Matthias Volk
7 years ago
3 changed files with 4 additions and 586 deletions
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471src/storm-dft/builder/ExplicitDFTModelBuilder.cpp
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102src/storm-dft/builder/ExplicitDFTModelBuilder.h
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17src/storm-dft/modelchecker/dft/DFTModelChecker.cpp
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#include "ExplicitDFTModelBuilder.h"
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#include <map>
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#include "storm/models/sparse/MarkovAutomaton.h"
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#include "storm/models/sparse/Ctmc.h"
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#include "storm/utility/constants.h"
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#include "storm/utility/vector.h"
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#include "storm/exceptions/UnexpectedException.h"
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#include "storm/settings/SettingsManager.h"
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namespace storm { |
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namespace builder { |
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template <typename ValueType> |
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ExplicitDFTModelBuilder<ValueType>::ModelComponents::ModelComponents() : transitionMatrix(), stateLabeling(), markovianStates(), exitRates(), choiceLabeling() { |
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// Intentionally left empty.
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} |
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template <typename ValueType> |
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ExplicitDFTModelBuilder<ValueType>::ExplicitDFTModelBuilder(storm::storage::DFT<ValueType> const& dft, storm::storage::DFTIndependentSymmetries const& symmetries, bool enableDC) : mDft(dft), mStates(((mDft.stateVectorSize() / 64) + 1) * 64, INITIAL_BUCKETSIZE), enableDC(enableDC) { |
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// stateVectorSize is bound for size of bitvector
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mStateGenerationInfo = std::make_shared<storm::storage::DFTStateGenerationInfo>(mDft.buildStateGenerationInfo(symmetries)); |
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} |
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template <typename ValueType> |
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std::shared_ptr<storm::models::sparse::Model<ValueType>> ExplicitDFTModelBuilder<ValueType>::buildModel(LabelOptions const& labelOpts) { |
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// Initialize
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bool deterministicModel = false; |
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size_t rowOffset = 0; |
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ModelComponents modelComponents; |
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std::vector<uint_fast64_t> tmpMarkovianStates; |
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storm::storage::SparseMatrixBuilder<ValueType> transitionMatrixBuilder(0, 0, 0, false, !deterministicModel, 0); |
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if(mergeFailedStates) { |
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// Introduce explicit fail state
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failedIndex = newIndex; |
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newIndex++; |
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transitionMatrixBuilder.newRowGroup(failedIndex); |
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transitionMatrixBuilder.addNextValue(failedIndex, failedIndex, storm::utility::one<ValueType>()); |
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STORM_LOG_TRACE("Introduce fail state with id: " << failedIndex); |
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modelComponents.exitRates.push_back(storm::utility::one<ValueType>()); |
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tmpMarkovianStates.push_back(failedIndex); |
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} |
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// Explore state space
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DFTStatePointer state = std::make_shared<storm::storage::DFTState<ValueType>>(mDft, *mStateGenerationInfo, newIndex); |
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auto exploreResult = exploreStates(state, rowOffset, transitionMatrixBuilder, tmpMarkovianStates, modelComponents.exitRates); |
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initialStateIndex = exploreResult.first; |
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bool deterministic = exploreResult.second; |
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// Before ending the exploration check for pseudo states which are not initialized yet
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for (auto & pseudoStatePair : mPseudoStatesMapping) { |
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if (pseudoStatePair.first == 0) { |
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// Create state from pseudo state and explore
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STORM_LOG_ASSERT(mStates.contains(pseudoStatePair.second), "Pseudo state not contained."); |
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STORM_LOG_ASSERT(mStates.getValue(pseudoStatePair.second) >= OFFSET_PSEUDO_STATE, "State is no pseudo state."); |
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STORM_LOG_TRACE("Create pseudo state from bit vector " << pseudoStatePair.second); |
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DFTStatePointer pseudoState = std::make_shared<storm::storage::DFTState<ValueType>>(pseudoStatePair.second, mDft, *mStateGenerationInfo, newIndex); |
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pseudoState->construct(); |
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STORM_LOG_ASSERT(pseudoStatePair.second == pseudoState->status(), "Pseudo states do not coincide."); |
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STORM_LOG_TRACE("Explore pseudo state " << mDft.getStateString(pseudoState) << " with id " << pseudoState->getId()); |
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auto exploreResult = exploreStates(pseudoState, rowOffset, transitionMatrixBuilder, tmpMarkovianStates, modelComponents.exitRates); |
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deterministic &= exploreResult.second; |
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STORM_LOG_ASSERT(pseudoStatePair.first == pseudoState->getId(), "Pseudo state ids do not coincide"); |
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STORM_LOG_ASSERT(pseudoState->getId() == exploreResult.first, "Pseudo state ids do not coincide."); |
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} |
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} |
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// Replace pseudo states in matrix
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std::vector<uint_fast64_t> pseudoStatesVector; |
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for (auto const& pseudoStatePair : mPseudoStatesMapping) { |
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pseudoStatesVector.push_back(pseudoStatePair.first); |
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} |
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STORM_LOG_ASSERT(std::find(pseudoStatesVector.begin(), pseudoStatesVector.end(), 0) == pseudoStatesVector.end(), "Unexplored pseudo state still contained."); |
