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tempest/test/functional/utility/ModelInstantiatorTest.cpp

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#include "gtest/gtest.h"
#include "storm-config.h"
#ifdef STORM_HAVE_CARL
#include "src/adapters/CarlAdapter.h"
#include<carl/numbers/numbers.h>
#include<carl/core/VariablePool.h>
#include "src/settings/SettingsManager.h"
#include "src/settings/modules/GeneralSettings.h"
#include "utility/storm.h"
#include "utility/ModelInstantiator.h"
#include "src/models/sparse/Model.h"
#include "src/models/sparse/Dtmc.h"
#include "src/models/sparse/Mdp.h"
TEST(ModelInstantiatorTest, BrpProb) {
carl::VariablePool::getInstance().clear();
std::string programFile = STORM_CPP_TESTS_BASE_PATH "/functional/utility/brp16_2.pm";
std::string formulaAsString = "P=? [F s=5 ]";
// Program and formula
storm::prism::Program program = storm::parseProgram(programFile);
program.checkValidity();
std::vector<std::shared_ptr<storm::logic::Formula const>> formulas = storm::parseFormulasForPrismProgram(formulaAsString, program);
ASSERT_TRUE(formulas.size()==1);
// Parametric model
storm::generator::NextStateGeneratorOptions options(*formulas.front());
std::shared_ptr<storm::models::sparse::Dtmc<storm::RationalFunction>> dtmc = storm::builder::ExplicitModelBuilder<storm::RationalFunction>(program, options).build()->as<storm::models::sparse::Dtmc<storm::RationalFunction>>();
storm::utility::ModelInstantiator<storm::models::sparse::Dtmc<storm::RationalFunction>, storm::models::sparse::Dtmc<double>> modelInstantiator(*dtmc);
EXPECT_FALSE(dtmc->hasRewardModel());
{
std::map<storm::RationalFunctionVariable, storm::RationalNumber> valuation;
storm::RationalFunctionVariable const& pL = carl::VariablePool::getInstance().findVariableWithName("pL");
ASSERT_NE(pL, carl::Variable::NO_VARIABLE);
storm::RationalFunctionVariable const& pK = carl::VariablePool::getInstance().findVariableWithName("pK");
ASSERT_NE(pK, carl::Variable::NO_VARIABLE);
valuation.insert(std::make_pair(pL,carl::rationalize<storm::RationalNumber>(0.8)));
valuation.insert(std::make_pair(pK,carl::rationalize<storm::RationalNumber>(0.9)));
storm::models::sparse::Dtmc<double> const& instantiated(modelInstantiator.instantiate(valuation));
ASSERT_EQ(dtmc->getTransitionMatrix().getRowGroupIndices(), instantiated.getTransitionMatrix().getRowGroupIndices());
for(std::size_t rowGroup = 0; rowGroup < dtmc->getTransitionMatrix().getRowGroupCount(); ++rowGroup){
for(std::size_t row = dtmc->getTransitionMatrix().getRowGroupIndices()[rowGroup]; row < dtmc->getTransitionMatrix().getRowGroupIndices()[rowGroup+1]; ++row){
auto instantiatedEntry = instantiated.getTransitionMatrix().getRow(row).begin();
for(auto const& paramEntry : dtmc->getTransitionMatrix().getRow(row)){
EXPECT_EQ(paramEntry.getColumn(), instantiatedEntry->getColumn());
double evaluatedValue = carl::toDouble(paramEntry.getValue().evaluate(valuation));
EXPECT_EQ(evaluatedValue, instantiatedEntry->getValue());
++instantiatedEntry;
}
EXPECT_EQ(instantiated.getTransitionMatrix().getRow(row).end(),instantiatedEntry);
}
}
EXPECT_EQ(dtmc->getStateLabeling(), instantiated.getStateLabeling());
