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initial draft of long-run rewards for parametric models

Former-commit-id: 991512a57d
tempestpy_adaptions
dehnert 9 years ago
parent
commit
0ffbda5aff
  1. 9
      examples/pdtmc/tiny/tiny.pm
  2. 3
      src/builder/ExplicitPrismModelBuilder.cpp
  3. 2
      src/modelchecker/AbstractModelChecker.cpp
  4. 111
      src/modelchecker/reachability/SparseDtmcEliminationModelChecker.cpp
  5. 2
      src/modelchecker/reachability/SparseDtmcEliminationModelChecker.h

9
examples/pdtmc/tiny/tiny.pm

@ -1,11 +1,16 @@
dtmc
module tiny
s : [0 .. 2] init 0;
s : [0 .. 3] init 0;
[] s = 0 -> 1/2 : (s'=1) + 1/2 : (s'=2);
[] s = 0 -> 1/3 : (s'=1) + 1/3 : (s'=2) + 1/3 : (s'=3);
[] s = 1 -> 1 : (s'=2);
[] s = 2 -> 1/2 : (s'=2) + 1/2 : (s'=1);
[] s = 3 -> 1 : (s'=3);
endmodule
rewards
s=1 : 10;
s=3 : 5;
endrewards

3
src/builder/ExplicitPrismModelBuilder.cpp

@ -1016,9 +1016,6 @@ namespace storm {
for (auto const& bitVectorIndexPair : internalStateInformation.stateStorage) {
stateInformation.get().valuations[bitVectorIndexPair.second] = unpackStateIntoValuation(bitVectorIndexPair.first, variableInformation);
}
for (auto const& el : stateInformation.get().valuations) {
std::cout << "state: " << el << std::endl;
}
}
return modelComponents;

2
src/modelchecker/AbstractModelChecker.cpp

@ -72,7 +72,7 @@ namespace storm {
return this->computeInstantaneousRewards(rewardPathFormula.asInstantaneousRewardFormula(), rewardModelName, qualitative, optimalityType);
} else if (rewardPathFormula.isReachabilityRewardFormula()) {
return this->computeReachabilityRewards(rewardPathFormula.asReachabilityRewardFormula(), rewardModelName, qualitative, optimalityType);
} else if (rewardPathFormula.isLongRunAverageOperatorFormula()) {
} else if (rewardPathFormula.isLongRunAverageRewardFormula()) {
return this->computeLongRunAverageRewards(rewardPathFormula.asLongRunAverageRewardFormula(), rewardModelName, qualitative, optimalityType);
}
STORM_LOG_THROW(false, storm::exceptions::InvalidArgumentException, "The given formula '" << rewardPathFormula << "' is invalid.");

