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Added an example for SCC related testing which will change soon

Removed unnecessary code from the TopologicalValueIterationMdpPrctlModelChecker.h
Fixed Bugs in graph.h (changes from Sparse Matrix Iterator, it didnt even compile anymore! Unused Code HAUNTS us)


Former-commit-id: 96669adec9
tempestpy_adaptions
PBerger 11 years ago
parent
commit
4eef3b0d57
  1. 2
      examples/mdp/scc/scc.pctl
  2. 97
      src/modelchecker/prctl/TopologicalValueIterationMdpPrctlModelChecker.h
  3. 22
      src/solver/TopologicalValueIterationNondeterministicLinearEquationSolver.cpp
  4. 6
      src/utility/graph.h
  5. 7
      test/functional/modelchecker/TopologicalValueIterationMdpPrctlModelCheckerTest.cpp

2
examples/mdp/scc/scc.pctl

@ -0,0 +1,2 @@
Pmin=? [ F a ]
Pmax=? [ F a ]

97
src/modelchecker/prctl/TopologicalValueIterationMdpPrctlModelChecker.h

@ -9,6 +9,7 @@
#define STORM_MODELCHECKER_PRCTL_TOPOLOGICALVALUEITERATIONSMDPPRCTLMODELCHECKER_H_ #define STORM_MODELCHECKER_PRCTL_TOPOLOGICALVALUEITERATIONSMDPPRCTLMODELCHECKER_H_
#include "src/modelchecker/prctl/SparseMdpPrctlModelChecker.h" #include "src/modelchecker/prctl/SparseMdpPrctlModelChecker.h"
#include "src/solver/TopologicalValueIterationNondeterministicLinearEquationSolver.h"
#include "src/exceptions/InvalidPropertyException.h" #include "src/exceptions/InvalidPropertyException.h"
#include <cmath> #include <cmath>
@ -29,7 +30,7 @@ public:
* *
* @param model The MDP to be checked. * @param model The MDP to be checked.
*/ */
explicit TopologicalValueIterationMdpPrctlModelChecker(storm::models::Mdp<Type> const& model) : SparseMdpPrctlModelChecker<Type>(model) {
explicit TopologicalValueIterationMdpPrctlModelChecker(storm::models::Mdp<Type> const& model) : SparseMdpPrctlModelChecker<Type>(model, std::shared_ptr<storm::solver::NondeterministicLinearEquationSolver<Type>>(new storm::solver::TopologicalValueIterationNondeterministicLinearEquationSolver<Type>())) {
// Intentionally left empty. // Intentionally left empty.
} }
@ -46,100 +47,6 @@ public:
* Virtual destructor. Needs to be virtual, because this class has virtual methods. * Virtual destructor. Needs to be virtual, because this class has virtual methods.
*/ */
virtual ~TopologicalValueIterationMdpPrctlModelChecker() { } virtual ~TopologicalValueIterationMdpPrctlModelChecker() { }
private:
/*!
* Solves the given equation system under the given parameters using the power method.
*
* @param A The matrix A specifying the coefficients of the equations.
* @param x The vector x for which to solve the equations. The initial value of the elements of
* this vector are used as the initial guess and might thus influence performance and convergence.
* @param b The vector b specifying the values on the right-hand-sides of the equations.
* @return The solution of the system of linear equations in form of the elements of the vector
* x.
*/
void solveEquationSystem(storm::storage::SparseMatrix<Type> const& matrix, std::vector<Type>& x, std::vector<Type> const& b, std::vector<uint_fast64_t> const& nondeterministicChoiceIndices) const {
// Get the settings object to customize solving.
storm::settings::Settings* s = storm::settings::Settings::getInstance();
// Get relevant user-defined settings for solving the equations.
double precision = s->getOptionByLongName("precision").getArgument(0).getValueAsDouble();
uint_fast64_t maxIterations = s->getOptionByLongName("maxIterations").getArgument(0).getValueAsUnsignedInteger();
