/****************************************************************************** * Top contributors (to current version): * Andrew Reynolds * * This file is part of the cvc5 project. * * Copyright (c) 2009-2023 by the authors listed in the file AUTHORS * in the top-level source directory and their institutional affiliations. * All rights reserved. See the file COPYING in the top-level source * directory for licensing information. * **************************************************************************** * * Test for project issue #573 * */ #include using namespace cvc5; int main(void) { Solver solver; solver.setOption("incremental", "false"); solver.setOption("produce-models", "true"); Sort s0 = solver.getRoundingModeSort(); Sort s1 = solver.mkFloatingPointSort(5, 11); Sort s2 = solver.mkBitVectorSort(1); Sort s3 = solver.mkBitVectorSort(5); Sort s4 = solver.mkBitVectorSort(10); Sort s5 = solver.mkBitVectorSort(16); Sort s6 = solver.mkFloatingPointSort(11, 53); Sort s7 = solver.mkBitVectorSort(1); Sort s8 = solver.mkBitVectorSort(11); Sort s9 = solver.mkBitVectorSort(52); Sort s10 = solver.mkBitVectorSort(64); DatatypeDecl d11 = solver.mkDatatypeDecl("_dt0"); DatatypeConstructorDecl dtcd12 = solver.mkDatatypeConstructorDecl("_cons2"); dtcd12.addSelector("_sel1", s8); d11.addConstructor(dtcd12); std::vector v13 = solver.mkDatatypeSorts({d11}); Sort s14 = v13[0]; Term t15 = solver.mkRoundingMode(cvc5::RoundingMode::ROUND_TOWARD_ZERO); Term t16 = solver.mkVar(s5, "_f3_0"); Term t17 = solver.mkVar(s8, "_f3_1"); Term t18 = solver.mkVar(s5, "_f3_2"); Op o19 = solver.mkOp(Kind::EQUAL); Term t20 = solver.mkTerm(o19, {t15, t15}); Sort s21 = t20.getSort(); Term t22 = solver.mkTerm(Kind::DISTINCT, {t20, t20}); Term t23 = solver.mkTerm(Kind::AND, {t22, t22}); Op o24 = solver.mkOp(Kind::SET_SINGLETON); Term t25 = solver.mkTerm(o24, {t20}); Sort s26 = t25.getSort(); Op o27 = solver.mkOp(Kind::SET_CHOOSE); Term t28 = solver.mkTerm(o27, {t25}); Op o29 = solver.mkOp(Kind::SET_INSERT); Term t30 = solver.mkTerm(o29, {t20, t25}); Op o31 = solver.mkOp(Kind::IMPLIES); Term t32 = solver.mkTerm(o31, {t20, t23}); Op o33 = solver.mkOp(Kind::SET_INSERT); Term t34 = solver.mkTerm(o29, {t32, t25}); Term t35 = solver.mkTerm(Kind::SET_CHOOSE, {t34}); Term t36 = solver.mkVar(s14, "_f4_0"); Term t37 = solver.mkVar(s9, "_f4_1"); Op o38 = solver.mkOp(Kind::SET_CHOOSE); Term t39 = solver.mkTerm(o27, {t25}); Op o40 = solver.mkOp(Kind::APPLY_SELECTOR); Datatype dt41 = s14.getDatatype(); DatatypeConstructor dtc42 = dt41.operator[]("_cons2"); DatatypeSelector dts43 = dtc42.getSelector("_sel1"); Term t44 = dts43.getTerm(); Sort s45 = t44.getSort(); Term t46 = solver.mkTerm(o40, {t44, t36}); Op o47 = solver.mkOp(Kind::APPLY_UPDATER); Datatype dt48 = s14.getDatatype(); DatatypeConstructor