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@ -47,11 +47,8 @@ namespace storm { |
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/**
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/**
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* Initialize results vectors. vLowerOld, vUpperOld and wUpper[k=N] are initialized with zeros. |
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* Initialize results vectors. vLowerOld, vUpperOld and wUpper[k=N] are initialized with zeros. |
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*/ |
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*/ |
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UnifPlusVectors(uint64_t steps, uint64_t noStates) : numberOfStates(noStates), resLowerOld(numberOfStates, storm::utility::zero<ValueType>()), resLowerNew(numberOfStates, -1), resUpperOld(numberOfStates, storm::utility::zero<ValueType>()), resUpperNew(numberOfStates, storm::utility::zero<ValueType>()) { |
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// For wUpper we have to keep track of all previous results
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wUpper = std::vector<std::vector<ValueType>>(steps+1, std::vector<ValueType>(numberOfStates, -1)); |
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// Initialize entries for step N with zeros
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std::fill(wUpper[steps].begin(), wUpper[steps].end(), storm::utility::zero<ValueType>()); |
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UnifPlusVectors(uint64_t steps, uint64_t noStates) : numberOfStates(noStates), steps(steps), resLowerOld(numberOfStates, storm::utility::zero<ValueType>()), resLowerNew(numberOfStates, -1), resUpper(numberOfStates, storm::utility::zero<ValueType>()), wUpperOld(numberOfStates, storm::utility::zero<ValueType>()), wUpperNew(numberOfStates, -1) { |
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// Intentionally left empty
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} |
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} |
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/**
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/**
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@ -60,23 +57,24 @@ namespace storm { |
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void prepareNewIteration() { |
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void prepareNewIteration() { |
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resLowerOld.swap(resLowerNew); |
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resLowerOld.swap(resLowerNew); |
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std::fill(resLowerNew.begin(), resLowerNew.end(), -1); |
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std::fill(resLowerNew.begin(), resLowerNew.end(), -1); |
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resUpperOld.swap(resUpperNew); |
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std::fill(resUpperNew.begin(), resUpperNew.end(), storm::utility::zero<ValueType>()); |
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wUpperOld.swap(wUpperNew); |
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std::fill(wUpperNew.begin(), wUpperNew.end(), -1); |
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} |
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} |
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uint64_t numberOfStates; |
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uint64_t numberOfStates; |
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uint64_t steps; |
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std::vector<ValueType> resLowerOld; |
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std::vector<ValueType> resLowerOld; |
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std::vector<ValueType> resLowerNew; |
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std::vector<ValueType> resLowerNew; |
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std::vector<ValueType> resUpperOld; |
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std::vector<ValueType> resUpperNew; |
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std::vector<std::vector<ValueType>> wUpper; |
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std::vector<ValueType> resUpper; |
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std::vector<ValueType> wUpperOld; |
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std::vector<ValueType> wUpperNew; |
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}; |
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}; |
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template<typename ValueType> |
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template<typename ValueType> |
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void calculateUnifPlusVector(Environment const& env, uint64_t k, uint64_t state, bool calcLower, ValueType lambda, uint64_t numberOfProbabilisticChoices, std::vector<std::vector<ValueType>> const & relativeReachability, OptimizationDirection dir, UnifPlusVectors<ValueType>& unifVectors, storm::storage::SparseMatrix<ValueType> const& fullTransitionMatrix, storm::storage::BitVector const& markovianStates, storm::storage::BitVector const& psiStates, std::unique_ptr<storm::solver::MinMaxLinearEquationSolver<ValueType>> const& solver, storm::utility::numerical::FoxGlynnResult<ValueType> const& poisson, bool cycleFree) { |
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void calculateUnifPlusVector(Environment const& env, uint64_t k, uint64_t state, bool calcLower, ValueType lambda, uint64_t numberOfProbabilisticChoices, std::vector<std::vector<ValueType>> const & relativeReachability, OptimizationDirection dir, UnifPlusVectors<ValueType>& unifVectors, storm::storage::SparseMatrix<ValueType> const& fullTransitionMatrix, storm::storage::BitVector const& markovianStates, storm::storage::BitVector const& psiStates, std::unique_ptr<storm::solver::MinMaxLinearEquationSolver<ValueType>> const& solver, storm::utility::numerical::FoxGlynnResult<ValueType> const& poisson, bool cycleFree) { |
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// Set reference to acutal vector
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// Set reference to acutal vector
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std::vector<ValueType>& resVectorOld = calcLower ? unifVectors.resLowerOld : unifVectors.wUpper[k+1]; |
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std::vector<ValueType>& resVectorNew = calcLower ? unifVectors.resLowerNew : unifVectors.wUpper[k]; |
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std::vector<ValueType>& resVectorOld = calcLower ? unifVectors.resLowerOld : unifVectors.wUpperOld; |
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std::vector<ValueType>& resVectorNew = calcLower ? unifVectors.resLowerNew : unifVectors.wUpperNew; |
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if (resVectorNew[state] != -1) { |
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if (resVectorNew[state] != -1) { |
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// Result already calculated.