EXPECT_EQ(dtmc->getOptionalChoiceLabeling(), instantiated.getOptionalChoiceLabeling());
storm::modelchecker::SparseDtmcPrctlModelChecker<storm::models::sparse::Dtmc<double>> modelchecker(instantiated);
std::unique_ptr<storm::modelchecker::CheckResult> chkResult = modelchecker.check(*formulas[0]);
storm::modelchecker::ExplicitQuantitativeCheckResult<double>& quantitativeChkResult = chkResult->asExplicitQuantitativeCheckResult<double>();
EXPECT_NEAR(0.2989278941, quantitativeChkResult[*instantiated.getInitialStates().begin()], storm::settings::getModule<storm::settings::modules::GeneralSettings>().getPrecision());
}
{
std::map<storm::RationalFunctionVariable, storm::RationalNumber> valuation;
storm::RationalFunctionVariable const& pL = carl::VariablePool::getInstance().findVariableWithName("pL");
ASSERT_NE(pL, carl::Variable::NO_VARIABLE);
storm::RationalFunctionVariable const& pK = carl::VariablePool::getInstance().findVariableWithName("pK");
ASSERT_NE(pK, carl::Variable::NO_VARIABLE);
valuation.insert(std::make_pair(pL,carl::rationalize<storm::RationalNumber>(1.0)));
valuation.insert(std::make_pair(pK,carl::rationalize<storm::RationalNumber>(1.0)));
storm::models::sparse::Dtmc<double> const& instantiated(modelInstantiator.instantiate(valuation));
ASSERT_EQ(dtmc->getTransitionMatrix().getRowGroupIndices(), instantiated.getTransitionMatrix().getRowGroupIndices());
for(std::size_t rowGroup = 0; rowGroup < dtmc->getTransitionMatrix().getRowGroupCount(); ++rowGroup){
for(std::size_t row = dtmc->getTransitionMatrix().getRowGroupIndices()[rowGroup]; row < dtmc->getTransitionMatrix().getRowGroupIndices()[rowGroup+1]; ++row){
auto instantiatedEntry = instantiated.getTransitionMatrix().getRow(row).begin();
for(auto const& paramEntry : dtmc->getTransitionMatrix().getRow(row)){
EXPECT_EQ(paramEntry.getColumn(), instantiatedEntry->getColumn());
double evaluatedValue = carl::toDouble(paramEntry.getValue().evaluate(valuation));
EXPECT_EQ(evaluatedValue, instantiatedEntry->getValue());
++instantiatedEntry;
}
EXPECT_EQ(instantiated.getTransitionMatrix().getRow(row).end(),instantiatedEntry);
}
}
EXPECT_EQ(dtmc->getStateLabeling(), instantiated.getStateLabeling());
EXPECT_EQ(dtmc->getOptionalChoiceLabeling(), instantiated.getOptionalChoiceLabeling());
storm::modelchecker::SparseDtmcPrctlModelChecker<storm::models::sparse::Dtmc<double>> modelchecker(instantiated);
std::unique_ptr<storm::modelchecker::CheckResult> chkResult = modelchecker.check(*formulas[0]);
storm::modelchecker::ExplicitQuantitativeCheckResult<double>& quantitativeChkResult = chkResult->asExplicitQuantitativeCheckResult<double>();
EXPECT_EQ(0.0 , quantitativeChkResult[*instantiated.getInitialStates().begin()]);
}
{
std::map<storm::RationalFunctionVariable, storm::RationalNumber> valuation;
storm::RationalFunctionVariable const& pL = carl::VariablePool::getInstance().findVariableWithName("pL");
ASSERT_NE(pL, carl::Variable::NO_VARIABLE);
storm::RationalFunctionVariable const& pK = carl::VariablePool::getInstance().findVariableWithName("pK");
ASSERT_NE(pK, carl::Variable::NO_VARIABLE);
