Python ProbabilityDistributionFactory примеры использования

Пример #1

Файл: test_var_assignment_expression.py Проект: markbrockettrobson/python_dice

    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )

        self._mock_syntax = create_autospec(IDiceExpression)
        self._mock_syntax.roll.return_value = 2
        self._mock_syntax.max.return_value = 8
        self._mock_syntax.min.return_value = 6
        self._mock_syntax.__str__.return_value = "7d3"
        self._mock_syntax.estimated_cost.return_value = 45
        self._mock_syntax.get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {
                -5: 1,
                1: 2,
                4: 1
            })
        self._mock_syntax.get_contained_variables.return_value = {"mock"}
        self._test_name = "test_name"

        self._mock_state = create_autospec(IProbabilityDistributionState,
                                           spec_set=True)

        self._test_assignment_expression = VarAssignmentExpression(
            self._mock_state, self._test_name, self._mock_syntax)
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

Пример #2

    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory()

        self._mock_syntax = [create_autospec(IDiceExpression) for _ in range(2)]
        self._mock_syntax[0].roll.return_value = 10
        self._mock_syntax[0].max.return_value = 8
        self._mock_syntax[0].min.return_value = 6
        self._mock_syntax[0].__str__.return_value = "7"
        self._mock_syntax[0].estimated_cost.return_value = 7
        self._mock_syntax[0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {-2: 1, 4: 1}
        )
        self._mock_syntax[0].get_contained_variables.return_value = {"mock one"}

        self._mock_syntax[1].roll.return_value = 4
        self._mock_syntax[1].max.return_value = 6
        self._mock_syntax[1].min.return_value = 8
        self._mock_syntax[1].__str__.return_value = "2"
        self._mock_syntax[1].estimated_cost.return_value = 2
        self._mock_syntax[1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {8: 1, -3: 2}
        )
        self._mock_syntax[1].get_contained_variables.return_value = {"mock two"}

        self._test_add = AddExpression(self._mock_syntax[0], self._mock_syntax[1])
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

Пример #3

    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )

        self._mock_syntax = [
            create_autospec(IDiceExpression) for _ in range(4)
        ]
        self._mock_syntax[0].roll.return_value = 10
        self._mock_syntax[0].max.return_value = 8
        self._mock_syntax[0].min.return_value = 201
        self._mock_syntax[0].__str__.return_value = "7"
        self._mock_syntax[0].estimated_cost.return_value = 7
        self._mock_syntax[
            0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    201: 1,
                    -10: 1
                })
        self._mock_syntax[0].get_contained_variables.return_value = {
            "mock one"
        }

        self._mock_syntax[1].roll.return_value = 3
        self._mock_syntax[1].max.return_value = 8
        self._mock_syntax[1].min.return_value = 2
        self._mock_syntax[1].__str__.return_value = "2"
        self._mock_syntax[1].estimated_cost.return_value = 9
        self._mock_syntax[
            1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    2: 1,
                    -2: 1
                })
        self._mock_syntax[1].get_contained_variables.return_value = {
            "mock two"
        }

        self._mock_syntax[
            2].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    10: 1,
                    12: 2
                })
        self._mock_syntax[
            3].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    2: 1,
                    3: 2,
                    0: 10
                })
        self._test_integer_division = IntegerDivisionExpression(
            self._mock_syntax[0], self._mock_syntax[1])
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

Пример #4

    def setUp(self) -> None:
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )
        self._probability_outcome_factory = ProbabilityOutcomeFactory()
        self._constraint_factory = ConstraintFactory()

        self._test_name = "test_name"

        _1_n5 = self._probability_outcome_factory.create_empty(-5)
        _1_n5.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_1", {-5}))
        _1_1 = self._probability_outcome_factory.create_empty(1)
        _1_1.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_1", {1}))

        _1_4 = self._probability_outcome_factory.create_empty(4)
        _1_4.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_1", {4}))

