#include "gtest/gtest.h" #include "storm-config.h" #include "src/parser/AutoParser.h" #include "src/storage/SparseMatrix.h" #include "src/storage/StronglyConnectedComponentDecomposition.h" #include "src/models/sparse/MarkovAutomaton.h" TEST(StronglyConnectedComponentDecomposition, SmallSystemFromMatrix) { storm::storage::SparseMatrixBuilder matrixBuilder(6, 6); ASSERT_NO_THROW(matrixBuilder.addNextValue(0, 0, 0.3)); ASSERT_NO_THROW(matrixBuilder.addNextValue(0, 5, 0.7)); ASSERT_NO_THROW(matrixBuilder.addNextValue(1, 2, 1.0)); ASSERT_NO_THROW(matrixBuilder.addNextValue(2, 1, 0.4)); ASSERT_NO_THROW(matrixBuilder.addNextValue(2, 2, 0.3)); ASSERT_NO_THROW(matrixBuilder.addNextValue(2, 3, 0.3)); ASSERT_NO_THROW(matrixBuilder.addNextValue(3, 4, 1.0)); ASSERT_NO_THROW(matrixBuilder.addNextValue(4, 3, 0.5)); ASSERT_NO_THROW(matrixBuilder.addNextValue(4, 4, 0.5)); ASSERT_NO_THROW(matrixBuilder.addNextValue(5, 1, 1.0)); storm::storage::SparseMatrix matrix; ASSERT_NO_THROW(matrix = matrixBuilder.build()); storm::storage::BitVector allBits(6, true); storm::storage::StronglyConnectedComponentDecomposition sccDecomposition; ASSERT_NO_THROW(sccDecomposition = storm::storage::StronglyConnectedComponentDecomposition(matrix, allBits, false, false)); ASSERT_EQ(4ul, sccDecomposition.size()); ASSERT_NO_THROW(sccDecomposition = storm::storage::StronglyConnectedComponentDecomposition(matrix, allBits, true, false)); ASSERT_EQ(3ul, sccDecomposition.size()); ASSERT_NO_THROW(sccDecomposition = storm::storage::StronglyConnectedComponentDecomposition(matrix, allBits, true, true)); ASSERT_EQ(1ul, sccDecomposition.size()); } TEST(StronglyConnectedComponentDecomposition, FullSystem1) { std::shared_ptr> abstractModel = storm::parser::AutoParser::parseModel(STORM_CPP_BASE_PATH "/examples/ma/tiny/tiny1.tra", STORM_CPP_BASE_PATH "/examples/ma/tiny/tiny1.lab", "", ""); std::shared_ptr> markovAutomaton = abstractModel->as>(); storm::storage::StronglyConnectedComponentDecomposition sccDecomposition; ASSERT_NO_THROW(sccDecomposition = storm::storage::StronglyConnectedComponentDecomposition(*markovAutomaton)); ASSERT_EQ(5ul, sccDecomposition.size()); ASSERT_NO_THROW(sccDecomposition = storm::storage::StronglyConnectedComponentDecomposition(*markovAutomaton, true)); ASSERT_EQ(2ul, sccDecomposition.size()); ASSERT_NO_THROW(sccDecomposition = storm::storage::StronglyConnectedComponentDecomposition(*markovAutomaton, true, true)); ASSERT_EQ(2ul, sccDecomposition.size()); markovAutomaton = nullptr; } TEST(StronglyConnectedComponentDecomposition, FullSystem2) { std::shared_ptr> abstractModel = storm::parser::AutoParser::parseModel(STORM_CPP_BASE_PATH "/examples/ma/tiny/tiny2.tra", STORM_CPP_BASE_PATH "/examples/ma/tiny/tiny2.lab", "", ""); std::shared_ptr> markovAutomaton = abstractModel->as>(); storm::storage::StronglyConnectedComponentDecomposition sccDecomposition; ASSERT_NO_THROW(sccDecomposition = storm::storage::StronglyConnectedComponentDecomposition(*markovAutomaton, true, false)); ASSERT_EQ(2ul, sccDecomposition.size()); // Now, because there is no ordering we have to check the contents of the MECs in a symmetrical way. storm::storage::StateBlock const& scc1 = sccDecomposition[0]; storm::storage::StateBlock const& scc2 = sccDecomposition[1]; storm::storage::StateBlock correctScc1 = {1, 3, 8, 9, 10}; storm::storage::StateBlock correctScc2 = {4, 5, 6, 7}; ASSERT_TRUE(scc1 == storm::storage::StateBlock(correctScc1.begin(), correctScc1.end()) || scc1 == storm::storage::StateBlock(correctScc2.begin(), correctScc2.end())); ASSERT_TRUE(scc2 == storm::storage::StateBlock(correctScc1.begin(), correctScc1.end()) || scc2 == storm::storage::StateBlock(correctScc2.begin(), correctScc2.end())); ASSERT_NO_THROW(sccDecomposition = storm::storage::StronglyConnectedComponentDecomposition(*markovAutomaton, true, true)); ASSERT_EQ(1ul, sccDecomposition.size()); markovAutomaton = nullptr; }