import stormpy
from helpers.helper import get_example_path

import math


class TestMatrix:
    def test_sparse_matrix(self):
        model = stormpy.build_sparse_model_from_explicit(get_example_path("dtmc", "die.tra"), get_example_path("dtmc", "die.lab"))
        matrix = model.transition_matrix
        assert type(matrix) is stormpy.storage.SparseMatrix
        assert matrix.nr_rows == model.nr_states
        assert matrix.nr_columns == model.nr_states
        assert matrix.nr_entries == 20
        assert matrix.nr_entries == model.nr_transitions
        for e in matrix:
            assert e.value() == 0.5 or e.value() == 0 or (e.value() == 1 and e.column > 6)

    def test_backward_matrix(self):
        model = stormpy.build_sparse_model_from_explicit(get_example_path("dtmc", "die.tra"), get_example_path("dtmc", "die.lab"))
        matrix = model.backward_transition_matrix
        assert type(matrix) is stormpy.storage.SparseMatrix
        assert matrix.nr_rows == model.nr_states
        assert matrix.nr_columns == model.nr_states
        assert matrix.nr_entries == 20
        assert matrix.nr_entries == model.nr_transitions
        for e in matrix:
            assert e.value() == 0.5 or e.value() == 0 or (e.value() == 1 and e.column > 6)

    def test_change_sparse_matrix(self):
        model = stormpy.build_sparse_model_from_explicit(get_example_path("dtmc", "die.tra"), get_example_path("dtmc", "die.lab"))
        matrix = model.transition_matrix
        for e in matrix:
            assert e.value() == 0.5 or e.value() == 0 or e.value() == 1
        i = 0
        for e in matrix:
            e.set_value(i)
            i += 0.1
        i = 0
        for e in matrix:
            assert e.value() == i
            i += 0.1

    def test_change_sparse_matrix_modelchecking(self):
        import stormpy.logic
        model = stormpy.build_sparse_model_from_explicit(get_example_path("dtmc", "die.tra"), get_example_path("dtmc", "die.lab"))
        matrix = model.transition_matrix
        # Check matrix
        for e in matrix:
            assert e.value() == 0.5 or e.value() == 0 or e.value() == 1
        # First model checking
        formulas = stormpy.parse_properties("P=? [ F \"one\" ]")
        result = stormpy.model_checking(model, formulas[0])
        resValue = result.at(model.initial_states[0])
        assert math.isclose(resValue, 0.16666666666666663)

        # Change probabilities
        i = 0
        for e in matrix:
            if e.value() == 0.5:
                if i % 2 == 0:
                    e.set_value(0.3)
                else:
                    e.set_value(0.7)
                i += 1
        for e in matrix:
            assert e.value() == 0.3 or e.value() == 0.7 or e.value() == 1 or e.value() == 0
        # Second model checking
        result = stormpy.model_checking(model, formulas[0])
        resValue = result.at(model.initial_states[0])
        assert math.isclose(resValue, 0.06923076923076932)

        # Change probabilities again
        for state in model.states:
            for action in state.actions:
                for transition in action.transitions:
                    if transition.value() == 0.3:
                        transition.set_value(0.8)
                    elif transition.value() == 0.7:
                        transition.set_value(0.2)
        # Third model checking
        result = stormpy.model_checking(model, formulas[0])
        resValue = result.at(model.initial_states[0])
        assert math.isclose(resValue, 0.3555555555555556)

    def test_change_parametric_sparse_matrix_modelchecking(self):
        import stormpy.logic

        program = stormpy.parse_prism_program(get_example_path("pdtmc", "brp16_2.pm"))
        formulas = stormpy.parse_properties_for_prism_program("P=? [ F s=5 ]", program)
        model = stormpy.build_parametric_model(program, formulas)
        initial_state = model.initial_states[0]
        assert initial_state == 0
        matrix = model.transition_matrix
        # Check matrix
        one_pol = stormpy.RationalRF(1)
        one_pol = stormpy.FactorizedPolynomial(one_pol)
        one = stormpy.FactorizedRationalFunction(one_pol, one_pol)
        for e in matrix:
            assert e.value() == one or len(e.value().gather_variables()) > 0
        # First model checking
        result = stormpy.model_checking(model, formulas[0])
        ratFunc = result.at(initial_state)
        assert len(ratFunc.gather_variables()) > 0

        # Change probabilities
        two_pol = stormpy.RationalRF(2)
        two_pol = stormpy.FactorizedPolynomial(two_pol)
        new_val = stormpy.FactorizedRationalFunction(one_pol, two_pol)
        for e in matrix:
            if len(e.value().gather_variables()) > 0:
                e.set_value(new_val)
        for e in matrix:
            assert e.value() == new_val or e.value() == one
        # Second model checking
        result = stormpy.model_checking(model, formulas[0])
        ratFunc = result.at(initial_state)
        assert len(ratFunc.gather_variables()) == 0