/4.79 | (1429) ~ (all_0_187_187 = e23)
% 18.19/4.79 | (1430) ~ (all_0_188_188 = e23)
% 18.19/4.79 | (1431) ~ (all_0_203_203 = e23)
% 18.19/4.79 |
% 18.19/4.79 | Equations (890) can reduce 1431 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1433) ~ (all_0_187_187 = e22) & ~ (all_0_188_188 = e22) & ~ (all_0_203_203 = e22)
% 18.19/4.79 |
% 18.19/4.79 | Applying alpha-rule on (1433) yields:
% 18.19/4.79 | (1434) ~ (all_0_187_187 = e22)
% 18.19/4.79 | (1435) ~ (all_0_188_188 = e22)
% 18.19/4.79 | (861) ~ (all_0_203_203 = e22)
% 18.19/4.79 |
% 18.19/4.79 | Equations (949) can reduce 1435 to:
% 18.19/4.79 | (705) $false
% 18.19/4.79 |
% 18.19/4.79 |-The branch is then unsatisfiable
% 18.19/4.79 |-Branch two:
% 18.19/4.79 | (1438) ~ (all_0_187_187 = e20) & ~ (all_0_188_188 = e20) & ~ (all_0_203_203 = e20)
% 18.19/4.79 |
% 18.19/4.79 | Applying alpha-rule on (1438) yields:
% 18.19/4.79 | (1439) ~ (all_0_187_187 = e20)
% 18.19/4.79 | (1440) ~ (all_0_188_188 = e20)
% 18.19/4.79 | (1441) ~ (all_0_203_203 = e20)
% 18.19/4.80 |
% 18.19/4.80 | Equations (924) can reduce 1439 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1131) ~ (all_0_218_218 = e14)
% 18.19/4.80 | (1130) all_0_227_227 = e14
% 18.19/4.80 |
% 18.19/4.80 | Combining equations (1130,1133) yields a new equation:
% 18.19/4.80 | (1097) e14 = e11
% 18.19/4.80 |
% 18.19/4.80 | Simplifying 1097 yields:
% 18.19/4.80 | (1098) e14 = e11
% 18.19/4.80 |
% 18.19/4.80 | Equations (1098) can reduce 661 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1448) ~ (all_0_224_224 = e11)
% 18.19/4.80 | (1107) all_0_225_225 = e11
% 18.19/4.80 |
% 18.19/4.80 | Combining equations (1107,1186) yields a new equation:
% 18.19/4.80 | (1103) e11 = e10
% 18.19/4.80 |
% 18.19/4.80 | Simplifying 1103 yields:
% 18.19/4.80 | (1104) e11 = e10
% 18.19/4.80 |
% 18.19/4.80 | Equations (1104) can reduce 387 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1181) ~ (all_0_216_216 = e14)
% 18.19/4.80 | (1096) all_0_216_216 = e11
% 18.19/4.80 |
% 18.19/4.80 | Equations (1096) can reduce 1100 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1456) ~ (all_0_214_214 = e13)
% 18.19/4.80 | (1457) all_0_219_219 = e13 | all_0_224_224 = e13
% 18.19/4.80 |
% 18.19/4.80 +-Applying beta-rule and splitting (1267), into two cases.
% 18.19/4.80 |-Branch one:
% 18.19/4.80 | (1289) all_0_224_224 = e11
% 18.19/4.80 |
% 18.19/4.80 | Equations (1289) can reduce 194 to:
% 18.19/4.80 | (1459) ~ (all_0_214_214 = e11)
% 18.19/4.80 |
% 18.19/4.80 +-Applying beta-rule and splitting (1261), into two cases.
% 18.19/4.80 |-Branch one:
% 18.19/4.80 | (1460) all_0_214_214 = e14
% 18.19/4.80 |
% 18.19/4.80 | Equations (1460) can reduce 1074 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1074) ~ (all_0_214_214 = e14)
% 18.19/4.80 | (1095) all_0_216_216 = e14
% 18.19/4.80 |
% 18.19/4.80 | Equations (1095) can reduce 452 to:
% 18.19/4.80 | (1074) ~ (all_0_214_214 = e14)
% 18.19/4.80 |
% 18.19/4.80 +-Applying beta-rule and splitting (1279), into two cases.
% 18.19/4.80 |-Branch one:
% 18.19/4.80 | (1460) all_0_214_214 = e14
% 18.19/4.80 |
% 18.19/4.80 | Equations (1460) can reduce 1074 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1074) ~ (all_0_214_214 = e14)
% 18.19/4.80 | (1468) all_0_214_214 = e13 | all_0_214_214 = e11
% 18.19/4.80 |
% 18.19/4.80 +-Applying beta-rule and splitting (1468), into two cases.
% 18.19/4.80 |-Branch one:
% 18.19/4.80 | (1285) all_0_214_214 = e13
% 18.19/4.80 |
% 18.19/4.80 | Equations (1285) can reduce 1456 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1456) ~ (all_0_214_214 = e13)
% 18.19/4.80 | (1472) all_0_214_214 = e11
% 18.19/4.80 |
% 18.19/4.80 | Equations (1472) can reduce 1459 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1448) ~ (all_0_224_224 = e11)
% 18.19/4.80 | (1107) all_0_225_225 = e11
% 18.19/4.80 |
% 18.19/4.80 | Combining equations (1107,1186) yields a new equation:
% 18.19/4.80 | (1103) e11 = e10
% 18.19/4.80 |
% 18.19/4.80 | Simplifying 1103 yields:
% 18.19/4.80 | (1104) e11 = e10
% 18.19/4.80 |
% 18.19/4.80 | Equations (1104) can reduce 387 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1479) ~ (all_0_213_213 = e12)
% 18.19/4.80 | (1480) all_0_214_214 = e12 | all_0_216_216 = e12
% 18.19/4.80 |
% 18.19/4.80 +-Applying beta-rule and splitting (152), into two cases.
% 18.19/4.80 |-Branch one:
% 18.19/4.80 | (1243) all_0_213_213 = e12
% 18.19/4.80 |
% 18.19/4.80 | Equations (1243) can reduce 1479 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1479) ~ (all_0_213_213 = e12)
% 18.19/4.80 | (1484) all_0_213_213 = e14 | all_0_213_213 = e13
% 18.19/4.80 |
% 18.19/4.80 +-Applying beta-rule and splitting (570), into two cases.
% 18.19/4.80 |-Branch one:
% 18.19/4.80 | (1243) all_0_213_213 = e12
% 18.19/4.80 |
% 18.19/4.80 | Equations (1243) can reduce 1479 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1479) ~ (all_0_213_213 = e12)
% 18.19/4.80 | (1488) all_0_217_217 = e12 | all_0_222_222 = e12
% 18.19/4.80 |
% 18.19/4.80 +-Applying beta-rule and splitting (1488), into two cases.
% 18.19/4.80 |-Branch one:
% 18.19/4.80 | (1489) all_0_217_217 = e12
% 18.19/4.80 |
% 18.19/4.80 | Combining equations (1210,1489) yields a new equation:
% 18.19/4.80 | (1490) e12 = e10
% 18.19/4.80 |
% 18.19/4.80 | Equations (1490) can reduce 159 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1492) ~ (all_0_217_217 = e12)
% 18.19/4.80 | (1228) all_0_222_222 = e12
% 18.19/4.80 |
% 18.19/4.80 | Combining equations (1228,1238) yields a new equation:
% 18.19/4.80 | (1494) e13 = e12
% 18.19/4.80 |
% 18.19/4.80 | Equations (1494) can reduce 590 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1496) ~ (all_0_222_222 = e13)
% 18.19/4.80 | (1497) all_0_222_222 = e10
% 18.19/4.80 |
% 18.19/4.80 | Equations (1497) can reduce 1188 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1499) ~ (all_0_215_215 = e11)
% 18.19/4.80 | (1112) all_0_220_220 = e11
% 18.19/4.80 |
% 18.19/4.80 | Combining equations (1112,1218) yields a new equation:
% 18.19/4.80 | (1501) e13 = e11
% 18.19/4.80 |
% 18.19/4.80 | Equations (1501) can reduce 391 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1128) ~ (all_0_226_226 = e14)
% 18.19/4.80 | (1122) all_0_226_226 = e10
% 18.19/4.80 |
% 18.19/4.80 | Equations (1122) can reduce 1171 to:
% 18.19/4.80 | (705) $false
% 18.19/4.80 |
% 18.19/4.80 |-The branch is then unsatisfiable
% 18.19/4.80 |-Branch two:
% 18.19/4.80 | (1506) ~ (all_0_219_219 = e12)
% 18.19/4.80 | (1507) all_0_219_219 = e14 | all_0_219_219 = e13 | all_0_219_219 = e11 | all_0_219_219 = e10
% 18.19/4.80 |
% 18.19/4.80 +-Applying beta-rule and splitting (295), into two cases.
% 18.19/4.80 |-Branch one:
% 18.19/4.80 | (1232) all_0_215_215 = e11
% 18.19/4.80 |
% 18.19/4.80 | Equations (1232) can reduce 110 to:
% 18.19/4.80 | (1139) ~ (e12 = e11)
% 18.19/4.81 |
% 18.19/4.81 | Simplifying 1139 yields:
% 18.19/4.81 | (402) ~ (e12 = e11)
% 18.19/4.81 |
% 18.19/4.81 +-Applying beta-rule and splitting (56), into two cases.
% 18.19/4.81 |-Branch one:
% 18.19/4.81 | (1147) all_0_223_223 = e11
% 18.19/4.81 |
% 18.19/4.81 | Combining equations (1111,1147) yields a new equation:
% 18.19/4.81 | (1148) e12 = e11
% 18.19/4.81 |
% 18.19/4.81 | Simplifying 1148 yields:
% 18.19/4.81 | (1149) e12 = e11
% 18.19/4.81 |
% 18.19/4.81 | Equations (1149) can reduce 402 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1108) ~ (all_0_223_223 = e11)
% 18.19/4.81 | (1267) all_0_224_224 = e11 | all_0_225_225 = e11
% 18.19/4.81 |
% 18.19/4.81 | Equations (1111) can reduce 1108 to:
% 18.19/4.81 | (402) ~ (e12 = e11)
% 18.19/4.81 |
% 18.19/4.81 +-Applying beta-rule and splitting (517), into two cases.
% 18.19/4.81 |-Branch one:
% 18.19/4.81 | (1489) all_0_217_217 = e12
% 18.19/4.81 |
% 18.19/4.81 | Combining equations (1210,1489) yields a new equation:
% 18.19/4.81 | (1490) e12 = e10
% 18.19/4.81 |
% 18.19/4.81 | Equations (1490) can reduce 159 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1492) ~ (all_0_217_217 = e12)
% 18.19/4.81 | (1522) all_0_218_218 = e12 | all_0_219_219 = e12 | all_0_221_221 = e12
% 18.19/4.81 |
% 18.19/4.81 +-Applying beta-rule and splitting (24), into two cases.
% 18.19/4.81 |-Branch one:
% 18.19/4.81 | (1523) all_0_218_218 = e12
% 18.19/4.81 |
% 18.19/4.81 | Equations (1523) can reduce 1206 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1206) ~ (all_0_218_218 = e12)
% 18.19/4.81 | (1526) all_0_218_218 = e14 | all_0_218_218 = e13 | all_0_218_218 = e11
% 18.19/4.81 |
% 18.19/4.81 +-Applying beta-rule and splitting (1522), into two cases.
% 18.19/4.81 |-Branch one:
% 18.19/4.81 | (1523) all_0_218_218 = e12
% 18.19/4.81 |
% 18.19/4.81 | Equations (1523) can reduce 1206 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1206) ~ (all_0_218_218 = e12)
% 18.19/4.81 | (1530) all_0_219_219 = e12 | all_0_221_221 = e12
% 18.19/4.81 |
% 18.19/4.81 +-Applying beta-rule and splitting (1530), into two cases.
% 18.19/4.81 |-Branch one:
% 18.19/4.81 | (1221) all_0_219_219 = e12
% 18.19/4.81 |
% 18.19/4.81 | Equations (1221) can reduce 1506 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1506) ~ (all_0_219_219 = e12)
% 18.19/4.81 | (1534) all_0_221_221 = e12
% 18.19/4.81 |
% 18.19/4.81 | Combining equations (1102,1534) yields a new equation:
% 18.19/4.81 | (1149) e12 = e11
% 18.19/4.81 |
% 18.19/4.81 | Equations (1149) can reduce 402 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1499) ~ (all_0_215_215 = e11)
% 18.19/4.81 | (1112) all_0_220_220 = e11
% 18.19/4.81 |
% 18.19/4.81 | Combining equations (1218,1112) yields a new equation:
% 18.19/4.81 | (1539) e13 = e11
% 18.19/4.81 |
% 18.19/4.81 | Simplifying 1539 yields:
% 18.19/4.81 | (1501) e13 = e11
% 18.19/4.81 |
% 18.19/4.81 | Equations (1501) can reduce 391 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1542) ~ (all_0_220_220 = e13)
% 18.19/4.81 | (1112) all_0_220_220 = e11
% 18.19/4.81 |
% 18.19/4.81 | Equations (1112) can reduce 1196 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1545) ~ (all_0_217_217 = e10)
% 18.19/4.81 | (1546) all_0_219_219 = e10 | all_0_221_221 = e10
% 18.19/4.81 |
% 18.19/4.81 +-Applying beta-rule and splitting (5), into two cases.
% 18.19/4.81 |-Branch one:
% 18.19/4.81 | (1210) all_0_217_217 = e10
% 18.19/4.81 |
% 18.19/4.81 | Equations (1210) can reduce 1545 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1545) ~ (all_0_217_217 = e10)
% 18.19/4.81 | (1550) all_0_222_222 = e10 | all_0_226_226 = e10
% 18.19/4.81 |
% 18.19/4.81 +-Applying beta-rule and splitting (1550), into two cases.
% 18.19/4.81 |-Branch one:
% 18.19/4.81 | (1497) all_0_222_222 = e10
% 18.19/4.81 |
% 18.19/4.81 | Equations (1497) can reduce 1188 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1188) ~ (all_0_222_222 = e10)
% 18.19/4.81 | (1122) all_0_226_226 = e10
% 18.19/4.81 |
% 18.19/4.81 | Equations (1122) can reduce 1171 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1174) ~ (all_0_223_223 = e12)
% 18.19/4.81 | (1175) all_0_223_223 = e13 | all_0_223_223 = e11
% 18.19/4.81 |
% 18.19/4.81 +-Applying beta-rule and splitting (1175), into two cases.
% 18.19/4.81 |-Branch one:
% 18.19/4.81 | (1176) all_0_223_223 = e13
% 18.19/4.81 |
% 18.19/4.81 | Equations (1176) can reduce 1061 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1061) ~ (all_0_223_223 = e13)
% 18.19/4.81 | (1147) all_0_223_223 = e11
% 18.19/4.81 |
% 18.19/4.81 | Equations (1147) can reduce 1108 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1137) ~ (all_0_227_227 = e11)
% 18.19/4.81 | (1138) all_0_228_228 = e11
% 18.19/4.81 |
% 18.19/4.81 | Combining equations (1138,1172) yields a new equation:
% 18.19/4.81 | (1103) e11 = e10
% 18.19/4.81 |
% 18.19/4.81 | Simplifying 1103 yields:
% 18.19/4.81 | (1104) e11 = e10
% 18.19/4.81 |
% 18.19/4.81 | Equations (1104) can reduce 387 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1568) ~ (all_0_211_211 = e14)
% 18.19/4.81 | (1090) all_0_212_212 = e14
% 18.19/4.81 |
% 18.19/4.81 | Combining equations (1090,1046) yields a new equation:
% 18.19/4.81 | (1257) e14 = e12
% 18.19/4.81 |
% 18.19/4.81 | Simplifying 1257 yields:
% 18.19/4.81 | (1091) e14 = e12
% 18.19/4.81 |
% 18.19/4.81 | Equations (1091) can reduce 621 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1573) ~ (all_0_210_210 = e13)
% 18.19/4.81 | (1280) all_0_211_211 = e13
% 18.19/4.81 |
% 18.19/4.81 | Equations (1280) can reduce 484 to:
% 18.19/4.81 | (1575) ~ (all_0_214_214 = e13)
% 18.19/4.81 |
% 18.19/4.81 | Simplifying 1575 yields:
% 18.19/4.81 | (1456) ~ (all_0_214_214 = e13)
% 18.19/4.81 |
% 18.19/4.81 | Equations (1280) can reduce 365 to:
% 18.19/4.81 | (1577) ~ (all_0_219_219 = e13)
% 18.19/4.81 |
% 18.19/4.81 | Simplifying 1577 yields:
% 18.19/4.81 | (1578) ~ (all_0_219_219 = e13)
% 18.19/4.81 |
% 18.19/4.81 | Equations (1280) can reduce 401 to:
% 18.19/4.81 | (1579) ~ (all_0_228_228 = e13)
% 18.19/4.81 |
% 18.19/4.81 | Simplifying 1579 yields:
% 18.19/4.81 | (493) ~ (all_0_228_228 = e13)
% 18.19/4.81 |
% 18.19/4.81 +-Applying beta-rule and splitting (147), into two cases.
% 18.19/4.81 |-Branch one:
% 18.19/4.81 | (1067) all_0_210_210 = e14
% 18.19/4.81 |
% 18.19/4.81 | Equations (1067) can reduce 337 to:
% 18.19/4.81 | (1582) ~ (all_0_227_227 = e14)
% 18.19/4.81 |
% 18.19/4.81 | Simplifying 1582 yields:
% 18.19/4.81 | (1168) ~ (all_0_227_227 = e14)
% 18.19/4.81 |
% 18.19/4.81 | Equations (1067) can reduce 87 to:
% 18.19/4.81 | (11) ~ (e14 = e10)
% 18.19/4.81 |
% 18.19/4.81 | From (1067) and (52) follows:
% 18.19/4.81 | (1585) op1(e14, all_0_213_213) = e13
% 18.19/4.81 |
% 18.19/4.81 | From (1067) and (635) follows:
% 18.19/4.81 | (1586) op1(all_0_213_213, e14) = e14
% 18.19/4.81 |
% 18.19/4.81 +-Applying beta-rule and splitting (505), into two cases.
% 18.19/4.81 |-Branch one:
% 18.19/4.81 | (1130) all_0_227_227 = e14
% 18.19/4.81 |
% 18.19/4.81 | Equations (1130) can reduce 1168 to:
% 18.19/4.81 | (705) $false
% 18.19/4.81 |
% 18.19/4.81 |-The branch is then unsatisfiable
% 18.19/4.81 |-Branch two:
% 18.19/4.81 | (1168) ~ (all_0_227_227 = e14)
% 18.19/4.81 | (1133) all_0_227_227 = e11
% 18.19/4.81 |
% 18.19/4.81 | Equations (1133) can reduce 277 to:
% 18.19/4.81 | (100) ~ (all_0_226_226 = e11)
% 18.19/4.81 |
% 18.19/4.81 | Equations (1133) can reduce 94 to:
% 18.19/4.81 | (1592) ~ (e13 = e11)
% 18.19/4.81 |
% 18.19/4.81 | Simplifying 1592 yields:
% 18.19/4.81 | (391) ~ (e13 = e11)
% 18.19/4.81 |
% 18.19/4.81 +-Applying beta-rule and splitting (295), into two cases.