        _2_n5 = self._probability_outcome_factory.create_empty(-5)
        _2_n5.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_2", {-5}))
        _2_1 = self._probability_outcome_factory.create_empty(1)
        _2_1.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_2", {1}))

        _2_4 = self._probability_outcome_factory.create_empty(4)
        _2_4.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_2", {4}))

        self._test_distribution = self._probability_distribution_factory.create(
            {
                -5: 1,
                1: 2,
                4: 1
            })
        self._return_one_distribution = self._probability_distribution_factory.create(
            {
                _1_n5: 1,
                _1_1: 2,
                _1_4: 1
            })
        self._return_two_distribution = self._probability_distribution_factory.create(
            {
                _2_n5: 1,
                _2_1: 2,
                _2_4: 1
            })

        self._test_int = 1
        self._test_probability_state = ProbabilityDistributionState(
            self._probability_distribution_factory, self._constraint_factory)

Пример #5

    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory()

        self._mock_syntax = create_autospec(IDiceExpression)
        self._mock_syntax.roll.return_value = 10
        self._mock_syntax.max.return_value = 8
        self._mock_syntax.min.return_value = 6
        self._mock_syntax.__str__.return_value = "7d4"
        self._mock_syntax.estimated_cost.return_value = 987654321
        self._mock_syntax.get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {-2: 1, 4: 1}
        )
        self._mock_syntax.get_contained_variables.return_value = {"mock"}

        self._test_parentheses_enclosed_expression = ParenthesisEnclosedExpression(self._mock_syntax)
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

Пример #6

Файл: python_dice_parser.py Проект: markbrockettrobson/python_dice

    def __init__(
        self,
        lexer: Optional[IPythonDiceLexer] = None,
        probability_distribution_factory: Optional[
            IProbabilityDistributionFactory] = None,
        probability_distribution_state_factory: Optional[
            IProbabilityDistributionStateFactory] = None,
    ):
        if lexer is None:
            lexer = PythonDiceLexer()
        if probability_distribution_factory is None:
            probability_distribution_factory = ProbabilityDistributionFactory()
        if probability_distribution_state_factory is None:
            probability_distribution_state_factory = ProbabilityDistributionStateFactory(
            )
        self._lexer = lexer
        parser_generator = rply.ParserGenerator(
            [syntax.get_token_name() for syntax in LEXER_SYNTAX],
            precedence=PRECEDENCE,
        )

        for syntax in PARSER_EXPRESSIONS:
            syntax.add_production_function(parser_generator,
                                           probability_distribution_factory)

        #  pylint: disable=unused-variable
        @parser_generator.error
        def error_handler(_: ProbabilityDistributionState,
                          token: rply.token.Token):
            raise ValueError(
                f"Ran into a {token.gettokentype()} ({token.getstr()}) where it wasn't expected, at position {token.getsourcepos()}."
            )

        self._parser = parser_generator.build()
        self._probability_distribution_state_factory = probability_distribution_state_factory

Пример #7

class TestGetVarExpression(TestCase):
    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )
        self._probability_distribution = self._probability_distribution_factory.create(
            {
                -5: 1,
                1: 2,
                4: 1
            })
        self._test_name = "test_name"

        self._mock_state = create_autospec(IProbabilityDistributionState,
                                           spec_set=True)
        self._mock_state.get_constant.return_value = 2
        self._mock_state.get_var.return_value = self._probability_distribution

        self._test_assignment_expression = GetVarExpression(
            self._mock_state, self._test_name)
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

    def test_get_var_add_production_function(self):
        GetVarExpression.add_production_function(
            self._mock_parser_gen, self._probability_distribution_factory)
        self._mock_parser_gen.production.assert_called_once_with(
            """expression : NAME""")

    def test_get_var_roll(self):
        for _ in range(100):
            self.assertEqual(2, self._test_assignment_expression.roll())
        self._mock_state.get_constant.assert_called_with(self._test_name)

