#include "storm/modelchecker/prctl/SymbolicMdpPrctlModelChecker.h" #include "storm/modelchecker/prctl/helper/SymbolicMdpPrctlHelper.h" #include "storm/modelchecker/results/SymbolicQualitativeCheckResult.h" #include "storm/modelchecker/results/SymbolicQuantitativeCheckResult.h" #include "storm/logic/FragmentSpecification.h" #include "storm/models/symbolic/StandardRewardModel.h" #include "storm/utility/macros.h" #include "storm/utility/graph.h" #include "storm/settings/modules/GeneralSettings.h" #include "storm/exceptions/InvalidStateException.h" #include "storm/exceptions/InvalidPropertyException.h" #include "storm/exceptions/InvalidArgumentException.h" namespace storm { namespace modelchecker { template SymbolicMdpPrctlModelChecker::SymbolicMdpPrctlModelChecker(ModelType const& model, std::unique_ptr>&& linearEquationSolverFactory) : SymbolicPropositionalModelChecker(model), linearEquationSolverFactory(std::move(linearEquationSolverFactory)) { // Intentionally left empty. } template SymbolicMdpPrctlModelChecker::SymbolicMdpPrctlModelChecker(ModelType const& model) : SymbolicPropositionalModelChecker(model), linearEquationSolverFactory(new storm::solver::SymbolicGeneralMinMaxLinearEquationSolverFactory()) { // Intentionally left empty. } template bool SymbolicMdpPrctlModelChecker::canHandle(CheckTask const& checkTask) const { storm::logic::Formula const& formula = checkTask.getFormula(); return formula.isInFragment(storm::logic::prctl().setLongRunAverageRewardFormulasAllowed(false)); } template std::unique_ptr SymbolicMdpPrctlModelChecker::computeUntilProbabilities(CheckTask const& checkTask) { storm::logic::UntilFormula const& pathFormula = checkTask.getFormula(); STORM_LOG_THROW(checkTask.isOptimizationDirectionSet(), storm::exceptions::InvalidPropertyException, "Formula needs to specify whether minimal or maximal values are to be computed on nondeterministic model."); std::unique_ptr leftResultPointer = this->check(pathFormula.getLeftSubformula()); std::unique_ptr rightResultPointer = this->check(pathFormula.getRightSubformula()); SymbolicQualitativeCheckResult const& leftResult = leftResultPointer->asSymbolicQualitativeCheckResult(); SymbolicQualitativeCheckResult const& rightResult = rightResultPointer->asSymbolicQualitativeCheckResult(); return storm::modelchecker::helper::SymbolicMdpPrctlHelper::computeUntilProbabilities(checkTask.getOptimizationDirection(), this->getModel(), this->getModel().getTransitionMatrix(), leftResult.getTruthValuesVector(), rightResult.getTruthValuesVector(), checkTask.isQualitativeSet(), *this->linearEquationSolverFactory); } template std::unique_ptr SymbolicMdpPrctlModelChecker::computeGloballyProbabilities(CheckTask const& checkTask) { storm::logic::GloballyFormula const& pathFormula = checkTask.getFormula(); STORM_LOG_THROW(checkTask.isOptimizationDirectionSet(), storm::exceptions::InvalidArgumentException, "Formula needs to specify whether minimal or maximal values are to be computed on nondeterministic model."); std::unique_ptr subResultPointer = this->check(pathFormula.getSubformula()); SymbolicQualitativeCheckResult const& subResult = subResultPointer->asSymbolicQualitativeCheckResult(); return storm::modelchecker::helper::SymbolicMdpPrctlHelper::computeGloballyProbabilities(checkTask.getOptimizationDirection(), this->getModel(), this->getModel().getTransitionMatrix(), subResult.getTruthValuesVector(), checkTask.isQualitativeSet(), *this->linearEquationSolverFactory); } template std::unique_ptr SymbolicMdpPrctlModelChecker::computeNextProbabilities(CheckTask const& checkTask) { storm::logic::NextFormula const& pathFormula = checkTask.getFormula(); STORM_LOG_THROW(checkTask.isOptimizationDirectionSet(), storm::exceptions::InvalidPropertyException, "Formula needs to specify whether minimal or maximal values are to be computed on nondeterministic model."); std::unique_ptr subResultPointer = this->check(pathFormula.getSubformula()); SymbolicQualitativeCheckResult const& subResult = subResultPointer->asSymbolicQualitativeCheckResult(); return storm::modelchecker::helper::SymbolicMdpPrctlHelper::computeNextProbabilities(checkTask.getOptimizationDirection(), this->getModel(), this->getModel().getTransitionMatrix(), subResult.getTruthValuesVector()); } template std::unique_ptr SymbolicMdpPrctlModelChecker::computeBoundedUntilProbabilities(CheckTask const& checkTask) { storm::logic::BoundedUntilFormula