% 18.19/4.81 |-Branch one:
% 18.19/4.81 | (1232) all_0_215_215 = e11
% 18.19/4.81 |
% 18.19/4.81 | Equations (1232) can reduce 579 to:
% 18.19/4.82 | (1234) ~ (all_0_216_216 = e11)
% 18.19/4.82 |
% 18.19/4.82 | Simplifying 1234 yields:
% 18.19/4.82 | (1100) ~ (all_0_216_216 = e11)
% 18.19/4.82 |
% 18.19/4.82 | Equations (1232) can reduce 99 to:
% 18.19/4.82 | (1597) ~ (all_0_220_220 = e11)
% 18.19/4.82 |
% 18.19/4.82 | Simplifying 1597 yields:
% 18.19/4.82 | (1196) ~ (all_0_220_220 = e11)
% 18.19/4.82 |
% 18.19/4.82 | From (1232) and (335) follows:
% 18.19/4.82 | (1599) op1(e11, all_0_223_223) = e11
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (491), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1600) all_0_215_215 = e13
% 18.19/4.82 |
% 18.19/4.82 | Combining equations (1600,1232) yields a new equation:
% 18.19/4.82 | (1539) e13 = e11
% 18.19/4.82 |
% 18.19/4.82 | Simplifying 1539 yields:
% 18.19/4.82 | (1501) e13 = e11
% 18.19/4.82 |
% 18.19/4.82 | Equations (1501) can reduce 391 to:
% 18.19/4.82 | (705) $false
% 18.19/4.82 |
% 18.19/4.82 |-The branch is then unsatisfiable
% 18.19/4.82 |-Branch two:
% 18.19/4.82 | (1604) ~ (all_0_215_215 = e13)
% 18.19/4.82 | (1218) all_0_220_220 = e13
% 18.19/4.82 |
% 18.19/4.82 | Equations (1218) can reduce 134 to:
% 18.19/4.82 | (1606) ~ (all_0_218_218 = e13)
% 18.19/4.82 |
% 18.19/4.82 | Equations (1218) can reduce 163 to:
% 18.19/4.82 | (590) ~ (e13 = e12)
% 18.19/4.82 |
% 18.19/4.82 | Equations (1218) can reduce 1196 to:
% 18.19/4.82 | (391) ~ (e13 = e11)
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (71), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1609) all_0_213_213 = e13
% 18.19/4.82 |
% 18.19/4.82 | Equations (1609) can reduce 210 to:
% 18.19/4.82 | (1575) ~ (all_0_214_214 = e13)
% 18.19/4.82 |
% 18.19/4.82 | Simplifying 1575 yields:
% 18.19/4.82 | (1456) ~ (all_0_214_214 = e13)
% 18.19/4.82 |
% 18.19/4.82 | Equations (1609) can reduce 598 to:
% 18.19/4.82 | (1612) ~ (all_0_216_216 = e13)
% 18.19/4.82 |
% 18.19/4.82 | Simplifying 1612 yields:
% 18.19/4.82 | (39) ~ (all_0_216_216 = e13)
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (80), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1252) all_0_216_216 = e12
% 18.19/4.82 |
% 18.19/4.82 | Equations (1252) can reduce 1049 to:
% 18.19/4.82 | (705) $false
% 18.19/4.82 |
% 18.19/4.82 |-The branch is then unsatisfiable
% 18.19/4.82 |-Branch two:
% 18.19/4.82 | (1049) ~ (all_0_216_216 = e12)
% 18.19/4.82 | (1255) all_0_216_216 = e14 | all_0_216_216 = e11
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (1255), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1095) all_0_216_216 = e14
% 18.19/4.82 |
% 18.19/4.82 | Equations (1095) can reduce 452 to:
% 18.19/4.82 | (1074) ~ (all_0_214_214 = e14)
% 18.19/4.82 |
% 18.19/4.82 | Equations (1095) can reduce 39 to:
% 18.19/4.82 | (84) ~ (e14 = e13)
% 18.19/4.82 |
% 18.19/4.82 | Equations (1095) can reduce 1049 to:
% 18.19/4.82 | (621) ~ (e14 = e12)
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (336), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1243) all_0_213_213 = e12
% 18.19/4.82 |
% 18.19/4.82 | Combining equations (1609,1243) yields a new equation:
% 18.19/4.82 | (1623) e13 = e12
% 18.19/4.82 |
% 18.19/4.82 | Simplifying 1623 yields:
% 18.19/4.82 | (1494) e13 = e12
% 18.19/4.82 |
% 18.19/4.82 | Equations (1494) can reduce 590 to:
% 18.19/4.82 | (705) $false
% 18.19/4.82 |
% 18.19/4.82 |-The branch is then unsatisfiable
% 18.19/4.82 |-Branch two:
% 18.19/4.82 | (1479) ~ (all_0_213_213 = e12)
% 18.19/4.82 | (1480) all_0_214_214 = e12 | all_0_216_216 = e12
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (1480), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1276) all_0_214_214 = e12
% 18.19/4.82 |
% 18.19/4.82 | Equations (1276) can reduce 1074 to:
% 18.19/4.82 | (1248) ~ (e14 = e12)
% 18.19/4.82 |
% 18.19/4.82 | Simplifying 1248 yields:
% 18.19/4.82 | (621) ~ (e14 = e12)
% 18.19/4.82 |
% 18.19/4.82 | Equations (1276) can reduce 1456 to:
% 18.19/4.82 | (1631) ~ (e13 = e12)
% 18.19/4.82 |
% 18.19/4.82 | Simplifying 1631 yields:
% 18.19/4.82 | (590) ~ (e13 = e12)
% 18.19/4.82 |
% 18.19/4.82 | From (1276) and (81) follows:
% 18.19/4.82 | (1633) op1(e12, all_0_218_218) = e12
% 18.19/4.82 |
% 18.19/4.82 | From (1276) and (408) follows:
% 18.19/4.82 | (1634) op1(all_0_218_218, e12) = e13
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (446), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1059) all_0_210_210 = e13
% 18.19/4.82 |
% 18.19/4.82 | Combining equations (1059,1067) yields a new equation:
% 18.19/4.82 | (1068) e14 = e13
% 18.19/4.82 |
% 18.19/4.82 | Equations (1068) can reduce 84 to:
% 18.19/4.82 | (705) $false
% 18.19/4.82 |
% 18.19/4.82 |-The branch is then unsatisfiable
% 18.19/4.82 |-Branch two:
% 18.19/4.82 | (1573) ~ (all_0_210_210 = e13)
% 18.19/4.82 | (1639) all_0_218_218 = e13 | all_0_223_223 = e13
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (1639), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1640) all_0_218_218 = e13
% 18.19/4.82 |
% 18.19/4.82 | Equations (1640) can reduce 1606 to:
% 18.19/4.82 | (705) $false
% 18.19/4.82 |
% 18.19/4.82 |-The branch is then unsatisfiable
% 18.19/4.82 |-Branch two:
% 18.19/4.82 | (1606) ~ (all_0_218_218 = e13)
% 18.19/4.82 | (1176) all_0_223_223 = e13
% 18.19/4.82 |
% 18.19/4.82 | Equations (1176) can reduce 332 to:
% 18.19/4.82 | (1606) ~ (all_0_218_218 = e13)
% 18.19/4.82 |
% 18.19/4.82 | From (1176) and (1599) follows:
% 18.19/4.82 | (1645) op1(e11, e13) = e11
% 18.19/4.82 |
% 18.19/4.82 | From (1176) and (179) follows:
% 18.19/4.82 | (1646) op1(e11, e13) = e13
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (371), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1647) all_0_210_210 = e12
% 18.19/4.82 |
% 18.19/4.82 | Combining equations (1647,1067) yields a new equation:
% 18.19/4.82 | (1091) e14 = e12
% 18.19/4.82 |
% 18.19/4.82 | Equations (1091) can reduce 621 to:
% 18.19/4.82 | (705) $false
% 18.19/4.82 |
% 18.19/4.82 |-The branch is then unsatisfiable
% 18.19/4.82 |-Branch two:
% 18.19/4.82 | (1650) ~ (all_0_210_210 = e12)
% 18.19/4.82 | (1651) all_0_218_218 = e12 | all_0_223_223 = e12
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (1651), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1523) all_0_218_218 = e12
% 18.19/4.82 |
% 18.19/4.82 | Equations (1523) can reduce 82 to:
% 18.19/4.82 | (1492) ~ (all_0_217_217 = e12)
% 18.19/4.82 |
% 18.19/4.82 | Equations (1523) can reduce 1606 to:
% 18.19/4.82 | (1631) ~ (e13 = e12)
% 18.19/4.82 |
% 18.19/4.82 | Simplifying 1631 yields:
% 18.19/4.82 | (590) ~ (e13 = e12)
% 18.19/4.82 |
% 18.19/4.82 | From (1523) and (1634) follows:
% 18.19/4.82 | (1656) op1(e12, e12) = e13
% 18.19/4.82 |
% 18.19/4.82 | From (1523) and (1633) follows:
% 18.19/4.82 | (1657) op1(e12, e12) = e12
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (570), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1243) all_0_213_213 = e12
% 18.19/4.82 |
% 18.19/4.82 | Combining equations (1243,1609) yields a new equation:
% 18.19/4.82 | (1494) e13 = e12
% 18.19/4.82 |
% 18.19/4.82 | Equations (1494) can reduce 590 to:
% 18.19/4.82 | (705) $false
% 18.19/4.82 |
% 18.19/4.82 |-The branch is then unsatisfiable
% 18.19/4.82 |-Branch two:
% 18.19/4.82 | (1479) ~ (all_0_213_213 = e12)
% 18.19/4.82 | (1488) all_0_217_217 = e12 | all_0_222_222 = e12
% 18.19/4.82 |
% 18.19/4.82 +-Applying beta-rule and splitting (1488), into two cases.
% 18.19/4.82 |-Branch one:
% 18.19/4.82 | (1489) all_0_217_217 = e12
% 18.19/4.82 |
% 18.19/4.82 | Equations (1489) can reduce 1492 to:
% 18.19/4.82 | (705) $false
% 18.19/4.82 |
% 18.19/4.82 |-The branch is then unsatisfiable
% 18.19/4.82 |-Branch two:
% 18.19/4.82 | (1492) ~ (all_0_217_217 = e12)
% 18.19/4.82 | (1228) all_0_222_222 = e12
% 18.19/4.82 |
% 18.19/4.82 | Equations (1228) can reduce 229 to:
% 18.19/4.82 | (402) ~ (e12 = e11)
% 18.19/4.82 |
% 18.19/4.82 | Instantiating formula (90) with e12, e12, e13, all_0_219_219 and discharging atoms op1(e12, e12) = all_0_219_219, op1(e12, e12) = e13, yields:
% 18.19/4.82 | (1668) all_0_219_219 = e13
% 18.19/4.82 |
% 18.19/4.82 | Instantiating formula (90) with e12, e12, e12, all_0_219_219 and discharging atoms op1(e12, e12) = all_0_219_219, op1(e12, e12) = e12, yields:
% 18.19/4.82 | (1221) all_0_219_219 = e12
% 18.19/4.82 |
% 18.19/4.82 | Instantiating formula (90) with e11, e13, e11, e13 and discharging atoms op1(e11, e13) = e13, op1(e11, e13) = e11, yields:
% 18.19/4.82 | (1501) e13 = e11
% 18.19/4.82 |
% 18.19/4.82 | Combining equations (1668,1221) yields a new equation:
% 18.19/4.82 | (1623) e13 = e12
% 18.19/4.82 |
% 18.19/4.82 | Simplifying 1623 yields:
% 18.19/4.82 | (1494) e13 = e12
% 18.19/4.82 |
% 18.19/4.82 | Combining equations (1501,1494) yields a new equation:
% 18.19/4.82 | (1149) e12 = e11
% 18.19/4.82 |
% 18.19/4.82 | Equations (1149) can reduce 402 to:
% 18.19/4.82 | (705) $false
% 18.19/4.82 |
% 18.19/4.82 |-The branch is then unsatisfiable
% 18.19/4.82 |-Branch two:
% 18.19/4.82 | (1206) ~ (all_0_218_218 = e12)
% 18.19/4.82 | (1111) all_0_223_223 = e12
% 18.19/4.82 |
% 18.19/4.83 | Combining equations (1176,1111) yields a new equation:
% 18.19/4.83 | (1623) e13 = e12
% 18.19/4.83 |
% 18.19/4.83 | Simplifying 1623 yields:
% 18.19/4.83 | (1494) e13 = e12
% 18.19/4.83 |
% 18.19/4.83 | Equations (1494) can reduce 590 to:
% 18.19/4.83 | (705) $false
% 18.19/4.83 |
% 18.19/4.83 |-The branch is then unsatisfiable
% 18.19/4.83 |-Branch two:
% 18.19/4.83 | (1245) ~ (all_0_214_214 = e12)
% 18.19/4.83 | (1252) all_0_216_216 = e12
% 18.19/4.83 |
% 18.19/4.83 | Combining equations (1095,1252) yields a new equation:
% 18.19/4.83 | (1257) e14 = e12
% 18.19/4.83 |
% 18.19/4.83 | Simplifying 1257 yields:
% 18.19/4.83 | (1091) e14 = e12
% 18.19/4.83 |
% 18.19/4.83 | Equations (1091) can reduce 621 to:
% 18.19/4.83 | (705) $false
% 18.19/4.83 |
% 18.19/4.83 |-The branch is then unsatisfiable
% 18.19/4.83 |-Branch two:
% 18.19/4.83 | (1181) ~ (all_0_216_216 = e14)
% 18.19/4.83 | (1096) all_0_216_216 = e11
% 18.19/4.83 |
% 18.19/4.83 | Equations (1096) can reduce 1100 to:
% 18.19/4.83 | (705) $false
% 18.19/4.83 |
% 18.19/4.83 |-The branch is then unsatisfiable
% 18.19/4.83 |-Branch two:
% 18.19/4.83 | (1688) ~ (all_0_213_213 = e13)
% 18.19/4.83 | (1689) all_0_214_214 = e13 | all_0_215_215 = e13
% 18.19/4.83 |
% 18.19/4.83 +-Applying beta-rule and splitting (1689), into two cases.
% 18.19/4.83 |-Branch one:
% 18.19/4.83 | (1285) all_0_214_214 = e13
% 18.19/4.83 |
% 18.19/4.83 | Equations (1285) can reduce 1456 to:
% 18.19/4.83 | (705) $false
% 18.19/4.83 |
% 18.19/4.83 |-The branch is then unsatisfiable
% 18.19/4.83 |-Branch two:
% 18.19/4.83 | (1456) ~ (all_0_214_214 = e13)
% 18.19/4.83 | (1600) all_0_215_215 = e13
% 18.19/4.83 |
% 18.19/4.83 | Combining equations (1232,1600) yields a new equation:
% 18.19/4.83 | (1501) e13 = e11
% 18.19/4.83 |
% 18.19/4.83 | Equations (1501) can reduce 391 to:
% 18.19/4.83 | (705) $false
% 18.19/4.83 |
% 18.19/4.83 |-The branch is then unsatisfiable
% 18.19/4.83 |-Branch two:
% 18.19/4.83 | (1499) ~ (all_0_215_215 = e11)
% 18.19/4.83 | (1112) all_0_220_220 = e11
% 18.19/4.83 |
% 18.19/4.83 | Equations (1112) can reduce 99 to:
% 18.19/4.83 | (1499) ~ (all_0_215_215 = e11)
% 18.19/4.83 |
% 18.19/4.83 | Equations (1112) can reduce 153 to:
% 18.19/4.83 | (1116) ~ (e14 = e11)
% 18.19/4.83 |
% 18.19/4.83 | Simplifying 1116 yields:
% 18.19/4.83 | (661) ~ (e14 = e11)
% 18.19/4.83 |
% 18.19/4.83 | Equations (1112) can reduce 163 to:
% 18.19/4.83 | (1139) ~ (e12 = e11)
% 18.19/4.83 |
% 18.19/4.83 | Simplifying 1139 yields:
% 18.19/4.83 | (402) ~ (e12 = e11)
% 18.19/4.83 |
% 18.19/4.83 +-Applying beta-rule and splitting (633), into two cases.
% 18.19/4.83 |-Branch one:
% 18.19/4.83 | (1600) all_0_215_215 = e13
% 18.19/4.83 |
% 18.19/4.83 | Equations (1600) can reduce 1499 to:
% 18.19/4.83 | (391) ~ (e13 = e11)
% 18.19/4.83 |
% 18.19/4.83 +-Applying beta-rule and splitting (430), into two cases.
% 18.19/4.83 |-Branch one:
% 18.19/4.83 | (1125) all_0_226_226 = e14
% 18.19/4.83 |
% 18.19/4.83 | Equations (1125) can reduce 352 to:
% 18.19/4.83 | (1225) ~ (all_0_213_213 = e14)
% 18.19/4.83 |
% 18.19/4.83 | Equations (1125) can reduce 624 to:
% 18.19/4.83 | (621) ~ (e14 = e12)
% 18.19/4.83 |
% 18.19/4.83 | Equations (1125) can reduce 100 to:
% 18.19/4.83 | (661) ~ (e14 = e11)
% 18.19/4.83 |
% 18.19/4.83 | From (1125) and (1055) follows:
% 18.19/4.83 | (1709) op1(e14, e12) = e14
% 18.19/4.83 |
% 18.19/4.83 | From (1125) and (1054) follows:
% 18.61/4.83 | (1710) op1(e12, e14) = e10
% 18.61/4.83 |
% 18.61/4.83 +-Applying beta-rule and splitting (386), into two cases.
% 18.61/4.83 |-Branch one:
% 18.61/4.83 | (1122) all_0_226_226 = e10
% 18.61/4.83 |
% 18.61/4.83 | Combining equations (1125,1122) yields a new equation:
% 18.61/4.83 | (1712) e14 = e10
% 18.61/4.83 |
% 18.61/4.83 | Simplifying 1712 yields:
% 18.61/4.83 | (1126) e14 = e10
% 18.61/4.83 |
% 18.61/4.83 | Equations (1126) can reduce 11 to:
% 18.61/4.83 | (705) $false
% 18.61/4.83 |
% 18.61/4.83 |-The branch is then unsatisfiable
% 18.61/4.83 |-Branch two:
% 18.61/4.83 | (1171) ~ (all_0_226_226 = e10)
% 18.61/4.83 | (1172) all_0_228_228 = e10
% 18.61/4.83 |
% 18.61/4.83 | Equations (1172) can reduce 493 to:
% 18.61/4.83 | (1717) ~ (e13 = e10)
% 18.61/4.83 |
% 18.61/4.83 | Simplifying 1717 yields:
% 18.61/4.83 | (195) ~ (e13 = e10)
% 18.61/4.83 |
% 18.61/4.83 +-Applying beta-rule and splitting (152), into two cases.
% 18.61/4.83 |-Branch one:
% 18.61/4.83 | (1243) all_0_213_213 = e12
% 18.61/4.83 |
% 18.61/4.83 | From (1243) and (1586) follows:
% 18.61/4.83 | (1720) op1(e12, e14) = e14
% 18.61/4.83 |
% 18.61/4.83 | From (1243) and (1585) follows:
% 18.61/4.83 | (1721) op1(e14, e12) = e13
% 18.61/4.83 |
% 18.61/4.83 | Instantiating formula (90) with e14, e12, e14, e13 and discharging atoms op1(e14, e12) = e14, op1(e14, e12) = e13, yields:
% 18.61/4.83 | (1068) e14 = e13
% 18.61/4.83 |
% 18.61/4.83 | Instantiating formula (90) with e12, e14, e14, all_0_217_217 and discharging atoms op1(e12, e14) = all_0_217_217, op1(e12, e14) = e14, yields:
% 18.61/4.83 | (1141) all_0_217_217 = e14
% 18.61/4.83 |
% 18.61/4.83 | Instantiating formula (90) with e12, e14, e10, all_0_217_217 and discharging atoms op1(e12, e14) = all_0_217_217, op1(e12, e14) = e10, yields:
% 18.61/4.83 | (1210) all_0_217_217 = e10
% 18.61/4.83 |
% 18.61/4.83 | Combining equations (1141,1210) yields a new equation:
% 18.61/4.83 | (1712) e14 = e10
% 18.61/4.83 |
% 18.61/4.83 | Simplifying 1712 yields:
% 18.61/4.83 | (1126) e14 = e10
% 18.61/4.83 |
% 18.61/4.83 | Combining equations (1126,1068) yields a new equation:
% 18.61/4.83 | (1727) e13 = e10
% 18.61/4.83 |
% 18.61/4.83 | Equations (1727) can reduce 195 to:
% 18.61/4.83 | (705) $false
% 18.61/4.83 |
% 18.61/4.83 |-The branch is then unsatisfiable
% 18.61/4.83 |-Branch two:
% 18.61/4.83 | (1479) ~ (all_0_213_213 = e12)
% 18.61/4.83 | (1484) all_0_213_213 = e14 | all_0_213_213 = e13
% 18.61/4.83 |
% 18.61/4.83 +-Applying beta-rule and splitting (336), into two cases.
% 18.61/4.83 |-Branch one:
% 18.61/4.83 | (1243) all_0_213_213 = e12
% 18.61/4.83 |
% 18.61/4.83 | Equations (1243) can reduce 1479 to:
% 18.61/4.83 | (705) $false
% 18.61/4.83 |
% 18.61/4.83 |-The branch is then unsatisfiable
% 18.61/4.83 |-Branch two:
% 18.61/4.83 | (1479) ~ (all_0_213_213 = e12)
% 18.61/4.83 | (1480) all_0_214_214 = e12 | all_0_216_216 = e12
% 18.61/4.83 |
% 18.61/4.83 +-Applying beta-rule and splitting (1480), into two cases.
% 18.61/4.83 |-Branch one:
% 18.61/4.83 | (1276) all_0_214_214 = e12
% 18.61/4.83 |
% 18.61/4.83 +-Applying beta-rule and splitting (415), into two cases.
% 18.61/4.83 |-Branch one:
% 18.61/4.83 | (1472) all_0_214_214 = e11
% 18.61/4.83 |
% 18.61/4.83 | Combining equations (1472,1276) yields a new equation:
% 18.61/4.83 | (1149) e12 = e11
% 18.61/4.83 |
% 18.61/4.83 | Equations (1149) can reduce 402 to:
% 18.61/4.83 | (705) $false
% 18.61/4.83 |
% 18.61/4.83 |-The branch is then unsatisfiable
% 18.61/4.83 |-Branch two:
% 18.61/4.83 | (1459) ~ (all_0_214_214 = e11)
% 18.61/4.83 | (1740) all_0_215_215 = e11 | all_0_216_216 = e11
% 18.61/4.83 |
% 18.61/4.83 +-Applying beta-rule and splitting (83), into two cases.
% 18.61/4.83 |-Branch one:
% 18.61/4.83 | (1256) all_0_213_213 = e14
% 18.61/4.83 |
% 18.61/4.83 | Equations (1256) can reduce 1225 to:
% 18.61/4.83 | (705) $false
% 18.61/4.83 |
% 18.61/4.83 |-The branch is then unsatisfiable
% 18.61/4.83 |-Branch two:
% 18.61/4.83 | (1225) ~ (all_0_213_213 = e14)
% 18.61/4.83 | (1261) all_0_214_214 = e14 | all_0_216_216 = e14
% 18.61/4.83 |
% 18.61/4.83 +-Applying beta-rule and splitting (1740), into two cases.
% 18.61/4.83 |-Branch one:
% 18.61/4.83 | (1232) all_0_215_215 = e11
% 18.61/4.83 |
% 18.61/4.83 | Combining equations (1600,1232) yields a new equation:
% 18.61/4.83 | (1539) e13 = e11
% 18.61/4.83 |
% 18.61/4.83 | Simplifying 1539 yields:
% 18.61/4.83 | (1501) e13 = e11
% 18.61/4.83 |
% 18.61/4.83 | Equations (1501) can reduce 391 to:
% 18.61/4.83 | (705) $false
% 18.61/4.83 |
% 18.61/4.83 |-The branch is then unsatisfiable
% 18.61/4.83 |-Branch two:
% 18.61/4.83 | (1499) ~ (all_0_215_215 = e11)
% 18.61/4.83 | (1096) all_0_216_216 = e11
% 18.61/4.83 |
% 18.61/4.83 | Equations (1096) can reduce 59 to:
% 18.61/4.83 | (1751) ~ (all_0_221_221 = e11)
% 18.61/4.83 |
% 18.61/4.83 | Simplifying 1751 yields:
% 18.61/4.83 | (1106) ~ (all_0_221_221 = e11)
% 18.61/4.83 |
% 18.61/4.83 +-Applying beta-rule and splitting (116), into two cases.
% 18.61/4.83 |-Branch one:
% 18.61/4.83 | (1090) all_0_212_212 = e14
% 18.61/4.83 |
% 18.61/4.83 | Combining equations (1046,1090) yields a new equation:
% 18.61/4.83 | (1091) e14 = e12
% 18.61/4.83 |
% 18.61/4.83 | Equations (1091) can reduce 621 to:
% 18.61/4.83 | (705) $false
% 18.61/4.83 |
% 18.61/4.83 |-The branch is then unsatisfiable
% 18.61/4.83 |-Branch two:
% 18.61/4.83 | (1093) ~ (all_0_212_212 = e14)
% 18.61/4.83 | (1094) all_0_216_216 = e14 | all_0_221_221 = e14
% 18.61/4.84 |
% 18.61/4.84 +-Applying beta-rule and splitting (1094), into two cases.
% 18.61/4.84 |-Branch one:
% 18.61/4.84 | (1095) all_0_216_216 = e14
% 18.61/4.84 |
% 18.61/4.84 | Combining equations (1096,1095) yields a new equation:
% 18.61/4.84 | (1098) e14 = e11
% 18.61/4.84 |
% 18.61/4.84 | Equations (1098) can reduce 661 to:
% 18.61/4.84 | (705) $false
% 18.61/4.84 |
% 18.61/4.84 |-The branch is then unsatisfiable
% 18.61/4.84 |-Branch two:
% 18.61/4.84 | (1181) ~ (all_0_216_216 = e14)
% 18.61/4.84 | (1165) all_0_221_221 = e14
% 18.61/4.84 |
% 18.61/4.84 | Equations (1165) can reduce 1051 to:
% 18.61/4.84 | (621) ~ (e14 = e12)
% 18.61/4.84 |
% 18.61/4.84 | Equations (1165) can reduce 1106 to:
% 18.61/4.84 | (661) ~ (e14 = e11)
% 18.61/4.84 |
% 18.61/4.84 +-Applying beta-rule and splitting (1261), into two cases.