    def test_get_var_max(self):
        self.assertEqual(2, self._test_assignment_expression.max())
        self._mock_state.get_constant.assert_called_with(self._test_name)

    def test_get_var_min(self):
        self.assertEqual(2, self._test_assignment_expression.min())
        self._mock_state.get_constant.assert_called_with(self._test_name)

    def test_var_assignment_str(self):
        self.assertEqual(f"{self._test_name}",
                         str(self._test_assignment_expression))

    def test_var_estimated_cost(self):
        self.assertEqual(2, self._test_assignment_expression.estimated_cost())

    def test_var_get_probability_distribution(self):
        self.assertEqual(
            self._probability_distribution,
            self._test_assignment_expression.get_probability_distribution(),
        )
        self._mock_state.get_var.assert_called_with(self._test_name)

    def test_dice_get_contained_variables(self):
        self.assertSetEqual(
            {f"{self._test_name}"},
            self._test_assignment_expression.get_contained_variables(),
        )

Пример #8

    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )
        self._probability_distribution = self._probability_distribution_factory.create(
            {
                -5: 1,
                1: 2,
                4: 1
            })
        self._test_name = "test_name"

        self._mock_state = create_autospec(IProbabilityDistributionState,
                                           spec_set=True)
        self._mock_state.get_constant.return_value = 2
        self._mock_state.get_var.return_value = self._probability_distribution

        self._test_assignment_expression = GetVarExpression(
            self._mock_state, self._test_name)
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

Пример #9

Файл: test_abs_expression.py Проект: markbrockettrobson/python_dice

    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )
        self._mock_syntax = create_autospec(IDiceExpression)
        self._mock_syntax.roll.return_value = 2
        self._mock_syntax.max.return_value = 8
        self._mock_syntax.min.return_value = 6
        self._mock_syntax.__str__.return_value = "7d3"
        self._mock_syntax.estimated_cost.return_value = 21
        self._mock_syntax.get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {
                -5: 1,
                1: 2,
                4: 1
            })
        self._mock_syntax.get_contained_variables.return_value = {"mock"}

        self._test_abs_operator = AbsExpression(self._mock_syntax)
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

Пример #10

    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )

        self._mock_syntax = [
            create_autospec(IDiceExpression) for _ in range(2)
        ]
        self._mock_syntax[0].roll.return_value = 9
        self._mock_syntax[0].max.return_value = 8
        self._mock_syntax[0].min.return_value = 6
        self._mock_syntax[0].__str__.return_value = "7"
        self._mock_syntax[0].estimated_cost.return_value = 9
        self._mock_syntax[
            0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    -3: 1,
                    0: 2,
                    4: 1
                })
        self._mock_syntax[0].get_contained_variables.return_value = {
            "mock one"
        }

        self._mock_syntax[1].roll.return_value = 4
        self._mock_syntax[1].max.return_value = 6
        self._mock_syntax[1].min.return_value = 8
        self._mock_syntax[1].__str__.return_value = "2d8"
        self._mock_syntax[1].estimated_cost.return_value = 7
        self._mock_syntax[
            1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    -3: 2,
                    0: 1,
                    1: 2,
                    4: 1
                })
        self._mock_syntax[1].get_contained_variables.return_value = {
            "mock two"
        }

        self._test_binary_operator = BinaryOperatorExpression(
            ">", self._mock_syntax[0], self._mock_syntax[1])
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

