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(LTL) SparseDtmcModelChecker: Implement LTL model checking

Conflicts:
	src/storm/modelchecker/prctl/SparseDtmcPrctlModelChecker.cpp
	src/storm/modelchecker/prctl/SparseDtmcPrctlModelChecker.h
tempestpy_adaptions
Joachim Klein 4 years ago
committed by Stefan Pranger
parent
commit
1243b9300c
  1. 79
      src/storm/modelchecker/prctl/SparseDtmcPrctlModelChecker.cpp
  2. 1
      src/storm/modelchecker/prctl/SparseDtmcPrctlModelChecker.h

79
src/storm/modelchecker/prctl/SparseDtmcPrctlModelChecker.cpp

@ -18,10 +18,17 @@
#include "storm/modelchecker/helper/utility/SetInformationFromCheckTask.h" #include "storm/modelchecker/helper/utility/SetInformationFromCheckTask.h"
#include "storm/logic/FragmentSpecification.h" #include "storm/logic/FragmentSpecification.h"
#include "storm/logic/ExtractMaximalStateFormulasVisitor.h"
#include "storm/automata/AcceptanceCondition.h"
#include "storm/automata/DeterministicAutomaton.h"
#include "storm/automata/LTL2DeterministicAutomaton.h"
#include "storm/models/sparse/StandardRewardModel.h" #include "storm/models/sparse/StandardRewardModel.h"
#include "storm/settings/SettingsManager.h"
#include "storm/settings/modules/GeneralSettings.h" #include "storm/settings/modules/GeneralSettings.h"
#include "storm/settings/modules/DebugSettings.h"
#include "storm/exceptions/InvalidStateException.h" #include "storm/exceptions/InvalidStateException.h"
@ -37,7 +44,7 @@ namespace storm {
template<typename SparseDtmcModelType> template<typename SparseDtmcModelType>
bool SparseDtmcPrctlModelChecker<SparseDtmcModelType>::canHandleStatic(CheckTask<storm::logic::Formula, ValueType> const& checkTask, bool* requiresSingleInitialState) { bool SparseDtmcPrctlModelChecker<SparseDtmcModelType>::canHandleStatic(CheckTask<storm::logic::Formula, ValueType> const& checkTask, bool* requiresSingleInitialState) {
storm::logic::Formula const& formula = checkTask.getFormula(); storm::logic::Formula const& formula = checkTask.getFormula();
if (formula.isInFragment(storm::logic::prctl().setLongRunAverageRewardFormulasAllowed(true).setLongRunAverageProbabilitiesAllowed(true).setConditionalProbabilityFormulasAllowed(true).setConditionalRewardFormulasAllowed(true).setTotalRewardFormulasAllowed(true).setOnlyEventuallyFormuluasInConditionalFormulasAllowed(true).setRewardBoundedUntilFormulasAllowed(true).setRewardBoundedCumulativeRewardFormulasAllowed(true).setMultiDimensionalBoundedUntilFormulasAllowed(true).setMultiDimensionalCumulativeRewardFormulasAllowed(true).setTimeOperatorsAllowed(true).setReachbilityTimeFormulasAllowed(true).setRewardAccumulationAllowed(true))) {
if (formula.isInFragment(storm::logic::prctlstar().setLongRunAverageRewardFormulasAllowed(true).setLongRunAverageProbabilitiesAllowed(true).setConditionalProbabilityFormulasAllowed(true).setConditionalRewardFormulasAllowed(true).setTotalRewardFormulasAllowed(true).setOnlyEventuallyFormuluasInConditionalFormulasAllowed(true).setRewardBoundedUntilFormulasAllowed(true).setRewardBoundedCumulativeRewardFormulasAllowed(true).setMultiDimensionalBoundedUntilFormulasAllowed(true).setMultiDimensionalCumulativeRewardFormulasAllowed(true).setTimeOperatorsAllowed(true).setReachbilityTimeFormulasAllowed(true).setRewardAccumulationAllowed(true).setHOAPathFormulasAllowed(true))) {
return true; return true;
} else if (checkTask.isOnlyInitialStatesRelevantSet() && formula.isInFragment(storm::logic::quantiles())) { } else if (checkTask.isOnlyInitialStatesRelevantSet() && formula.isInFragment(storm::logic::quantiles())) {
if (requiresSingleInitialState) { if (requiresSingleInitialState) {
@ -114,6 +121,76 @@ namespace storm {
return std::unique_ptr<CheckResult>(new ExplicitQuantitativeCheckResult<ValueType>(std::move(numericResult))); return std::unique_ptr<CheckResult>(new ExplicitQuantitativeCheckResult<ValueType>(std::move(numericResult)));
} }
template<typename SparseDtmcModelType>
std::unique_ptr<CheckResult> SparseDtmcPrctlModelChecker<SparseDtmcModelType>::computeHOAPathProbabilities(Environment const& env, CheckTask<storm::logic::HOAPathFormula, ValueType> const& checkTask) {
storm::logic::HOAPathFormula const& pathFormula = checkTask.getFormula();
STORM_LOG_INFO("Obtaining HOA automaton...");
storm::automata::DeterministicAutomaton::ptr da = pathFormula.readAutomaton();