% 18.61/4.84 |-Branch one:
% 18.61/4.84 | (1460) all_0_214_214 = e14
% 18.61/4.84 |
% 18.61/4.84 | Combining equations (1460,1276) yields a new equation:
% 18.61/4.84 | (1257) e14 = e12
% 18.61/4.84 |
% 18.61/4.84 | Simplifying 1257 yields:
% 18.61/4.84 | (1091) e14 = e12
% 18.61/4.84 |
% 18.61/4.84 | Equations (1091) can reduce 621 to:
% 18.61/4.84 | (705) $false
% 18.61/4.84 |
% 18.61/4.84 |-The branch is then unsatisfiable
% 18.61/4.84 |-Branch two:
% 18.61/4.84 | (1074) ~ (all_0_214_214 = e14)
% 18.61/4.84 | (1095) all_0_216_216 = e14
% 18.61/4.84 |
% 18.61/4.84 | Combining equations (1096,1095) yields a new equation:
% 18.61/4.84 | (1098) e14 = e11
% 18.61/4.84 |
% 18.61/4.84 | Equations (1098) can reduce 661 to:
% 18.61/4.84 | (705) $false
% 18.61/4.84 |
% 18.61/4.84 |-The branch is then unsatisfiable
% 18.61/4.84 |-Branch two:
% 18.61/4.84 | (1245) ~ (all_0_214_214 = e12)
% 18.61/4.84 | (1252) all_0_216_216 = e12
% 18.61/4.84 |
% 18.61/4.84 | Equations (1252) can reduce 1049 to:
% 18.61/4.84 | (705) $false
% 18.61/4.84 |
% 18.61/4.84 |-The branch is then unsatisfiable
% 18.61/4.84 |-Branch two:
% 18.61/4.84 | (1128) ~ (all_0_226_226 = e14)
% 18.61/4.84 | (1122) all_0_226_226 = e10
% 18.61/4.84 |
% 18.61/4.84 | Equations (1122) can reduce 207 to:
% 18.61/4.84 | (1188) ~ (all_0_222_222 = e10)
% 18.61/4.84 |
% 18.61/4.84 | Equations (1122) can reduce 1128 to:
% 18.61/4.84 | (1120) ~ (e14 = e10)
% 18.61/4.84 |
% 18.61/4.84 | Simplifying 1120 yields:
% 18.61/4.84 | (11) ~ (e14 = e10)
% 18.61/4.84 |
% 18.61/4.84 | From (1122) and (1054) follows:
% 18.61/4.84 | (1781) op1(e12, e10) = e10
% 18.61/4.84 |
% 18.61/4.84 +-Applying beta-rule and splitting (310), into two cases.
% 18.61/4.84 |-Branch one:
% 18.61/4.84 | (1125) all_0_226_226 = e14
% 18.61/4.84 |
% 18.61/4.84 | Combining equations (1122,1125) yields a new equation:
% 18.61/4.84 | (1126) e14 = e10
% 18.61/4.84 |
% 18.61/4.84 | Equations (1126) can reduce 11 to:
% 18.61/4.84 | (705) $false
% 18.61/4.84 |
% 18.61/4.84 |-The branch is then unsatisfiable
% 18.61/4.84 |-Branch two:
% 18.61/4.84 | (1128) ~ (all_0_226_226 = e14)
% 18.61/4.84 | (1129) all_0_227_227 = e14 | all_0_228_228 = e14
% 18.61/4.84 |
% 18.61/4.84 +-Applying beta-rule and splitting (49), into two cases.
% 18.61/4.84 |-Branch one:
% 18.61/4.84 | (1169) all_0_228_228 = e14
% 18.61/4.84 |
% 18.61/4.84 | Equations (1169) can reduce 183 to:
% 18.61/4.84 | (1076) ~ (all_0_219_219 = e14)
% 18.61/4.84 |
% 18.61/4.84 | Equations (1169) can reduce 363 to:
% 18.61/4.84 | (180) ~ (all_0_224_224 = e14)
% 18.61/4.84 |
% 18.61/4.84 | Equations (1169) can reduce 222 to:
% 18.61/4.84 | (621) ~ (e14 = e12)
% 18.61/4.84 |
% 18.61/4.84 | Instantiating formula (90) with e12, e10, e10, all_0_221_221 and discharging atoms op1(e12, e10) = all_0_221_221, op1(e12, e10) = e10, yields:
% 18.61/4.84 | (1089) all_0_221_221 = e10
% 18.61/4.84 |
% 18.61/4.84 | Equations (1089) can reduce 372 to:
% 18.61/4.84 | (1792) ~ (all_0_225_225 = e10)
% 18.61/4.84 |
% 18.61/4.84 | Simplifying 1792 yields:
% 18.61/4.84 | (1793) ~ (all_0_225_225 = e10)
% 18.61/4.84 |
% 18.61/4.84 +-Applying beta-rule and splitting (216), into two cases.
% 18.61/4.84 |-Branch one:
% 18.61/4.84 | (1794) all_0_225_225 = e12
% 18.61/4.84 |
% 18.61/4.84 | Equations (1794) can reduce 1053 to:
% 18.61/4.84 | (705) $false
% 18.61/4.84 |
% 18.61/4.84 |-The branch is then unsatisfiable
% 18.61/4.84 |-Branch two:
% 18.61/4.84 | (1053) ~ (all_0_225_225 = e12)
% 18.61/4.84 | (1797) all_0_225_225 = e11 | all_0_225_225 = e10
% 18.61/4.84 |
% 18.61/4.84 +-Applying beta-rule and splitting (384), into two cases.
% 18.61/4.84 |-Branch one:
% 18.61/4.84 | (1221) all_0_219_219 = e12
% 18.61/4.84 |
% 18.61/4.84 +-Applying beta-rule and splitting (1797), into two cases.
% 18.61/4.84 |-Branch one:
% 18.61/4.84 | (1107) all_0_225_225 = e11
% 18.61/4.84 |
% 18.61/4.84 +-Applying beta-rule and splitting (471), into two cases.
% 18.61/4.84 |-Branch one:
% 18.61/4.84 | (1604) ~ (all_0_215_215 = e13)
% 18.61/4.84 |
% 18.61/4.84 | Equations (1600) can reduce 1604 to:
% 18.61/4.84 | (705) $false
% 18.61/4.84 |
% 18.61/4.84 |-The branch is then unsatisfiable
% 18.61/4.84 |-Branch two:
% 18.61/4.84 | (1600) all_0_215_215 = e13
% 18.61/4.84 | (1803) ( ~ (all_0_210_210 = e14) & ~ (all_0_218_218 = e12) & ~ (all_0_223_223 = e11)) | ( ~ (all_0_211_211 = e14) & ~ (all_0_214_214 = e13) & ~ (all_0_219_219 = e12) & ~ (all_0_224_224 = e11) & ~ (all_0_228_228 = e10)) | ( ~ (all_0_212_212 = e14) & ~ (all_0_221_221 = e12) & ~ (all_0_225_225 = e11)) | ( ~ (all_0_213_213 = e13) & ~ (all_0_217_217 = e12) & ~ (all_0_226_226 = e10))
% 18.61/4.84 |
% 18.61/4.84 +-Applying beta-rule and splitting (1803), into two cases.
% 18.61/4.84 |-Branch one:
% 18.61/4.84 | (1804) ( ~ (all_0_210_210 = e14) & ~ (all_0_218_218 = e12) & ~ (all_0_223_223 = e11)) | ( ~ (all_0_211_211 = e14) & ~ (all_0_214_214 = e13) & ~ (all_0_219_219 = e12) & ~ (all_0_224_224 = e11) & ~ (all_0_228_228 = e10)) | ( ~ (all_0_212_212 = e14) & ~ (all_0_221_221 = e12) & ~ (all_0_225_225 = e11))
% 18.61/4.84 |
% 18.61/4.84 +-Applying beta-rule and splitting (1804), into two cases.
% 18.61/4.84 |-Branch one:
% 18.61/4.84 | (1805) ( ~ (all_0_210_210 = e14) & ~ (all_0_218_218 = e12) & ~ (all_0_223_223 = e11)) | ( ~ (all_0_211_211 = e14) & ~ (all_0_214_214 = e13) & ~ (all_0_219_219 = e12) & ~ (all_0_224_224 = e11) & ~ (all_0_228_228 = e10))
% 18.61/4.84 |
% 18.61/4.84 +-Applying beta-rule and splitting (1805), into two cases.
% 18.61/4.84 |-Branch one:
% 18.61/4.84 | (1806) ~ (all_0_210_210 = e14) & ~ (all_0_218_218 = e12) & ~ (all_0_223_223 = e11)
% 18.61/4.84 |
% 18.61/4.84 | Applying alpha-rule on (1806) yields:
% 18.61/4.84 | (1070) ~ (all_0_210_210 = e14)
% 18.61/4.84 | (1206) ~ (all_0_218_218 = e12)
% 18.61/4.84 | (1108) ~ (all_0_223_223 = e11)
% 18.61/4.84 |
% 18.61/4.84 | Equations (1067) can reduce 1070 to:
% 18.61/4.84 | (705) $false
% 18.61/4.84 |
% 18.61/4.84 |-The branch is then unsatisfiable
% 18.61/4.84 |-Branch two:
% 18.61/4.84 | (1811) ~ (all_0_211_211 = e14) & ~ (all_0_214_214 = e13) & ~ (all_0_219_219 = e12) & ~ (all_0_224_224 = e11) & ~ (all_0_228_228 = e10)
% 18.61/4.84 |
% 18.61/4.84 | Applying alpha-rule on (1811) yields:
% 18.61/4.84 | (1456) ~ (all_0_214_214 = e13)
% 18.61/4.84 | (1119) ~ (all_0_228_228 = e10)
% 18.61/4.84 | (1448) ~ (all_0_224_224 = e11)
% 18.61/4.84 | (1568) ~ (all_0_211_211 = e14)
% 18.61/4.84 | (1506) ~ (all_0_219_219 = e12)
% 18.61/4.84 |
% 18.61/4.84 | Equations (1221) can reduce 1506 to:
% 18.61/4.84 | (705) $false
% 18.61/4.84 |
% 18.61/4.84 |-The branch is then unsatisfiable
% 18.61/4.84 |-Branch two:
% 18.61/4.84 | (1818) ~ (all_0_212_212 = e14) & ~ (all_0_221_221 = e12) & ~ (all_0_225_225 = e11)
% 18.61/4.84 |
% 18.61/4.84 | Applying alpha-rule on (1818) yields:
% 18.61/4.84 | (1093) ~ (all_0_212_212 = e14)
% 18.61/4.84 | (1051) ~ (all_0_221_221 = e12)
% 18.61/4.84 | (1821) ~ (all_0_225_225 = e11)
% 18.61/4.84 |
% 18.61/4.84 | Equations (1107) can reduce 1821 to:
% 18.61/4.84 | (705) $false
% 18.61/4.84 |
% 18.61/4.84 |-The branch is then unsatisfiable
% 18.61/4.84 |-Branch two:
% 18.61/4.84 | (1823) ~ (all_0_213_213 = e13) & ~ (all_0_217_217 = e12) & ~ (all_0_226_226 = e10)
% 18.61/4.84 |
% 18.61/4.84 | Applying alpha-rule on (1823) yields:
% 18.61/4.84 | (1688) ~ (all_0_213_213 = e13)
% 18.61/4.84 | (1492) ~ (all_0_217_217 = e12)
% 18.61/4.84 | (1171) ~ (all_0_226_226 = e10)
% 18.61/4.84 |
% 18.61/4.84 | Equations (1122) can reduce 1171 to:
% 18.61/4.84 | (705) $false
% 18.61/4.84 |
% 18.61/4.84 |-The branch is then unsatisfiable
% 18.61/4.84 |-Branch two:
% 18.61/4.84 | (1821) ~ (all_0_225_225 = e11)
% 18.61/4.84 | (1186) all_0_225_225 = e10
% 18.61/4.84 |
% 18.61/4.85 | Equations (1186) can reduce 1793 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1506) ~ (all_0_219_219 = e12)
% 18.61/4.85 | (1507) all_0_219_219 = e14 | all_0_219_219 = e13 | all_0_219_219 = e11 | all_0_219_219 = e10
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (1797), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1107) all_0_225_225 = e11
% 18.61/4.85 |
% 18.61/4.85 | Equations (1107) can reduce 283 to:
% 18.61/4.85 | (1100) ~ (all_0_216_216 = e11)
% 18.61/4.85 |
% 18.61/4.85 | Equations (1107) can reduce 341 to:
% 18.61/4.85 | (1592) ~ (e13 = e11)
% 18.61/4.85 |
% 18.61/4.85 | Simplifying 1592 yields:
% 18.61/4.85 | (391) ~ (e13 = e11)
% 18.61/4.85 |
% 18.61/4.85 | Equations (1107) can reduce 1793 to:
% 18.61/4.85 | (387) ~ (e11 = e10)
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (28), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1497) all_0_222_222 = e10
% 18.61/4.85 |
% 18.61/4.85 | Equations (1497) can reduce 1188 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1188) ~ (all_0_222_222 = e10)
% 18.61/4.85 | (1841) all_0_224_224 = e10 | all_0_225_225 = e10
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (1841), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1113) all_0_224_224 = e10
% 18.61/4.85 |
% 18.61/4.85 | Equations (1113) can reduce 488 to:
% 18.61/4.85 | (1212) ~ (all_0_219_219 = e10)
% 18.61/4.85 |
% 18.61/4.85 | Equations (1113) can reduce 180 to:
% 18.61/4.85 | (1120) ~ (e14 = e10)
% 18.61/4.85 |
% 18.61/4.85 | Simplifying 1120 yields:
% 18.61/4.85 | (11) ~ (e14 = e10)
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (116), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1090) all_0_212_212 = e14
% 18.61/4.85 |
% 18.61/4.85 | Combining equations (1090,1046) yields a new equation:
% 18.61/4.85 | (1257) e14 = e12
% 18.61/4.85 |
% 18.61/4.85 | Simplifying 1257 yields:
% 18.61/4.85 | (1091) e14 = e12
% 18.61/4.85 |
% 18.61/4.85 | Equations (1091) can reduce 621 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1093) ~ (all_0_212_212 = e14)
% 18.61/4.85 | (1094) all_0_216_216 = e14 | all_0_221_221 = e14
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (1094), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1095) all_0_216_216 = e14
% 18.61/4.85 |
% 18.61/4.85 | Equations (1095) can reduce 1100 to:
% 18.61/4.85 | (661) ~ (e14 = e11)
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (1507), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1162) all_0_219_219 = e14
% 18.61/4.85 |
% 18.61/4.85 | Equations (1162) can reduce 1076 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1076) ~ (all_0_219_219 = e14)
% 18.61/4.85 | (1857) all_0_219_219 = e13 | all_0_219_219 = e11 | all_0_219_219 = e10
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (1857), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1668) all_0_219_219 = e13
% 18.61/4.85 |
% 18.61/4.85 | Equations (1668) can reduce 1578 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1578) ~ (all_0_219_219 = e13)
% 18.61/4.85 | (1861) all_0_219_219 = e11 | all_0_219_219 = e10
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (415), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1472) all_0_214_214 = e11
% 18.61/4.85 |
% 18.61/4.85 | Equations (1472) can reduce 426 to:
% 18.61/4.85 | (1863) ~ (all_0_219_219 = e11)
% 18.61/4.85 |
% 18.61/4.85 | Simplifying 1863 yields:
% 18.61/4.85 | (1864) ~ (all_0_219_219 = e11)
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (1861), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1865) all_0_219_219 = e11
% 18.61/4.85 |
% 18.61/4.85 | Equations (1865) can reduce 1864 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1864) ~ (all_0_219_219 = e11)
% 18.61/4.85 | (1868) all_0_219_219 = e10
% 18.61/4.85 |
% 18.61/4.85 | Equations (1868) can reduce 1212 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1459) ~ (all_0_214_214 = e11)
% 18.61/4.85 | (1740) all_0_215_215 = e11 | all_0_216_216 = e11
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (1740), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1232) all_0_215_215 = e11
% 18.61/4.85 |
% 18.61/4.85 | Combining equations (1232,1600) yields a new equation:
% 18.61/4.85 | (1501) e13 = e11
% 18.61/4.85 |
% 18.61/4.85 | Equations (1501) can reduce 391 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1499) ~ (all_0_215_215 = e11)
% 18.61/4.85 | (1096) all_0_216_216 = e11
% 18.61/4.85 |
% 18.61/4.85 | Combining equations (1096,1095) yields a new equation:
% 18.61/4.85 | (1098) e14 = e11
% 18.61/4.85 |
% 18.61/4.85 | Equations (1098) can reduce 661 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1181) ~ (all_0_216_216 = e14)
% 18.61/4.85 | (1165) all_0_221_221 = e14
% 18.61/4.85 |
% 18.61/4.85 | Combining equations (1089,1165) yields a new equation:
% 18.61/4.85 | (1126) e14 = e10
% 18.61/4.85 |
% 18.61/4.85 | Equations (1126) can reduce 11 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1883) ~ (all_0_224_224 = e10)
% 18.61/4.85 | (1186) all_0_225_225 = e10
% 18.61/4.85 |
% 18.61/4.85 | Combining equations (1107,1186) yields a new equation:
% 18.61/4.85 | (1103) e11 = e10
% 18.61/4.85 |
% 18.61/4.85 | Simplifying 1103 yields:
% 18.61/4.85 | (1104) e11 = e10
% 18.61/4.85 |
% 18.61/4.85 | Equations (1104) can reduce 387 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1821) ~ (all_0_225_225 = e11)
% 18.61/4.85 | (1186) all_0_225_225 = e10
% 18.61/4.85 |
% 18.61/4.85 | Equations (1186) can reduce 1793 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1080) ~ (all_0_228_228 = e14)
% 18.61/4.85 | (1892) all_0_228_228 = e11 | all_0_228_228 = e10
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (1129), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1130) all_0_227_227 = e14
% 18.61/4.85 |
% 18.61/4.85 | Combining equations (1133,1130) yields a new equation:
% 18.61/4.85 | (1098) e14 = e11
% 18.61/4.85 |
% 18.61/4.85 | Equations (1098) can reduce 661 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1168) ~ (all_0_227_227 = e14)
% 18.61/4.85 | (1169) all_0_228_228 = e14
% 18.61/4.85 |
% 18.61/4.85 | Equations (1169) can reduce 1080 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1604) ~ (all_0_215_215 = e13)
% 18.61/4.85 | (1232) all_0_215_215 = e11
% 18.61/4.85 |
% 18.61/4.85 | Equations (1232) can reduce 1499 to:
% 18.61/4.85 | (705) $false
% 18.61/4.85 |
% 18.61/4.85 |-The branch is then unsatisfiable
% 18.61/4.85 |-Branch two:
% 18.61/4.85 | (1070) ~ (all_0_210_210 = e14)
% 18.61/4.85 | (1071) all_0_211_211 = e14 | all_0_212_212 = e14
% 18.61/4.85 |
% 18.61/4.85 +-Applying beta-rule and splitting (1071), into two cases.
% 18.61/4.85 |-Branch one:
% 18.61/4.85 | (1072) all_0_211_211 = e14
% 18.61/4.85 |
% 18.61/4.85 | Combining equations (1280,1072) yields a new equation:
% 18.61/4.85 | (1068) e14 = e13
% 18.61/4.86 |
% 18.61/4.86 | Equations (1068) can reduce 84 to:
% 18.61/4.86 | (705) $false
% 18.61/4.86 |
% 18.61/4.86 |-The branch is then unsatisfiable
% 18.61/4.86 |-Branch two:
% 18.61/4.86 | (1568) ~ (all_0_211_211 = e14)
% 18.61/4.86 | (1090) all_0_212_212 = e14
% 18.61/4.86 |
% 18.61/4.86 | Combining equations (1090,1046) yields a new equation:
% 18.61/4.86 | (1257) e14 = e12
% 18.61/4.86 |
% 18.61/4.86 | Simplifying 1257 yields:
% 18.61/4.86 | (1091) e14 = e12
% 18.61/4.86 |
% 18.61/4.86 | Equations (1091) can reduce 621 to:
% 18.61/4.86 | (705) $false
% 18.61/4.86 |
% 18.61/4.86 |-The branch is then unsatisfiable
% 18.61/4.86 |-Branch two:
% 18.61/4.86 | (1912) ~ (all_0_212_212 = e12)
% 18.61/4.86 | (1090) all_0_212_212 = e14
% 18.61/4.86 |
% 18.61/4.86 | Equations (1090) can reduce 542 to:
% 18.61/4.86 | (1070) ~ (all_0_210_210 = e14)
% 18.61/4.86 |
% 18.61/4.86 | Equations (1090) can reduce 104 to:
% 18.61/4.86 | (1915) ~ (all_0_216_216 = e14)
% 18.61/4.86 |
% 18.61/4.86 | Simplifying 1915 yields:
% 18.61/4.86 | (1181) ~ (all_0_216_216 = e14)
% 18.61/4.86 |
% 18.61/4.86 | Equations (1090) can reduce 1912 to:
% 18.61/4.86 | (621) ~ (e14 = e12)
% 18.61/4.86 |
% 18.61/4.86 | Equations (1090) can reduce 42 to:
% 18.61/4.86 | (661) ~ (e14 = e11)
% 18.61/4.86 |
% 18.61/4.86 | From (1090) and (374) follows:
% 18.61/4.86 | (1919) op1(all_0_226_226, e14) = e14
% 18.61/4.86 |
% 18.61/4.86 +-Applying beta-rule and splitting (427), into two cases.
% 18.61/4.86 |-Branch one:
% 18.61/4.86 | (1059) all_0_210_210 = e13
% 18.61/4.86 |
% 18.61/4.86 | Equations (1059) can reduce 557 to:
% 18.61/4.86 | (1060) ~ (all_0_223_223 = e13)
% 18.61/4.86 |
% 18.61/4.86 | Simplifying 1060 yields:
% 18.61/4.86 | (1061) ~ (all_0_223_223 = e13)
% 18.61/4.86 |
% 18.61/4.86 | Equations (1059) can reduce 1070 to:
% 18.61/4.86 | (1239) ~ (e14 = e13)
% 18.61/4.86 |
% 18.61/4.86 | Simplifying 1239 yields:
% 18.61/4.86 | (84) ~ (e14 = e13)
% 18.61/4.86 |
% 18.61/4.86 +-Applying beta-rule and splitting (70), into two cases.
