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tempest/src/modelchecker/csl/SparseCtmcCslModelChecker.cpp

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#include "src/modelchecker/csl/SparseCtmcCslModelChecker.h"
#include "src/modelchecker/csl/helper/SparseCtmcCslHelper.h"
#include "src/modelchecker/prctl/helper/SparseDtmcPrctlHelper.h"
#include "src/models/sparse/StandardRewardModel.h"
#include "src/utility/macros.h"
#include "src/utility/vector.h"
#include "src/utility/graph.h"
#include "src/utility/solver.h"
#include "src/modelchecker/results/ExplicitQualitativeCheckResult.h"
#include "src/modelchecker/results/ExplicitQuantitativeCheckResult.h"
#include "src/exceptions/InvalidStateException.h"
#include "src/exceptions/InvalidPropertyException.h"
#include "src/exceptions/NotImplementedException.h"
namespace storm {
namespace modelchecker {
template <typename SparseCtmcModelType>
SparseCtmcCslModelChecker<SparseCtmcModelType>::SparseCtmcCslModelChecker(SparseCtmcModelType const& model) : SparsePropositionalModelChecker<SparseCtmcModelType>(model), linearEquationSolverFactory(new storm::utility::solver::LinearEquationSolverFactory<ValueType>()) {
// Intentionally left empty.
}
template <typename SparseCtmcModelType>
SparseCtmcCslModelChecker<SparseCtmcModelType>::SparseCtmcCslModelChecker(SparseCtmcModelType const& model, std::unique_ptr<storm::utility::solver::LinearEquationSolverFactory<ValueType>>&& linearEquationSolverFactory) : SparsePropositionalModelChecker<SparseCtmcModelType>(model), linearEquationSolverFactory(std::move(linearEquationSolverFactory)) {
// Intentionally left empty.
}
template <typename SparseCtmcModelType>
bool SparseCtmcCslModelChecker<SparseCtmcModelType>::canHandle(storm::logic::Formula const& formula) const {
return formula.isCslStateFormula() || formula.isCslPathFormula() || formula.isRewardPathFormula();
}
template <typename SparseCtmcModelType>
std::unique_ptr<CheckResult> SparseCtmcCslModelChecker<SparseCtmcModelType>::computeBoundedUntilProbabilities(storm::logic::BoundedUntilFormula const& pathFormula, bool qualitative, boost::optional<storm::logic::OptimalityType> const& optimalityType) {
std::unique_ptr<CheckResult> leftResultPointer = this->check(pathFormula.getLeftSubformula());
std::unique_ptr<CheckResult> rightResultPointer = this->check(pathFormula.getRightSubformula());
ExplicitQualitativeCheckResult const& leftResult = leftResultPointer->asExplicitQualitativeCheckResult();;
ExplicitQualitativeCheckResult const& rightResult = rightResultPointer->asExplicitQualitativeCheckResult();
double lowerBound = 0;
double upperBound = 0;
if (!pathFormula.hasDiscreteTimeBound()) {
std::pair<double, double> const& intervalBounds = pathFormula.getIntervalBounds();
lowerBound = intervalBounds.first;
upperBound = intervalBounds.second;
} else {
upperBound = pathFormula.getDiscreteTimeBound();
}
std::vector<ValueType> numericResult = storm::modelchecker::helper::SparseCtmcCslHelper<ValueType>::computeBoundedUntilProbabilities(this->getModel().getTransitionMatrix(), this->getModel().getBackwardTransitions(), leftResult.getTruthValuesVector(), rightResult.getTruthValuesVector(), this->getModel().getExitRateVector(), qualitative, lowerBound, upperBound, *linearEquationSolverFactory);
return std::unique_ptr<CheckResult>(new ExplicitQuantitativeCheckResult<ValueType>(std::move(numericResult)));
}
template <typename SparseCtmcModelType>
std::unique_ptr<CheckResult> SparseCtmcCslModelChecker<SparseCtmcModelType>::computeNextProbabilities(storm::logic::NextFormula const& pathFormula, bool qualitative, boost::optional<storm::logic::OptimalityType> const& optimalityType) {
std::unique_ptr<CheckResult> subResultPointer = this->check(pathFormula.getSubformula());
ExplicitQualitativeCheckResult const& subResult = subResultPointer->asExplicitQualitativeCheckResult();
std::vector<ValueType> numericResult = storm::modelchecker::helper::SparseCtmcCslHelper<ValueType>::computeNextProbabilities(this->getModel().getTransitionMatrix(), this->getModel().getExitRateVector(), subResult.getTruthValuesVector(), *linearEquationSolverFactory);
return std::unique_ptr<CheckResult>(new ExplicitQuantitativeCheckResult<ValueType>(std::move(numericResult)));
}
template <typename SparseCtmcModelType>
std::unique_ptr<CheckResult> SparseCtmcCslModelChecker<SparseCtmcModelType>::computeUntilProbabilities(storm::logic::UntilFormula const& pathFormula, bool qualitative, boost::optional<storm::logic::OptimalityType> const& optimalityType) {
std::unique_ptr<CheckResult> leftResultPointer = this->check(pathFormula.getLeftSubformula());
std::unique_ptr<CheckResult> rightResultPointer = this->check(pathFormula.getRightSubformula());