const& pathFormula = checkTask.getFormula(); STORM_LOG_THROW(checkTask.isOptimizationDirectionSet(), storm::exceptions::InvalidArgumentException, "Formula needs to specify whether minimal or maximal values are to be computed on nondeterministic model."); STORM_LOG_THROW(!pathFormula.hasLowerBound() && pathFormula.hasUpperBound(), storm::exceptions::InvalidPropertyException, "Formula needs to have single upper time bound."); STORM_LOG_THROW(pathFormula.hasIntegerUpperBound(), storm::exceptions::InvalidPropertyException, "Formula needs to have discrete upper time bound."); std::unique_ptr leftResultPointer = this->check(pathFormula.getLeftSubformula()); std::unique_ptr rightResultPointer = this->check(pathFormula.getRightSubformula()); SymbolicQualitativeCheckResult const& leftResult = leftResultPointer->asSymbolicQualitativeCheckResult(); SymbolicQualitativeCheckResult const& rightResult = rightResultPointer->asSymbolicQualitativeCheckResult(); return storm::modelchecker::helper::SymbolicMdpPrctlHelper::computeBoundedUntilProbabilities(checkTask.getOptimizationDirection(), this->getModel(), this->getModel().getTransitionMatrix(), leftResult.getTruthValuesVector(), rightResult.getTruthValuesVector(), pathFormula.getNonStrictUpperBound(), *this->linearEquationSolverFactory); } template std::unique_ptr SymbolicMdpPrctlModelChecker::computeCumulativeRewards(storm::logic::RewardMeasureType, CheckTask const& checkTask) { storm::logic::CumulativeRewardFormula const& rewardPathFormula = checkTask.getFormula(); STORM_LOG_THROW(checkTask.isOptimizationDirectionSet(), storm::exceptions::InvalidArgumentException, "Formula needs to specify whether minimal or maximal values are to be computed on nondeterministic model."); STORM_LOG_THROW(rewardPathFormula.hasIntegerBound(), storm::exceptions::InvalidPropertyException, "Formula needs to have a discrete time bound."); return storm::modelchecker::helper::SymbolicMdpPrctlHelper::computeCumulativeRewards(checkTask.getOptimizationDirection(), this->getModel(), this->getModel().getTransitionMatrix(), checkTask.isRewardModelSet() ? this->getModel().getRewardModel(checkTask.getRewardModel()) : this->getModel().getRewardModel(""), rewardPathFormula.getNonStrictBound(), *this->linearEquationSolverFactory); } template std::unique_ptr SymbolicMdpPrctlModelChecker::computeInstantaneousRewards(storm::logic::RewardMeasureType, CheckTask const& checkTask) { storm::logic::InstantaneousRewardFormula const& rewardPathFormula = checkTask.getFormula(); STORM_LOG_THROW(checkTask.isOptimizationDirectionSet(), storm::exceptions::InvalidArgumentException, "Formula needs to specify whether minimal or maximal values are to be computed on nondeterministic model."); STORM_LOG_THROW(rewardPathFormula.hasIntegerBound(), storm::exceptions::InvalidPropertyException, "Formula needs to have a discrete time bound."); return storm::modelchecker::helper::SymbolicMdpPrctlHelper::computeInstantaneousRewards(checkTask.getOptimizationDirection(), this->getModel(), this->getModel().getTransitionMatrix(), checkTask.isRewardModelSet() ? this->getModel().getRewardModel(checkTask.getRewardModel()) : this->getModel().getRewardModel(""), rewardPathFormula.getBound(), *this->linearEquationSolverFactory); } template std::unique_ptr SymbolicMdpPrctlModelChecker::computeReachabilityRewards(storm::logic::RewardMeasureType, CheckTask const& checkTask) { storm::logic::EventuallyFormula const& eventuallyFormula = checkTask.getFormula(); STORM_LOG_THROW(checkTask.isOptimizationDirectionSet(), storm::exceptions::InvalidPropertyException, "Formula needs to specify whether minimal or maximal values are to be computed on nondeterministic model."); std::unique_ptr subResultPointer = this->check(eventuallyFormula.getSubformula()); SymbolicQualitativeCheckResult const& subResult = subResultPointer->asSymbolicQualitativeCheckResult(); return storm::modelchecker::helper::SymbolicMdpPrctlHelper::computeReachabilityRewards(checkTask.getOptimizationDirection(), this->getModel(), this->getModel().getTransitionMatrix(), checkTask.isRewardModelSet() ? this->getModel().getRewardModel(checkTask.getRewardModel()) : this->getModel().getRewardModel(""), subResult.getTruthValuesVector(), *this->linearEquationSolverFactory); } template class SymbolicMdpPrctlModelChecker>; template class SymbolicMdpPrctlModelChecker>; template class SymbolicMdpPrctlModelChecker>; } }