% 18.61/4.86 |-Branch one:
% 18.61/4.86 | (1133) all_0_227_227 = e11
% 18.61/4.86 |
% 18.61/4.86 | Equations (1133) can reduce 339 to:
% 18.61/4.86 | (1108) ~ (all_0_223_223 = e11)
% 18.61/4.86 |
% 18.61/4.86 | From (1133) and (54) follows:
% 18.61/4.86 | (1927) op1(all_0_216_216, e11) = e10
% 18.61/4.86 |
% 18.61/4.86 | From (1133) and (262) follows:
% 18.61/4.86 | (1928) op1(e11, all_0_216_216) = e13
% 18.61/4.86 |
% 18.61/4.86 +-Applying beta-rule and splitting (457), into two cases.
% 18.61/4.86 |-Branch one:
% 18.61/4.86 | (1111) all_0_223_223 = e12
% 18.61/4.86 |
% 18.61/4.86 | From (1111) and (335) follows:
% 18.61/4.86 | (1930) op1(all_0_215_215, e12) = e11
% 18.61/4.86 |
% 18.61/4.86 | From (1111) and (520) follows:
% 18.61/4.86 | (1931) op1(e12, all_0_215_215) = e13
% 18.61/4.86 |
% 18.61/4.86 +-Applying beta-rule and splitting (130), into two cases.
% 18.61/4.86 |-Branch one:
% 18.61/4.86 | (1067) all_0_210_210 = e14
% 18.61/4.86 |
% 18.61/4.86 | Combining equations (1067,1059) yields a new equation:
% 18.61/4.86 | (1269) e14 = e13
% 18.61/4.86 |
% 18.61/4.86 | Simplifying 1269 yields:
% 18.61/4.86 | (1068) e14 = e13
% 18.61/4.86 |
% 18.61/4.86 | Equations (1068) can reduce 84 to:
% 18.61/4.86 | (705) $false
% 18.61/4.86 |
% 18.61/4.86 |-The branch is then unsatisfiable
% 18.61/4.86 |-Branch two:
% 18.61/4.86 | (1070) ~ (all_0_210_210 = e14)
% 18.61/4.86 | (1273) all_0_218_218 = e14 | all_0_227_227 = e14
% 18.61/4.86 |
% 18.61/4.86 +-Applying beta-rule and splitting (1273), into two cases.
% 18.61/4.86 |-Branch one:
% 18.61/4.86 | (1158) all_0_218_218 = e14
% 18.61/4.86 |
% 18.61/4.86 | From (1158) and (137) follows:
% 18.61/4.86 | (1939) op1(e12, e13) = e14
% 18.61/4.86 |
% 18.61/4.86 +-Applying beta-rule and splitting (491), into two cases.
% 18.61/4.86 |-Branch one:
% 18.61/4.86 | (1600) all_0_215_215 = e13
% 18.61/4.86 |
% 18.61/4.86 | Equations (1600) can reduce 282 to:
% 18.61/4.86 | (1239) ~ (e14 = e13)
% 18.61/4.86 |
% 18.61/4.86 | Simplifying 1239 yields:
% 18.61/4.86 | (84) ~ (e14 = e13)
% 18.61/4.86 |
% 18.61/4.86 | From (1600) and (1931) follows:
% 18.61/4.86 | (1943) op1(e12, e13) = e13
% 18.61/4.86 |
% 18.61/4.86 | Instantiating formula (90) with e12, e13, e13, e14 and discharging atoms op1(e12, e13) = e14, op1(e12, e13) = e13, yields:
% 18.61/4.86 | (1068) e14 = e13
% 18.61/4.86 |
% 18.61/4.86 | Equations (1068) can reduce 84 to:
% 18.61/4.86 | (705) $false
% 18.61/4.86 |
% 18.61/4.86 |-The branch is then unsatisfiable
% 18.61/4.86 |-Branch two:
% 18.61/4.86 | (1604) ~ (all_0_215_215 = e13)
% 18.61/4.86 | (1218) all_0_220_220 = e13
% 18.61/4.86 |
% 18.61/4.86 | Equations (1218) can reduce 99 to:
% 18.61/4.86 | (1604) ~ (all_0_215_215 = e13)
% 18.61/4.86 |
% 18.61/4.86 +-Applying beta-rule and splitting (633), into two cases.
% 18.61/4.86 |-Branch one:
% 18.61/4.86 | (1600) all_0_215_215 = e13
% 18.61/4.86 |
% 18.61/4.86 | Equations (1600) can reduce 1604 to:
% 18.61/4.86 | (705) $false
% 18.61/4.86 |
% 18.61/4.86 |-The branch is then unsatisfiable
% 18.61/4.86 |-Branch two:
% 18.61/4.86 | (1604) ~ (all_0_215_215 = e13)
% 18.61/4.86 | (1232) all_0_215_215 = e11
% 18.61/4.86 |
% 18.61/4.86 | Equations (1232) can reduce 579 to:
% 18.61/4.86 | (1234) ~ (all_0_216_216 = e11)
% 18.61/4.86 |
% 18.61/4.86 | Simplifying 1234 yields:
% 18.61/4.86 | (1100) ~ (all_0_216_216 = e11)
% 18.61/4.86 |
% 18.61/4.86 | Equations (1232) can reduce 273 to:
% 18.61/4.86 | (387) ~ (e11 = e10)
% 18.61/4.86 |
% 18.61/4.86 | From (1232) and (1930) follows:
% 18.61/4.86 | (1956) op1(e11, e12) = e11
% 18.61/4.86 |
% 18.61/4.86 | From (1232) and (1931) follows:
% 18.61/4.86 | (1957) op1(e12, e11) = e13
% 18.61/4.86 |
% 18.61/4.86 +-Applying beta-rule and splitting (80), into two cases.
% 18.61/4.86 |-Branch one:
% 18.61/4.86 | (1252) all_0_216_216 = e12
% 18.61/4.86 |
% 18.61/4.86 | From (1252) and (1927) follows:
% 18.61/4.86 | (1959) op1(e12, e11) = e10
% 18.61/4.86 |
% 18.61/4.86 | From (1252) and (1928) follows:
% 18.61/4.86 | (1960) op1(e11, e12) = e13
% 18.61/4.86 |
% 18.61/4.86 | Instantiating formula (90) with e12, e11, e10, e13 and discharging atoms op1(e12, e11) = e13, op1(e12, e11) = e10, yields:
% 18.61/4.86 | (1727) e13 = e10
% 18.61/4.86 |
% 18.61/4.86 | Instantiating formula (90) with e11, e12, e13, all_0_224_224 and discharging atoms op1(e11, e12) = all_0_224_224, op1(e11, e12) = e13, yields:
% 18.61/4.86 | (1962) all_0_224_224 = e13
% 18.61/4.86 |
% 18.61/4.86 | Instantiating formula (90) with e11, e12, e11, all_0_224_224 and discharging atoms op1(e11, e12) = all_0_224_224, op1(e11, e12) = e11, yields:
% 18.61/4.86 | (1289) all_0_224_224 = e11
% 18.61/4.86 |
% 18.61/4.86 | Combining equations (1962,1289) yields a new equation:
% 18.61/4.86 | (1539) e13 = e11
% 18.61/4.86 |
% 18.61/4.86 | Simplifying 1539 yields:
% 18.61/4.86 | (1501) e13 = e11
% 18.61/4.86 |
% 18.61/4.86 | Combining equations (1501,1727) yields a new equation:
% 18.61/4.86 | (1103) e11 = e10
% 18.61/4.86 |
% 18.61/4.86 | Simplifying 1103 yields:
% 18.61/4.86 | (1104) e11 = e10
% 18.61/4.86 |
% 18.61/4.86 | Equations (1104) can reduce 387 to:
% 18.61/4.86 | (705) $false
% 18.61/4.86 |
% 18.61/4.86 |-The branch is then unsatisfiable
% 18.61/4.86 |-Branch two:
% 18.61/4.86 | (1049) ~ (all_0_216_216 = e12)
% 18.61/4.86 | (1255) all_0_216_216 = e14 | all_0_216_216 = e11
% 18.61/4.86 |
% 18.61/4.86 +-Applying beta-rule and splitting (1255), into two cases.
% 18.61/4.86 |-Branch one:
% 18.61/4.86 | (1095) all_0_216_216 = e14
% 18.61/4.86 |
% 18.61/4.86 | Equations (1095) can reduce 1181 to:
% 18.61/4.86 | (705) $false
% 18.61/4.86 |
% 18.61/4.86 |-The branch is then unsatisfiable
% 18.61/4.86 |-Branch two:
% 18.61/4.86 | (1181) ~ (all_0_216_216 = e14)
% 18.61/4.86 | (1096) all_0_216_216 = e11
% 18.61/4.86 |
% 18.61/4.86 | Equations (1096) can reduce 1100 to:
% 18.61/4.86 | (705) $false
% 18.61/4.86 |
% 18.61/4.86 |-The branch is then unsatisfiable
% 18.61/4.86 |-Branch two:
% 18.61/4.86 | (1131) ~ (all_0_218_218 = e14)
% 18.61/4.86 | (1130) all_0_227_227 = e14
% 18.61/4.86 |
% 18.61/4.86 | Combining equations (1130,1133) yields a new equation:
% 18.61/4.86 | (1097) e14 = e11
% 18.61/4.86 |
% 18.61/4.86 | Simplifying 1097 yields:
% 18.61/4.86 | (1098) e14 = e11
% 18.61/4.86 |
% 18.61/4.86 | Equations (1098) can reduce 661 to:
% 18.61/4.86 | (705) $false
% 18.61/4.86 |
% 18.61/4.86 |-The branch is then unsatisfiable
% 18.61/4.86 |-Branch two:
% 18.61/4.86 | (1174) ~ (all_0_223_223 = e12)
% 18.61/4.86 | (1175) all_0_223_223 = e13 | all_0_223_223 = e11
% 18.61/4.86 |
% 18.61/4.86 +-Applying beta-rule and splitting (1175), into two cases.
% 18.61/4.86 |-Branch one:
% 18.61/4.86 | (1176) all_0_223_223 = e13
% 18.61/4.86 |
% 18.61/4.86 | Equations (1176) can reduce 1061 to:
% 18.61/4.86 | (705) $false
% 18.61/4.86 |
% 18.61/4.86 |-The branch is then unsatisfiable
% 18.61/4.86 |-Branch two:
% 18.61/4.87 | (1061) ~ (all_0_223_223 = e13)
% 18.61/4.87 | (1147) all_0_223_223 = e11
% 18.61/4.87 |
% 18.61/4.87 | Equations (1147) can reduce 1108 to:
% 18.61/4.87 | (705) $false
% 18.61/4.87 |
% 18.61/4.87 |-The branch is then unsatisfiable
% 18.61/4.87 |-Branch two:
% 18.61/4.87 | (1137) ~ (all_0_227_227 = e11)
% 18.61/4.87 | (1138) all_0_228_228 = e11
% 18.61/4.87 |
% 18.61/4.87 | Equations (1138) can reduce 656 to:
% 18.61/4.87 | (1137) ~ (all_0_227_227 = e11)
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (386), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1122) all_0_226_226 = e10
% 18.61/4.87 |
% 18.61/4.87 | Equations (1122) can reduce 277 to:
% 18.61/4.87 | (1123) ~ (all_0_227_227 = e10)
% 18.61/4.87 |
% 18.61/4.87 | Simplifying 1123 yields:
% 18.61/4.87 | (406) ~ (all_0_227_227 = e10)
% 18.61/4.87 |
% 18.61/4.87 | From (1122) and (1919) follows:
% 18.61/4.87 | (1994) op1(e10, e14) = e14
% 18.61/4.87 |
% 18.61/4.87 | From (1122) and (565) follows:
% 18.61/4.87 | (1995) op1(e10, e14) = e10
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (505), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1130) all_0_227_227 = e14
% 18.61/4.87 |
% 18.61/4.87 | Equations (1130) can reduce 406 to:
% 18.61/4.87 | (11) ~ (e14 = e10)
% 18.61/4.87 |
% 18.61/4.87 | Instantiating formula (90) with e10, e14, e10, e14 and discharging atoms op1(e10, e14) = e14, op1(e10, e14) = e10, yields:
% 18.61/4.87 | (1126) e14 = e10
% 18.61/4.87 |
% 18.61/4.87 | Equations (1126) can reduce 11 to:
% 18.61/4.87 | (705) $false
% 18.61/4.87 |
% 18.61/4.87 |-The branch is then unsatisfiable
% 18.61/4.87 |-Branch two:
% 18.61/4.87 | (1168) ~ (all_0_227_227 = e14)
% 18.61/4.87 | (1133) all_0_227_227 = e11
% 18.61/4.87 |
% 18.61/4.87 | Equations (1133) can reduce 1137 to:
% 18.61/4.87 | (705) $false
% 18.61/4.87 |
% 18.61/4.87 |-The branch is then unsatisfiable
% 18.61/4.87 |-Branch two:
% 18.61/4.87 | (1171) ~ (all_0_226_226 = e10)
% 18.61/4.87 | (1172) all_0_228_228 = e10
% 18.61/4.87 |
% 18.61/4.87 | Combining equations (1172,1138) yields a new equation:
% 18.61/4.87 | (1104) e11 = e10
% 18.61/4.87 |
% 18.61/4.87 | Equations (1104) can reduce 387 to:
% 18.61/4.87 | (705) $false
% 18.61/4.87 |
% 18.61/4.87 |-The branch is then unsatisfiable
% 18.61/4.87 |-Branch two:
% 18.61/4.87 | (1573) ~ (all_0_210_210 = e13)
% 18.61/4.87 | (1280) all_0_211_211 = e13
% 18.61/4.87 |
% 18.61/4.87 | From (1280) and (369) follows:
% 18.61/4.87 | (2009) op1(e13, all_0_217_217) = e12
% 18.61/4.87 |
% 18.61/4.87 | From (1280) and (641) follows:
% 18.61/4.87 | (2010) op1(all_0_217_217, e13) = e14
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (182), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1647) all_0_210_210 = e12
% 18.61/4.87 |
% 18.61/4.87 | Equations (1647) can reduce 557 to:
% 18.61/4.87 | (2012) ~ (all_0_223_223 = e12)
% 18.61/4.87 |
% 18.61/4.87 | Simplifying 2012 yields:
% 18.61/4.87 | (1174) ~ (all_0_223_223 = e12)
% 18.61/4.87 |
% 18.61/4.87 | Equations (1647) can reduce 1070 to:
% 18.61/4.87 | (1248) ~ (e14 = e12)
% 18.61/4.87 |
% 18.61/4.87 | Simplifying 1248 yields:
% 18.61/4.87 | (621) ~ (e14 = e12)
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (70), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1133) all_0_227_227 = e11
% 18.61/4.87 |
% 18.61/4.87 | Equations (1133) can reduce 339 to:
% 18.61/4.87 | (1108) ~ (all_0_223_223 = e11)
% 18.61/4.87 |
% 18.61/4.87 | Equations (1133) can reduce 656 to:
% 18.61/4.87 | (2018) ~ (all_0_228_228 = e11)
% 18.61/4.87 |
% 18.61/4.87 | Simplifying 2018 yields:
% 18.61/4.87 | (2019) ~ (all_0_228_228 = e11)
% 18.61/4.87 |
% 18.61/4.87 | From (1133) and (54) follows:
% 18.61/4.87 | (1927) op1(all_0_216_216, e11) = e10
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (457), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1111) all_0_223_223 = e12
% 18.61/4.87 |
% 18.61/4.87 | Equations (1111) can reduce 1174 to:
% 18.61/4.87 | (705) $false
% 18.61/4.87 |
% 18.61/4.87 |-The branch is then unsatisfiable
% 18.61/4.87 |-Branch two:
% 18.61/4.87 | (1174) ~ (all_0_223_223 = e12)
% 18.61/4.87 | (1175) all_0_223_223 = e13 | all_0_223_223 = e11
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (1175), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1176) all_0_223_223 = e13
% 18.61/4.87 |
% 18.61/4.87 | Equations (1176) can reduce 26 to:
% 18.61/4.87 | (1496) ~ (all_0_222_222 = e13)
% 18.61/4.87 |
% 18.61/4.87 | Equations (1176) can reduce 1108 to:
% 18.61/4.87 | (391) ~ (e13 = e11)
% 18.61/4.87 |
% 18.61/4.87 | From (1176) and (335) follows:
% 18.61/4.87 | (2028) op1(all_0_215_215, e13) = e11
% 18.61/4.87 |
% 18.61/4.87 | From (1176) and (520) follows:
% 18.61/4.87 | (2029) op1(e13, all_0_215_215) = e13
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (130), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1067) all_0_210_210 = e14
% 18.61/4.87 |
% 18.61/4.87 | Combining equations (1067,1647) yields a new equation:
% 18.61/4.87 | (1257) e14 = e12
% 18.61/4.87 |
% 18.61/4.87 | Simplifying 1257 yields:
% 18.61/4.87 | (1091) e14 = e12
% 18.61/4.87 |
% 18.61/4.87 | Equations (1091) can reduce 621 to:
% 18.61/4.87 | (705) $false
% 18.61/4.87 |
% 18.61/4.87 |-The branch is then unsatisfiable
% 18.61/4.87 |-Branch two:
% 18.61/4.87 | (1070) ~ (all_0_210_210 = e14)
% 18.61/4.87 | (1273) all_0_218_218 = e14 | all_0_227_227 = e14
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (1273), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1158) all_0_218_218 = e14
% 18.61/4.87 |
% 18.61/4.87 | Equations (1158) can reduce 134 to:
% 18.61/4.87 | (2037) ~ (all_0_220_220 = e14)
% 18.61/4.87 |
% 18.61/4.87 | Simplifying 2037 yields:
% 18.61/4.87 | (153) ~ (all_0_220_220 = e14)
% 18.61/4.87 |
% 18.61/4.87 | From (1158) and (81) follows:
% 18.61/4.87 | (2039) op1(all_0_214_214, e14) = e12
% 18.61/4.87 |
% 18.61/4.87 | From (1158) and (408) follows:
% 18.61/4.87 | (2040) op1(e14, all_0_214_214) = e13
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (140), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1218) all_0_220_220 = e13
% 18.61/4.87 |
% 18.61/4.87 | Equations (1218) can reduce 497 to:
% 18.61/4.87 | (2042) ~ (all_0_217_217 = e13)
% 18.61/4.87 |
% 18.61/4.87 | Equations (1218) can reduce 153 to:
% 18.61/4.87 | (1239) ~ (e14 = e13)
% 18.61/4.87 |
% 18.61/4.87 | Simplifying 1239 yields:
% 18.61/4.87 | (84) ~ (e14 = e13)
% 18.61/4.87 |
% 18.61/4.87 | From (1218) and (149) follows:
% 18.61/4.87 | (1957) op1(e12, e11) = e13
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (295), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1232) all_0_215_215 = e11
% 18.61/4.87 |
% 18.61/4.87 | Equations (1232) can reduce 579 to:
% 18.61/4.87 | (1234) ~ (all_0_216_216 = e11)
% 18.61/4.87 |
% 18.61/4.87 | Simplifying 1234 yields:
% 18.61/4.87 | (1100) ~ (all_0_216_216 = e11)
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (88), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1609) all_0_213_213 = e13
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (83), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1256) all_0_213_213 = e14
% 18.61/4.87 |
% 18.61/4.87 | Combining equations (1609,1256) yields a new equation:
% 18.61/4.87 | (1068) e14 = e13
% 18.61/4.87 |
% 18.61/4.87 | Equations (1068) can reduce 84 to:
% 18.61/4.87 | (705) $false
% 18.61/4.87 |
% 18.61/4.87 |-The branch is then unsatisfiable
% 18.61/4.87 |-Branch two:
% 18.61/4.87 | (1225) ~ (all_0_213_213 = e14)
% 18.61/4.87 | (1261) all_0_214_214 = e14 | all_0_216_216 = e14
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (1261), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1460) all_0_214_214 = e14
% 18.61/4.87 |
% 18.61/4.87 | Equations (1460) can reduce 452 to:
% 18.61/4.87 | (1915) ~ (all_0_216_216 = e14)
% 18.61/4.87 |
% 18.61/4.87 | Simplifying 1915 yields:
% 18.61/4.87 | (1181) ~ (all_0_216_216 = e14)
% 18.61/4.87 |
% 18.61/4.87 | Equations (1460) can reduce 304 to:
% 18.61/4.87 | (1079) ~ (all_0_228_228 = e14)
% 18.61/4.87 |
% 18.61/4.87 | Simplifying 1079 yields:
% 18.61/4.87 | (1080) ~ (all_0_228_228 = e14)
% 18.61/4.87 |
% 18.61/4.87 | From (1460) and (2039) follows:
% 18.61/4.87 | (2060) op1(e14, e14) = e12
% 18.61/4.87 |
% 18.61/4.87 | From (1460) and (2040) follows:
% 18.61/4.87 | (2061) op1(e14, e14) = e13
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (49), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1169) all_0_228_228 = e14
% 18.61/4.87 |
% 18.61/4.87 | Equations (1169) can reduce 1080 to:
% 18.61/4.87 | (705) $false
% 18.61/4.87 |
% 18.61/4.87 |-The branch is then unsatisfiable
% 18.61/4.87 |-Branch two:
% 18.61/4.87 | (1080) ~ (all_0_228_228 = e14)
% 18.61/4.87 | (1892) all_0_228_228 = e11 | all_0_228_228 = e10
% 18.61/4.87 |
% 18.61/4.87 +-Applying beta-rule and splitting (1892), into two cases.
% 18.61/4.87 |-Branch one:
% 18.61/4.87 | (1138) all_0_228_228 = e11
% 18.61/4.87 |
% 18.61/4.88 | Equations (1138) can reduce 2019 to:
% 18.61/4.88 | (705) $false
% 18.61/4.88 |
% 18.61/4.88 |-The branch is then unsatisfiable
% 18.61/4.88 |-Branch two:
% 18.61/4.88 | (2019) ~ (all_0_228_228 = e11)
% 18.61/4.88 | (1172) all_0_228_228 = e10
% 18.61/4.88 |
% 18.61/4.88 | Equations (1172) can reduce 537 to:
% 18.61/4.88 | (1171) ~ (all_0_226_226 = e10)
% 18.61/4.88 |
% 18.61/4.88 | Equations (1172) can reduce 2019 to:
% 18.61/4.88 | (2071) ~ (e11 = e10)
% 18.61/4.88 |
% 18.61/4.88 | Simplifying 2071 yields:
% 18.61/4.88 | (387) ~ (e11 = e10)
% 18.61/4.88 |
% 18.61/4.88 +-Applying beta-rule and splitting (80), into two cases.
% 18.61/4.88 |-Branch one:
% 18.61/4.88 | (1252) all_0_216_216 = e12
% 18.61/4.88 |
% 18.61/4.88 | From (1252) and (1927) follows:
% 18.61/4.88 | (1959) op1(e12, e11) = e10
% 18.61/4.88 |
% 18.61/4.88 +-Applying beta-rule and splitting (310), into two cases.
