import stormpy import stormpy.logic from helpers.helper import get_example_path import math class TestTransformation: def test_transform_symbolic_dtmc_to_sparse(self): program = stormpy.parse_prism_program(get_example_path("dtmc", "crowds5_5.pm")) symbolic_model = stormpy.build_symbolic_model(program) assert symbolic_model.nr_states == 8607 assert symbolic_model.nr_transitions == 15113 assert symbolic_model.model_type == stormpy.ModelType.DTMC assert not symbolic_model.supports_parameters assert type(symbolic_model) is stormpy.SymbolicSylvanDtmc sparse_model = stormpy.transform_to_sparse_model(symbolic_model) assert sparse_model.nr_states == 8607 assert sparse_model.nr_transitions == 15113 assert sparse_model.model_type == stormpy.ModelType.DTMC assert not sparse_model.supports_parameters assert type(sparse_model) is stormpy.SparseDtmc def test_transform_symbolic_parametric_dtmc_to_sparse(self): program = stormpy.parse_prism_program(get_example_path("pdtmc", "parametric_die.pm")) model = stormpy.build_symbolic_parametric_model(program) assert model.nr_states == 13 assert model.nr_transitions == 20 assert model.model_type == stormpy.ModelType.DTMC assert model.supports_parameters assert type(model) is stormpy.SymbolicSylvanParametricDtmc symbolic_model = stormpy.transform_to_sparse_model(model) assert symbolic_model.nr_states == 13 assert symbolic_model.nr_transitions == 20 assert symbolic_model.model_type == stormpy.ModelType.DTMC assert symbolic_model.supports_parameters assert type(symbolic_model) is stormpy.SparseParametricDtmc def test_transform_continuous_to_discrete_time_model_ctmc(self): ctmc = stormpy.build_model_from_drn(get_example_path("ctmc", "dft.drn")) formulas = stormpy.parse_properties("T=? [ F \"failed\" ]") assert ctmc.nr_states == 16 assert ctmc.nr_transitions == 33 assert len(ctmc.initial_states) == 1 initial_state = ctmc.initial_states[0] assert initial_state == 1 result = stormpy.model_checking(ctmc, formulas[0]) assert math.isclose(result.at(initial_state), 4.166666667) dtmc, dtmc_formulas = stormpy.transform_to_discrete_time_model(ctmc, formulas) assert dtmc.nr_states == 16 assert dtmc.nr_transitions == 33 assert len(dtmc.initial_states) == 1 initial_state = dtmc.initial_states[0] assert initial_state == 1 result = stormpy.model_checking(dtmc, dtmc_formulas[0]) assert math.isclose(result.at(initial_state), 4.166666667) def test_transform_continuous_to_discrete_time_model_ma(self): program = stormpy.parse_prism_program(get_example_path("ma", "simple.ma"), False, True) formulas = stormpy.parse_properties_for_prism_program("Tmin=? [ F s=4 ]", program) ma = stormpy.build_model(program, formulas) assert ma.nr_states == 5 assert ma.nr_transitions == 8 assert ma.model_type == stormpy.ModelType.MA assert len(ma.initial_states) == 1 initial_state = ma.initial_states[0] assert initial_state == 0 result = stormpy.model_checking(ma, formulas[0]) assert math.isclose(result.at(initial_state), 0.08333333333) mdp, mdp_formulas = stormpy.transform_to_discrete_time_model(ma, formulas) assert mdp.nr_states == 5 assert mdp.nr_transitions == 8 assert mdp.model_type == stormpy.ModelType.MDP assert len(mdp.initial_states) == 1 initial_state = mdp.initial_states[0] assert initial_state == 0 result = stormpy.model_checking(mdp, mdp_formulas[0]) assert math.isclose(result.at(initial_state), 0.08333333333)