const storm::automata::APSet& apSet = da->getAPSet();
STORM_LOG_INFO("Deterministic automaton from HOA file has "
<< da->getNumberOfStates() << " states, "
<< da->getAPSet().size() << " atomic propositions and "
<< *da->getAcceptance()->getAcceptanceExpression() << " as acceptance condition.");
std::map<std::string, storm::storage::BitVector> apSets;
for (std::string const& ap : apSet.getAPs()) {
std::shared_ptr<storm::logic::Formula const> expression = pathFormula.getAPMapping().at(ap);
STORM_LOG_INFO("Computing satisfaction set for atomic proposition \"" << ap << "\" <=> " << *expression << "...");
std::unique_ptr<CheckResult> resultPointer = this->check(*expression);
ExplicitQualitativeCheckResult const& result = resultPointer->asExplicitQualitativeCheckResult();
storm::storage::BitVector bitVector = result.getTruthValuesVector();
STORM_LOG_INFO("Atomic proposition \"" << ap << "\" is satisfied by " << bitVector.getNumberOfSetBits() << " states.");
apSets[ap] = std::move(bitVector);
}
const SparseDtmcModelType& dtmc = this->getModel();
storm::solver::SolveGoal<ValueType> goal(dtmc, checkTask);
std::vector<ValueType> numericResult = storm::modelchecker::helper::SparseDtmcPrctlHelper<ValueType>::computeDAProductProbabilities(env, dtmc, std::move(goal), *da, apSets, checkTask.isQualitativeSet());
return std::unique_ptr<CheckResult>(new ExplicitQuantitativeCheckResult<ValueType>(std::move(numericResult)));
}
template<typename SparseDtmcModelType>
std::unique_ptr<CheckResult> SparseDtmcPrctlModelChecker<SparseDtmcModelType>::computeLTLProbabilities(Environment const& env, CheckTask<storm::logic::PathFormula, ValueType> const& checkTask) {
storm::logic::PathFormula const& pathFormula = checkTask.getFormula();
std::vector<storm::logic::ExtractMaximalStateFormulasVisitor::LabelFormulaPair> extracted;
std::shared_ptr<storm::logic::Formula> ltlFormula = storm::logic::ExtractMaximalStateFormulasVisitor::extract(pathFormula, extracted);
STORM_LOG_INFO("Extracting maximal state formulas and computing satisfaction sets for path formula: " << pathFormula);
std::map<std::string, storm::storage::BitVector> apSets;
for (auto& p : extracted) {
STORM_LOG_INFO(" Computing satisfaction set for atomic proposition \"" << p.first << "\" <=> " << *p.second << "...");
std::unique_ptr<CheckResult> subResultPointer = this->check(env, *p.second);
ExplicitQualitativeCheckResult const& subResult = subResultPointer->asExplicitQualitativeCheckResult();
auto sat = subResult.getTruthValuesVector();
STORM_LOG_INFO(" Atomic proposition \"" << p.first << "\" is satisfied by " << sat.getNumberOfSetBits() << " states.");
apSets[p.first] = std::move(sat);
}
STORM_LOG_INFO("Resulting LTL path formula: " << *ltlFormula);
STORM_LOG_INFO(" in prefix format: " << ltlFormula->toPrefixString());
std::shared_ptr<storm::automata::DeterministicAutomaton> da = storm::automata::LTL2DeterministicAutomaton::ltl2da(*ltlFormula);
STORM_LOG_INFO("Deterministic automaton for LTL formula has "
<< da->getNumberOfStates() << " states, "
<< da->getAPSet().size() << " atomic propositions and "
<< *da->getAcceptance()->getAcceptanceExpression() << " as acceptance condition.");
const SparseDtmcModelType& dtmc = this->getModel();
storm::solver::SolveGoal<ValueType> goal(dtmc, checkTask);
std::vector<ValueType> numericResult = storm::modelchecker::helper::SparseDtmcPrctlHelper<ValueType>::computeDAProductProbabilities(env, dtmc, std::move(goal), *da, apSets, checkTask.isQualitativeSet());
return std::unique_ptr<CheckResult>(new ExplicitQuantitativeCheckResult<ValueType>(std::move(numericResult)));
}
template<typename SparseDtmcModelType> template<typename SparseDtmcModelType>
std::unique_ptr<CheckResult> SparseDtmcPrctlModelChecker<SparseDtmcModelType>::computeCumulativeRewards(Environment const& env, storm::logic::RewardMeasureType, CheckTask<storm::logic::CumulativeRewardFormula, ValueType> const& checkTask) { std::unique_ptr<CheckResult> SparseDtmcPrctlModelChecker<SparseDtmcModelType>::computeCumulativeRewards(Environment const& env, storm::logic::RewardMeasureType, CheckTask<storm::logic::CumulativeRewardFormula, ValueType> const& checkTask) {
storm::logic::CumulativeRewardFormula const& rewardPathFormula = checkTask.getFormula(); storm::logic::CumulativeRewardFormula const& rewardPathFormula = checkTask.getFormula();