% 18.61/4.88 |-Branch one:
% 18.61/4.88 | (1125) all_0_226_226 = e14
% 18.61/4.88 |
% 18.61/4.88 | From (1125) and (1919) follows:
% 18.61/4.88 | (2076) op1(e14, e14) = e14
% 18.61/4.88 |
% 18.61/4.88 | Instantiating formula (90) with e14, e14, e14, e11 and discharging atoms op1(e14, e14) = e14, op1(e14, e14) = e11, yields:
% 18.61/4.88 | (1098) e14 = e11
% 18.61/4.88 |
% 18.61/4.88 | Instantiating formula (90) with e14, e14, e12, e14 and discharging atoms op1(e14, e14) = e14, op1(e14, e14) = e12, yields:
% 18.61/4.88 | (1091) e14 = e12
% 18.61/4.88 |
% 18.61/4.88 | Instantiating formula (90) with e14, e14, e12, e13 and discharging atoms op1(e14, e14) = e13, op1(e14, e14) = e12, yields:
% 18.61/4.88 | (1494) e13 = e12
% 18.61/4.88 |
% 18.61/4.88 | Instantiating formula (90) with e12, e11, e10, e13 and discharging atoms op1(e12, e11) = e13, op1(e12, e11) = e10, yields:
% 18.61/4.88 | (1727) e13 = e10
% 18.61/4.88 |
% 18.61/4.88 | Combining equations (1091,1098) yields a new equation:
% 18.61/4.88 | (1148) e12 = e11
% 18.61/4.88 |
% 18.61/4.88 | Simplifying 1148 yields:
% 18.61/4.88 | (1149) e12 = e11
% 18.61/4.88 |
% 18.61/4.88 | Combining equations (1494,1727) yields a new equation:
% 18.61/4.88 | (2083) e12 = e10
% 18.61/4.88 |
% 18.61/4.88 | Simplifying 2083 yields:
% 18.61/4.88 | (1490) e12 = e10
% 18.61/4.88 |
% 18.61/4.88 | Combining equations (1490,1149) yields a new equation:
% 18.61/4.88 | (1104) e11 = e10
% 18.61/4.88 |
% 18.61/4.88 | Equations (1104) can reduce 387 to:
% 18.61/4.88 | (705) $false
% 18.61/4.88 |
% 18.61/4.88 |-The branch is then unsatisfiable
% 18.61/4.88 |-Branch two:
% 18.61/4.88 | (1128) ~ (all_0_226_226 = e14)
% 18.61/4.88 | (1129) all_0_227_227 = e14 | all_0_228_228 = e14
% 18.61/4.88 |
% 18.61/4.88 +-Applying beta-rule and splitting (430), into two cases.
% 18.61/4.88 |-Branch one:
% 18.61/4.88 | (1125) all_0_226_226 = e14
% 18.61/4.88 |
% 18.61/4.88 | Equations (1125) can reduce 1128 to:
% 18.61/4.88 | (705) $false
% 18.61/4.88 |
% 18.61/4.88 |-The branch is then unsatisfiable
% 18.61/4.88 |-Branch two:
% 18.61/4.88 | (1128) ~ (all_0_226_226 = e14)
% 18.61/4.88 | (1122) all_0_226_226 = e10
% 18.61/4.88 |
% 18.61/4.88 | Equations (1122) can reduce 1171 to:
% 18.61/4.88 | (705) $false
% 18.61/4.88 |
% 18.61/4.88 |-The branch is then unsatisfiable
% 18.61/4.88 |-Branch two:
% 18.61/4.88 | (1049) ~ (all_0_216_216 = e12)
% 18.61/4.88 | (1255) all_0_216_216 = e14 | all_0_216_216 = e11
% 18.61/4.88 |
% 18.61/4.88 +-Applying beta-rule and splitting (1255), into two cases.
% 18.61/4.88 |-Branch one:
% 18.61/4.88 | (1095) all_0_216_216 = e14
% 18.61/4.88 |
% 18.61/4.88 | Equations (1095) can reduce 1181 to:
% 18.61/4.88 | (705) $false
% 18.61/4.88 |
% 18.61/4.88 |-The branch is then unsatisfiable
% 18.61/4.88 |-Branch two:
% 18.61/4.88 | (1181) ~ (all_0_216_216 = e14)
% 18.61/4.88 | (1096) all_0_216_216 = e11
% 18.61/4.88 |
% 18.61/4.88 | Equations (1096) can reduce 1100 to:
% 18.61/4.88 | (705) $false
% 18.61/4.88 |
% 18.61/4.88 |-The branch is then unsatisfiable
% 18.61/4.88 |-Branch two:
% 18.61/4.88 | (1074) ~ (all_0_214_214 = e14)
% 18.61/4.88 | (1095) all_0_216_216 = e14
% 18.61/4.88 |
% 18.61/4.88 | Equations (1095) can reduce 1181 to:
% 18.61/4.88 | (705) $false
% 18.61/4.88 |
% 18.61/4.88 |-The branch is then unsatisfiable
% 18.61/4.88 |-Branch two:
% 18.61/4.88 | (1688) ~ (all_0_213_213 = e13)
% 18.61/4.88 | (2105) all_0_217_217 = e13 | all_0_222_222 = e13
% 18.61/4.88 |
% 18.61/4.88 +-Applying beta-rule and splitting (2105), into two cases.
% 18.61/4.88 |-Branch one:
% 18.61/4.88 | (2106) all_0_217_217 = e13
% 18.61/4.88 |
% 18.61/4.88 | Equations (2106) can reduce 2042 to:
% 18.61/4.88 | (705) $false
% 18.61/4.88 |
% 18.61/4.88 |-The branch is then unsatisfiable
% 18.61/4.88 |-Branch two:
% 18.61/4.88 | (2042) ~ (all_0_217_217 = e13)
% 18.61/4.88 | (1238) all_0_222_222 = e13
% 18.61/4.88 |
% 18.61/4.88 | Equations (1238) can reduce 1496 to:
% 18.61/4.88 | (705) $false
% 18.61/4.88 |
% 18.61/4.88 |-The branch is then unsatisfiable
% 18.61/4.88 |-Branch two:
% 18.61/4.88 | (1499) ~ (all_0_215_215 = e11)
% 18.61/4.88 | (1112) all_0_220_220 = e11
% 18.61/4.88 |
% 18.61/4.88 | Combining equations (1218,1112) yields a new equation:
% 18.61/4.88 | (1539) e13 = e11
% 18.61/4.88 |
% 18.61/4.88 | Simplifying 1539 yields:
% 18.61/4.88 | (1501) e13 = e11
% 18.61/4.88 |
% 18.61/4.88 | Equations (1501) can reduce 391 to:
% 18.61/4.88 | (705) $false
% 18.61/4.88 |
% 18.61/4.88 |-The branch is then unsatisfiable
% 18.61/4.88 |-Branch two:
% 18.61/4.88 | (1542) ~ (all_0_220_220 = e13)
% 18.61/4.88 | (1112) all_0_220_220 = e11
% 18.61/4.88 |
% 18.61/4.88 | Equations (1112) can reduce 99 to:
% 18.61/4.88 | (1499) ~ (all_0_215_215 = e11)
% 18.61/4.88 |
% 18.61/4.88 | Equations (1112) can reduce 647 to:
% 18.61/4.88 | (387) ~ (e11 = e10)
% 18.61/4.88 |
% 18.61/4.88 +-Applying beta-rule and splitting (633), into two cases.
% 18.61/4.88 |-Branch one:
% 18.61/4.88 | (1600) all_0_215_215 = e13
% 18.61/4.88 |
% 18.61/4.88 | Equations (1600) can reduce 156 to:
% 18.61/4.88 | (1688) ~ (all_0_213_213 = e13)
% 18.61/4.88 |
% 18.61/4.88 | From (1600) and (2028) follows:
% 18.61/4.88 | (2122) op1(e13, e13) = e11
% 18.61/4.88 |
% 18.61/4.88 | From (1600) and (2029) follows:
% 18.61/4.88 | (2123) op1(e13, e13) = e13
% 18.61/4.88 |
% 18.61/4.88 +-Applying beta-rule and splitting (470), into two cases.
% 18.61/4.88 |-Branch one:
% 18.61/4.88 | (2106) all_0_217_217 = e13
% 18.61/4.88 |
% 18.61/4.88 | From (2106) and (2010) follows:
% 18.61/4.88 | (2125) op1(e13, e13) = e14
% 18.61/4.88 |
% 18.61/4.88 | From (2106) and (2009) follows:
% 18.61/4.88 | (2126) op1(e13, e13) = e12
% 18.61/4.88 |
% 18.61/4.88 | Instantiating formula (90) with e13, e13, e14, e10 and discharging atoms op1(e13, e13) = e14, op1(e13, e13) = e10, yields:
% 18.61/4.88 | (1126) e14 = e10
% 18.61/4.88 |
% 18.61/4.88 | Instantiating formula (90) with e13, e13, e13, e14 and discharging atoms op1(e13, e13) = e14, op1(e13, e13) = e13, yields:
% 18.61/4.88 | (1068) e14 = e13
% 18.61/4.88 |
% 18.61/4.88 | Instantiating formula (90) with e13, e13, e12, e14 and discharging atoms op1(e13, e13) = e14, op1(e13, e13) = e12, yields:
% 18.61/4.88 | (1091) e14 = e12
% 18.61/4.88 |
% 18.61/4.88 | Instantiating formula (90) with e13, e13, e11, e12 and discharging atoms op1(e13, e13) = e12, op1(e13, e13) = e11, yields:
% 18.61/4.88 | (1149) e12 = e11
% 18.61/4.88 |
% 18.61/4.88 | Combining equations (1126,1068) yields a new equation:
% 18.61/4.88 | (1727) e13 = e10
% 18.61/4.88 |
% 18.61/4.88 | Combining equations (1091,1068) yields a new equation:
% 18.61/4.88 | (1494) e13 = e12
% 18.61/4.88 |
% 18.61/4.88 | Combining equations (1494,1727) yields a new equation:
% 18.61/4.88 | (2083) e12 = e10
% 18.61/4.88 |
% 18.61/4.88 | Simplifying 2083 yields:
% 18.61/4.88 | (1490) e12 = e10
% 18.61/4.88 |
% 18.61/4.88 | Combining equations (1149,1490) yields a new equation:
% 18.61/4.88 | (1103) e11 = e10
% 18.61/4.88 |
% 18.61/4.88 | Simplifying 1103 yields:
% 18.61/4.88 | (1104) e11 = e10
% 18.61/4.88 |
% 18.61/4.88 | Equations (1104) can reduce 387 to:
% 18.61/4.88 | (705) $false
% 18.61/4.88 |
% 18.61/4.88 |-The branch is then unsatisfiable
% 18.61/4.88 |-Branch two:
% 18.61/4.88 | (2042) ~ (all_0_217_217 = e13)
% 18.61/4.88 | (2139) all_0_218_218 = e13 | all_0_219_219 = e13 | all_0_220_220 = e13
% 18.61/4.88 |
% 18.61/4.88 +-Applying beta-rule and splitting (88), into two cases.
% 18.61/4.88 |-Branch one:
% 18.61/4.88 | (1609) all_0_213_213 = e13
% 18.61/4.88 |
% 18.61/4.89 | Equations (1609) can reduce 1688 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (1688) ~ (all_0_213_213 = e13)
% 18.61/4.89 | (2105) all_0_217_217 = e13 | all_0_222_222 = e13
% 18.61/4.89 |
% 18.61/4.89 +-Applying beta-rule and splitting (2105), into two cases.
% 18.61/4.89 |-Branch one:
% 18.61/4.89 | (2106) all_0_217_217 = e13
% 18.61/4.89 |
% 18.61/4.89 | Equations (2106) can reduce 2042 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (2042) ~ (all_0_217_217 = e13)
% 18.61/4.89 | (1238) all_0_222_222 = e13
% 18.61/4.89 |
% 18.61/4.89 | Equations (1238) can reduce 1496 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (1604) ~ (all_0_215_215 = e13)
% 18.61/4.89 | (1232) all_0_215_215 = e11
% 18.61/4.89 |
% 18.61/4.89 | Equations (1232) can reduce 1499 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (1131) ~ (all_0_218_218 = e14)
% 18.61/4.89 | (1130) all_0_227_227 = e14
% 18.61/4.89 |
% 18.61/4.89 | Combining equations (1130,1133) yields a new equation:
% 18.61/4.89 | (1097) e14 = e11
% 18.61/4.89 |
% 18.61/4.89 | Simplifying 1097 yields:
% 18.61/4.89 | (1098) e14 = e11
% 18.61/4.89 |
% 18.61/4.89 | Equations (1098) can reduce 661 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (1061) ~ (all_0_223_223 = e13)
% 18.61/4.89 | (1147) all_0_223_223 = e11
% 18.61/4.89 |
% 18.61/4.89 | Equations (1147) can reduce 1108 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (1137) ~ (all_0_227_227 = e11)
% 18.61/4.89 | (1138) all_0_228_228 = e11
% 18.61/4.89 |
% 18.61/4.89 | Equations (1138) can reduce 656 to:
% 18.61/4.89 | (1137) ~ (all_0_227_227 = e11)
% 18.61/4.89 |
% 18.61/4.89 +-Applying beta-rule and splitting (386), into two cases.
% 18.61/4.89 |-Branch one:
% 18.61/4.89 | (1122) all_0_226_226 = e10
% 18.61/4.89 |
% 18.61/4.89 | Equations (1122) can reduce 277 to:
% 18.61/4.89 | (1123) ~ (all_0_227_227 = e10)
% 18.61/4.89 |
% 18.61/4.89 | Simplifying 1123 yields:
% 18.61/4.89 | (406) ~ (all_0_227_227 = e10)
% 18.61/4.89 |
% 18.61/4.89 | From (1122) and (1919) follows:
% 18.61/4.89 | (1994) op1(e10, e14) = e14
% 18.61/4.89 |
% 18.61/4.89 | From (1122) and (565) follows:
% 18.61/4.89 | (1995) op1(e10, e14) = e10
% 18.61/4.89 |
% 18.61/4.89 +-Applying beta-rule and splitting (505), into two cases.
% 18.61/4.89 |-Branch one:
% 18.61/4.89 | (1130) all_0_227_227 = e14
% 18.61/4.89 |
% 18.61/4.89 | Equations (1130) can reduce 406 to:
% 18.61/4.89 | (11) ~ (e14 = e10)
% 18.61/4.89 |
% 18.61/4.89 | Instantiating formula (90) with e10, e14, e10, e14 and discharging atoms op1(e10, e14) = e14, op1(e10, e14) = e10, yields:
% 18.61/4.89 | (1126) e14 = e10
% 18.61/4.89 |
% 18.61/4.89 | Equations (1126) can reduce 11 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (1168) ~ (all_0_227_227 = e14)
% 18.61/4.89 | (1133) all_0_227_227 = e11
% 18.61/4.89 |
% 18.61/4.89 | Equations (1133) can reduce 1137 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (1171) ~ (all_0_226_226 = e10)
% 18.61/4.89 | (1172) all_0_228_228 = e10
% 18.61/4.89 |
% 18.61/4.89 | Combining equations (1172,1138) yields a new equation:
% 18.61/4.89 | (1104) e11 = e10
% 18.61/4.89 |
% 18.61/4.89 | Equations (1104) can reduce 387 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (1650) ~ (all_0_210_210 = e12)
% 18.61/4.89 | (2180) all_0_211_211 = e12 | all_0_212_212 = e12
% 18.61/4.89 |
% 18.61/4.89 +-Applying beta-rule and splitting (2180), into two cases.
% 18.61/4.89 |-Branch one:
% 18.61/4.89 | (1063) all_0_211_211 = e12
% 18.61/4.89 |
% 18.61/4.89 | Combining equations (1063,1280) yields a new equation:
% 18.61/4.89 | (1494) e13 = e12
% 18.61/4.89 |
% 18.61/4.89 | Equations (1494) can reduce 590 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (1047) ~ (all_0_211_211 = e12)
% 18.61/4.89 | (1046) all_0_212_212 = e12
% 18.61/4.89 |
% 18.61/4.89 | Combining equations (1090,1046) yields a new equation:
% 18.61/4.89 | (1257) e14 = e12
% 18.61/4.89 |
% 18.61/4.89 | Simplifying 1257 yields:
% 18.61/4.89 | (1091) e14 = e12
% 18.61/4.89 |
% 18.61/4.89 | Equations (1091) can reduce 621 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (2189) ~ (all_0_195_195 = e23)
% 18.61/4.89 | (836) all_0_196_196 = e23
% 18.61/4.89 |
% 18.61/4.89 | Combining equations (839,836) yields a new equation:
% 18.61/4.89 | (2191) e23 = e21
% 18.61/4.89 |
% 18.61/4.89 | Equations (2191) can reduce 600 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (1431) ~ (all_0_203_203 = e23)
% 18.61/4.89 | (2194) all_0_204_204 = e23 | all_0_205_205 = e23
% 18.61/4.89 |
% 18.61/4.89 +-Applying beta-rule and splitting (2194), into two cases.
% 18.61/4.89 |-Branch one:
% 18.61/4.89 | (2195) all_0_204_204 = e23
% 18.61/4.89 |
% 18.61/4.89 | Combining equations (2195,860) yields a new equation:
% 18.61/4.89 | (850) e23 = e22
% 18.61/4.89 |
% 18.61/4.89 | Simplifying 850 yields:
% 18.61/4.89 | (851) e23 = e22
% 18.61/4.89 |
% 18.61/4.89 | Equations (851) can reduce 665 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (803) ~ (all_0_204_204 = e23)
% 18.61/4.89 | (2200) all_0_205_205 = e23
% 18.61/4.89 |
% 18.61/4.89 | Combining equations (885,2200) yields a new equation:
% 18.61/4.89 | (2191) e23 = e21
% 18.61/4.89 |
% 18.61/4.89 | Equations (2191) can reduce 600 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (2203) ~ (all_0_205_205 = e21)
% 18.61/4.89 | (2204) all_0_209_209 = e21
% 18.61/4.89 |
% 18.61/4.89 | Combining equations (718,2204) yields a new equation:
% 18.61/4.89 | (2205) e21 = e20
% 18.61/4.89 |
% 18.61/4.89 | Equations (2205) can reduce 279 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (2207) ~ (all_0_194_194 = e22)
% 18.61/4.89 | (2208) all_0_195_195 = e22 | all_0_197_197 = e22
% 18.61/4.89 |
% 18.61/4.89 +-Applying beta-rule and splitting (2208), into two cases.
% 18.61/4.89 |-Branch one:
% 18.61/4.89 | (2209) all_0_195_195 = e22
% 18.61/4.89 |
% 18.61/4.89 | Equations (2209) can reduce 826 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (826) ~ (all_0_195_195 = e22)
% 18.61/4.89 | (2212) all_0_197_197 = e22
% 18.61/4.89 |
% 18.61/4.89 | Combining equations (757,2212) yields a new equation:
% 18.61/4.89 | (856) e24 = e22
% 18.61/4.89 |
% 18.61/4.89 | Simplifying 856 yields:
% 18.61/4.89 | (821) e24 = e22
% 18.61/4.89 |
% 18.61/4.89 | Equations (821) can reduce 502 to:
% 18.61/4.89 | (705) $false
% 18.61/4.89 |
% 18.61/4.89 |-The branch is then unsatisfiable
% 18.61/4.89 |-Branch two:
% 18.61/4.89 | (2216) ~ (all_0_200_200 = e22)
% 18.61/4.89 | (2217) all_0_202_202 = e22
% 18.61/4.89 |
% 18.61/4.90 | Combining equations (785,2217) yields a new equation:
% 18.61/4.90 | (881) e22 = e21
% 18.61/4.90 |
% 18.61/4.90 | Equations (881) can reduce 416 to:
% 18.61/4.90 | (705) $false
% 18.61/4.90 |
% 18.61/4.90 |-The branch is then unsatisfiable
% 18.61/4.90 |-Branch two:
% 18.61/4.90 | (2220) ~ (all_0_199_199 = e24)
% 18.61/4.90 | (704) all_0_208_208 = e24
% 18.61/4.90 |
% 18.61/4.90 | Combining equations (707,704) yields a new equation:
% 18.61/4.90 | (781) e24 = e21
% 18.61/4.90 |
% 18.61/4.90 | Equations (781) can reduce 278 to:
% 18.61/4.90 | (705) $false
% 18.61/4.90 |
% 18.61/4.90 |-The branch is then unsatisfiable
% 18.61/4.90 |-Branch two:
% 18.61/4.90 | (2224) ~ (all_0_191_191 = e23)
% 18.61/4.90 | (2225) all_0_192_192 = e23
% 18.61/4.90 |
% 18.61/4.90 | Combining equations (721,2225) yields a new equation:
% 18.61/4.90 | (2226) e24 = e23
% 18.61/4.90 |
% 18.61/4.90 | Simplifying 2226 yields:
% 18.61/4.90 | (2227) e24 = e23
% 18.61/4.90 |
% 18.61/4.90 | Equations (2227) can reduce 567 to:
% 18.61/4.90 | (705) $false
% 18.61/4.90 |
% 18.61/4.90 |-The branch is then unsatisfiable
% 18.61/4.90 |-Branch two:
% 18.61/4.90 | (2229) ~ (all_0_201_201 = e23)
% 18.61/4.90 | (2230) all_0_201_201 = e21
% 18.61/4.90 |
% 18.61/4.90 | Equations (2230) can reduce 786 to:
% 18.61/4.90 | (705) $false
% 18.61/4.90 |
% 18.61/4.90 |-The branch is then unsatisfiable
% 18.61/4.90 |-Branch two:
% 18.61/4.90 | (2232) ~ (all_0_202_202 = e21)
% 18.61/4.90 | (2233) all_0_206_206 = e21
% 18.61/4.90 |
% 18.61/4.90 | Combining equations (2233,772) yields a new equation:
% 18.90/4.90 | (2234) e21 = e20
% 18.90/4.90 |
% 18.90/4.90 | Simplifying 2234 yields:
% 18.90/4.90 | (2205) e21 = e20
% 18.90/4.90 |
% 18.90/4.90 | Equations (2205) can reduce 279 to:
% 18.90/4.90 | (705) $false
% 18.90/4.90 |
% 18.90/4.90 |-The branch is then unsatisfiable
% 18.90/4.90 |-Branch two:
% 18.90/4.90 | (2237) ~ (all_0_207_207 = e24)
% 18.90/4.90 | (713) all_0_207_207 = e20
% 18.90/4.90 |
% 18.90/4.90 | Equations (713) can reduce 577 to:
% 18.90/4.90 | (2239) ~ (all_0_209_209 = e20)
% 18.90/4.90 |
% 18.90/4.90 | Simplifying 2239 yields:
% 18.90/4.90 | (2240) ~ (all_0_209_209 = e20)
% 18.90/4.90 |
% 18.90/4.90 | From (713) and (697) follows:
% 18.90/4.90 | (2241) op2(e20, e22) = e24
% 18.90/4.90 |
% 18.90/4.90 | From (713) and (696) follows:
% 18.90/4.90 | (2242) op2(e22, e20) = e20
% 18.90/4.90 |
% 18.90/4.90 | Instantiating formula (650) with e22, e20, e20, all_0_202_202 and discharging atoms op2(e22, e20) = all_0_202_202, op2(e22, e20) = e20, yields:
% 18.90/4.90 | (769) all_0_202_202 = e20
% 18.90/4.90 |
% 18.90/4.90 | Instantiating formula (650) with e20, e22, e24, all_0_209_209 and discharging atoms op2(e20, e22) = all_0_209_209, op2(e20, e22) = e24, yields:
% 18.90/4.90 | (2244) all_0_209_209 = e24
% 18.90/4.90 |
% 18.90/4.90 | Equations (2244) can reduce 399 to:
% 18.90/4.90 | (2245) ~ (all_0_192_192 = e24)
% 18.90/4.90 |
% 18.90/4.90 | Equations (769) can reduce 596 to:
% 18.90/4.90 | (2246) ~ (all_0_200_200 = e20)
% 18.90/4.90 |
% 18.90/4.90 | Equations (2244) can reduce 382 to:
% 18.90/4.90 | (242) ~ (all_0_205_205 = e24)
% 18.90/4.90 |
% 18.90/4.90 | Equations (2244) can reduce 127 to:
% 18.90/4.90 | (502) ~ (e24 = e22)
% 18.90/4.90 |
% 18.90/4.90 | Equations (2244) can reduce 2240 to:
% 18.90/4.90 | (95) ~ (e24 = e20)
% 18.90/4.90 |
% 18.90/4.90 +-Applying beta-rule and splitting (69), into two cases.