111
src/modelchecker/reachability/SparseDtmcEliminationModelChecker.cpp

@ -164,11 +164,9 @@ namespace storm {
}
if (furtherComputationNeeded) {
storm::storage::BitVector allStates(transitionMatrix.getRowCount(), true);
if (computeResultsForInitialStatesOnly) {
// Determine the set of states that is reachable from the initial state without jumping over a target state.
storm::storage::BitVector reachableStates = storm::utility::graph::getReachableStates(transitionMatrix, initialStates, allStates, allStates, true);
storm::storage::BitVector reachableStates = storm::utility::graph::getReachableStates(transitionMatrix, initialStates, storm::storage::BitVector(numberOfStates, true), storm::storage::BitVector(numberOfStates, false));
// Subtract from the maybe states the set of states that is not reachable (on a path from the initial to a target state).
maybeStates &= reachableStates;
@ -176,7 +174,7 @@ namespace storm {
std::vector<ValueType> stateValues(maybeStates.size(), storm::utility::zero<ValueType>());
storm::utility::vector::setVectorValues(stateValues, psiStates, storm::utility::one<ValueType>());
result = computeLongRunValues(transitionMatrix, this->getModel().getBackwardTransitions(), initialStates, maybeStates, computeResultsForInitialStatesOnly, stateValues);
result = computeLongRunValues(transitionMatrix, backwardTransitions, initialStates, maybeStates, computeResultsForInitialStatesOnly, stateValues);
}
// Construct check result based on whether we have computed values for all states or just the initial states.
@ -191,26 +189,81 @@ namespace storm {
template<typename SparseDtmcModelType>
std::unique_ptr<CheckResult> SparseDtmcEliminationModelChecker<SparseDtmcModelType>::computeLongRunAverageRewards(storm::logic::LongRunAverageRewardFormula const& rewardPathFormula, boost::optional<std::string> const& rewardModelName, bool qualitative, boost::optional<OptimizationDirection> const& optimalityType) {
// FIXME
return nullptr;
// Do some sanity checks to establish some required properties.
RewardModelType const& rewardModel = this->getModel().getRewardModel(rewardModelName ? rewardModelName.get() : "");
STORM_LOG_THROW(!rewardModel.empty(), storm::exceptions::IllegalArgumentException, "Input model does not have a reward model.");
storm::storage::BitVector const& initialStates = this->getModel().getInitialStates();
STORM_LOG_THROW(initialStates.getNumberOfSetBits() == 1, storm::exceptions::IllegalArgumentException, "Input model is required to have exactly one initial state.");
STORM_LOG_THROW(this->computeResultsForInitialStatesOnly, storm::exceptions::IllegalArgumentException, "Cannot compute long-run probabilities for all states.");
storm::storage::SparseMatrix<ValueType> const& transitionMatrix = this->getModel().getTransitionMatrix();
uint_fast64_t numberOfStates = transitionMatrix.getRowCount();
// Get the state-reward values from the reward model.
std::vector<ValueType> stateRewardValues = rewardModel.getTotalRewardVector(this->getModel().getTransitionMatrix());
storm::storage::BitVector maybeStates(stateRewardValues.size());
uint_fast64_t index = 0;
for (auto const& value : stateRewardValues) {
if (value != storm::utility::zero<ValueType>()) {
maybeStates.set(index, true);
}
++index;
}
storm::storage::SparseMatrix<ValueType> backwardTransitions = this->getModel().getBackwardTransitions();
storm::storage::BitVector allStates(numberOfStates, true);
maybeStates = storm::utility::graph::performProbGreater0(backwardTransitions, allStates, maybeStates);
std::vector<ValueType> result(numberOfStates, storm::utility::zero<ValueType>());
// Determine whether we need to perform some further computation.
bool furtherComputationNeeded = true;
if (computeResultsForInitialStatesOnly && initialStates.isDisjointFrom(maybeStates)) {
furtherComputationNeeded = false;
}
if (furtherComputationNeeded) {
if (computeResultsForInitialStatesOnly) {
// Determine the set of states that is reachable from the initial state without jumping over a target state.
storm::storage::BitVector reachableStates = storm::utility::graph::getReachableStates(transitionMatrix, initialStates, storm::storage::BitVector(numberOfStates, true), storm::storage::BitVector(numberOfStates, false));
// Subtract from the maybe states the set of states that is not reachable (on a path from the initial to a target state).
maybeStates &= reachableStates;
}
result = computeLongRunValues(transitionMatrix, backwardTransitions, initialStates, maybeStates, computeResultsForInitialStatesOnly, stateRewardValues);
}
// Construct check result based on whether we have computed values for all states or just the initial states.
std::unique_ptr<CheckResult> checkResult(new ExplicitQuantitativeCheckResult<ValueType>(result));
if (computeResultsForInitialStatesOnly) {
// If we computed the results for the initial states only, we need to filter the result to only
// communicate these results.
checkResult->filter(ExplicitQualitativeCheckResult(initialStates));
}
return checkResult;
}
template<typename SparseDtmcModelType>
std::vector<typename SparseDtmcEliminationModelChecker<SparseDtmcModelType>::ValueType> SparseDtmcEliminationModelChecker<SparseDtmcModelType>::computeLongRunValues(storm::storage::SparseMatrix<ValueType> const& transitionMatrix, storm::storage::SparseMatrix<ValueType> const& backwardTransitions, storm::storage::BitVector const& initialStates, storm::storage::BitVector const& statesWithProbabilityGreater0, bool computeResultsForInitialStatesOnly, std::vector<ValueType>& stateValues) {
std::vector<typename SparseDtmcEliminationModelChecker<SparseDtmcModelType>::ValueType> SparseDtmcEliminationModelChecker<SparseDtmcModelType>::computeLongRunValues(storm::storage::SparseMatrix<ValueType> const& transitionMatrix, storm::storage::SparseMatrix<ValueType> const& backwardTransitions, storm::storage::BitVector const& initialStates, storm::storage::BitVector const& maybeStates, bool computeResultsForInitialStatesOnly, std::vector<ValueType>& stateValues) {
std::chrono::high_resolution_clock::time_point totalTimeStart = std::chrono::high_resolution_clock::now();
// Start by decomposing the DTMC into its BSCCs.
// FIXME: time this as well.
std::chrono::high_resolution_clock::time_point sccDecompositionStart = std::chrono::high_resolution_clock::now();
storm::storage::StronglyConnectedComponentDecomposition<ValueType> bsccDecomposition(transitionMatrix, storm::storage::BitVector(transitionMatrix.getRowCount(), true), false, true);
auto sccDecompositionEnd = std::chrono::high_resolution_clock::now();
