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@ -43,9 +43,9 @@ namespace storm { |
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std::vector<uint_fast64_t> remainingSteps; |
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if (useStepBound) { |
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stepStack.reserve(numberOfStates); |
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stepStack.insert(stepStack.begin(), targetStates.getNumberOfSetBits(), maximalSteps); |
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stepStack.insert(stepStack.begin(), initialStates.getNumberOfSetBits(), maximalSteps); |
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remainingSteps.resize(numberOfStates); |
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for (auto state : targetStates) { |
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for (auto state : initialStates) { |
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remainingSteps[state] = maximalSteps; |
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} |
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} |
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@ -59,12 +59,16 @@ namespace storm { |
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if (useStepBound) { |
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currentStepBound = stepStack.back(); |
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stepStack.pop_back(); |
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if (currentStepBound == 0) { |
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continue; |
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} |
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} |
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for (auto const& successor : transitionMatrix.getRowGroup(currentState)) { |
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// Only explore the state if the transition was actually there and the successor has not yet
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// been visited.
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if (successor.getValue() != storm::utility::zero<T>() && !reachableStates.get(successor.getColumn()) && (!useStepBound || remainingSteps[successor.getColumn()] < currentStepBound - 1)) { |
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if (!storm::utility::isZero(successor.getValue()) && !reachableStates.get(successor.getColumn()) || (useStepBound && remainingSteps[successor.getColumn()] < currentStepBound - 1)) { |
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// If the successor is one of the target states, we need to include it, but must not explore
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// it further.
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if (targetStates.get(successor.getColumn())) { |
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@ -72,12 +76,9 @@ namespace storm { |
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} else if (constraintStates.get(successor.getColumn())) { |
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// However, if the state is in the constrained set of states, we potentially need to follow it.
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if (useStepBound) { |
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// As there is at least one more step to go, we need to push the state and the new number of steps.
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remainingSteps[successor.getColumn()] = currentStepBound - 1; |
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stepStack.push_back(currentStepBound - 1); |
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if (currentStepBound == 0) { |
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continue; |
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} |
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} |
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reachableStates.set(successor.getColumn()); |
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stack.push_back(successor.getColumn()); |
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@ -168,20 +169,21 @@ namespace storm { |
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if (useStepBound) { |
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currentStepBound = stepStack.back(); |
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stepStack.pop_back(); |
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if(currentStepBound == 0) { |
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continue; |
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} |
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} |
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for (typename storm::storage::SparseMatrix<T>::const_iterator entryIt = backwardTransitions.begin(currentState), entryIte = backwardTransitions.end(currentState); entryIt != entryIte; ++entryIt) { |
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if (phiStates[entryIt->getColumn()] && (!statesWithProbabilityGreater0.get(entryIt->getColumn()) && (!useStepBound || remainingSteps[entryIt->getColumn()] < currentStepBound))) { |
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if (phiStates[entryIt->getColumn()] && (!statesWithProbabilityGreater0.get(entryIt->getColumn()) || (useStepBound && remainingSteps[entryIt->getColumn()] < currentStepBound - 1))) { |
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statesWithProbabilityGreater0.set(entryIt->getColumn(), true); |
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// If we don't have a bound on the number of steps to take, just add the state to the stack.
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if (useStepBound) { |
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// If there is at least one more step to go, we need to push the state and the new number of steps.
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// As there is at least one more step to go, we need to push the state and the new number of steps.
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remainingSteps[entryIt->getColumn()] = currentStepBound - 1; |
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stepStack.push_back(currentStepBound - 1); |
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if (currentStepBound == 0) { |
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continue; |
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} |
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} |
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stack.push_back(entryIt->getColumn()); |
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} |
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@ -458,19 +460,18 @@ namespace storm { |
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if (useStepBound) { |
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currentStepBound = stepStack.back(); |
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stepStack.pop_back(); |
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if (currentStepBound == 0) { |
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continue; |
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} |
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} |
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for (typename storm::storage::SparseMatrix<T>::const_iterator entryIt = backwardTransitions.begin(currentState), entryIte = backwardTransitions.end(currentState); entryIt != entryIte; ++entryIt) { |
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if (phiStates.get(entryIt->getColumn()) && (!statesWithProbabilityGreater0.get(entryIt->getColumn()) && (!useStepBound || remainingSteps[entryIt->getColumn()] < currentStepBound))) { |
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if (phiStates.get(entryIt->getColumn()) && (!statesWithProbabilityGreater0.get(entryIt->getColumn()) || (useStepBound && remainingSteps[entryIt->getColumn()] < currentStepBound - 1))) { |
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// If we don't have a bound on the number of steps to take, just add the state to the stack.
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if (useStepBound) { |
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// If there is at least one more step to go, we need to push the state and the new number of steps.