bool relative = s->getOptionByLongName("relative").getArgument(0).getValueAsBoolean();
// Now, we need to determine the SCCs of the MDP and a topological sort.
std::vector<std::vector<uint_fast64_t>> stronglyConnectedComponents = storm::utility::graph::performSccDecomposition(matrix, nondeterministicChoiceIndices, stronglyConnectedComponents, stronglyConnectedComponentsDependencyGraph);
storm::storage::SparseMatrix<T> stronglyConnectedComponentsDependencyGraph = this->getModel().extractSccDependencyGraph(stronglyConnectedComponents);
std::vector<uint_fast64_t> topologicalSort = storm::utility::graph::getTopologicalSort(stronglyConnectedComponentsDependencyGraph);
// Set up the environment for the power method.
std::vector<Type> multiplyResult(matrix.getRowCount());
std::vector<Type>* currentX = &x;
std::vector<Type>* newX = new std::vector<Type>(x.size());
std::vector<Type>* swap = nullptr;
uint_fast64_t currentMaxLocalIterations = 0;
uint_fast64_t localIterations = 0;
uint_fast64_t globalIterations = 0;
bool converged = true;
// Iterate over all SCCs of the MDP as specified by the topological sort. This guarantees that an SCC is only
// solved after all SCCs it depends on have been solved.
for (auto sccIndexIt = topologicalSort.begin(); sccIndexIt != topologicalSort.end() && converged; ++sccIndexIt) {
std::vector<uint_fast64_t> const& scc = stronglyConnectedComponents[*sccIndexIt];
// For the current SCC, we need to perform value iteration until convergence.
localIterations = 0;
converged = false;
while (!converged && localIterations < maxIterations) {
// Compute x' = A*x + b.
matrix.multiplyWithVector(scc, nondeterministicChoiceIndices, *currentX, multiplyResult);
storm::utility::addVectors(scc, nondeterministicChoiceIndices, multiplyResult, b);
// Reduce the vector x' by applying min/max for all non-deterministic choices.
if (this->minimumOperatorStack.top()) {
storm::utility::reduceVectorMin(multiplyResult, newX, scc, nondeterministicChoiceIndices);
} else {
storm::utility::reduceVectorMax(multiplyResult, newX, scc, nondeterministicChoiceIndices);
}
// Determine whether the method converged.
// TODO: It seems that the equalModuloPrecision call that compares all values should have a higher
// running time. In fact, it is faster. This has to be investigated.
// converged = storm::utility::equalModuloPrecision(*currentX, *newX, scc, precision, relative);
converged = storm::utility::equalModuloPrecision(*currentX, *newX, precision, relative);
// Update environment variables.
swap = currentX;
currentX = newX;
newX = swap;
++localIterations;
++globalIterations;
}
// As the "number of iterations" of the full method is the maximum of the local iterations, we need to keep
// track of the maximum.
if (localIterations > currentMaxLocalIterations) {
currentMaxLocalIterations = localIterations;
}
}
// If we performed an odd number of global iterations, we need to swap the x and currentX, because the newest
// result is currently stored in currentX, but x is the output vector.
// TODO: Check whether this is correct or should be put into the for-loop over SCCs.
if (globalIterations % 2 == 1) {
std::swap(x, *currentX);
delete currentX;
} else {
delete newX;
}
// Check if the solver converged and issue a warning otherwise.
if (converged) {
LOG4CPLUS_INFO(logger, "Iterative solver converged after " << currentMaxLocalIterations << " iterations.");
} else {
LOG4CPLUS_WARN(logger, "Iterative solver did not converge.");
}
}
}; };
} // namespace prctl } // namespace prctl