% 18.90/4.90 |-Branch one:
% 18.90/4.90 | (2250) all_0_200_200 = e20
% 18.90/4.90 |
% 18.90/4.90 | Equations (2250) can reduce 2246 to:
% 18.90/4.90 | (705) $false
% 18.90/4.90 |
% 18.90/4.90 |-The branch is then unsatisfiable
% 18.90/4.90 |-Branch two:
% 18.90/4.90 | (2246) ~ (all_0_200_200 = e20)
% 18.90/4.90 | (2253) all_0_205_205 = e20 | all_0_209_209 = e20
% 18.90/4.90 |
% 18.90/4.90 +-Applying beta-rule and splitting (2253), into two cases.
% 18.90/4.90 |-Branch one:
% 18.90/4.90 | (2254) all_0_205_205 = e20
% 18.90/4.90 |
% 18.90/4.90 | Equations (2254) can reduce 173 to:
% 18.90/4.90 | (2246) ~ (all_0_200_200 = e20)
% 18.90/4.90 |
% 18.90/4.90 | Equations (2254) can reduce 611 to:
% 18.90/4.90 | (2256) ~ (all_0_206_206 = e20)
% 18.90/4.90 |
% 18.90/4.90 | Simplifying 2256 yields:
% 18.90/4.90 | (2257) ~ (all_0_206_206 = e20)
% 18.90/4.90 |
% 18.90/4.90 | Equations (2254) can reduce 242 to:
% 18.90/4.90 | (2258) ~ (e24 = e20)
% 18.90/4.90 |
% 18.90/4.90 | Simplifying 2258 yields:
% 18.90/4.90 | (95) ~ (e24 = e20)
% 18.90/4.90 |
% 18.90/4.90 +-Applying beta-rule and splitting (498), into two cases.
% 18.90/4.90 |-Branch one:
% 18.90/4.90 | (2260) all_0_206_206 = e22
% 18.90/4.90 |
% 18.90/4.90 | Equations (2260) can reduce 695 to:
% 18.90/4.90 | (705) $false
% 18.90/4.90 |
% 18.90/4.90 |-The branch is then unsatisfiable
% 18.90/4.90 |-Branch two:
% 18.90/4.90 | (695) ~ (all_0_206_206 = e22)
% 18.90/4.90 | (2263) all_0_206_206 = e21 | all_0_206_206 = e20
% 18.90/4.90 |
% 18.90/4.90 +-Applying beta-rule and splitting (2263), into two cases.
% 18.90/4.90 |-Branch one:
% 18.90/4.90 | (2233) all_0_206_206 = e21
% 18.90/4.90 |
% 18.90/4.90 | From (2233) and (368) follows:
% 18.90/4.90 | (2265) op2(e22, e21) = e21
% 18.90/4.90 |
% 18.90/4.90 +-Applying beta-rule and splitting (291), into two cases.
% 18.90/4.90 |-Branch one:
% 18.90/4.90 | (2266) all_0_193_193 = e24
% 18.90/4.90 |
% 18.90/4.90 | Combining equations (687,2266) yields a new equation:
% 18.90/4.90 | (821) e24 = e22
% 18.90/4.90 |
% 18.90/4.90 | Equations (821) can reduce 502 to:
% 18.90/4.90 | (705) $false
% 18.90/4.90 |
% 18.90/4.90 |-The branch is then unsatisfiable
% 18.90/4.90 |-Branch two:
% 18.90/4.90 | (2269) ~ (all_0_193_193 = e24)
% 18.90/4.90 | (2270) all_0_197_197 = e24 | all_0_202_202 = e24
% 18.90/4.90 |
% 18.90/4.90 +-Applying beta-rule and splitting (602), into two cases.
% 18.90/4.90 |-Branch one:
% 18.90/4.90 | (2271) all_0_192_192 = e22
% 18.90/4.90 |
% 18.90/4.90 | Equations (2271) can reduce 689 to:
% 18.90/4.90 | (705) $false
% 18.90/4.90 |
% 18.90/4.90 |-The branch is then unsatisfiable
% 18.90/4.90 |-Branch two:
% 18.90/4.90 | (689) ~ (all_0_192_192 = e22)
% 18.90/4.90 | (2274) all_0_192_192 = e24 | all_0_192_192 = e23
% 18.90/4.90 |
% 18.90/4.90 +-Applying beta-rule and splitting (2270), into two cases.
% 18.90/4.90 |-Branch one:
% 18.90/4.90 | (757) all_0_197_197 = e24
% 18.90/4.90 |
% 18.90/4.90 | Equations (757) can reduce 531 to:
% 18.90/4.90 | (699) ~ (all_0_194_194 = e24)
% 18.90/4.90 |
% 18.90/4.90 +-Applying beta-rule and splitting (2274), into two cases.
% 18.90/4.90 |-Branch one:
% 18.90/4.90 | (2225) all_0_192_192 = e23
% 18.90/4.90 |
% 18.90/4.90 | Equations (2225) can reduce 307 to:
% 18.90/4.90 | (2224) ~ (all_0_191_191 = e23)
% 18.90/4.90 |
% 18.90/4.90 | Equations (2225) can reduce 623 to:
% 18.90/4.90 | (2279) ~ (all_0_200_200 = e23)
% 18.90/4.90 |
% 18.90/4.90 | Simplifying 2279 yields:
% 18.90/4.90 | (796) ~ (all_0_200_200 = e23)
% 18.90/4.90 |
% 18.90/4.90 +-Applying beta-rule and splitting (632), into two cases.
% 18.90/4.90 |-Branch one:
% 18.90/4.90 | (849) all_0_191_191 = e22
% 18.90/4.90 |
% 18.90/4.91 | Equations (849) can reduce 688 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.91 | (688) ~ (all_0_191_191 = e22)
% 18.90/4.91 | (2284) all_0_191_191 = e24 | all_0_191_191 = e23
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (2284), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (801) all_0_191_191 = e23
% 18.90/4.91 |
% 18.90/4.91 | Equations (801) can reduce 2224 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.91 | (2224) ~ (all_0_191_191 = e23)
% 18.90/4.91 | (776) all_0_191_191 = e24
% 18.90/4.91 |
% 18.90/4.91 | Equations (776) can reduce 51 to:
% 18.90/4.91 | (95) ~ (e24 = e20)
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (370), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (2290) all_0_198_198 = e24
% 18.90/4.91 |
% 18.90/4.91 | Equations (2290) can reduce 541 to:
% 18.90/4.91 | (810) ~ (all_0_200_200 = e24)
% 18.90/4.91 |
% 18.90/4.91 | Simplifying 810 yields:
% 18.90/4.91 | (811) ~ (all_0_200_200 = e24)
% 18.90/4.91 |
% 18.90/4.91 | Equations (2290) can reduce 214 to:
% 18.90/4.91 | (2293) ~ (all_0_201_201 = e24)
% 18.90/4.91 |
% 18.90/4.91 | Simplifying 2293 yields:
% 18.90/4.91 | (454) ~ (all_0_201_201 = e24)
% 18.90/4.91 |
% 18.90/4.91 | Instantiating formula (650) with e22, e21, e21, all_0_201_201 and discharging atoms op2(e22, e21) = all_0_201_201, op2(e22, e21) = e21, yields:
% 18.90/4.91 | (2230) all_0_201_201 = e21
% 18.90/4.91 |
% 18.90/4.91 | Equations (2230) can reduce 92 to:
% 18.90/4.91 | (2296) ~ (all_0_196_196 = e21)
% 18.90/4.91 |
% 18.90/4.91 | Equations (2230) can reduce 454 to:
% 18.90/4.91 | (787) ~ (e24 = e21)
% 18.90/4.91 |
% 18.90/4.91 | Simplifying 787 yields:
% 18.90/4.91 | (278) ~ (e24 = e21)
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (489), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (836) all_0_196_196 = e23
% 18.90/4.91 |
% 18.90/4.91 | Equations (836) can reduce 2296 to:
% 18.90/4.91 | (600) ~ (e23 = e21)
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (449), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (875) all_0_195_195 = e21
% 18.90/4.91 |
% 18.90/4.91 | Equations (875) can reduce 424 to:
% 18.90/4.91 | (2302) ~ (all_0_200_200 = e21)
% 18.90/4.91 |
% 18.90/4.91 | Simplifying 2302 yields:
% 18.90/4.91 | (883) ~ (all_0_200_200 = e21)
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (463), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (795) ~ (all_0_196_196 = e23)
% 18.90/4.91 |
% 18.90/4.91 | Equations (836) can reduce 795 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.91 | (836) all_0_196_196 = e23
% 18.90/4.91 | (2307) ( ~ (all_0_191_191 = e24) & ~ (all_0_199_199 = e22) & ~ (all_0_204_204 = e21)) | ( ~ (all_0_192_192 = e24) & ~ (all_0_195_195 = e23) & ~ (all_0_200_200 = e22) & ~ (all_0_205_205 = e21) & ~ (all_0_209_209 = e20)) | ( ~ (all_0_193_193 = e24) & ~ (all_0_202_202 = e22) & ~ (all_0_206_206 = e21)) | ( ~ (all_0_194_194 = e23) & ~ (all_0_198_198 = e22) & ~ (all_0_207_207 = e20))
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (2307), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (2308) ( ~ (all_0_191_191 = e24) & ~ (all_0_199_199 = e22) & ~ (all_0_204_204 = e21)) | ( ~ (all_0_192_192 = e24) & ~ (all_0_195_195 = e23) & ~ (all_0_200_200 = e22) & ~ (all_0_205_205 = e21) & ~ (all_0_209_209 = e20)) | ( ~ (all_0_193_193 = e24) & ~ (all_0_202_202 = e22) & ~ (all_0_206_206 = e21))
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (2308), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (2309) ( ~ (all_0_191_191 = e24) & ~ (all_0_199_199 = e22) & ~ (all_0_204_204 = e21)) | ( ~ (all_0_192_192 = e24) & ~ (all_0_195_195 = e23) & ~ (all_0_200_200 = e22) & ~ (all_0_205_205 = e21) & ~ (all_0_209_209 = e20))
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (2309), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (2310) ~ (all_0_191_191 = e24) & ~ (all_0_199_199 = e22) & ~ (all_0_204_204 = e21)
% 18.90/4.91 |
% 18.90/4.91 | Applying alpha-rule on (2310) yields:
% 18.90/4.91 | (725) ~ (all_0_191_191 = e24)
% 18.90/4.91 | (823) ~ (all_0_199_199 = e22)
% 18.90/4.91 | (708) ~ (all_0_204_204 = e21)
% 18.90/4.91 |
% 18.90/4.91 | Equations (776) can reduce 725 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.91 | (2315) ~ (all_0_192_192 = e24) & ~ (all_0_195_195 = e23) & ~ (all_0_200_200 = e22) & ~ (all_0_205_205 = e21) & ~ (all_0_209_209 = e20)
% 18.90/4.91 |
% 18.90/4.91 | Applying alpha-rule on (2315) yields:
% 18.90/4.91 | (2203) ~ (all_0_205_205 = e21)
% 18.90/4.91 | (2240) ~ (all_0_209_209 = e20)
% 18.90/4.91 | (2216) ~ (all_0_200_200 = e22)
% 18.90/4.91 | (2189) ~ (all_0_195_195 = e23)
% 18.90/4.91 | (2245) ~ (all_0_192_192 = e24)
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (186), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (825) all_0_200_200 = e22
% 18.90/4.91 |
% 18.90/4.91 | Equations (825) can reduce 2216 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.91 | (2216) ~ (all_0_200_200 = e22)
% 18.90/4.91 | (2324) all_0_200_200 = e24 | all_0_200_200 = e23 | all_0_200_200 = e21 | all_0_200_200 = e20
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (2324), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (2325) all_0_200_200 = e23
% 18.90/4.91 |
% 18.90/4.91 | Equations (2325) can reduce 796 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.91 | (796) ~ (all_0_200_200 = e23)
% 18.90/4.91 | (2328) all_0_200_200 = e24 | all_0_200_200 = e21 | all_0_200_200 = e20
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (2328), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (2329) all_0_200_200 = e24
% 18.90/4.91 |
% 18.90/4.91 | Equations (2329) can reduce 811 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.91 | (811) ~ (all_0_200_200 = e24)
% 18.90/4.91 | (2332) all_0_200_200 = e21 | all_0_200_200 = e20
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (2332), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (879) all_0_200_200 = e21
% 18.90/4.91 |
% 18.90/4.91 | Equations (879) can reduce 883 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.91 | (883) ~ (all_0_200_200 = e21)
% 18.90/4.91 | (2250) all_0_200_200 = e20
% 18.90/4.91 |
% 18.90/4.91 | Equations (2250) can reduce 2246 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.91 | (2338) ~ (all_0_193_193 = e24) & ~ (all_0_202_202 = e22) & ~ (all_0_206_206 = e21)
% 18.90/4.91 |
% 18.90/4.91 | Applying alpha-rule on (2338) yields:
% 18.90/4.91 | (2269) ~ (all_0_193_193 = e24)
% 18.90/4.91 | (693) ~ (all_0_202_202 = e22)
% 18.90/4.91 | (2341) ~ (all_0_206_206 = e21)
% 18.90/4.91 |
% 18.90/4.91 | Equations (2233) can reduce 2341 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.91 | (2343) ~ (all_0_194_194 = e23) & ~ (all_0_198_198 = e22) & ~ (all_0_207_207 = e20)
% 18.90/4.91 |
% 18.90/4.91 | Applying alpha-rule on (2343) yields:
% 18.90/4.91 | (908) ~ (all_0_194_194 = e23)
% 18.90/4.91 | (818) ~ (all_0_198_198 = e22)
% 18.90/4.91 | (717) ~ (all_0_207_207 = e20)
% 18.90/4.91 |
% 18.90/4.91 | Equations (713) can reduce 717 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.91 | (840) ~ (all_0_195_195 = e21)
% 18.90/4.91 | (2349) all_0_196_196 = e21 | all_0_197_197 = e21
% 18.90/4.91 |
% 18.90/4.91 +-Applying beta-rule and splitting (2349), into two cases.
% 18.90/4.91 |-Branch one:
% 18.90/4.91 | (839) all_0_196_196 = e21
% 18.90/4.91 |
% 18.90/4.91 | Combining equations (836,839) yields a new equation:
% 18.90/4.91 | (2351) e23 = e21
% 18.90/4.91 |
% 18.90/4.91 | Simplifying 2351 yields:
% 18.90/4.91 | (2191) e23 = e21
% 18.90/4.91 |
% 18.90/4.91 | Equations (2191) can reduce 600 to:
% 18.90/4.91 | (705) $false
% 18.90/4.91 |
% 18.90/4.91 |-The branch is then unsatisfiable
% 18.90/4.91 |-Branch two:
% 18.90/4.92 | (2296) ~ (all_0_196_196 = e21)
% 18.90/4.92 | (780) all_0_197_197 = e21
% 18.90/4.92 |
% 18.90/4.92 | Combining equations (757,780) yields a new equation:
% 18.90/4.92 | (2356) e24 = e21
% 18.90/4.92 |
% 18.90/4.92 | Simplifying 2356 yields:
% 18.90/4.92 | (781) e24 = e21
% 18.90/4.92 |
% 18.90/4.92 | Equations (781) can reduce 278 to:
% 18.90/4.92 | (705) $false
% 18.90/4.92 |
% 18.90/4.92 |-The branch is then unsatisfiable
% 18.90/4.92 |-Branch two:
% 18.90/4.92 | (795) ~ (all_0_196_196 = e23)
% 18.90/4.92 | (839) all_0_196_196 = e21
% 18.90/4.92 |
% 18.90/4.92 | Equations (839) can reduce 2296 to:
% 18.90/4.92 | (705) $false
% 18.90/4.92 |
% 18.90/4.92 |-The branch is then unsatisfiable
% 18.90/4.92 |-Branch two:
% 18.90/4.92 | (2362) ~ (all_0_198_198 = e24)
% 18.90/4.92 | (2363) all_0_199_199 = e24 | all_0_200_200 = e24 | all_0_202_202 = e24
% 18.90/4.92 |
% 18.90/4.92 +-Applying beta-rule and splitting (234), into two cases.
% 18.90/4.92 |-Branch one:
% 18.90/4.92 | (750) all_0_194_194 = e24
% 18.90/4.92 |
% 18.90/4.92 | Equations (750) can reduce 699 to:
% 18.90/4.92 | (705) $false
% 18.90/4.92 |
% 18.90/4.92 |-The branch is then unsatisfiable
% 18.90/4.92 |-Branch two:
% 18.90/4.92 | (699) ~ (all_0_194_194 = e24)
% 18.90/4.92 | (2367) all_0_198_198 = e24 | all_0_207_207 = e24
% 18.90/4.92 |
% 18.90/4.92 +-Applying beta-rule and splitting (2367), into two cases.
% 18.90/4.92 |-Branch one:
% 18.90/4.92 | (2290) all_0_198_198 = e24
% 18.90/4.92 |
% 18.90/4.92 | Equations (2290) can reduce 2362 to:
% 18.90/4.92 | (705) $false
% 18.90/4.92 |
% 18.90/4.92 |-The branch is then unsatisfiable
% 18.90/4.92 |-Branch two:
% 18.90/4.92 | (2362) ~ (all_0_198_198 = e24)
% 18.90/4.92 | (698) all_0_207_207 = e24
% 18.90/4.92 |
% 18.90/4.92 | Combining equations (713,698) yields a new equation:
% 18.90/4.92 | (715) e24 = e20
% 18.90/4.92 |
% 18.90/4.92 | Equations (715) can reduce 95 to:
% 18.90/4.92 | (705) $false
% 18.90/4.92 |
% 18.90/4.92 |-The branch is then unsatisfiable
% 18.90/4.92 |-Branch two:
% 18.90/4.92 | (2374) ~ (all_0_192_192 = e23)
% 18.90/4.92 | (721) all_0_192_192 = e24
% 18.90/4.92 |
% 18.90/4.92 | Equations (721) can reduce 2245 to:
% 18.90/4.92 | (705) $false
% 18.90/4.92 |
% 18.90/4.92 |-The branch is then unsatisfiable
% 18.90/4.92 |-Branch two:
% 18.90/4.92 | (2377) ~ (all_0_197_197 = e24)
% 18.90/4.92 | (2378) all_0_202_202 = e24
% 18.90/4.92 |
% 18.90/4.92 | Combining equations (769,2378) yields a new equation:
% 18.90/4.92 | (715) e24 = e20
% 18.90/4.92 |
% 18.90/4.92 | Equations (715) can reduce 95 to:
% 18.90/4.92 | (705) $false
% 18.90/4.92 |
% 18.90/4.92 |-The branch is then unsatisfiable
% 18.90/4.92 |-Branch two:
% 18.90/4.92 | (2341) ~ (all_0_206_206 = e21)
% 18.90/4.92 | (772) all_0_206_206 = e20
% 18.90/4.92 |
% 18.90/4.92 | Equations (772) can reduce 2257 to:
% 18.90/4.92 | (705) $false
% 18.90/4.92 |
% 18.90/4.92 |-The branch is then unsatisfiable
% 18.90/4.92 |-Branch two:
% 18.90/4.92 | (2384) ~ (all_0_205_205 = e20)
% 18.90/4.92 | (718) all_0_209_209 = e20
% 18.90/4.92 |
% 18.90/4.92 | Combining equations (718,2244) yields a new equation:
% 18.90/4.92 | (715) e24 = e20
% 18.90/4.92 |
% 18.90/4.92 | Equations (715) can reduce 95 to:
% 18.90/4.92 | (705) $false
% 18.90/4.92 |
% 18.90/4.92 |-The branch is then unsatisfiable
% 18.90/4.92 |-Branch two:
% 18.90/4.92 | (2388) ~ (all_0_193_193 = e22)
% 18.90/4.92 | (2266) all_0_193_193 = e24
% 18.90/4.92 |
% 18.90/4.92 | Equations (2266) can reduce 302 to:
% 18.90/4.92 | (2245) ~ (all_0_192_192 = e24)
% 18.90/4.92 |
% 18.90/4.92 | Equations (2266) can reduce 102 to:
% 18.90/4.92 | (2391) ~ (all_0_197_197 = e24)
% 18.90/4.92 |
% 18.90/4.92 | Simplifying 2391 yields:
% 18.90/4.92 | (2377) ~ (all_0_197_197 = e24)
% 18.90/4.92 |
% 18.90/4.92 | Equations (2266) can reduce 2388 to:
% 18.90/4.92 | (502) ~ (e24 = e22)
% 18.90/4.92 |
% 18.90/4.92 | From (2266) and (178) follows:
% 18.90/4.92 | (2394) op2(e24, all_0_207_207) = e20
% 18.90/4.92 |
% 18.90/4.92 | From (2266) and (189) follows:
% 18.90/4.92 | (2395) op2(all_0_207_207, e24) = e24
% 18.90/4.92 |
% 18.90/4.92 | From (2266) and (101) follows:
% 18.90/4.92 | (2396) op2(e24, e20) = e24
% 18.90/4.92 |
% 18.90/4.92 +-Applying beta-rule and splitting (257), into two cases.