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transitionMatrixBuilder.replaceColumns(pseudoStatesVector, OFFSET_PSEUDO_STATE); |
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STORM_LOG_DEBUG("Generated " << mStates.size() + (mergeFailedStates ? 1 : 0) << " states"); |
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STORM_LOG_DEBUG("Model is " << (deterministic ? "deterministic" : "non-deterministic")); |
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size_t stateSize = mStates.size() + (mergeFailedStates ? 1 : 0); |
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// Build Markov Automaton
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modelComponents.markovianStates = storm::storage::BitVector(stateSize, tmpMarkovianStates); |
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// Build transition matrix
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modelComponents.transitionMatrix = transitionMatrixBuilder.build(stateSize, stateSize); |
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if (stateSize <= 15) { |
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STORM_LOG_TRACE("Transition matrix: " << std::endl << modelComponents.transitionMatrix); |
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} else { |
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STORM_LOG_TRACE("Transition matrix: too big to print"); |
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} |
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STORM_LOG_TRACE("Exit rates: " << storm::utility::vector::toString<ValueType>(modelComponents.exitRates)); |
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STORM_LOG_TRACE("Markovian states: " << modelComponents.markovianStates); |
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// Build state labeling
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modelComponents.stateLabeling = storm::models::sparse::StateLabeling(mStates.size() + (mergeFailedStates ? 1 : 0)); |
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// Initial state is always first state without any failure
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modelComponents.stateLabeling.addLabel("init"); |
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modelComponents.stateLabeling.addLabelToState("init", initialStateIndex); |
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// Label all states corresponding to their status (failed, failsafe, failed BE)
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if(labelOpts.buildFailLabel) { |
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modelComponents.stateLabeling.addLabel("failed"); |
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} |
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if(labelOpts.buildFailSafeLabel) { |
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modelComponents.stateLabeling.addLabel("failsafe"); |
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} |
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// Collect labels for all BE
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std::vector<std::shared_ptr<storage::DFTBE<ValueType>>> basicElements = mDft.getBasicElements(); |
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for (std::shared_ptr<storage::DFTBE<ValueType>> elem : basicElements) { |
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if(labelOpts.beLabels.count(elem->name()) > 0) { |
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modelComponents.stateLabeling.addLabel(elem->name() + "_fail"); |
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} |
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} |
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if(mergeFailedStates) { |
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modelComponents.stateLabeling.addLabelToState("failed", failedIndex); |
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} |
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for (auto const& stateIdPair : mStates) { |
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storm::storage::BitVector state = stateIdPair.first; |
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size_t stateId = stateIdPair.second; |
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if (!mergeFailedStates && labelOpts.buildFailLabel && mDft.hasFailed(state, *mStateGenerationInfo)) { |
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modelComponents.stateLabeling.addLabelToState("failed", stateId); |
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} |
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if (labelOpts.buildFailSafeLabel && mDft.isFailsafe(state, *mStateGenerationInfo)) { |
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modelComponents.stateLabeling.addLabelToState("failsafe", stateId); |
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}; |
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// Set fail status for each BE
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for (std::shared_ptr<storage::DFTBE<ValueType>> elem : basicElements) { |
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if (labelOpts.beLabels.count(elem->name()) > 0 && storm::storage::DFTState<ValueType>::hasFailed(state, mStateGenerationInfo->getStateIndex(elem->id())) ) { |
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modelComponents.stateLabeling.addLabelToState(elem->name() + "_fail", stateId); |
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} |
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} |
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} |
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std::shared_ptr<storm::models::sparse::Model<ValueType>> model; |
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storm::storage::sparse::ModelComponents<ValueType> components(std::move(modelComponents.transitionMatrix), std::move(modelComponents.stateLabeling)); |
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components.exitRates = std::move(modelComponents.exitRates); |
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if (deterministic) { |
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components.transitionMatrix.makeRowGroupingTrivial(); |
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model = std::make_shared<storm::models::sparse::Ctmc<ValueType>>(std::move(components)); |
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} else { |
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components.markovianStates = std::move(modelComponents.markovianStates); |
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std::shared_ptr<storm::models::sparse::MarkovAutomaton<ValueType>> ma = std::make_shared<storm::models::sparse::MarkovAutomaton<ValueType>>(std::move(components)); |
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if (ma->hasOnlyTrivialNondeterminism()) { |
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// Markov automaton can be converted into CTMC
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model = ma->convertToCTMC(); |
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} else { |
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model = ma; |
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} |
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} |
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return model; |
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} |
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template <typename ValueType> |