dtc49 = dt41.operator[]("_cons2"); DatatypeSelector dts50 = dtc42.getSelector("_sel1"); Term t51 = dts43.getUpdaterTerm(); Sort s52 = t51.getSort(); Term t53 = solver.mkTerm(o47, {t51, t36, t46}); Op o54 = solver.mkOp(Kind::SET_CHOOSE); Term t55 = solver.mkTerm(o27, {t25}); Op o56 = solver.mkOp(Kind::APPLY_UPDATER); Datatype dt57 = s14.getDatatype(); DatatypeConstructor dtc58 = dt41.operator[]("_cons2"); DatatypeSelector dts59 = dtc42.getSelector("_sel1"); Term t60 = dts43.getUpdaterTerm(); Term t61 = solver.mkTerm(o47, {t51, t53, t46}); Op o62 = solver.mkOp(Kind::DISTINCT); Term t63 = solver.mkTerm(o62, {t25, t25}); Term t64 = solver.mkVar(s10, "_f5_0"); Term t65 = solver.mkVar(s21, "_f5_1"); Term t66 = solver.mkTerm(Kind::SET_CHOOSE, {t25}); Op o67 = solver.mkOp(Kind::ITE); Term t68 = t20.iteTerm(t25, t25); Op o69 = solver.mkOp(Kind::SET_CHOOSE); Term t70 = solver.mkTerm(o27, {t25}); Term t71 = solver.mkTerm(Kind::EQUAL, {t25, t25}); Term t72 = solver.mkVar(s6, "_f6_0"); Term t73 = solver.mkVar(s9, "_f6_1"); Op o74 = solver.mkOp(Kind::SET_CHOOSE); Term t75 = solver.mkTerm(o27, {t25}); Op o76 = solver.mkOp(Kind::FLOATINGPOINT_DIV); Term t77 = solver.mkTerm(o76, {t15, t72, t72}); Op o78 = solver.mkOp(Kind::SET_CHOOSE); Term t79 = solver.mkTerm(o27, {t25}); Op o80 = solver.mkOp(Kind::FLOATINGPOINT_REM); Term t81 = solver.mkTerm(o80, {t77, t72}); Op o82 = solver.mkOp(Kind::ITE); Term t83 = solver.mkTerm(o67, {t20, t73, t73}); Op o84 = solver.mkOp(Kind::FLOATINGPOINT_TO_FP_FROM_UBV, {11, 53}); Term t85 = solver.mkTerm(o84, {t15, t83}); Op o86 = solver.mkOp(Kind::SET_CHOOSE); Term t87 = solver.mkTerm(o27, {t25}); Op o88 = solver.mkOp(Kind::FLOATINGPOINT_MIN); Term t89 = solver.mkTerm(o88, {t77, t77}); Op o90 = solver.mkOp(Kind::SET_CHOOSE); Term t91 = solver.mkTerm(o27, {t25}); Op o92 = solver.mkOp(Kind::SET_CHOOSE); Term t93 = solver.mkTerm(o27, {t25}); Op o94 = solver.mkOp(Kind::FLOATINGPOINT_MIN); Term t95 = solver.mkTerm(o88, {t77, t77}); Op o96 = solver.mkOp(Kind::SET_CHOOSE); Term t97 = solver.mkTerm(o27, {t25}); Op o98 = solver.mkOp(Kind::FLOATINGPOINT_FMA); Term t99 = solver.mkTerm(o98, {t15, t77, t77, t77}); Op o100 = solver.mkOp(Kind::ITE); Term t101 = solver.mkTerm(o67, {t35, t20, t20}); Op o102 = solver.mkOp(Kind::SET_CHOOSE); Term t103 = solver.mkTerm(o27, {t25}); Op o104 = solver.mkOp(Kind::SET_CHOOSE); Term t105 = solver.mkTerm(o27, {t25}); Op o106 = solver.mkOp(Kind::FLOATINGPOINT_NEG); Term t107 = solver.mkTerm(o106, {t77}); Op o108 = solver.mkOp(Kind::ITE); Term t109 = solver.mkTerm(o67, {t101, t101, t20}); Term t110 = solver.mkVar(s26, "_f7_0"); Term t111 = solver.mkVar(s4, "_f7_1"); Term t112 = solver.mkVar(s8, "_f7_2"); solver.assertFormula(t109); solver.checkSat(); solver.blockModel(cvc5::modes::BlockModelsMode::LITERALS); return 0; }