std::chrono::high_resolution_clock::time_point conversionStart = std::chrono::high_resolution_clock::now();
// Then, we convert the reduced matrix to a more flexible format to be able to perform state elimination more easily.
FlexibleSparseMatrix flexibleMatrix = getFlexibleSparseMatrix(transitionMatrix);
flexibleMatrix.filter(statesWithProbabilityGreater0, statesWithProbabilityGreater0);
flexibleMatrix.filter(maybeStates, maybeStates);
FlexibleSparseMatrix flexibleBackwardTransitions = getFlexibleSparseMatrix(backwardTransitions);
flexibleBackwardTransitions.filter(statesWithProbabilityGreater0, statesWithProbabilityGreater0);
flexibleBackwardTransitions.filter(maybeStates, maybeStates);
auto conversionEnd = std::chrono::high_resolution_clock::now();
std::chrono::high_resolution_clock::time_point modelCheckingStart = std::chrono::high_resolution_clock::now();
@ -223,7 +276,7 @@ namespace storm {
}
uint_fast64_t numberOfStates = transitionMatrix.getRowCount();
storm::storage::BitVector statesInBsccs(numberOfStates);
storm::storage::BitVector regularStatesInBsccs(numberOfStates);
storm::storage::BitVector relevantBsccs(bsccDecomposition.size());
storm::storage::BitVector bsccRepresentativesAsBitVector(numberOfStates);
std::vector<storm::storage::sparse::state_type> bsccRepresentatives;
@ -231,28 +284,24 @@ namespace storm {
for (auto const& bscc : bsccDecomposition) {
// Since all states in an SCC can reach all other states, we only need to check whether an arbitrary
// state is a maybe state.
if (statesWithProbabilityGreater0.get(*bscc.cbegin())) {
if (maybeStates.get(*bscc.cbegin())) {
relevantBsccs.set(currentIndex);
bsccRepresentatives.push_back(*bscc.cbegin());
bsccRepresentativesAsBitVector.set(*bscc.cbegin(), true);
for (auto const& state : bscc) {
statesInBsccs.set(state, true);
regularStatesInBsccs.set(state, true);
}
}
++currentIndex;
}
statesInBsccs &= ~bsccRepresentativesAsBitVector;
regularStatesInBsccs &= ~bsccRepresentativesAsBitVector;
// Compute the average time to stay in each state for all states in BSCCs.
std::vector<ValueType> averageTimeInStates(stateValues.size(), storm::utility::one<ValueType>());
for (auto const& el : stateValues) {
std::cout << el << std::endl;
}
// First, we eliminate all states in BSCCs (except for the representative states).
{
std::unique_ptr<StatePriorityQueue> priorityQueue = createStatePriorityQueue(distanceBasedPriorities, flexibleMatrix, flexibleBackwardTransitions, stateValues, statesInBsccs);
std::unique_ptr<StatePriorityQueue> priorityQueue = createStatePriorityQueue(distanceBasedPriorities, flexibleMatrix, flexibleBackwardTransitions, stateValues, regularStatesInBsccs);
ValueUpdateCallback valueUpdateCallback = [&stateValues,&averageTimeInStates] (storm::storage::sparse::state_type const& state, ValueType const& loopProbability) {
stateValues[state] = storm::utility::simplify(loopProbability * stateValues[state]);
@ -269,17 +318,12 @@ namespace storm {
});
boost::optional<PredecessorFilterCallback> predecessorFilterCallback = boost::none;
// PredecessorFilterCallback([&statesInBsccs,&bsccRepresentativesAsBitVector] (storm::storage::sparse::state_type const& state) { return statesInBsccs.get(state) || bsccRepresentativesAsBitVector.get(state); } );
while (priorityQueue->hasNextState()) {
storm::storage::sparse::state_type state = priorityQueue->popNextState();
eliminateState(state, flexibleMatrix, flexibleBackwardTransitions, valueUpdateCallback, predecessorCallback, priorityUpdateCallback, predecessorFilterCallback, true);
STORM_LOG_ASSERT(checkConsistent(flexibleMatrix, flexibleBackwardTransitions), "The forward and backward transition matrices became inconsistent.");
}
flexibleMatrix.print();
for (auto const& el : stateValues) {
std::cout << el << std::endl;
}
}
// Now, we set the values of all states in BSCCs to that of the representative value (and clear the
@ -318,21 +362,29 @@ namespace storm {
}
// If there are states remaining that are not in BSCCs, we need to eliminate them now.
storm::storage::BitVector remainingStates = statesWithProbabilityGreater0 & ~statesInBsccs;
storm::storage::BitVector remainingStates = maybeStates & ~regularStatesInBsccs;
// Reset the values of all remaining non-BSCC states (they might have been erroneously changed by the
// previous state elimination.
// Set the value initial value of all states not in a BSCC to zero, because a) any previous value would
// incorrectly influence the result and b) the value have been erroneously changed for the predecessors of
// BSCCs by the previous state elimination.
for (auto state : remainingStates) {
if (!bsccRepresentativesAsBitVector.get(state)) {
stateValues[state] = storm::utility::zero<ValueType>();
}
}
performOrdinaryStateElimination(flexibleMatrix, flexibleBackwardTransitions, remainingStates, initialStates, computeResultsForInitialStatesOnly, stateValues, distanceBasedPriorities);
// We only need to eliminate the remaining states if there was some BSCC that has a non-zero value, i.e.
// that consists of maybe states.
if (!relevantBsccs.empty()) {
performOrdinaryStateElimination(flexibleMatrix, flexibleBackwardTransitions, remainingStates, initialStates, computeResultsForInitialStatesOnly, stateValues, distanceBasedPriorities);
}
std::chrono::high_resolution_clock::time_point modelCheckingEnd = std::chrono::high_resolution_clock::now();
std::chrono::high_resolution_clock::time_point totalTimeEnd = std::chrono::high_resolution_clock::now();
if (storm::settings::generalSettings().isShowStatisticsSet()) {
std::chrono::high_resolution_clock::duration sccDecompositionTime = sccDecompositionEnd - sccDecompositionStart;
std::chrono::milliseconds sccDecompositionTimeInMilliseconds = std::chrono::duration_cast<std::chrono::milliseconds>(sccDecompositionTime);
std::chrono::high_resolution_clock::duration conversionTime = conversionEnd - conversionStart;
std::chrono::milliseconds conversionTimeInMilliseconds = std::chrono::duration_cast<std::chrono::milliseconds>(conversionTime);
std::chrono::high_resolution_clock::duration modelCheckingTime = modelCheckingEnd - modelCheckingStart;
@ -342,6 +394,7 @@ namespace storm {
STORM_PRINT_AND_LOG(std::endl);
STORM_PRINT_AND_LOG("Time breakdown:" << std::endl);
STORM_PRINT_AND_LOG(" * time for SCC decomposition: " << sccDecompositionTimeInMilliseconds.count() << "ms" << std::endl);
STORM_PRINT_AND_LOG(" * time for conversion: " << conversionTimeInMilliseconds.count() << "ms" << std::endl);
STORM_PRINT_AND_LOG(" * time for checking: " << modelCheckingTimeInMilliseconds.count() << "ms" << std::endl);
STORM_PRINT_AND_LOG("------------------------------------------" << std::endl);