valuation.insert(std::make_pair(pL,carl::rationalize<storm::RationalNumber>(1.0)));
valuation.insert(std::make_pair(pK,carl::rationalize<storm::RationalNumber>(0.9)));
storm::models::sparse::Dtmc<double> const& instantiated(modelInstantiator.instantiate(valuation));
ASSERT_EQ(dtmc->getTransitionMatrix().getRowGroupIndices(), instantiated.getTransitionMatrix().getRowGroupIndices());
for(std::size_t rowGroup = 0; rowGroup < dtmc->getTransitionMatrix().getRowGroupCount(); ++rowGroup){
for(std::size_t row = dtmc->getTransitionMatrix().getRowGroupIndices()[rowGroup]; row < dtmc->getTransitionMatrix().getRowGroupIndices()[rowGroup+1]; ++row){
auto instantiatedEntry = instantiated.getTransitionMatrix().getRow(row).begin();
for(auto const& paramEntry : dtmc->getTransitionMatrix().getRow(row)){
EXPECT_EQ(paramEntry.getColumn(), instantiatedEntry->getColumn());
double evaluatedValue = carl::toDouble(paramEntry.getValue().evaluate(valuation));
EXPECT_EQ(evaluatedValue, instantiatedEntry->getValue());
++instantiatedEntry;
}
EXPECT_EQ(instantiated.getTransitionMatrix().getRow(row).end(),instantiatedEntry);
}
}
EXPECT_EQ(dtmc->getStateLabeling(), instantiated.getStateLabeling());
EXPECT_EQ(dtmc->getOptionalChoiceLabeling(), instantiated.getOptionalChoiceLabeling());
storm::modelchecker::SparseDtmcPrctlModelChecker<storm::models::sparse::Dtmc<double>> modelchecker(instantiated);
std::unique_ptr<storm::modelchecker::CheckResult> chkResult = modelchecker.check(*formulas[0]);
storm::modelchecker::ExplicitQuantitativeCheckResult<double>& quantitativeChkResult = chkResult->asExplicitQuantitativeCheckResult<double>();
EXPECT_NEAR(0.01588055832, quantitativeChkResult[*instantiated.getInitialStates().begin()], storm::settings::getModule<storm::settings::modules::GeneralSettings>().getPrecision());
}
}
TEST(ModelInstantiatorTest, Brp_Rew) {
carl::VariablePool::getInstance().clear();
std::string programFile = STORM_CPP_TESTS_BASE_PATH "/functional/utility/brp16_2.pm";
std::string formulaAsString = "R=? [F ((s=5) | (s=0&srep=3)) ]";
// Program and formula
storm::prism::Program program = storm::parseProgram(programFile);
program.checkValidity();
std::vector<std::shared_ptr<storm::logic::Formula const>> formulas = storm::parseFormulasForPrismProgram(formulaAsString, program);
ASSERT_TRUE(formulas.size()==1);
// Parametric model
storm::generator::NextStateGeneratorOptions options(*formulas.front());
std::shared_ptr<storm::models::sparse::Dtmc<storm::RationalFunction>> dtmc = storm::builder::ExplicitModelBuilder<storm::RationalFunction>(program, options).build()->as<storm::models::sparse::Dtmc<storm::RationalFunction>>();
storm::utility::ModelInstantiator<storm::models::sparse::Dtmc<storm::RationalFunction>, storm::models::sparse::Dtmc<double>> modelInstantiator(*dtmc);
{
std::map<storm::RationalFunctionVariable, storm::RationalNumber> valuation;
storm::RationalFunctionVariable const& pL = carl::VariablePool::getInstance().findVariableWithName("pL");
ASSERT_NE(pL, carl::Variable::NO_VARIABLE);
storm::RationalFunctionVariable const& pK = carl::VariablePool::getInstance().findVariableWithName("pK");
ASSERT_NE(pK, carl::Variable::NO_VARIABLE);
