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177 lines
12 KiB
177 lines
12 KiB
#include "gtest/gtest.h"
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#include "storm-config.h"
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#include "src/parser/FormulaParser.h"
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#include "src/logic/Formulas.h"
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#include "src/utility/solver.h"
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#include "src/modelchecker/prctl/HybridDtmcPrctlModelChecker.h"
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#include "src/modelchecker/results/HybridQuantitativeCheckResult.h"
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#include "src/modelchecker/results/SymbolicQualitativeCheckResult.h"
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#include "src/modelchecker/results/SymbolicQuantitativeCheckResult.h"
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#include "src/parser/PrismParser.h"
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#include "src/builder/DdPrismModelBuilder.h"
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#include "src/models/symbolic/Dtmc.h"
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#include "src/models/symbolic/StandardRewardModel.h"
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#include "src/settings/SettingsManager.h"
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#include "src/settings/modules/GeneralSettings.h"
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#include "src/settings/modules/GmmxxEquationSolverSettings.h"
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#include "src/settings/modules/NativeEquationSolverSettings.h"
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TEST(GmmxxHybridDtmcPrctlModelCheckerTest, Die) {
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storm::prism::Program program = storm::parser::PrismParser::parse(STORM_CPP_TESTS_BASE_PATH "/functional/builder/die.pm");
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// A parser that we use for conveniently constructing the formulas.
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storm::parser::FormulaParser formulaParser;
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// Build the die model with its reward model.
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#ifdef WINDOWS
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storm::builder::DdPrismModelBuilder<storm::dd::DdType::CUDD>::Options options;
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#else
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typename storm::builder::DdPrismModelBuilder<storm::dd::DdType::CUDD>::Options options;
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#endif
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options.buildAllRewardModels = false;
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options.rewardModelsToBuild.insert("coin_flips");
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std::shared_ptr<storm::models::symbolic::Model<storm::dd::DdType::CUDD>> model = storm::builder::DdPrismModelBuilder<storm::dd::DdType::CUDD>::translateProgram(program, options);
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EXPECT_EQ(13ul, model->getNumberOfStates());
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EXPECT_EQ(20ul, model->getNumberOfTransitions());
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ASSERT_EQ(model->getType(), storm::models::ModelType::Dtmc);
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std::shared_ptr<storm::models::symbolic::Dtmc<storm::dd::DdType::CUDD>> dtmc = model->as<storm::models::symbolic::Dtmc<storm::dd::DdType::CUDD>>();
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storm::modelchecker::HybridDtmcPrctlModelChecker<storm::dd::DdType::CUDD, double> checker(*dtmc, std::unique_ptr<storm::utility::solver::LinearEquationSolverFactory<double>>(new storm::utility::solver::GmmxxLinearEquationSolverFactory<double>()));
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std::shared_ptr<storm::logic::Formula> formula = formulaParser.parseSingleFormulaFromString("P=? [F \"one\"]");
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std::unique_ptr<storm::modelchecker::CheckResult> result = checker.check(*formula);
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result->filter(storm::modelchecker::SymbolicQualitativeCheckResult<storm::dd::DdType::CUDD>(model->getReachableStates(), model->getInitialStates()));
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storm::modelchecker::HybridQuantitativeCheckResult<storm::dd::DdType::CUDD>& quantitativeResult1 = result->asHybridQuantitativeCheckResult<storm::dd::DdType::CUDD>();
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EXPECT_NEAR(1.0/6.0, quantitativeResult1.getMin(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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EXPECT_NEAR(1.0/6.0, quantitativeResult1.getMax(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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formula = formulaParser.parseSingleFormulaFromString("P=? [F \"two\"]");
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result = checker.check(*formula);
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result->filter(storm::modelchecker::SymbolicQualitativeCheckResult<storm::dd::DdType::CUDD>(model->getReachableStates(), model->getInitialStates()));
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storm::modelchecker::HybridQuantitativeCheckResult<storm::dd::DdType::CUDD>& quantitativeResult2 = result->asHybridQuantitativeCheckResult<storm::dd::DdType::CUDD>();
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EXPECT_NEAR(1.0/6.0, quantitativeResult2.getMin(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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EXPECT_NEAR(1.0/6.0, quantitativeResult2.getMax(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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formula = formulaParser.parseSingleFormulaFromString("P=? [F \"three\"]");
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result = checker.check(*formula);
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result->filter(storm::modelchecker::SymbolicQualitativeCheckResult<storm::dd::DdType::CUDD>(model->getReachableStates(), model->getInitialStates()));