ExplicitQualitativeCheckResult const& leftResult = leftResultPointer->asExplicitQualitativeCheckResult();
ExplicitQualitativeCheckResult const& rightResult = rightResultPointer->asExplicitQualitativeCheckResult();
std::vector<ValueType> numericResult = storm::modelchecker::helper::SparseCtmcCslHelper<ValueType>::computeUntilProbabilities(this->getModel().getTransitionMatrix(), this->getModel().getBackwardTransitions(), this->getModel().getExitRateVector(), leftResult.getTruthValuesVector(), rightResult.getTruthValuesVector(), qualitative, *this->linearEquationSolverFactory);
return std::unique_ptr<CheckResult>(new ExplicitQuantitativeCheckResult<ValueType>(std::move(numericResult)));
}
template <typename SparseCtmcModelType>
std::unique_ptr<CheckResult> SparseCtmcCslModelChecker<SparseCtmcModelType>::computeInstantaneousRewards(storm::logic::InstantaneousRewardFormula const& rewardPathFormula, boost::optional<std::string> const& rewardModelName, bool qualitative, boost::optional<storm::logic::OptimalityType> const& optimalityType) {
std::vector<ValueType> numericResult = storm::modelchecker::helper::SparseCtmcCslHelper<ValueType>::computeInstantaneousRewards(this->getModel().getTransitionMatrix(), this->getModel().getExitRateVector(), rewardModelName ? this->getModel().getRewardModel(rewardModelName.get()) : this->getModel().getRewardModel(""), rewardPathFormula.getContinuousTimeBound(), *linearEquationSolverFactory);
return std::unique_ptr<CheckResult>(new ExplicitQuantitativeCheckResult<ValueType>(std::move(numericResult)));
}
template <typename SparseCtmcModelType>
std::unique_ptr<CheckResult> SparseCtmcCslModelChecker<SparseCtmcModelType>::computeCumulativeRewards(storm::logic::CumulativeRewardFormula const& rewardPathFormula, boost::optional<std::string> const& rewardModelName, bool qualitative, boost::optional<storm::logic::OptimalityType> const& optimalityType) {
std::vector<ValueType> numericResult = storm::modelchecker::helper::SparseCtmcCslHelper<ValueType>::computeCumulativeRewards(this->getModel().getTransitionMatrix(), this->getModel().getExitRateVector(), rewardModelName ? this->getModel().getRewardModel(rewardModelName.get()) : this->getModel().getRewardModel(""), rewardPathFormula.getContinuousTimeBound(), *linearEquationSolverFactory);
return std::unique_ptr<CheckResult>(new ExplicitQuantitativeCheckResult<ValueType>(std::move(numericResult)));
}
template <typename SparseCtmcModelType>
std::unique_ptr<CheckResult> SparseCtmcCslModelChecker<SparseCtmcModelType>::computeReachabilityRewards(storm::logic::ReachabilityRewardFormula const& rewardPathFormula, boost::optional<std::string> const& rewardModelName, bool qualitative, boost::optional<storm::logic::OptimalityType> const& optimalityType) {
std::unique_ptr<CheckResult> subResultPointer = this->check(rewardPathFormula.getSubformula());
ExplicitQualitativeCheckResult const& subResult = subResultPointer->asExplicitQualitativeCheckResult();
std::vector<ValueType> numericResult = storm::modelchecker::helper::SparseCtmcCslHelper<ValueType>::computeReachabilityRewards(this->getModel().getTransitionMatrix(), this->getModel().getBackwardTransitions(), this->getModel().getExitRateVector(), rewardModelName ? this->getModel().getRewardModel(rewardModelName.get()) : this->getModel().getRewardModel(""), subResult.getTruthValuesVector(), qualitative, *linearEquationSolverFactory);
return std::unique_ptr<CheckResult>(new ExplicitQuantitativeCheckResult<ValueType>(std::move(numericResult)));
}
template <typename SparseCtmcModelType>
std::unique_ptr<CheckResult> SparseCtmcCslModelChecker<SparseCtmcModelType>::computeLongRunAverage(storm::logic::StateFormula const& stateFormula, bool qualitative, boost::optional<storm::logic::OptimalityType> const& optimalityType) {
std::unique_ptr<CheckResult> subResultPointer = this->check(stateFormula);
ExplicitQualitativeCheckResult const& subResult = subResultPointer->asExplicitQualitativeCheckResult();
storm::storage::SparseMatrix<ValueType> probabilityMatrix = storm::modelchecker::helper::SparseCtmcCslHelper<ValueType>::computeProbabilityMatrix(this->getModel().getTransitionMatrix(), this->getModel().getExitRateVector());
std::vector<ValueType> numericResult = storm::modelchecker::helper::SparseCtmcCslHelper<ValueType>::computeLongRunAverage(probabilityMatrix, subResult.getTruthValuesVector(), &this->getModel().getExitRateVector(), qualitative, *linearEquationSolverFactory);
return std::unique_ptr<CheckResult>(new ExplicitQuantitativeCheckResult<ValueType>(std::move(numericResult)));
}
// Explicitly instantiate the model checker.
template class SparseCtmcCslModelChecker<storm::models::sparse::Ctmc<double>>;
} // namespace modelchecker
} // namespace storm