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std::pair<uint_fast64_t, bool> ExplicitDFTModelBuilder<ValueType>::exploreStates(DFTStatePointer const& state, size_t& rowOffset, storm::storage::SparseMatrixBuilder<ValueType>& transitionMatrixBuilder, std::vector<uint_fast64_t>& markovianStates, std::vector<ValueType>& exitRates) { |
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STORM_LOG_TRACE("Explore state: " << mDft.getStateString(state)); |
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auto explorePair = checkForExploration(state); |
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if (!explorePair.first) { |
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// State does not need any exploration
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return std::make_pair(explorePair.second, true); |
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} |
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// Initialization
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// TODO Matthias: set Markovian states directly as bitvector?
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std::map<uint_fast64_t, ValueType> outgoingRates; |
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std::vector<std::map<uint_fast64_t, ValueType>> outgoingProbabilities; |
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bool hasDependencies = state->nrFailableDependencies() > 0; |
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size_t failableCount = hasDependencies ? state->nrFailableDependencies() : state->nrFailableBEs(); |
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size_t smallest = 0; |
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ValueType exitRate = storm::utility::zero<ValueType>(); |
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bool deterministic = !hasDependencies; |
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// Absorbing state
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if (mDft.hasFailed(state) || mDft.isFailsafe(state) || state->nrFailableBEs() == 0) { |
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uint_fast64_t stateId = addState(state); |
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STORM_LOG_ASSERT(stateId == state->getId(), "Ids do not coincide."); |
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// Add self loop
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transitionMatrixBuilder.newRowGroup(stateId + rowOffset); |
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transitionMatrixBuilder.addNextValue(stateId + rowOffset, stateId, storm::utility::one<ValueType>()); |
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STORM_LOG_TRACE("Added self loop for " << stateId); |
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exitRates.push_back(storm::utility::one<ValueType>()); |
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STORM_LOG_ASSERT(exitRates.size()-1 == stateId, "No. of considered states does not match state id."); |
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markovianStates.push_back(stateId); |
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// No further exploration required
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return std::make_pair(stateId, true); |
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} |
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// Let BE fail
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while (smallest < failableCount) { |
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STORM_LOG_ASSERT(!mDft.hasFailed(state), "Dft has failed."); |
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// Construct new state as copy from original one
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DFTStatePointer newState = std::make_shared<storm::storage::DFTState<ValueType>>(*state); |
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std::pair<std::shared_ptr<storm::storage::DFTBE<ValueType> const>, bool> nextBEPair = newState->letNextBEFail(smallest++); |
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std::shared_ptr<storm::storage::DFTBE<ValueType> const>& nextBE = nextBEPair.first; |
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STORM_LOG_ASSERT(nextBE, "NextBE is null."); |
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STORM_LOG_ASSERT(nextBEPair.second == hasDependencies, "Failure due to dependencies does not match."); |
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STORM_LOG_TRACE("With the failure of: " << nextBE->name() << " [" << nextBE->id() << "] in " << mDft.getStateString(state)); |
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// Propagate failures
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storm::storage::DFTStateSpaceGenerationQueues<ValueType> queues; |
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for (DFTGatePointer parent : nextBE->parents()) { |
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if (newState->isOperational(parent->id())) { |
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queues.propagateFailure(parent); |
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} |
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} |
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for (DFTRestrictionPointer restr : nextBE->restrictions()) { |
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queues.checkRestrictionLater(restr); |
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} |
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while (!queues.failurePropagationDone()) { |
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DFTGatePointer next = queues.nextFailurePropagation(); |
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next->checkFails(*newState, queues); |
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newState->updateFailableDependencies(next->id()); |
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} |
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while(!queues.restrictionChecksDone()) { |
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DFTRestrictionPointer next = queues.nextRestrictionCheck(); |
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next->checkFails(*newState, queues); |
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newState->updateFailableDependencies(next->id()); |
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} |
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if(newState->isInvalid()) { |
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continue; |
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} |
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bool dftFailed = newState->hasFailed(mDft.getTopLevelIndex()); |
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while (!dftFailed && !queues.failsafePropagationDone()) { |
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DFTGatePointer next = queues.nextFailsafePropagation(); |
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next->checkFailsafe(*newState, queues); |
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} |
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while (!dftFailed && enableDC && !queues.dontCarePropagationDone()) { |
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DFTElementPointer next = queues.nextDontCarePropagation(); |
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next->checkDontCareAnymore(*newState, queues); |
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} |
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// Update failable dependencies
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if (!dftFailed) { |
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newState->updateFailableDependencies(nextBE->id()); |