% 18.90/4.92 |-Branch one:
% 18.90/4.92 | (801) all_0_191_191 = e23
% 18.90/4.92 |
% 18.90/4.92 | Equations (801) can reduce 307 to:
% 18.90/4.92 | (2398) ~ (all_0_192_192 = e23)
% 18.90/4.92 |
% 18.90/4.92 | Simplifying 2398 yields:
% 18.90/4.92 | (2374) ~ (all_0_192_192 = e23)
% 18.90/4.92 |
% 18.90/4.92 | Equations (801) can reduce 151 to:
% 18.90/4.92 | (2400) ~ (all_0_199_199 = e23)
% 18.90/4.92 |
% 18.90/4.92 | Simplifying 2400 yields:
% 18.90/4.92 | (2401) ~ (all_0_199_199 = e23)
% 18.90/4.92 |
% 18.90/4.92 | Equations (801) can reduce 334 to:
% 18.90/4.92 | (802) ~ (all_0_204_204 = e23)
% 18.90/4.92 |
% 18.90/4.92 | Simplifying 802 yields:
% 18.90/4.92 | (803) ~ (all_0_204_204 = e23)
% 18.90/4.92 |
% 18.90/4.92 +-Applying beta-rule and splitting (602), into two cases.
% 18.90/4.92 |-Branch one:
% 18.90/4.92 | (2271) all_0_192_192 = e22
% 18.90/4.92 |
% 18.90/4.92 | Equations (2271) can reduce 381 to:
% 18.90/4.92 | (2405) ~ (all_0_195_195 = e22)
% 18.90/4.92 |
% 18.90/4.92 | Simplifying 2405 yields:
% 18.90/4.92 | (826) ~ (all_0_195_195 = e22)
% 18.90/4.92 |
% 18.90/4.92 | Equations (2271) can reduce 399 to:
% 18.90/4.92 | (2407) ~ (all_0_209_209 = e22)
% 18.90/4.92 |
% 18.90/4.92 | Simplifying 2407 yields:
% 18.90/4.92 | (127) ~ (all_0_209_209 = e22)
% 18.90/4.92 |
% 18.90/4.92 | From (2271) and (637) follows:
% 18.90/4.92 | (2409) op2(e22, all_0_198_198) = e22
% 18.90/4.92 |
% 18.90/4.92 | From (2271) and (78) follows:
% 18.90/4.92 | (2410) op2(all_0_198_198, e22) = e24
% 18.90/4.92 |
% 18.90/4.92 +-Applying beta-rule and splitting (6), into two cases.
% 18.90/4.92 |-Branch one:
% 18.90/4.92 | (704) all_0_208_208 = e24
% 18.90/4.92 |
% 18.90/4.92 | Equations (704) can reduce 145 to:
% 18.90/4.92 | (2237) ~ (all_0_207_207 = e24)
% 18.90/4.92 |
% 18.90/4.92 | From (704) and (321) follows:
% 18.90/4.92 | (2413) op2(e24, e20) = all_0_174_174
% 18.90/4.92 |
% 18.90/4.92 +-Applying beta-rule and splitting (561), into two cases.
% 18.90/4.92 |-Branch one:
% 18.90/4.92 | (698) all_0_207_207 = e24
% 18.90/4.92 |
% 18.90/4.92 | Equations (698) can reduce 2237 to:
% 18.90/4.92 | (705) $false
% 18.90/4.92 |
% 18.90/4.92 |-The branch is then unsatisfiable
% 18.90/4.92 |-Branch two:
% 18.90/4.93 | (2237) ~ (all_0_207_207 = e24)
% 18.90/4.93 | (713) all_0_207_207 = e20
% 18.90/4.93 |
% 18.90/4.93 | Equations (713) can reduce 2237 to:
% 18.90/4.93 | (2258) ~ (e24 = e20)
% 18.90/4.93 |
% 18.90/4.93 | Simplifying 2258 yields:
% 18.90/4.93 | (95) ~ (e24 = e20)
% 18.90/4.93 |
% 18.90/4.93 | From (713) and (2394) follows:
% 18.90/4.93 | (2420) op2(e24, e20) = e20
% 18.90/4.93 |
% 18.90/4.93 | Instantiating formula (650) with e24, e20, all_0_174_174, e24 and discharging atoms op2(e24, e20) = all_0_174_174, op2(e24, e20) = e24, yields:
% 18.90/4.93 | (2421) all_0_174_174 = e24
% 18.90/4.93 |
% 18.90/4.93 | Instantiating formula (650) with e24, e20, e20, all_0_174_174 and discharging atoms op2(e24, e20) = all_0_174_174, op2(e24, e20) = e20, yields:
% 18.90/4.93 | (2422) all_0_174_174 = e20
% 18.90/4.93 |
% 18.90/4.93 | Combining equations (2422,2421) yields a new equation:
% 18.90/4.93 | (715) e24 = e20
% 18.90/4.93 |
% 18.90/4.93 | Equations (715) can reduce 95 to:
% 18.90/4.93 | (705) $false
% 18.90/4.93 |
% 18.90/4.93 |-The branch is then unsatisfiable
% 18.90/4.93 |-Branch two:
% 18.90/4.93 | (701) ~ (all_0_208_208 = e24)
% 18.90/4.93 | (707) all_0_208_208 = e21
% 18.90/4.93 |
% 18.90/4.93 | Equations (707) can reduce 53 to:
% 18.90/4.93 | (2427) ~ (all_0_199_199 = e21)
% 18.90/4.93 |
% 18.90/4.93 | Equations (707) can reduce 459 to:
% 18.90/4.93 | (708) ~ (all_0_204_204 = e21)
% 18.90/4.93 |
% 18.90/4.93 | Equations (707) can reduce 351 to:
% 18.90/4.93 | (2429) ~ (all_0_209_209 = e21)
% 18.90/4.93 |
% 18.90/4.93 | Simplifying 2429 yields:
% 18.90/4.93 | (2430) ~ (all_0_209_209 = e21)
% 18.90/4.93 |
% 18.90/4.93 | From (707)(707) and (605) follows:
% 18.90/4.93 | (711) op2(e21, e21) = all_0_189_189
% 18.90/4.93 |
% 18.90/4.93 | From (707) and (91) follows:
% 18.90/4.93 | (712) op2(e21, e23) = all_0_190_190
% 18.90/4.93 |
% 18.90/4.93 +-Applying beta-rule and splitting (533), into two cases.
% 18.90/4.93 |-Branch one:
% 18.90/4.93 | (860) all_0_204_204 = e22
% 18.90/4.93 |
% 18.90/4.93 | Equations (860) can reduce 432 to:
% 18.90/4.93 | (823) ~ (all_0_199_199 = e22)
% 18.90/4.93 |
% 18.90/4.93 | Equations (860) can reduce 601 to:
% 18.90/4.93 | (861) ~ (all_0_203_203 = e22)
% 18.90/4.93 |
% 18.90/4.93 | From (860) and (300) follows:
% 18.90/4.93 | (887) op2(e21, e23) = e22
% 18.90/4.93 |
% 18.90/4.93 +-Applying beta-rule and splitting (587), into two cases.
% 18.90/4.93 |-Branch one:
% 18.90/4.93 | (820) all_0_199_199 = e22
% 18.90/4.93 |
% 18.90/4.93 | Equations (820) can reduce 823 to:
% 18.90/4.93 | (705) $false
% 18.90/4.93 |
% 18.90/4.93 |-The branch is then unsatisfiable
% 18.90/4.93 |-Branch two:
% 18.90/4.93 | (823) ~ (all_0_199_199 = e22)
% 18.90/4.93 | (2440) all_0_199_199 = e24 | all_0_199_199 = e23 | all_0_199_199 = e21
% 18.90/4.93 |
% 18.90/4.93 +-Applying beta-rule and splitting (2440), into two cases.
% 18.90/4.93 |-Branch one:
% 18.90/4.93 | (2441) all_0_199_199 = e23
% 18.90/4.93 |
% 18.90/4.93 | Equations (2441) can reduce 2401 to:
% 18.90/4.93 | (705) $false
% 18.90/4.93 |
% 18.90/4.93 |-The branch is then unsatisfiable
% 18.90/4.93 |-Branch two:
% 18.90/4.93 | (2401) ~ (all_0_199_199 = e23)
% 18.90/4.93 | (2444) all_0_199_199 = e24 | all_0_199_199 = e21
% 18.90/4.93 |
% 18.90/4.93 +-Applying beta-rule and splitting (2444), into two cases.
% 18.90/4.93 |-Branch one:
% 18.90/4.93 | (809) all_0_199_199 = e24
% 18.90/4.93 |
% 18.90/4.93 | Equations (809) can reduce 16 to:
% 18.90/4.93 | (2362) ~ (all_0_198_198 = e24)
% 18.90/4.93 |
% 18.90/4.93 | Equations (809) can reduce 823 to:
% 18.90/4.93 | (502) ~ (e24 = e22)
% 18.90/4.93 |
% 18.90/4.93 | From (809) and (643) follows:
% 18.90/4.93 | (812) op2(all_0_195_195, e24) = e22
% 18.90/4.93 |
% 18.90/4.93 | From (809) and (592) follows:
% 18.90/4.93 | (813) op2(e24, all_0_195_195) = e23
% 18.90/4.93 |
% 18.90/4.93 | Instantiating formula (650) with e21, e23, e22, all_0_190_190 and discharging atoms op2(e21, e23) = all_0_190_190, op2(e21, e23) = e22, yields:
% 18.90/4.93 | (2450) all_0_190_190 = e22
% 18.90/4.93 |
% 18.90/4.93 | Instantiating formula (650) with e21, e21, all_0_189_189, e24 and discharging atoms op2(e21, e21) = all_0_189_189, op2(e21, e21) = e24, yields:
% 18.90/4.93 | (724) all_0_189_189 = e24
% 18.90/4.93 |
% 18.90/4.93 | From (724)(724) and (445) follows:
% 18.90/4.93 | (733) op2(e24, e24) = all_0_150_150
% 18.90/4.93 |
% 18.90/4.93 | From (2450)(2450) and (347) follows:
% 18.90/4.93 | (865) op2(e22, e22) = all_0_161_161
% 18.90/4.93 |
% 18.90/4.93 | From (724) and (89) follows:
% 18.90/4.93 | (748) op2(e20, e24) = all_0_142_142
% 18.90/4.93 |
% 18.90/4.93 | Instantiating formula (650) with e24, e24, all_0_150_150, e21 and discharging atoms op2(e24, e24) = all_0_150_150, op2(e24, e24) = e21, yields:
% 18.90/4.93 | (914) all_0_150_150 = e21
% 18.90/4.93 |
% 18.90/4.93 | Instantiating formula (650) with e22, e22, all_0_161_161, all_0_200_200 and discharging atoms op2(e22, e22) = all_0_161_161, op2(e22, e22) = all_0_200_200, yields:
% 18.90/4.93 | (2456) all_0_161_161 = all_0_200_200
% 18.90/4.93 |
% 18.90/4.93 | Instantiating formula (650) with e20, e24, all_0_142_142, all_0_207_207 and discharging atoms op2(e20, e24) = all_0_142_142, op2(e20, e24) = all_0_207_207, yields:
% 18.90/4.93 | (2457) all_0_142_142 = all_0_207_207
% 18.90/4.93 |
% 18.90/4.93 | From (914) and (733) follows:
% 18.90/4.93 | (105) op2(e24, e24) = e21
% 18.90/4.93 |
% 18.90/4.93 | From (2456) and (865) follows:
% 18.90/4.93 | (535) op2(e22, e22) = all_0_200_200
% 18.90/4.93 |
% 18.90/4.93 | From (2457) and (748) follows:
% 18.90/4.93 | (642) op2(e20, e24) = all_0_207_207
% 18.90/4.93 |
% 18.90/4.93 +-Applying beta-rule and splitting (561), into two cases.
% 18.90/4.93 |-Branch one:
% 18.90/4.93 | (698) all_0_207_207 = e24
% 18.90/4.93 |
% 18.90/4.93 | Equations (698) can reduce 239 to:
% 18.90/4.93 | (699) ~ (all_0_194_194 = e24)
% 18.90/4.93 |
% 18.90/4.93 | Equations (698) can reduce 577 to:
% 18.90/4.93 | (2463) ~ (all_0_209_209 = e24)
% 18.90/4.93 |
% 18.90/4.93 | Simplifying 2463 yields:
% 18.90/4.93 | (2464) ~ (all_0_209_209 = e24)
% 18.90/4.93 |
% 18.90/4.93 | From (698) and (2395) follows:
% 18.90/4.93 | (2465) op2(e24, e24) = e24
% 18.90/4.93 |
% 18.90/4.93 | From (698) and (2394) follows:
% 18.90/4.93 | (2466) op2(e24, e24) = e20
% 18.90/4.93 |
% 18.90/4.93 +-Applying beta-rule and splitting (9), into two cases.
% 18.90/4.93 |-Branch one:
% 18.90/4.93 | (750) all_0_194_194 = e24
% 18.90/4.93 |
% 18.90/4.93 | Equations (750) can reduce 699 to:
% 18.90/4.93 | (705) $false
% 18.90/4.93 |
% 18.90/4.93 |-The branch is then unsatisfiable
% 18.90/4.93 |-Branch two:
% 18.90/4.93 | (699) ~ (all_0_194_194 = e24)
% 18.90/4.93 | (753) all_0_195_195 = e24 | all_0_197_197 = e24
% 18.90/4.93 |
% 18.90/4.93 +-Applying beta-rule and splitting (10), into two cases.
% 18.90/4.93 |-Branch one:
% 18.90/4.93 | (2244) all_0_209_209 = e24
% 18.90/4.93 |
% 18.90/4.93 | Equations (2244) can reduce 2464 to:
% 18.90/4.93 | (705) $false
% 18.90/4.93 |
% 18.90/4.93 |-The branch is then unsatisfiable
% 18.90/4.93 |-Branch two:
% 18.90/4.93 | (2464) ~ (all_0_209_209 = e24)
% 18.90/4.93 | (2474) all_0_209_209 = e21 | all_0_209_209 = e20
% 18.90/4.93 |
% 18.90/4.93 +-Applying beta-rule and splitting (2474), into two cases.
% 18.90/4.93 |-Branch one:
% 18.90/4.93 | (2204) all_0_209_209 = e21
% 18.90/4.93 |
% 18.90/4.93 | Equations (2204) can reduce 2430 to:
% 18.90/4.93 | (705) $false
% 18.90/4.93 |
% 18.90/4.93 |-The branch is then unsatisfiable
% 18.90/4.93 |-Branch two:
% 18.90/4.93 | (2430) ~ (all_0_209_209 = e21)
% 18.90/4.93 | (718) all_0_209_209 = e20
% 18.90/4.93 |
% 18.90/4.93 | Equations (718) can reduce 2430 to:
% 18.90/4.93 | (731) ~ (e21 = e20)
% 18.90/4.93 |
% 18.90/4.93 | Simplifying 731 yields:
% 18.90/4.93 | (279) ~ (e21 = e20)
% 18.90/4.93 |
% 18.90/4.93 +-Applying beta-rule and splitting (753), into two cases.
% 18.90/4.93 |-Branch one:
% 18.90/4.93 | (754) all_0_195_195 = e24
% 18.90/4.93 |
% 18.90/4.93 | From (754) and (812) follows:
% 18.90/4.93 | (2482) op2(e24, e24) = e22
% 18.90/4.93 |
% 18.90/4.93 | From (754) and (813) follows:
% 18.90/4.93 | (2483) op2(e24, e24) = e23
% 18.90/4.93 |
% 18.90/4.93 | Instantiating formula (650) with e24, e24, e23, e21 and discharging atoms op2(e24, e24) = e23, op2(e24, e24) = e21, yields:
% 18.90/4.93 | (2191) e23 = e21
% 18.90/4.94 |
% 18.90/4.94 | Instantiating formula (650) with e24, e24, e22, e24 and discharging atoms op2(e24, e24) = e24, op2(e24, e24) = e22, yields:
% 18.90/4.94 | (821) e24 = e22
% 18.90/4.94 |
% 18.90/4.94 | Instantiating formula (650) with e24, e24, e22, e23 and discharging atoms op2(e24, e24) = e23, op2(e24, e24) = e22, yields:
% 18.90/4.94 | (851) e23 = e22
% 18.90/4.94 |
% 18.90/4.94 | Instantiating formula (650) with e24, e24, e20, e24 and discharging atoms op2(e24, e24) = e24, op2(e24, e24) = e20, yields:
% 18.90/4.94 | (715) e24 = e20
% 18.90/4.94 |
% 18.90/4.94 | Combining equations (821,715) yields a new equation:
% 18.90/4.94 | (815) e22 = e20
% 18.90/4.94 |
% 18.90/4.94 | Simplifying 815 yields:
% 18.90/4.94 | (816) e22 = e20
% 18.90/4.94 |
% 18.90/4.94 | Combining equations (851,2191) yields a new equation:
% 18.90/4.94 | (880) e22 = e21
% 18.90/4.94 |
% 18.90/4.94 | Simplifying 880 yields:
% 18.90/4.94 | (881) e22 = e21
% 18.90/4.94 |
% 18.90/4.94 | Combining equations (881,816) yields a new equation:
% 18.90/4.94 | (2234) e21 = e20
% 18.90/4.94 |
% 18.90/4.94 | Simplifying 2234 yields:
% 18.90/4.94 | (2205) e21 = e20
% 18.90/4.94 |
% 18.90/4.94 | Equations (2205) can reduce 279 to:
% 18.90/4.94 | (705) $false
% 18.90/4.94 |
% 18.90/4.94 |-The branch is then unsatisfiable
% 18.90/4.94 |-Branch two:
% 18.90/4.94 | (727) ~ (all_0_195_195 = e24)
% 18.90/4.94 | (757) all_0_197_197 = e24
% 18.90/4.94 |
% 18.90/4.94 | Equations (757) can reduce 2377 to:
% 18.90/4.94 | (705) $false
% 18.90/4.94 |
% 18.90/4.94 |-The branch is then unsatisfiable
% 18.90/4.94 |-Branch two:
% 18.90/4.94 | (2237) ~ (all_0_207_207 = e24)
% 18.90/4.94 | (713) all_0_207_207 = e20
% 18.90/4.94 |
% 18.90/4.94 | Equations (713) can reduce 239 to:
% 18.90/4.94 | (4) ~ (all_0_194_194 = e20)
% 18.90/4.94 |
% 18.90/4.94 | Equations (713) can reduce 397 to:
% 18.90/4.94 | (1441) ~ (all_0_203_203 = e20)
% 18.90/4.94 |
% 18.90/4.94 | Equations (713) can reduce 2237 to:
% 18.90/4.94 | (2258) ~ (e24 = e20)
% 18.90/4.94 |
% 18.90/4.94 | Simplifying 2258 yields:
% 18.90/4.94 | (95) ~ (e24 = e20)
% 18.90/4.94 |
% 18.90/4.94 | From (713) and (2395) follows:
% 18.90/4.94 | (742) op2(e20, e24) = e24
% 18.90/4.94 |
% 18.90/4.94 | From (713) and (642) follows:
% 18.90/4.94 | (2505) op2(e20, e24) = e20
% 18.90/4.94 |
% 18.90/4.94 +-Applying beta-rule and splitting (234), into two cases.
% 18.90/4.94 |-Branch one:
% 18.90/4.94 | (750) all_0_194_194 = e24
% 18.90/4.94 |
% 18.90/4.94 | Equations (750) can reduce 519 to:
% 18.90/4.94 | (278) ~ (e24 = e21)
% 18.90/4.94 |
% 18.90/4.94 | Equations (750) can reduce 4 to:
% 18.90/4.94 | (95) ~ (e24 = e20)
% 18.90/4.94 |
% 18.90/4.94 +-Applying beta-rule and splitting (390), into two cases.
% 18.90/4.94 |-Branch one:
% 18.90/4.94 | (698) all_0_207_207 = e24
% 18.90/4.94 |
% 18.90/4.94 | Combining equations (698,713) yields a new equation:
% 18.90/4.94 | (714) e24 = e20
% 18.90/4.94 |
% 18.90/4.94 | Simplifying 714 yields:
% 18.90/4.94 | (715) e24 = e20
% 18.90/4.94 |
% 18.90/4.94 | Equations (715) can reduce 95 to:
% 18.90/4.94 | (705) $false
% 18.90/4.94 |
% 18.90/4.94 |-The branch is then unsatisfiable
% 18.90/4.94 |-Branch two:
% 18.90/4.94 | (2237) ~ (all_0_207_207 = e24)
% 18.90/4.94 | (2514) all_0_208_208 = e24 | all_0_209_209 = e24
% 18.90/4.94 |
% 18.90/4.94 +-Applying beta-rule and splitting (66), into two cases.
% 18.90/4.94 |-Branch one:
% 18.90/4.94 | (845) all_0_194_194 = e22
% 18.90/4.94 |
% 18.90/4.94 | Combining equations (845,750) yields a new equation:
% 18.90/4.94 | (821) e24 = e22
% 18.90/4.94 |
% 18.90/4.94 | Equations (821) can reduce 502 to:
% 18.90/4.94 | (705) $false
% 18.90/4.94 |
% 18.90/4.94 |-The branch is then unsatisfiable
% 18.90/4.94 |-Branch two:
% 18.90/4.94 | (2207) ~ (all_0_194_194 = e22)
% 18.90/4.94 | (2519) all_0_198_198 = e22 | all_0_203_203 = e22
% 18.90/4.94 |
% 18.90/4.94 +-Applying beta-rule and splitting (63), into two cases.
% 18.90/4.94 |-Branch one:
% 18.90/4.94 | (2520) all_0_203_203 = e22
% 18.90/4.94 |
% 18.90/4.94 | Equations (2520) can reduce 861 to:
% 18.90/4.94 | (705) $false
% 18.90/4.94 |
% 18.90/4.94 |-The branch is then unsatisfiable
% 18.90/4.94 |-Branch two:
% 18.90/4.94 | (861) ~ (all_0_203_203 = e22)
% 18.90/4.94 | (2523) all_0_203_203 = e23 | all_0_203_203 = e20
% 18.90/4.94 |
% 18.90/4.94 +-Applying beta-rule and splitting (2523), into two cases.
% 18.90/4.94 |-Branch one:
% 18.90/4.94 | (890) all_0_203_203 = e23
% 18.90/4.94 |
% 18.90/4.94 | Equations (890) can reduce 861 to:
% 18.90/4.94 | (665) ~ (e23 = e22)
% 18.90/4.94 |
% 18.90/4.94 +-Applying beta-rule and splitting (2519), into two cases.
% 18.90/4.94 |-Branch one:
% 18.90/4.94 | (814) all_0_198_198 = e22
% 18.90/4.94 |
% 18.90/4.94 | From (814) and (2410) follows:
% 18.90/4.94 | (2527) op2(e22, e22) = e24
% 18.90/4.94 |
% 18.90/4.94 | From (814) and (2409) follows:
% 18.90/4.94 | (835) op2(e22, e22) = e22
% 18.90/4.94 |
% 18.90/4.94 +-Applying beta-rule and splitting (2514), into two cases.