22
src/solver/TopologicalValueIterationNondeterministicLinearEquationSolver.cpp

@ -66,16 +66,24 @@ namespace storm {
// Iterate over all SCCs of the MDP as specified by the topological sort. This guarantees that an SCC is only // Iterate over all SCCs of the MDP as specified by the topological sort. This guarantees that an SCC is only
// solved after all SCCs it depends on have been solved. // solved after all SCCs it depends on have been solved.
int counter = 0;
std::cout << "Solving Equation System using the TopologicalValueIterationNon..." << std::endl;
for (auto sccIndexIt = topologicalSort.begin(); sccIndexIt != topologicalSort.end() && converged; ++sccIndexIt) { for (auto sccIndexIt = topologicalSort.begin(); sccIndexIt != topologicalSort.end() && converged; ++sccIndexIt) {
std::vector<uint_fast64_t> const& scc = sccDecomposition[*sccIndexIt];
storm::storage::StateBlock const& scc = sccDecomposition[*sccIndexIt];
std::cout << "SCC " << counter << " contains:" << std::endl;
for (auto sccIt = scc.cbegin(); sccIt != scc.cend(); ++sccIt) {
std::cout << *sccIt << ", ";
}
std::cout << std::endl;
// For the current SCC, we need to perform value iteration until convergence. // For the current SCC, we need to perform value iteration until convergence.
localIterations = 0; localIterations = 0;
converged = false; converged = false;
while (!converged && localIterations < maximalNumberOfIterations) { while (!converged && localIterations < maximalNumberOfIterations) {
// Compute x' = A*x + b. // Compute x' = A*x + b.
A.multiplyWithVector(scc, nondeterministicChoiceIndices, *currentX, multiplyResult);
storm::utility::addVectors(scc, nondeterministicChoiceIndices, multiplyResult, b);
//A.multiplyWithVector(scc, nondeterministicChoiceIndices, *currentX, multiplyResult);
//storm::utility::addVectors(scc, nondeterministicChoiceIndices, multiplyResult, b);
/* /*
Versus: Versus:
@ -85,17 +93,17 @@ namespace storm {
// Reduce the vector x' by applying min/max for all non-deterministic choices. // Reduce the vector x' by applying min/max for all non-deterministic choices.
if (minimize) { if (minimize) {
storm::utility::reduceVectorMin(*multiplyResult, *newX, scc, nondeterministicChoiceIndices);
//storm::utility::reduceVectorMin(*multiplyResult, *newX, scc, nondeterministicChoiceIndices);
} }
else { else {
storm::utility::reduceVectorMax(*multiplyResult, *newX, scc, nondeterministicChoiceIndices);
//storm::utility::reduceVectorMax(*multiplyResult, *newX, scc, nondeterministicChoiceIndices);
} }
// Determine whether the method converged. // Determine whether the method converged.
// TODO: It seems that the equalModuloPrecision call that compares all values should have a higher // TODO: It seems that the equalModuloPrecision call that compares all values should have a higher
// running time. In fact, it is faster. This has to be investigated. // running time. In fact, it is faster. This has to be investigated.
// converged = storm::utility::equalModuloPrecision(*currentX, *newX, scc, precision, relative); // converged = storm::utility::equalModuloPrecision(*currentX, *newX, scc, precision, relative);
converged = storm::utility::equalModuloPrecision(*currentX, *newX, precision, relative);
converged = storm::utility::vector::equalModuloPrecision<ValueType>(*currentX, *newX, precision, relative);
// Update environment variables. // Update environment variables.
swap = currentX; swap = currentX;
@ -120,7 +128,7 @@ namespace storm {
} }
if (!xMemoryProvided) { if (!xMemoryProvided) {
delete copyX;
delete newX;
} }
if (!multiplyResultMemoryProvided) { if (!multiplyResultMemoryProvided) {