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newState->updateDontCareDependencies(nextBE->id()); |
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} |
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uint_fast64_t newStateId; |
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if(dftFailed && mergeFailedStates) { |
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newStateId = failedIndex; |
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} else { |
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// Explore new state recursively
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auto explorePair = exploreStates(newState, rowOffset, transitionMatrixBuilder, markovianStates, exitRates); |
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newStateId = explorePair.first; |
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deterministic &= explorePair.second; |
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} |
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// Set transitions
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if (hasDependencies) { |
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// Failure is due to dependency -> add non-deterministic choice
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std::map<uint_fast64_t, ValueType> choiceProbabilities; |
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std::shared_ptr<storm::storage::DFTDependency<ValueType> const> dependency = mDft.getDependency(state->getDependencyId(smallest-1)); |
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choiceProbabilities.insert(std::make_pair(newStateId, dependency->probability())); |
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STORM_LOG_TRACE("Added transition to " << newStateId << " with probability " << dependency->probability()); |
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if (!storm::utility::isOne(dependency->probability())) { |
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// Add transition to state where dependency was unsuccessful
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DFTStatePointer unsuccessfulState = std::make_shared<storm::storage::DFTState<ValueType>>(*state); |
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unsuccessfulState->letDependencyBeUnsuccessful(smallest-1); |
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auto explorePair = exploreStates(unsuccessfulState, rowOffset, transitionMatrixBuilder, markovianStates, exitRates); |
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uint_fast64_t unsuccessfulStateId = explorePair.first; |
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deterministic &= explorePair.second; |
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ValueType remainingProbability = storm::utility::one<ValueType>() - dependency->probability(); |
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choiceProbabilities.insert(std::make_pair(unsuccessfulStateId, remainingProbability)); |
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STORM_LOG_TRACE("Added transition to " << unsuccessfulStateId << " with remaining probability " << remainingProbability); |
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} |
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outgoingProbabilities.push_back(choiceProbabilities); |
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} else { |
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// Set failure rate according to activation
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bool isActive = true; |
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if (mDft.hasRepresentant(nextBE->id())) { |
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// Active must be checked for the state we are coming from as this state is responsible for the
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// rate and not the new state we are going to
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isActive = state->isActive(mDft.getRepresentant(nextBE->id())); |
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} |
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ValueType rate = isActive ? nextBE->activeFailureRate() : nextBE->passiveFailureRate(); |
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STORM_LOG_ASSERT(!storm::utility::isZero(rate), "Rate is 0."); |
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auto resultFind = outgoingRates.find(newStateId); |
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if (resultFind != outgoingRates.end()) { |
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// Add to existing transition
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resultFind->second += rate; |
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STORM_LOG_TRACE("Updated transition to " << resultFind->first << " with " << (isActive ? "active" : "passive") << " rate " << rate << " to new rate " << resultFind->second); |
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} else { |
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// Insert new transition
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outgoingRates.insert(std::make_pair(newStateId, rate)); |
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STORM_LOG_TRACE("Added transition to " << newStateId << " with " << (isActive ? "active" : "passive") << " rate " << rate); |
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} |
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exitRate += rate; |
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} |
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} // end while failing BE
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// Add state
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uint_fast64_t stateId = addState(state); |
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STORM_LOG_ASSERT(stateId == state->getId(), "Ids do not match."); |
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STORM_LOG_ASSERT(stateId == newIndex-1, "Id does not match no. of states."); |
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if (hasDependencies) { |
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// Add all probability transitions
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STORM_LOG_ASSERT(outgoingRates.empty(), "Outgoing transitions not empty."); |
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transitionMatrixBuilder.newRowGroup(stateId + rowOffset); |
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for (size_t i = 0; i < outgoingProbabilities.size(); ++i, ++rowOffset) { |
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STORM_LOG_ASSERT(outgoingProbabilities[i].size() == 1 || outgoingProbabilities[i].size() == 2, "No. of outgoing transitions is not valid."); |
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for (auto it = outgoingProbabilities[i].begin(); it != outgoingProbabilities[i].end(); ++it) |
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{ |
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STORM_LOG_TRACE("Set transition from " << stateId << " to " << it->first << " with probability " << it->second); |
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transitionMatrixBuilder.addNextValue(stateId + rowOffset, it->first, it->second); |
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} |
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} |
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rowOffset--; // One increment too many
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} else { |
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// Try to merge pseudo states with their instantiation
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// TODO Matthias: improve?