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// Result already calculated.
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@ -84,7 +82,7 @@ namespace storm { |
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} |
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} |
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auto numberOfStates = fullTransitionMatrix.getRowGroupCount(); |
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auto numberOfStates = fullTransitionMatrix.getRowGroupCount(); |
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uint64_t N = unifVectors.wUpper.size() - 1; |
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uint64_t N = unifVectors.steps; |
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auto const& rowGroupIndices = fullTransitionMatrix.getRowGroupIndices(); |
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auto const& rowGroupIndices = fullTransitionMatrix.getRowGroupIndices(); |
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ValueType res; |
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ValueType res; |
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@ -389,26 +387,20 @@ namespace storm { |
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// Calculate results for lower bound and wUpper
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// Calculate results for lower bound and wUpper
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calculateUnifPlusVector(env, k, state, true, lambda, numberOfProbabilisticChoices, relativeReachabilities, dir, unifVectors, fullTransitionMatrix, markovianAndGoalStates, psiStates, solver, foxGlynnResult, cycleFree); |
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calculateUnifPlusVector(env, k, state, true, lambda, numberOfProbabilisticChoices, relativeReachabilities, dir, unifVectors, fullTransitionMatrix, markovianAndGoalStates, psiStates, solver, foxGlynnResult, cycleFree); |
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calculateUnifPlusVector(env, k, state, false, lambda, numberOfProbabilisticChoices, relativeReachabilities, dir, unifVectors, fullTransitionMatrix, markovianAndGoalStates, psiStates, solver, foxGlynnResult, cycleFree); |
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calculateUnifPlusVector(env, k, state, false, lambda, numberOfProbabilisticChoices, relativeReachabilities, dir, unifVectors, fullTransitionMatrix, markovianAndGoalStates, psiStates, solver, foxGlynnResult, cycleFree); |
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} |
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if (k == 0) { |
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// Calculate result for upper bound
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// Calculate result for upper bound
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// resUpperNew was already initialized with zeros
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uint64_t left = std::max(foxGlynnResult.left, (uint64_t)(k)); |
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uint64_t right = std::min(foxGlynnResult.right, N-1); |
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for (uint64_t state = 0; state < numberOfStates; ++state) { |
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for (uint64_t i = left; i <= right; ++i) { |
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STORM_LOG_ASSERT(unifVectors.wUpper[N-1-(i-k)][state] != -1, "wUpper was not computed before."); |
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unifVectors.resUpperNew[state] += foxGlynnResult.weights[i - foxGlynnResult.left] * unifVectors.wUpper[N-1-(i-k)][state]; |
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} |
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uint64_t index = N-1-k; |
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if (index >= foxGlynnResult.left && index <= foxGlynnResult.right) { |
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STORM_LOG_ASSERT(unifVectors.wUpperNew[state] != -1, "wUpper was not computed before."); |
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unifVectors.resUpper[state] += foxGlynnResult.weights[index - foxGlynnResult.left] * unifVectors.wUpperNew[state]; |
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} |
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} |
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} |
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} |
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} |
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} |
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// Only iterate over result vector, as the results can only get more precise.
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// Only iterate over result vector, as the results can only get more precise.
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maxNorm = storm::utility::zero<ValueType>(); |
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maxNorm = storm::utility::zero<ValueType>(); |
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for (uint64_t i = 0; i < numberOfStates; i++){ |
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for (uint64_t i = 0; i < numberOfStates; i++){ |
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ValueType diff = storm::utility::abs(unifVectors.resUpperNew[i] - unifVectors.resLowerNew[i]); |
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ValueType diff = storm::utility::abs(unifVectors.resUpper[i] - unifVectors.resLowerNew[i]); |
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maxNorm = std::max(maxNorm, diff); |
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maxNorm = std::max(maxNorm, diff); |
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} |
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} |
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