1
src/storm/modelchecker/prctl/SparseDtmcPrctlModelChecker.h

@ -32,6 +32,7 @@ namespace storm {
virtual std::unique_ptr<CheckResult> computeGloballyProbabilities(Environment const& env, CheckTask<storm::logic::GloballyFormula, ValueType> const& checkTask) override; virtual std::unique_ptr<CheckResult> computeGloballyProbabilities(Environment const& env, CheckTask<storm::logic::GloballyFormula, ValueType> const& checkTask) override;
virtual std::unique_ptr<CheckResult> computeConditionalProbabilities(Environment const& env, CheckTask<storm::logic::ConditionalFormula, ValueType> const& checkTask) override; virtual std::unique_ptr<CheckResult> computeConditionalProbabilities(Environment const& env, CheckTask<storm::logic::ConditionalFormula, ValueType> const& checkTask) override;
virtual std::unique_ptr<CheckResult> computeLongRunAverageProbabilities(Environment const& env, CheckTask<storm::logic::StateFormula, ValueType> const& checkTask) override; virtual std::unique_ptr<CheckResult> computeLongRunAverageProbabilities(Environment const& env, CheckTask<storm::logic::StateFormula, ValueType> const& checkTask) override;
virtual std::unique_ptr<CheckResult> computeLTLProbabilities(Environment const& env, CheckTask<storm::logic::PathFormula, ValueType> const& checkTask) override;
virtual std::unique_ptr<CheckResult> computeCumulativeRewards(Environment const& env, storm::logic::RewardMeasureType rewardMeasureType, CheckTask<storm::logic::CumulativeRewardFormula, ValueType> const& checkTask) override; virtual std::unique_ptr<CheckResult> computeCumulativeRewards(Environment const& env, storm::logic::RewardMeasureType rewardMeasureType, CheckTask<storm::logic::CumulativeRewardFormula, ValueType> const& checkTask) override;
virtual std::unique_ptr<CheckResult> computeInstantaneousRewards(Environment const& env, storm::logic::RewardMeasureType rewardMeasureType, CheckTask<storm::logic::InstantaneousRewardFormula, ValueType> const& checkTask) override; virtual std::unique_ptr<CheckResult> computeInstantaneousRewards(Environment const& env, storm::logic::RewardMeasureType rewardMeasureType, CheckTask<storm::logic::InstantaneousRewardFormula, ValueType> const& checkTask) override;

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