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for (auto it = outgoingRates.begin(); it != outgoingRates.end(); ) { |
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if (it->first >= OFFSET_PSEUDO_STATE) { |
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uint_fast64_t newId = it->first - OFFSET_PSEUDO_STATE; |
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STORM_LOG_ASSERT(newId < mPseudoStatesMapping.size(), "Id is not valid."); |
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if (mPseudoStatesMapping[newId].first > 0) { |
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// State exists already
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newId = mPseudoStatesMapping[newId].first; |
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auto itFind = outgoingRates.find(newId); |
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if (itFind != outgoingRates.end()) { |
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// Add probability from pseudo state to instantiation
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itFind->second += it->second; |
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STORM_LOG_TRACE("Merged pseudo state " << newId << " adding rate " << it->second << " to total rate of " << itFind->second); |
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} else { |
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// Only change id
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outgoingRates.emplace(newId, it->second); |
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STORM_LOG_TRACE("Instantiated pseudo state " << newId << " with rate " << it->second); |
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} |
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// Remove pseudo state
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it = outgoingRates.erase(it); |
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} else { |
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++it; |
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} |
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} else { |
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++it; |
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} |
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} |
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// Add all rate transitions
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STORM_LOG_ASSERT(outgoingProbabilities.empty(), "Outgoing probabilities not empty."); |
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transitionMatrixBuilder.newRowGroup(state->getId() + rowOffset); |
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STORM_LOG_TRACE("Exit rate for " << state->getId() << ": " << exitRate); |
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for (auto it = outgoingRates.begin(); it != outgoingRates.end(); ++it) |
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{ |
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ValueType probability = it->second / exitRate; // Transform rate to probability
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STORM_LOG_TRACE("Set transition from " << state->getId() << " to " << it->first << " with rate " << it->second); |
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transitionMatrixBuilder.addNextValue(state->getId() + rowOffset, it->first, probability); |
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} |
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markovianStates.push_back(state->getId()); |
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} |
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STORM_LOG_TRACE("Finished exploring state: " << mDft.getStateString(state)); |
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exitRates.push_back(exitRate); |
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STORM_LOG_ASSERT(exitRates.size()-1 == state->getId(), "Id does not match no. of states."); |
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return std::make_pair(state->getId(), deterministic); |
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} |
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template <typename ValueType> |
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std::pair<bool, uint_fast64_t> ExplicitDFTModelBuilder<ValueType>::checkForExploration(DFTStatePointer const& state) { |
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bool changed = false; |
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if (mStateGenerationInfo->hasSymmetries()) { |
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// Order state by symmetry