6
src/utility/graph.h

@ -598,12 +598,12 @@ namespace storm {
recursionStepBackward: recursionStepBackward:
for (; successorIterator != matrix.end(currentState); ++successorIterator) { for (; successorIterator != matrix.end(currentState); ++successorIterator) {
if (!visitedStates.get(successorIterator.first)) {
if (!visitedStates.get(successorIterator->first)) {
// Put unvisited successor on top of our recursion stack and remember that. // Put unvisited successor on top of our recursion stack and remember that.
recursionStack.push_back(successorIterator.first);
recursionStack.push_back(successorIterator->first);
// Also, put initial value for iterator on corresponding recursion stack. // Also, put initial value for iterator on corresponding recursion stack.
iteratorRecursionStack.push_back(matrix.begin(successorIterator.first));
iteratorRecursionStack.push_back(matrix.begin(successorIterator->first));
goto recursionStepForward; goto recursionStepForward;
} }

7
test/functional/modelchecker/TopologicalValueIterationMdpPrctlModelCheckerTest.cpp

@ -9,7 +9,8 @@
TEST(TopologicalValueIterationMdpPrctlModelCheckerTest, Dice) { TEST(TopologicalValueIterationMdpPrctlModelCheckerTest, Dice) {
storm::settings::Settings* s = storm::settings::Settings::getInstance(); storm::settings::Settings* s = storm::settings::Settings::getInstance();
storm::parser::AutoParser<double> parser(STORM_CPP_BASE_PATH "/examples/mdp/two_dice/two_dice.tra", STORM_CPP_BASE_PATH "/examples/mdp/two_dice/two_dice.lab", "", STORM_CPP_BASE_PATH "/examples/mdp/two_dice/two_dice.flip.trans.rew");
//storm::parser::AutoParser<double> parser(STORM_CPP_BASE_PATH "/examples/mdp/two_dice/two_dice.tra", STORM_CPP_BASE_PATH "/examples/mdp/two_dice/two_dice.lab", "", STORM_CPP_BASE_PATH "/examples/mdp/two_dice/two_dice.flip.trans.rew");
storm::parser::AutoParser<double> parser(STORM_CPP_BASE_PATH "/examples/mdp/scc/scc.tra", STORM_CPP_BASE_PATH "/examples/mdp/scc/scc.lab", "");
ASSERT_EQ(parser.getType(), storm::models::MDP); ASSERT_EQ(parser.getType(), storm::models::MDP);
@ -152,7 +153,7 @@ TEST(TopologicalValueIterationMdpPrctlModelCheckerTest, Dice) {
} }
TEST(TopologicalValueIterationMdpPrctlModelCheckerTest, AsynchronousLeader) { TEST(TopologicalValueIterationMdpPrctlModelCheckerTest, AsynchronousLeader) {
storm::settings::Settings* s = storm::settings::Settings::getInstance();
/*storm::settings::Settings* s = storm::settings::Settings::getInstance();
storm::parser::AutoParser<double> parser(STORM_CPP_BASE_PATH "/examples/mdp/asynchronous_leader/leader4.tra", STORM_CPP_BASE_PATH "/examples/mdp/asynchronous_leader/leader4.lab", "", STORM_CPP_BASE_PATH "/examples/mdp/asynchronous_leader/leader4.trans.rew"); storm::parser::AutoParser<double> parser(STORM_CPP_BASE_PATH "/examples/mdp/asynchronous_leader/leader4.tra", STORM_CPP_BASE_PATH "/examples/mdp/asynchronous_leader/leader4.lab", "", STORM_CPP_BASE_PATH "/examples/mdp/asynchronous_leader/leader4.trans.rew");
ASSERT_EQ(parser.getType(), storm::models::MDP); ASSERT_EQ(parser.getType(), storm::models::MDP);
@ -220,5 +221,5 @@ TEST(TopologicalValueIterationMdpPrctlModelCheckerTest, AsynchronousLeader) {
result = mc.checkNoBoundOperator(*rewardFormula);; result = mc.checkNoBoundOperator(*rewardFormula);;
ASSERT_LT(std::abs(result[0] - 4.285689611), s->getOptionByLongName("precision").getArgument(0).getValueAsDouble()); ASSERT_LT(std::abs(result[0] - 4.285689611), s->getOptionByLongName("precision").getArgument(0).getValueAsDouble());
delete rewardFormula;
delete rewardFormula;*/
} }
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