storm::RationalFunctionVariable const& TOMsg = carl::VariablePool::getInstance().findVariableWithName("TOMsg");
ASSERT_NE(pK, carl::Variable::NO_VARIABLE);
storm::RationalFunctionVariable const& TOAck = carl::VariablePool::getInstance().findVariableWithName("TOAck");
ASSERT_NE(pK, carl::Variable::NO_VARIABLE);
valuation.insert(std::make_pair(pL,carl::rationalize<storm::RationalNumber>(0.9)));
valuation.insert(std::make_pair(pK,carl::rationalize<storm::RationalNumber>(0.3)));
valuation.insert(std::make_pair(TOMsg,carl::rationalize<storm::RationalNumber>(0.3)));
valuation.insert(std::make_pair(TOAck,carl::rationalize<storm::RationalNumber>(0.5)));
storm::models::sparse::Dtmc<double> const& instantiated(modelInstantiator.instantiate(valuation));
ASSERT_EQ(dtmc->getTransitionMatrix().getRowGroupIndices(), instantiated.getTransitionMatrix().getRowGroupIndices());
for(std::size_t rowGroup = 0; rowGroup < dtmc->getTransitionMatrix().getRowGroupCount(); ++rowGroup){
for(std::size_t row = dtmc->getTransitionMatrix().getRowGroupIndices()[rowGroup]; row < dtmc->getTransitionMatrix().getRowGroupIndices()[rowGroup+1]; ++row){
auto instantiatedEntry = instantiated.getTransitionMatrix().getRow(row).begin();
for(auto const& paramEntry : dtmc->getTransitionMatrix().getRow(row)){
EXPECT_EQ(paramEntry.getColumn(), instantiatedEntry->getColumn());
double evaluatedValue = carl::toDouble(paramEntry.getValue().evaluate(valuation));
EXPECT_EQ(evaluatedValue, instantiatedEntry->getValue());
++instantiatedEntry;
}
EXPECT_EQ(instantiated.getTransitionMatrix().getRow(row).end(),instantiatedEntry);
}
}
ASSERT_TRUE(instantiated.hasUniqueRewardModel());
EXPECT_FALSE(instantiated.getUniqueRewardModel().hasStateRewards());
EXPECT_FALSE(instantiated.getUniqueRewardModel().hasTransitionRewards());
EXPECT_TRUE(instantiated.getUniqueRewardModel().hasStateActionRewards());
ASSERT_TRUE(dtmc->getUniqueRewardModel().hasStateActionRewards());
std::size_t stateActionEntries = dtmc->getUniqueRewardModel().getStateActionRewardVector().size();
ASSERT_EQ(stateActionEntries, instantiated.getUniqueRewardModel().getStateActionRewardVector().size());
for(std::size_t i =0; i<stateActionEntries; ++i){
double evaluatedValue = carl::toDouble(dtmc->getUniqueRewardModel().getStateActionRewardVector()[i].evaluate(valuation));
EXPECT_EQ(evaluatedValue, instantiated.getUniqueRewardModel().getStateActionRewardVector()[i]);
}
EXPECT_EQ(dtmc->getStateLabeling(), instantiated.getStateLabeling());
EXPECT_EQ(dtmc->getOptionalChoiceLabeling(), instantiated.getOptionalChoiceLabeling());
storm::modelchecker::SparseDtmcPrctlModelChecker<storm::models::sparse::Dtmc<double>> modelchecker(instantiated);
std::unique_ptr<storm::modelchecker::CheckResult> chkResult = modelchecker.check(*formulas[0]);
storm::modelchecker::ExplicitQuantitativeCheckResult<double>& quantitativeChkResult = chkResult->asExplicitQuantitativeCheckResult<double>();
EXPECT_NEAR(1.308324495, quantitativeChkResult[*instantiated.getInitialStates().begin()], storm::settings::getModule<storm::settings::modules::GeneralSettings>().getPrecision());
}
}
TEST(ModelInstantiatorTest, Consensus) {