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storm::modelchecker::HybridQuantitativeCheckResult<storm::dd::DdType::CUDD>& quantitativeResult3 = result->asHybridQuantitativeCheckResult<storm::dd::DdType::CUDD>();
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EXPECT_NEAR(1.0/6.0, quantitativeResult3.getMin(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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EXPECT_NEAR(1.0/6.0, quantitativeResult3.getMax(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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formula = formulaParser.parseSingleFormulaFromString("R=? [F \"done\"]");
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result = checker.check(*formula);
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result->filter(storm::modelchecker::SymbolicQualitativeCheckResult<storm::dd::DdType::CUDD>(model->getReachableStates(), model->getInitialStates()));
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storm::modelchecker::HybridQuantitativeCheckResult<storm::dd::DdType::CUDD>& quantitativeResult4 = result->asHybridQuantitativeCheckResult<storm::dd::DdType::CUDD>();
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EXPECT_NEAR(11.0/3.0, quantitativeResult4.getMin(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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EXPECT_NEAR(11.0/3.0, quantitativeResult4.getMax(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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}
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TEST(GmmxxHybridDtmcPrctlModelCheckerTest, Crowds) {
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storm::prism::Program program = storm::parser::PrismParser::parse(STORM_CPP_TESTS_BASE_PATH "/functional/builder/crowds-5-5.pm");
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// A parser that we use for conveniently constructing the formulas.
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storm::parser::FormulaParser formulaParser;
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std::shared_ptr<storm::models::symbolic::Model<storm::dd::DdType::CUDD>> model = storm::builder::DdPrismModelBuilder<storm::dd::DdType::CUDD>::translateProgram(program);
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EXPECT_EQ(8607ul, model->getNumberOfStates());
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EXPECT_EQ(15113ul, model->getNumberOfTransitions());
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ASSERT_EQ(model->getType(), storm::models::ModelType::Dtmc);
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std::shared_ptr<storm::models::symbolic::Dtmc<storm::dd::DdType::CUDD>> dtmc = model->as<storm::models::symbolic::Dtmc<storm::dd::DdType::CUDD>>();
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storm::modelchecker::HybridDtmcPrctlModelChecker<storm::dd::DdType::CUDD, double> checker(*dtmc, std::unique_ptr<storm::utility::solver::LinearEquationSolverFactory<double>>(new storm::utility::solver::GmmxxLinearEquationSolverFactory<double>()));
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std::shared_ptr<storm::logic::Formula> formula = formulaParser.parseSingleFormulaFromString("P=? [F \"observe0Greater1\"]");
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std::unique_ptr<storm::modelchecker::CheckResult> result = checker.check(*formula);
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result->filter(storm::modelchecker::SymbolicQualitativeCheckResult<storm::dd::DdType::CUDD>(model->getReachableStates(), model->getInitialStates()));
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storm::modelchecker::HybridQuantitativeCheckResult<storm::dd::DdType::CUDD>& quantitativeResult1 = result->asHybridQuantitativeCheckResult<storm::dd::DdType::CUDD>();
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EXPECT_NEAR(0.3328800375801578281, quantitativeResult1.getMin(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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EXPECT_NEAR(0.3328800375801578281, quantitativeResult1.getMax(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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formula = formulaParser.parseSingleFormulaFromString("P=? [F \"observeIGreater1\"]");
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result = checker.check(*formula);
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result->filter(storm::modelchecker::SymbolicQualitativeCheckResult<storm::dd::DdType::CUDD>(model->getReachableStates(), model->getInitialStates()));
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storm::modelchecker::HybridQuantitativeCheckResult<storm::dd::DdType::CUDD>& quantitativeResult2 = result->asHybridQuantitativeCheckResult<storm::dd::DdType::CUDD>();
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EXPECT_NEAR(0.1522194965, quantitativeResult2.getMin(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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EXPECT_NEAR(0.1522194965, quantitativeResult2.getMax(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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formula = formulaParser.parseSingleFormulaFromString("P=? [F \"observeOnlyTrueSender\"]");
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result = checker.check(*formula);
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result->filter(storm::modelchecker::SymbolicQualitativeCheckResult<storm::dd::DdType::CUDD>(model->getReachableStates(), model->getInitialStates()));
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storm::modelchecker::HybridQuantitativeCheckResult<storm::dd::DdType::CUDD>& quantitativeResult3 = result->asHybridQuantitativeCheckResult<storm::dd::DdType::CUDD>();
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EXPECT_NEAR(0.32153724292835045, quantitativeResult3.getMin(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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EXPECT_NEAR(0.32153724292835045, quantitativeResult3.getMax(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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}
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TEST(GmmxxHybridDtmcPrctlModelCheckerTest, SynchronousLeader) {
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storm::prism::Program program = storm::parser::PrismParser::parse(STORM_CPP_TESTS_BASE_PATH "/functional/builder/leader-3-5.pm");
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// A parser that we use for conveniently constructing the formulas.