2
src/modelchecker/reachability/SparseDtmcEliminationModelChecker.h

@ -113,7 +113,7 @@ namespace storm {
PenaltyFunctionType penaltyFunction;
};
static std::vector<ValueType> computeLongRunValues(storm::storage::SparseMatrix<ValueType> const& transitionMatrix, storm::storage::SparseMatrix<ValueType> const& backwardTransitions, storm::storage::BitVector const& initialStates, storm::storage::BitVector const& statesWithProbabilityGreater0, bool computeResultsForInitialStatesOnly, std::vector<ValueType>& stateValues);
static std::vector<ValueType> computeLongRunValues(storm::storage::SparseMatrix<ValueType> const& transitionMatrix, storm::storage::SparseMatrix<ValueType> const& backwardTransitions, storm::storage::BitVector const& initialStates, storm::storage::BitVector const& maybeStates, bool computeResultsForInitialStatesOnly, std::vector<ValueType>& stateValues);
static std::vector<ValueType> computeReachabilityValues(storm::storage::SparseMatrix<ValueType> const& transitionMatrix, std::vector<ValueType>& values, storm::storage::SparseMatrix<ValueType> const& backwardTransitions, storm::storage::BitVector const& initialStates, bool computeResultsForInitialStatesOnly, storm::storage::BitVector const& phiStates, storm::storage::BitVector const& psiStates, std::vector<ValueType> const& oneStepProbabilitiesToTarget);

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