% 18.90/4.94 |-Branch one:
% 18.90/4.94 | (704) all_0_208_208 = e24
% 18.90/4.94 |
% 18.90/4.94 | Combining equations (704,707) yields a new equation:
% 18.90/4.94 | (2356) e24 = e21
% 18.90/4.94 |
% 18.90/4.94 | Simplifying 2356 yields:
% 18.90/4.94 | (781) e24 = e21
% 18.90/4.94 |
% 18.90/4.94 | Equations (781) can reduce 278 to:
% 18.90/4.94 | (705) $false
% 18.90/4.94 |
% 18.90/4.94 |-The branch is then unsatisfiable
% 18.90/4.94 |-Branch two:
% 18.90/4.94 | (701) ~ (all_0_208_208 = e24)
% 18.90/4.94 | (2244) all_0_209_209 = e24
% 18.90/4.94 |
% 18.90/4.94 | Equations (2244) can reduce 127 to:
% 18.90/4.94 | (502) ~ (e24 = e22)
% 18.90/4.94 |
% 18.90/4.94 +-Applying beta-rule and splitting (249), into two cases.
% 18.90/4.94 |-Branch one:
% 18.90/4.94 | (845) all_0_194_194 = e22
% 18.90/4.94 |
% 18.90/4.94 | Combining equations (845,750) yields a new equation:
% 18.90/4.94 | (821) e24 = e22
% 18.90/4.94 |
% 18.90/4.94 | Equations (821) can reduce 502 to:
% 18.90/4.94 | (705) $false
% 18.90/4.94 |
% 18.90/4.94 |-The branch is then unsatisfiable
% 18.90/4.94 |-Branch two:
% 18.90/4.94 | (2207) ~ (all_0_194_194 = e22)
% 18.90/4.94 | (2208) all_0_195_195 = e22 | all_0_197_197 = e22
% 18.90/4.94 |
% 18.90/4.94 +-Applying beta-rule and splitting (2208), into two cases.
% 18.90/4.94 |-Branch one:
% 18.90/4.94 | (2209) all_0_195_195 = e22
% 18.90/4.94 |
% 18.90/4.94 | Equations (2209) can reduce 826 to:
% 18.90/4.94 | (705) $false
% 18.90/4.94 |
% 18.90/4.94 |-The branch is then unsatisfiable
% 18.90/4.94 |-Branch two:
% 18.90/4.94 | (826) ~ (all_0_195_195 = e22)
% 18.90/4.94 | (2212) all_0_197_197 = e22
% 18.90/4.94 |
% 18.90/4.94 | Equations (2212) can reduce 501 to:
% 18.90/4.94 | (483) ~ (e22 = e20)
% 18.90/4.94 |
% 18.90/4.94 | From (2212)(2212) and (197) follows:
% 18.90/4.94 | (2546) op2(e22, e22) = all_0_182_182
% 18.90/4.94 |
% 18.90/4.94 | Instantiating formula (650) with e22, e22, all_0_182_182, all_0_200_200 and discharging atoms op2(e22, e22) = all_0_182_182, op2(e22, e22) = all_0_200_200, yields:
% 18.90/4.94 | (2547) all_0_182_182 = all_0_200_200
% 18.90/4.94 |
% 18.90/4.94 | Instantiating formula (650) with e22, e22, e24, all_0_182_182 and discharging atoms op2(e22, e22) = all_0_182_182, op2(e22, e22) = e24, yields:
% 18.90/4.94 | (2548) all_0_182_182 = e24
% 18.90/4.94 |
% 18.90/4.94 | Instantiating formula (650) with e22, e22, e22, all_0_200_200 and discharging atoms op2(e22, e22) = all_0_200_200, op2(e22, e22) = e22, yields:
% 18.90/4.94 | (825) all_0_200_200 = e22
% 18.90/4.94 |
% 18.90/4.94 | Instantiating formula (650) with e20, e24, e20, e24 and discharging atoms op2(e20, e24) = e24, op2(e20, e24) = e20, yields:
% 18.90/4.94 | (715) e24 = e20
% 18.90/4.94 |
% 18.90/4.94 | Combining equations (2547,2548) yields a new equation:
% 18.90/4.94 | (2551) all_0_200_200 = e24
% 18.90/4.94 |
% 18.90/4.94 | Simplifying 2551 yields:
% 18.90/4.94 | (2329) all_0_200_200 = e24
% 18.90/4.94 |
% 18.90/4.94 | Combining equations (825,2329) yields a new equation:
% 18.90/4.94 | (821) e24 = e22
% 18.90/4.94 |
% 18.90/4.94 | Combining equations (715,821) yields a new equation:
% 18.90/4.94 | (816) e22 = e20
% 18.90/4.94 |
% 18.90/4.94 | Equations (816) can reduce 483 to:
% 18.90/4.94 | (705) $false
% 18.90/4.94 |
% 18.90/4.94 |-The branch is then unsatisfiable
% 18.90/4.94 |-Branch two:
% 18.90/4.94 | (818) ~ (all_0_198_198 = e22)
% 18.90/4.94 | (2520) all_0_203_203 = e22
% 18.90/4.94 |
% 18.90/4.94 | Combining equations (890,2520) yields a new equation:
% 18.90/4.94 | (850) e23 = e22
% 18.90/4.94 |
% 18.90/4.94 | Simplifying 850 yields:
% 18.90/4.94 | (851) e23 = e22
% 18.90/4.94 |
% 18.90/4.94 | Equations (851) can reduce 665 to:
% 18.90/4.94 | (705) $false
% 18.90/4.94 |
% 18.90/4.94 |-The branch is then unsatisfiable
% 18.90/4.94 |-Branch two:
% 18.90/4.94 | (1431) ~ (all_0_203_203 = e23)
% 18.90/4.95 | (2562) all_0_203_203 = e20
% 18.90/4.95 |
% 18.90/4.95 | Equations (2562) can reduce 1441 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (699) ~ (all_0_194_194 = e24)
% 18.90/4.95 | (2367) all_0_198_198 = e24 | all_0_207_207 = e24
% 18.90/4.95 |
% 18.90/4.95 +-Applying beta-rule and splitting (2367), into two cases.
% 18.90/4.95 |-Branch one:
% 18.90/4.95 | (2290) all_0_198_198 = e24
% 18.90/4.95 |
% 18.90/4.95 | Equations (2290) can reduce 2362 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (2362) ~ (all_0_198_198 = e24)
% 18.90/4.95 | (698) all_0_207_207 = e24
% 18.90/4.95 |
% 18.90/4.95 | Combining equations (698,713) yields a new equation:
% 18.90/4.95 | (714) e24 = e20
% 18.90/4.95 |
% 18.90/4.95 | Simplifying 714 yields:
% 18.90/4.95 | (715) e24 = e20
% 18.90/4.95 |
% 18.90/4.95 | Equations (715) can reduce 95 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (2220) ~ (all_0_199_199 = e24)
% 18.90/4.95 | (2574) all_0_199_199 = e21
% 18.90/4.95 |
% 18.90/4.95 | Equations (2574) can reduce 2427 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (2576) ~ (all_0_204_204 = e22)
% 18.90/4.95 | (2577) all_0_204_204 = e23 | all_0_204_204 = e21
% 18.90/4.95 |
% 18.90/4.95 +-Applying beta-rule and splitting (2577), into two cases.
% 18.90/4.95 |-Branch one:
% 18.90/4.95 | (2195) all_0_204_204 = e23
% 18.90/4.95 |
% 18.90/4.95 | Equations (2195) can reduce 803 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (803) ~ (all_0_204_204 = e23)
% 18.90/4.95 | (805) all_0_204_204 = e21
% 18.90/4.95 |
% 18.90/4.95 | Equations (805) can reduce 708 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (689) ~ (all_0_192_192 = e22)
% 18.90/4.95 | (2274) all_0_192_192 = e24 | all_0_192_192 = e23
% 18.90/4.95 |
% 18.90/4.95 +-Applying beta-rule and splitting (2274), into two cases.
% 18.90/4.95 |-Branch one:
% 18.90/4.95 | (2225) all_0_192_192 = e23
% 18.90/4.95 |
% 18.90/4.95 | Equations (2225) can reduce 2374 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (2374) ~ (all_0_192_192 = e23)
% 18.90/4.95 | (721) all_0_192_192 = e24
% 18.90/4.95 |
% 18.90/4.95 | Equations (721) can reduce 2245 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (2224) ~ (all_0_191_191 = e23)
% 18.90/4.95 | (2225) all_0_192_192 = e23
% 18.90/4.95 |
% 18.90/4.95 +-Applying beta-rule and splitting (64), into two cases.
% 18.90/4.95 |-Branch one:
% 18.90/4.95 | (849) all_0_191_191 = e22
% 18.90/4.95 |
% 18.90/4.95 | Equations (849) can reduce 151 to:
% 18.90/4.95 | (2593) ~ (all_0_199_199 = e22)
% 18.90/4.95 |
% 18.90/4.95 | Simplifying 2593 yields:
% 18.90/4.95 | (823) ~ (all_0_199_199 = e22)
% 18.90/4.95 |
% 18.90/4.95 | Equations (849) can reduce 334 to:
% 18.90/4.95 | (2595) ~ (all_0_204_204 = e22)
% 18.90/4.95 |
% 18.90/4.95 | Simplifying 2595 yields:
% 18.90/4.95 | (2576) ~ (all_0_204_204 = e22)
% 18.90/4.95 |
% 18.90/4.95 +-Applying beta-rule and splitting (561), into two cases.
% 18.90/4.95 |-Branch one:
% 18.90/4.95 | (698) all_0_207_207 = e24
% 18.90/4.95 |
% 18.90/4.95 | Equations (698) can reduce 239 to:
% 18.90/4.95 | (699) ~ (all_0_194_194 = e24)
% 18.90/4.95 |
% 18.90/4.95 | Equations (698) can reduce 145 to:
% 18.90/4.95 | (700) ~ (all_0_208_208 = e24)
% 18.90/4.95 |
% 18.90/4.95 | Simplifying 700 yields:
% 18.90/4.95 | (701) ~ (all_0_208_208 = e24)
% 18.90/4.95 |
% 18.90/4.95 | Equations (698) can reduce 577 to:
% 18.90/4.95 | (2463) ~ (all_0_209_209 = e24)
% 18.90/4.95 |
% 18.90/4.95 | Simplifying 2463 yields:
% 18.90/4.95 | (2464) ~ (all_0_209_209 = e24)
% 18.90/4.95 |
% 18.90/4.95 | From (698) and (2395) follows:
% 18.90/4.95 | (2465) op2(e24, e24) = e24
% 18.90/4.95 |
% 18.90/4.95 | From (698) and (2394) follows:
% 18.90/4.95 | (2466) op2(e24, e24) = e20
% 18.90/4.95 |
% 18.90/4.95 +-Applying beta-rule and splitting (6), into two cases.
% 18.90/4.95 |-Branch one:
% 18.90/4.95 | (704) all_0_208_208 = e24
% 18.90/4.95 |
% 18.90/4.95 | Equations (704) can reduce 701 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (701) ~ (all_0_208_208 = e24)
% 18.90/4.95 | (707) all_0_208_208 = e21
% 18.90/4.95 |
% 18.90/4.95 | Equations (707) can reduce 53 to:
% 18.90/4.95 | (2427) ~ (all_0_199_199 = e21)
% 18.90/4.95 |
% 18.90/4.95 | Equations (707) can reduce 459 to:
% 18.90/4.95 | (708) ~ (all_0_204_204 = e21)
% 18.90/4.95 |
% 18.90/4.95 | Equations (707) can reduce 351 to:
% 18.90/4.95 | (2429) ~ (all_0_209_209 = e21)
% 18.90/4.95 |
% 18.90/4.95 | Simplifying 2429 yields:
% 18.90/4.95 | (2430) ~ (all_0_209_209 = e21)
% 18.90/4.95 |
% 18.90/4.95 +-Applying beta-rule and splitting (10), into two cases.
% 18.90/4.95 |-Branch one:
% 18.90/4.95 | (2244) all_0_209_209 = e24
% 18.90/4.95 |
% 18.90/4.95 | Equations (2244) can reduce 2464 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (2464) ~ (all_0_209_209 = e24)
% 18.90/4.95 | (2474) all_0_209_209 = e21 | all_0_209_209 = e20
% 18.90/4.95 |
% 18.90/4.95 +-Applying beta-rule and splitting (2474), into two cases.
% 18.90/4.95 |-Branch one:
% 18.90/4.95 | (2204) all_0_209_209 = e21
% 18.90/4.95 |
% 18.90/4.95 | Equations (2204) can reduce 2430 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (2430) ~ (all_0_209_209 = e21)
% 18.90/4.95 | (718) all_0_209_209 = e20
% 18.90/4.95 |
% 18.90/4.95 | Equations (718) can reduce 2430 to:
% 18.90/4.95 | (731) ~ (e21 = e20)
% 18.90/4.95 |
% 18.90/4.95 | Simplifying 731 yields:
% 18.90/4.95 | (279) ~ (e21 = e20)
% 18.90/4.95 |
% 18.90/4.95 +-Applying beta-rule and splitting (9), into two cases.
% 18.90/4.95 |-Branch one:
% 18.90/4.95 | (750) all_0_194_194 = e24
% 18.90/4.95 |
% 18.90/4.95 | Equations (750) can reduce 699 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (699) ~ (all_0_194_194 = e24)
% 18.90/4.95 | (753) all_0_195_195 = e24 | all_0_197_197 = e24
% 18.90/4.95 |
% 18.90/4.95 +-Applying beta-rule and splitting (533), into two cases.
% 18.90/4.95 |-Branch one:
% 18.90/4.95 | (860) all_0_204_204 = e22
% 18.90/4.95 |
% 18.90/4.95 | Equations (860) can reduce 2576 to:
% 18.90/4.95 | (705) $false
% 18.90/4.95 |
% 18.90/4.95 |-The branch is then unsatisfiable
% 18.90/4.95 |-Branch two:
% 18.90/4.95 | (2576) ~ (all_0_204_204 = e22)
% 18.90/4.95 | (2577) all_0_204_204 = e23 | all_0_204_204 = e21
% 18.90/4.95 |
% 18.90/4.95 +-Applying beta-rule and splitting (2577), into two cases.
% 18.90/4.95 |-Branch one:
% 18.90/4.96 | (2195) all_0_204_204 = e23
% 18.90/4.96 |
% 18.90/4.96 | Equations (2195) can reduce 432 to:
% 18.90/4.96 | (2401) ~ (all_0_199_199 = e23)
% 18.90/4.96 |
% 18.90/4.96 +-Applying beta-rule and splitting (753), into two cases.
% 18.90/4.96 |-Branch one:
% 18.90/4.96 | (754) all_0_195_195 = e24
% 18.90/4.96 |
% 18.90/4.96 | From (754) and (643) follows:
% 18.90/4.96 | (2634) op2(e24, all_0_199_199) = e22
% 18.90/4.96 |
% 18.90/4.96 | From (754) and (592) follows:
% 18.90/4.96 | (2635) op2(all_0_199_199, e24) = e23
% 18.90/4.96 |
% 18.90/4.96 +-Applying beta-rule and splitting (587), into two cases.
% 18.90/4.96 |-Branch one:
% 18.90/4.96 | (820) all_0_199_199 = e22
% 18.90/4.96 |
% 18.90/4.96 | Equations (820) can reduce 823 to:
% 18.90/4.96 | (705) $false
% 18.90/4.96 |
% 18.90/4.96 |-The branch is then unsatisfiable
% 18.90/4.96 |-Branch two:
% 18.90/4.96 | (823) ~ (all_0_199_199 = e22)
% 18.90/4.96 | (2440) all_0_199_199 = e24 | all_0_199_199 = e23 | all_0_199_199 = e21
% 18.90/4.96 |
% 18.90/4.96 +-Applying beta-rule and splitting (2440), into two cases.
% 18.90/4.96 |-Branch one:
% 18.90/4.96 | (2441) all_0_199_199 = e23
% 18.90/4.96 |
% 18.90/4.96 | Equations (2441) can reduce 2401 to:
% 18.90/4.96 | (705) $false
% 18.90/4.96 |
% 18.90/4.96 |-The branch is then unsatisfiable
% 18.90/4.96 |-Branch two:
% 18.90/4.96 | (2401) ~ (all_0_199_199 = e23)
% 18.90/4.96 | (2444) all_0_199_199 = e24 | all_0_199_199 = e21
% 18.90/4.96 |
% 18.90/4.96 +-Applying beta-rule and splitting (2444), into two cases.
% 18.90/4.96 |-Branch one:
% 18.90/4.96 | (809) all_0_199_199 = e24
% 18.90/4.96 |
% 18.90/4.96 | From (809) and (2635) follows:
% 18.90/4.96 | (2483) op2(e24, e24) = e23
% 18.90/4.96 |
% 18.90/4.96 | From (809) and (2634) follows:
% 18.90/4.96 | (2482) op2(e24, e24) = e22
% 18.90/4.96 |
% 18.90/4.96 | Instantiating formula (650) with e24, e24, e24, e21 and discharging atoms op2(e24, e24) = e24, op2(e24, e24) = e21, yields:
% 18.90/4.96 | (781) e24 = e21
% 18.90/4.96 |
% 18.90/4.96 | Instantiating formula (650) with e24, e24, e23, e24 and discharging atoms op2(e24, e24) = e24, op2(e24, e24) = e23, yields:
% 18.90/4.96 | (2227) e24 = e23
% 18.90/4.96 |
% 18.90/4.96 | Instantiating formula (650) with e24, e24, e22, e23 and discharging atoms op2(e24, e24) = e23, op2(e24, e24) = e22, yields:
% 18.90/4.96 | (851) e23 = e22
% 18.90/4.96 |
% 18.90/4.96 | Instantiating formula (650) with e24, e24, e20, e22 and discharging atoms op2(e24, e24) = e22, op2(e24, e24) = e20, yields:
% 18.90/4.96 | (816) e22 = e20
% 18.90/4.96 |
% 18.90/4.96 | Combining equations (2227,781) yields a new equation:
% 18.90/4.96 | (2351) e23 = e21
% 18.90/4.96 |
% 18.90/4.96 | Simplifying 2351 yields:
% 18.90/4.96 | (2191) e23 = e21
% 18.90/4.96 |
% 18.90/4.96 | Combining equations (851,2191) yields a new equation:
% 18.90/4.96 | (880) e22 = e21
% 18.90/4.96 |
% 18.90/4.96 | Simplifying 880 yields:
% 18.90/4.96 | (881) e22 = e21
% 18.90/4.96 |
% 18.90/4.96 | Combining equations (816,881) yields a new equation:
% 18.90/4.96 | (2205) e21 = e20
% 18.90/4.96 |
% 18.90/4.96 | Equations (2205) can reduce 279 to:
% 18.90/4.96 | (705) $false
% 18.90/4.96 |
% 18.90/4.96 |-The branch is then unsatisfiable
% 18.90/4.96 |-Branch two:
% 18.90/4.96 | (2220) ~ (all_0_199_199 = e24)
% 18.90/4.96 | (2574) all_0_199_199 = e21
% 18.90/4.96 |
% 18.90/4.96 | Equations (2574) can reduce 2427 to:
% 18.90/4.96 | (705) $false
% 18.90/4.96 |
% 18.90/4.96 |-The branch is then unsatisfiable
% 18.90/4.96 |-Branch two:
% 18.90/4.96 | (727) ~ (all_0_195_195 = e24)
% 18.90/4.96 | (757) all_0_197_197 = e24
% 18.90/4.96 |
% 18.90/4.96 | Equations (757) can reduce 2377 to:
% 18.90/4.96 | (705) $false
% 18.90/4.96 |
% 18.90/4.96 |-The branch is then unsatisfiable
% 18.90/4.96 |-Branch two:
% 18.90/4.96 | (803) ~ (all_0_204_204 = e23)
% 18.90/4.96 | (805) all_0_204_204 = e21
% 18.90/4.96 |
% 18.90/4.96 | Equations (805) can reduce 708 to:
% 18.90/4.96 | (705) $false
% 18.90/4.96 |
% 18.90/4.96 |-The branch is then unsatisfiable
% 18.90/4.96 |-Branch two:
% 18.90/4.96 | (2237) ~ (all_0_207_207 = e24)
% 18.90/4.96 | (713) all_0_207_207 = e20
% 18.90/4.96 |
% 18.90/4.96 | Equations (713) can reduce 2237 to:
% 18.90/4.96 | (2258) ~ (e24 = e20)
% 18.90/4.96 |
% 18.90/4.96 | Simplifying 2258 yields:
% 18.90/4.96 | (95) ~ (e24 = e20)
% 18.90/4.96 |
% 18.90/4.96 | From (713) and (2395) follows:
% 18.90/4.96 | (742) op2(e20, e24) = e24
% 18.90/4.96 |
% 18.90/4.96 | From (713) and (642) follows:
% 18.90/4.96 | (2505) op2(e20, e24) = e20
% 18.90/4.96 |
% 18.90/4.96 | Instantiating formula (650) with e20, e24, e20, e24 and discharging atoms op2(e20, e24) = e24, op2(e20, e24) = e20, yields:
% 18.90/4.96 | (715) e24 = e20
% 18.90/4.96 |
% 18.90/4.96 | Equations (715) can reduce 95 to:
% 18.90/4.96 | (705) $false
% 18.90/4.96 |
% 18.90/4.96 |-The branch is then unsatisfiable
% 18.90/4.96 |-Branch two:
% 18.90/4.96 | (688) ~ (all_0_191_191 = e22)
% 18.90/4.96 | (2675) all_0_192_192 = e22 | all_0_193_193 = e22
% 18.90/4.96 |
% 18.90/4.96 +-Applying beta-rule and splitting (2675), into two cases.
% 18.90/4.96 |-Branch one:
% 18.90/4.96 | (2271) all_0_192_192 = e22
% 18.90/4.96 |
% 18.90/4.96 | Combining equations (2271,2225) yields a new equation:
% 18.90/4.96 | (851) e23 = e22
% 18.90/4.96 |
% 18.90/4.96 | Equations (851) can reduce 665 to:
% 18.90/4.96 | (705) $false
% 18.90/4.96 |
% 18.90/4.96 |-The branch is then unsatisfiable
% 18.90/4.96 |-Branch two:
% 18.90/4.96 | (689) ~ (all_0_192_192 = e22)
% 18.90/4.96 | (687) all_0_193_193 = e22
% 18.90/4.96 |
% 18.90/4.96 | Combining equations (2266,687) yields a new equation:
% 18.90/4.96 | (856) e24 = e22
% 18.90/4.96 |
% 18.90/4.96 | Simplifying 856 yields:
% 18.90/4.96 | (821) e24 = e22
% 18.90/4.96 |
% 18.90/4.96 | Equations (821) can reduce 502 to:
% 18.90/4.96 | (705) $false
% 18.90/4.96 |
% 18.90/4.96 |-The branch is then unsatisfiable
% 18.90/4.96 % SZS output end Proof for theBenchmark
% 18.90/4.96
% 18.90/4.96 4282ms
%------------------------------------------------------------------------------