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STORM_LOG_TRACE("Check for symmetry: " << mDft.getStateString(state)); |
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changed = state->orderBySymmetry(); |
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STORM_LOG_TRACE("State " << (changed ? "changed to " : "did not change") << (changed ? mDft.getStateString(state) : "")); |
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} |
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if (mStates.contains(state->status())) { |
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// State already exists
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uint_fast64_t stateId = mStates.getValue(state->status()); |
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STORM_LOG_TRACE("State " << mDft.getStateString(state) << " with id " << stateId << " already exists"); |
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if (changed || stateId < OFFSET_PSEUDO_STATE) { |
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// State is changed or an explored "normal" state
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return std::make_pair(false, stateId); |
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} |
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stateId -= OFFSET_PSEUDO_STATE; |
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STORM_LOG_ASSERT(stateId < mPseudoStatesMapping.size(), "Id not valid."); |
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if (mPseudoStatesMapping[stateId].first > 0) { |
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// Pseudo state already explored
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return std::make_pair(false, mPseudoStatesMapping[stateId].first); |
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} |
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STORM_LOG_ASSERT(mPseudoStatesMapping[stateId].second == state->status(), "States do not coincide."); |
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STORM_LOG_TRACE("Pseudo state " << mDft.getStateString(state) << " can be explored now"); |
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return std::make_pair(true, stateId); |
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} else { |
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// State does not exists
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if (changed) { |
|||
// Remember state for later creation
|
|||
state->setId(mPseudoStatesMapping.size() + OFFSET_PSEUDO_STATE); |
|||
mPseudoStatesMapping.push_back(std::make_pair(0, state->status())); |
|||
mStates.findOrAdd(state->status(), state->getId()); |
|||
STORM_LOG_TRACE("Remember state for later creation: " << mDft.getStateString(state)); |
|||
return std::make_pair(false, state->getId()); |
|||
} else { |
|||
// State needs exploration
|
|||
return std::make_pair(true, 0); |
|||
} |
|||
} |
|||
} |
|||
|
|||
template <typename ValueType> |
|||
uint_fast64_t ExplicitDFTModelBuilder<ValueType>::addState(DFTStatePointer const& state) { |
|||
uint_fast64_t stateId; |
|||
// TODO remove
|
|||
bool changed = state->orderBySymmetry(); |
|||
STORM_LOG_ASSERT(!changed, "State to add has changed by applying symmetry."); |
|||
|
|||
// Check if state already exists
|
|||
if (mStates.contains(state->status())) { |
|||
// State already exists
|
|||
stateId = mStates.getValue(state->status()); |
|||
STORM_LOG_TRACE("State " << mDft.getStateString(state) << " with id " << stateId << " already exists"); |
|||
|
|||
// Check if possible pseudo state can be created now
|
|||
STORM_LOG_ASSERT(stateId >= OFFSET_PSEUDO_STATE, "State is no pseudo state."); |
|||
stateId -= OFFSET_PSEUDO_STATE; |
|||
STORM_LOG_ASSERT(stateId < mPseudoStatesMapping.size(), "Pseudo state not known."); |
|||
if (mPseudoStatesMapping[stateId].first == 0) { |
|||
// Create pseudo state now
|
|||
STORM_LOG_ASSERT(mPseudoStatesMapping[stateId].second == state->status(), "Pseudo states do not coincide."); |
|||
state->setId(newIndex++); |
|||
mPseudoStatesMapping[stateId].first = state->getId(); |
|||
stateId = state->getId(); |
|||
mStates.setOrAdd(state->status(), stateId); |
|||
STORM_LOG_TRACE("Now create state " << mDft.getStateString(state) << " with id " << stateId); |
|||
return stateId; |
|||
} else { |
|||
STORM_LOG_ASSERT(false, "Pseudo state already created."); |
|||
return 0; |
|||
} |
|||
} else { |
|||
// Create new state
|
|||
state->setId(newIndex++); |
|||
stateId = mStates.findOrAdd(state->status(), state->getId()); |
|||
STORM_LOG_TRACE("New state: " << mDft.getStateString(state)); |
|||
return stateId; |
|||
} |
|||
} |
|||
|
|||
|
|||
// Explicitly instantiate the class.