carl::VariablePool::getInstance().clear();
std::string programFile = STORM_CPP_TESTS_BASE_PATH "/functional/utility/coin2_2.pm";
std::string formulaAsString = "Pmin=? [F \"finished\"&\"all_coins_equal_1\" ]";
// Program and formula
storm::prism::Program program = storm::parseProgram(programFile);
program.checkValidity();
std::vector<std::shared_ptr<storm::logic::Formula const>> formulas = storm::parseFormulasForPrismProgram(formulaAsString, program);
ASSERT_TRUE(formulas.size()==1);
// Parametric model
storm::generator::NextStateGeneratorOptions options(*formulas.front());
std::shared_ptr<storm::models::sparse::Mdp<storm::RationalFunction>> mdp = storm::builder::ExplicitModelBuilder<storm::RationalFunction>(program, options).build()->as<storm::models::sparse::Mdp<storm::RationalFunction>>();
storm::utility::ModelInstantiator<storm::models::sparse::Mdp<storm::RationalFunction>, storm::models::sparse::Mdp<double>> modelInstantiator(*mdp);
std::map<storm::RationalFunctionVariable, storm::RationalNumber> valuation;
storm::RationalFunctionVariable const& p1 = carl::VariablePool::getInstance().findVariableWithName("p1");
ASSERT_NE(p1, carl::Variable::NO_VARIABLE);
storm::RationalFunctionVariable const& p2 = carl::VariablePool::getInstance().findVariableWithName("p2");
ASSERT_NE(p2, carl::Variable::NO_VARIABLE);
valuation.insert(std::make_pair(p1,carl::rationalize<storm::RationalNumber>(0.51)));
valuation.insert(std::make_pair(p2,carl::rationalize<storm::RationalNumber>(0.49)));
storm::models::sparse::Mdp<double> const& instantiated(modelInstantiator.instantiate(valuation));
ASSERT_EQ(mdp->getTransitionMatrix().getRowGroupIndices(), instantiated.getTransitionMatrix().getRowGroupIndices());
for(std::size_t rowGroup = 0; rowGroup < mdp->getTransitionMatrix().getRowGroupCount(); ++rowGroup){
for(std::size_t row = mdp->getTransitionMatrix().getRowGroupIndices()[rowGroup]; row < mdp->getTransitionMatrix().getRowGroupIndices()[rowGroup+1]; ++row){
auto instantiatedEntry = instantiated.getTransitionMatrix().getRow(row).begin();
for(auto const& paramEntry : mdp->getTransitionMatrix().getRow(row)){
EXPECT_EQ(paramEntry.getColumn(), instantiatedEntry->getColumn());
double evaluatedValue = carl::toDouble(paramEntry.getValue().evaluate(valuation));
EXPECT_EQ(evaluatedValue, instantiatedEntry->getValue());
++instantiatedEntry;
}
EXPECT_EQ(instantiated.getTransitionMatrix().getRow(row).end(),instantiatedEntry);
}
}
EXPECT_EQ(mdp->getStateLabeling(), instantiated.getStateLabeling());
EXPECT_EQ(mdp->getOptionalChoiceLabeling(), instantiated.getOptionalChoiceLabeling());
storm::modelchecker::SparseMdpPrctlModelChecker<storm::models::sparse::Mdp<double>> modelchecker(instantiated);
std::unique_ptr<storm::modelchecker::CheckResult> chkResult = modelchecker.check(*formulas[0]);
storm::modelchecker::ExplicitQuantitativeCheckResult<double>& quantitativeChkResult = chkResult->asExplicitQuantitativeCheckResult<double>();
EXPECT_NEAR(0.3526577219, quantitativeChkResult[*instantiated.getInitialStates().begin()], storm::settings::getModule<storm::settings::modules::GeneralSettings>().getPrecision());
}
#endif