import stormpy import stormpy.info import stormpy.logic from helpers.helper import get_example_path from configurations import pars @pars class TestParametric: import stormpy.pars def test_constraints_collector(self): from pycarl.formula import FormulaType, Relation if stormpy.info.storm_ratfunc_use_cln(): import pycarl.cln.formula else: import pycarl.gmp.formula program = stormpy.parse_prism_program(get_example_path("pdtmc", "brp16_2.pm")) prop = "P=? [F s=5]" formulas = stormpy.parse_properties_for_prism_program(prop, program) model = stormpy.build_parametric_model(program, formulas) collector = stormpy.ConstraintCollector(model) constraints_well_formed = collector.wellformed_constraints for formula in constraints_well_formed: assert formula.type == FormulaType.CONSTRAINT constraint = formula.get_constraint() assert constraint.relation == Relation.LEQ constraints_graph_preserving = collector.graph_preserving_constraints for formula in constraints_graph_preserving: assert formula.type == FormulaType.CONSTRAINT constraint = formula.get_constraint() assert constraint.relation == Relation.NEQ def test_derivatives(self): program = stormpy.parse_prism_program(get_example_path("pdtmc", "brp16_2.pm")) prop = "P<=0.84 [F s=5 ]" formulas = stormpy.parse_properties_for_prism_program(prop, program) model = stormpy.build_parametric_model(program, formulas) assert model.nr_states == 613 assert model.nr_transitions == 803 assert model.model_type == stormpy.ModelType.DTMC assert model.has_parameters parameters = model.collect_probability_parameters() assert len(parameters) == 2 derivatives = stormpy.pars.gather_derivatives(model, list(parameters)[0]) assert len(derivatives) == 0