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remainingSteps[entryIt->getColumn()] = currentStepBound - 1; |
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stepStack.push_back(currentStepBound - 1); |
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if (currentStepBound == 0) { |
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continue; |
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} |
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} |
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statesWithProbabilityGreater0.set(entryIt->getColumn(), true); |
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stack.push_back(entryIt->getColumn()); |
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@ -602,41 +603,49 @@ namespace storm { |
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if (useStepBound) { |
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currentStepBound = stepStack.back(); |
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stepStack.pop_back(); |
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if (currentStepBound == 0) { |
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continue; |
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} |
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} |
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for(typename storm::storage::SparseMatrix<T>::const_iterator predecessorEntryIt = backwardTransitions.begin(currentState), predecessorEntryIte = backwardTransitions.end(currentState); predecessorEntryIt != predecessorEntryIte; ++predecessorEntryIt) { |
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if (phiStates.get(predecessorEntryIt->getColumn()) && (!statesWithProbabilityGreater0.get(predecessorEntryIt->getColumn()) && (!useStepBound || remainingSteps[predecessorEntryIt->getColumn()] < currentStepBound))) { |
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// Check whether the predecessor has at least one successor in the current state set for every
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// nondeterministic choice.
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bool addToStatesWithProbabilityGreater0 = true; |
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for (uint_fast64_t row = nondeterministicChoiceIndices[predecessorEntryIt->getColumn()]; row < nondeterministicChoiceIndices[predecessorEntryIt->getColumn() + 1]; ++row) { |
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bool hasAtLeastOneSuccessorWithProbabilityGreater0 = false; |
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for (typename storm::storage::SparseMatrix<T>::const_iterator successorEntryIt = transitionMatrix.begin(row), successorEntryIte = transitionMatrix.end(row); successorEntryIt != successorEntryIte; ++successorEntryIt) { |
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if (statesWithProbabilityGreater0.get(successorEntryIt->getColumn())) { |
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hasAtLeastOneSuccessorWithProbabilityGreater0 = true; |
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if (phiStates.get(predecessorEntryIt->getColumn())) { |
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if (!statesWithProbabilityGreater0.get(predecessorEntryIt->getColumn())) { |
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// Check whether the predecessor has at least one successor in the current state set for every
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// nondeterministic choice.
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bool addToStatesWithProbabilityGreater0 = true; |
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for (uint_fast64_t row = nondeterministicChoiceIndices[predecessorEntryIt->getColumn()]; row < nondeterministicChoiceIndices[predecessorEntryIt->getColumn() + 1]; ++row) { |
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bool hasAtLeastOneSuccessorWithProbabilityGreater0 = false; |
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for (typename storm::storage::SparseMatrix<T>::const_iterator successorEntryIt = transitionMatrix.begin(row), successorEntryIte = transitionMatrix.end(row); successorEntryIt != successorEntryIte; ++successorEntryIt) { |
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if (statesWithProbabilityGreater0.get(successorEntryIt->getColumn())) { |
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hasAtLeastOneSuccessorWithProbabilityGreater0 = true; |
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break; |
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} |
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} |
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if (!hasAtLeastOneSuccessorWithProbabilityGreater0) { |
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addToStatesWithProbabilityGreater0 = false; |
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break; |
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} |
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} |
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if (!hasAtLeastOneSuccessorWithProbabilityGreater0) { |
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addToStatesWithProbabilityGreater0 = false; |
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break; |
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} |
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} |
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// If we need to add the state, then actually add it and perform further search from the state.
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if (addToStatesWithProbabilityGreater0) { |
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// If we don't have a bound on the number of steps to take, just add the state to the stack.
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if (useStepBound) { |
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// If there is at least one more step to go, we need to push the state and the new number of steps.
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remainingSteps[predecessorEntryIt->getColumn()] = currentStepBound - 1; |
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stepStack.push_back(currentStepBound - 1); |
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if (currentStepBound == 0) { |
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continue; |
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// If we need to add the state, then actually add it and perform further search from the state.
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if (addToStatesWithProbabilityGreater0) { |
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// If we don't have a bound on the number of steps to take, just add the state to the stack.
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if (useStepBound) { |
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// If there is at least one more step to go, we need to push the state and the new number of steps.
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remainingSteps[predecessorEntryIt->getColumn()] = currentStepBound - 1; |
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stepStack.push_back(currentStepBound - 1); |
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} |
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statesWithProbabilityGreater0.set(predecessorEntryIt->getColumn(), true); |
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stack.push_back(predecessorEntryIt->getColumn()); |
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} |
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statesWithProbabilityGreater0.set(predecessorEntryIt->getColumn(), true); |
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} else if (useStepBound && remainingSteps[predecessorEntryIt->getColumn()] < currentStepBound - 1) { |
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// We have found a shorter path to the predecessor. Hence, we need to explore it again
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remainingSteps[predecessorEntryIt->getColumn()] = currentStepBound - 1; |
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stepStack.push_back(currentStepBound - 1); |
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stack.push_back(predecessorEntryIt->getColumn()); |
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} |
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} |
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TimQu
8 years ago