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storm::parser::FormulaParser formulaParser;
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// Build the die model with its reward model.
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#ifdef WINDOWS
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storm::builder::DdPrismModelBuilder<storm::dd::DdType::CUDD>::Options options;
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#else
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typename storm::builder::DdPrismModelBuilder<storm::dd::DdType::CUDD>::Options options;
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#endif
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options.buildAllRewardModels = false;
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options.rewardModelsToBuild.insert("num_rounds");
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std::shared_ptr<storm::models::symbolic::Model<storm::dd::DdType::CUDD>> model = storm::builder::DdPrismModelBuilder<storm::dd::DdType::CUDD>::translateProgram(program, options);
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EXPECT_EQ(273ul, model->getNumberOfStates());
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EXPECT_EQ(397ul, model->getNumberOfTransitions());
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ASSERT_EQ(model->getType(), storm::models::ModelType::Dtmc);
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std::shared_ptr<storm::models::symbolic::Dtmc<storm::dd::DdType::CUDD>> dtmc = model->as<storm::models::symbolic::Dtmc<storm::dd::DdType::CUDD>>();
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storm::modelchecker::HybridDtmcPrctlModelChecker<storm::dd::DdType::CUDD, double> checker(*dtmc, std::unique_ptr<storm::utility::solver::LinearEquationSolverFactory<double>>(new storm::utility::solver::GmmxxLinearEquationSolverFactory<double>()));
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std::shared_ptr<storm::logic::Formula> formula = formulaParser.parseSingleFormulaFromString("P=? [F \"elected\"]");
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std::unique_ptr<storm::modelchecker::CheckResult> result = checker.check(*formula);
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result->filter(storm::modelchecker::SymbolicQualitativeCheckResult<storm::dd::DdType::CUDD>(model->getReachableStates(), model->getInitialStates()));
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storm::modelchecker::SymbolicQuantitativeCheckResult<storm::dd::DdType::CUDD>& quantitativeResult1 = result->asSymbolicQuantitativeCheckResult<storm::dd::DdType::CUDD>();
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EXPECT_NEAR(1.0, quantitativeResult1.getMin(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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EXPECT_NEAR(1.0, quantitativeResult1.getMax(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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formula = formulaParser.parseSingleFormulaFromString("P=? [F<=20 \"elected\"]");
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result = checker.check(*formula);
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result->filter(storm::modelchecker::SymbolicQualitativeCheckResult<storm::dd::DdType::CUDD>(model->getReachableStates(), model->getInitialStates()));
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storm::modelchecker::HybridQuantitativeCheckResult<storm::dd::DdType::CUDD>& quantitativeResult2 = result->asHybridQuantitativeCheckResult<storm::dd::DdType::CUDD>();
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EXPECT_NEAR(0.99999989760000074, quantitativeResult2.getMin(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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EXPECT_NEAR(0.99999989760000074, quantitativeResult2.getMax(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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formula = formulaParser.parseSingleFormulaFromString("R=? [F \"elected\"]");
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result = checker.check(*formula);
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result->filter(storm::modelchecker::SymbolicQualitativeCheckResult<storm::dd::DdType::CUDD>(model->getReachableStates(), model->getInitialStates()));
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storm::modelchecker::HybridQuantitativeCheckResult<storm::dd::DdType::CUDD>& quantitativeResult3 = result->asHybridQuantitativeCheckResult<storm::dd::DdType::CUDD>();
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EXPECT_NEAR(1.0416666666666643, quantitativeResult3.getMin(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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EXPECT_NEAR(1.0416666666666643, quantitativeResult3.getMax(), storm::settings::gmmxxEquationSolverSettings().getPrecision());
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}
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