|
|||
template class ExplicitDFTModelBuilder<double>; |
|||
|
|||
#ifdef STORM_HAVE_CARL
|
|||
template class ExplicitDFTModelBuilder<storm::RationalFunction>; |
|||
#endif
|
|||
|
|||
} // namespace builder
|
|||
} // namespace storm
|
|||
|
|||
|
|||
@ -1,102 +0,0 @@ |
|||
#pragma once |
|||
|
|||
#include <boost/container/flat_set.hpp> |
|||
#include <boost/optional/optional.hpp> |
|||
#include <stack> |
|||
#include <unordered_set> |
|||
|
|||
|
|||
#include "storm/models/sparse/StateLabeling.h" |
|||
#include "storm/models/sparse/ChoiceLabeling.h" |
|||
#include "storm/models/sparse/StandardRewardModel.h" |
|||
#include "storm/models/sparse/Model.h" |
|||
#include "storm/storage/SparseMatrix.h" |
|||
#include "storm/storage/BitVectorHashMap.h" |
|||
|
|||
#include "storm-dft/storage/dft/DFT.h" |
|||
#include "storm-dft/storage/dft/SymmetricUnits.h" |
|||
|
|||
|
|||
|
|||
|
|||
|
|||
namespace storm { |
|||
namespace builder { |
|||
|
|||
template<typename ValueType> |
|||
class ExplicitDFTModelBuilder { |
|||
|
|||
using DFTElementPointer = std::shared_ptr<storm::storage::DFTElement<ValueType>>; |
|||
using DFTElementCPointer = std::shared_ptr<storm::storage::DFTElement<ValueType> const>; |
|||
using DFTGatePointer = std::shared_ptr<storm::storage::DFTGate<ValueType>>; |
|||
using DFTStatePointer = std::shared_ptr<storm::storage::DFTState<ValueType>>; |
|||
using DFTRestrictionPointer = std::shared_ptr<storm::storage::DFTRestriction<ValueType>>; |
|||
|
|||
|
|||
// A structure holding the individual components of a model. |
|||
struct ModelComponents { |
|||
ModelComponents(); |
|||
|
|||
// The transition matrix. |
|||
storm::storage::SparseMatrix<ValueType> transitionMatrix; |
|||
|
|||
// The state labeling. |
|||
storm::models::sparse::StateLabeling stateLabeling; |
|||
|
|||
// The Markovian states. |
|||
storm::storage::BitVector markovianStates; |
|||
|
|||
// The exit rates. |
|||
std::vector<ValueType> exitRates; |
|||
|
|||
// A vector that stores a labeling for each choice. |
|||
boost::optional<storm::models::sparse::ChoiceLabeling> choiceLabeling; |
|||
}; |
|||
|
|||
const size_t INITIAL_BUCKETSIZE = 20000; |
|||
const uint_fast64_t OFFSET_PSEUDO_STATE = UINT_FAST64_MAX / 2; |
|||
|
|||
storm::storage::DFT<ValueType> const& mDft; |
|||
std::shared_ptr<storm::storage::DFTStateGenerationInfo> mStateGenerationInfo; |
|||
storm::storage::BitVectorHashMap<uint_fast64_t> mStates; |
|||
std::vector<std::pair<uint_fast64_t, storm::storage::BitVector>> mPseudoStatesMapping; // vector of (id to concrete state, bitvector) |
|||
size_t newIndex = 0; |
|||
bool mergeFailedStates = false; |
|||
bool enableDC = true; |
|||
size_t failedIndex = 0; |
|||
size_t initialStateIndex = 0; |
|||
|
|||
public: |
|||
struct LabelOptions { |
|||
bool buildFailLabel = true; |
|||
bool buildFailSafeLabel = false; |
|||
std::set<std::string> beLabels = {}; |
|||
}; |
|||
|
|||
ExplicitDFTModelBuilder(storm::storage::DFT<ValueType> const& dft, storm::storage::DFTIndependentSymmetries const& symmetries, bool enableDC); |
|||
|
|||
std::shared_ptr<storm::models::sparse::Model<ValueType>> buildModel(LabelOptions const& labelOpts); |
|||
|
|||
private: |
|||
std::pair<uint_fast64_t, bool> exploreStates(DFTStatePointer const& state, size_t& rowOffset, storm::storage::SparseMatrixBuilder<ValueType>& transitionMatrixBuilder, std::vector<uint_fast64_t>& markovianStates, std::vector<ValueType>& exitRates); |
|||
|
|||
/*! |
|||
* Adds a state to the explored states and handles pseudo states. |
|||
* |
|||
* @param state The state to add. |
|||
* @return Id of added state. |
|||
*/ |
|||
uint_fast64_t addState(DFTStatePointer const& state); |
|||
|
|||
/*! |
|||
* Check if state needs an exploration and remember pseudo states for later creation. |
|||
* |
|||
* @param state State which might need exploration. |
|||
* @return Pair of flag indicating whether the state needs exploration now and the state id if the state already |
|||
* exists. |
|||
*/ |
|||
std::pair<bool, uint_fast64_t> checkForExploration(DFTStatePointer const& state); |
|||
|
|||
}; |
|||
} |
|||
} |
|||
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