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Introduced precision for digitization-based techniques as a new parameter.

Former-commit-id: e9c57f821b
tempestpy_adaptions
dehnert 11 years ago
parent
commit
3dab26463d
  1. 8
      src/modelchecker/csl/SparseMarkovAutomatonCslModelChecker.cpp
  2. 4
      src/modelchecker/csl/SparseMarkovAutomatonCslModelChecker.h
  3. 10
      src/storm.cpp

8
src/modelchecker/csl/SparseMarkovAutomatonCslModelChecker.cpp

@ -0,0 +1,8 @@
#include "src/modelchecker/csl/SparseMarkovAutomatonCslModelChecker.h"
bool SparseMarkovAutomatonCslModelCheckerOptionsRegistered = storm::settings::Settings::registerNewModule([] (storm::settings::Settings* instance) -> bool {
instance->addOption(storm::settings::OptionBuilder("GmmxxLinearEquationSolver", "digiprecision", "", "Precision used for iterative solving of linear equation systems").addArgument(storm::settings::ArgumentBuilder::createDoubleArgument("precision value", "Precision").setDefaultValueDouble(1e-4).addValidationFunctionDouble(storm::settings::ArgumentValidators::doubleRangeValidatorExcluding(0.0, 1.0)).build()).build());
return true;
});

4
src/modelchecker/csl/SparseMarkovAutomatonCslModelChecker.h

@ -179,7 +179,7 @@ namespace storm {
// (1) Compute the accuracy we need to achieve the required error bound.
ValueType maxExitRate = this->getModel().getMaximalExitRate();
ValueType delta = (2 * storm::settings::Settings::getInstance()->getOptionByLongName("precision").getArgument(0).getValueAsDouble()) / (upperBound * maxExitRate * maxExitRate);
ValueType delta = (2 * storm::settings::Settings::getInstance()->getOptionByLongName("digiprecision").getArgument(0).getValueAsDouble()) / (upperBound * maxExitRate * maxExitRate);
// (2) Compute the number of steps we need to make for the interval.
uint_fast64_t numberOfSteps = static_cast<uint_fast64_t>(std::ceil((upperBound - lowerBound) / delta));
@ -203,10 +203,8 @@ namespace storm {
// Create the starting value vectors for the next value iteration based on the results of the previous one.
storm::utility::vector::setVectorValues<ValueType>(vAllProbabilistic, ~markovianStates % goalStates, storm::utility::constGetOne<ValueType>());
storm::utility::vector::setVectorValues<ValueType>(vAllProbabilistic, ~markovianStates % ~goalStates, vProbabilistic);
std::cout << vAllProbabilistic << std::endl;
storm::utility::vector::setVectorValues<ValueType>(vAllMarkovian, markovianStates % goalStates, storm::utility::constGetOne<ValueType>());
storm::utility::vector::setVectorValues<ValueType>(vAllMarkovian, markovianStates % ~goalStates, vMarkovian);
std::cout << vAllMarkovian << std::endl;
// Compute the number of steps to reach the target interval.
numberOfSteps = static_cast<uint_fast64_t>(std::ceil(lowerBound / delta));

10
src/storm.cpp

@ -463,10 +463,12 @@ int main(const int argc, const char* argv[]) {
std::shared_ptr<storm::models::MarkovAutomaton<double>> markovAutomaton = parser.getModel<storm::models::MarkovAutomaton<double>>();
markovAutomaton->close();
storm::modelchecker::csl::SparseMarkovAutomatonCslModelChecker<double> mc(*markovAutomaton, std::shared_ptr<storm::solver::AbstractNondeterministicLinearEquationSolver<double>>(new storm::solver::AbstractNondeterministicLinearEquationSolver<double>()));
std::cout << mc.checkExpectedTime(true, markovAutomaton->getLabeledStates("goal")) << std::endl;
std::cout << mc.checkLongRunAverage(true, markovAutomaton->getLabeledStates("goal")) << std::endl;
// std::cout << mc.checkTimeBoundedEventually(true, markovAutomaton->getLabeledStates("goal"), 0, 1) << std::endl;
// std::cout << mc.checkTimeBoundedEventually(true, markovAutomaton->getLabeledStates("goal"), 1, 2) << std::endl;
// std::cout << mc.checkExpectedTime(true, markovAutomaton->getLabeledStates("goal")) << std::endl;
// std::cout << mc.checkExpectedTime(false, markovAutomaton->getLabeledStates("goal")) << std::endl;
// std::cout << mc.checkLongRunAverage(true, markovAutomaton->getLabeledStates("goal")) << std::endl;
// std::cout << mc.checkLongRunAverage(false, markovAutomaton->getLabeledStates("goal")) << std::endl;
// std::cout << mc.checkTimeBoundedEventually(true, markovAutomaton->getLabeledStates("goal"), 0, 1) << std::endl;
std::cout << mc.checkTimeBoundedEventually(true, markovAutomaton->getLabeledStates("goal"), 1, 2) << std::endl;
break;
}
case storm::models::Unknown:

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