Пример #11

class TestParenthesisEnclosedExpression(TestCase):
    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory()

        self._mock_syntax = create_autospec(IDiceExpression)
        self._mock_syntax.roll.return_value = 10
        self._mock_syntax.max.return_value = 8
        self._mock_syntax.min.return_value = 6
        self._mock_syntax.__str__.return_value = "7d4"
        self._mock_syntax.estimated_cost.return_value = 987654321
        self._mock_syntax.get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {-2: 1, 4: 1}
        )
        self._mock_syntax.get_contained_variables.return_value = {"mock"}

        self._test_parentheses_enclosed_expression = ParenthesisEnclosedExpression(self._mock_syntax)
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

    def test_add_add_production_function(self):
        ParenthesisEnclosedExpression.add_production_function(
            self._mock_parser_gen, self._probability_distribution_factory
        )
        self._mock_parser_gen.production.assert_called_once_with(
            """expression : OPEN_PARENTHESIS expression CLOSE_PARENTHESIS"""
        )

    def test_parenthesis_roll(self):
        for _ in range(100):
            self.assertEqual(10, self._test_parentheses_enclosed_expression.roll())

    def test_parenthesis_max(self):
        self.assertEqual(8, self._test_parentheses_enclosed_expression.max())

    def test_parenthesis_min(self):
        self.assertEqual(6, self._test_parentheses_enclosed_expression.min())

    def test_parenthesis_str(self):
        self.assertEqual("(7d4)", str(self._test_parentheses_enclosed_expression))

    def test_parenthesis_estimated_cost(self):
        self.assertEqual(987654321, self._test_parentheses_enclosed_expression.estimated_cost())

    def test_parenthesis_get_probability_distribution(self):
        self.assertEqual(
            {-2: 1, 4: 1},
            self._test_parentheses_enclosed_expression.get_probability_distribution().get_result_map(),
        )

    def test_parenthesis_get_contained_variables(self):
        self.assertSetEqual(
            {"mock"},
            self._test_parentheses_enclosed_expression.get_contained_variables(),
        )

Пример #12

Файл: probability_distribution_state_factory.py Проект: markbrockettrobson/python_dice

    def __init__(
        self,
        probability_distribution_factory: Optional[
            IProbabilityDistributionFactory] = None,
        constraint_factory: Optional[IConstraintFactory] = None,
    ):
        if probability_distribution_factory is None:
            probability_distribution_factory = ProbabilityDistributionFactory()
        if constraint_factory is None:
            constraint_factory = ConstraintFactory()

        self._probability_distribution_factory = probability_distribution_factory
        self._constraint_factory = constraint_factory

Пример #13

 def __init__(
     self,
     parser: Optional[IPythonDiceParser] = None,
     starting_state: Optional[IProbabilityDistributionState] = None,
     probability_distribution_state_factory: Optional[IProbabilityDistributionStateFactory] = None,
     probability_distribution_factory: Optional[IProbabilityDistributionFactory] = None,
 ):
     if parser is None:
         parser = PythonDiceParser()
     if probability_distribution_state_factory is None:
         probability_distribution_state_factory = ProbabilityDistributionStateFactory()
     if probability_distribution_factory is None:
         probability_distribution_factory = ProbabilityDistributionFactory()
     if starting_state is None:
         starting_state = probability_distribution_state_factory.create_new_empty_set()
     self._parser = parser
     self._state = starting_state
     self._probability_distribution_factory = probability_distribution_factory

Пример #14

 def setUp(self):
     self._probability_distribution_factory = ProbabilityDistributionFactory(
     )
     self._test_dice = DiceExpression(
         "4d6", self._probability_distribution_factory)
     self._mock_parser_gen = create_autospec(rply.ParserGenerator)

Пример #15

class TestBinaryOperatorGreaterThanExpression(TestCase):
    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )

        self._mock_syntax = [
            create_autospec(IDiceExpression) for _ in range(2)
        ]
        self._mock_syntax[0].roll.return_value = 9
        self._mock_syntax[0].max.return_value = 8
        self._mock_syntax[0].min.return_value = 6
        self._mock_syntax[0].__str__.return_value = "7"
        self._mock_syntax[0].estimated_cost.return_value = 9
        self._mock_syntax[
            0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    -3: 1,
                    0: 2,
                    4: 1
                })
        self._mock_syntax[0].get_contained_variables.return_value = {
            "mock one"
        }

        self._mock_syntax[1].roll.return_value = 4
        self._mock_syntax[1].max.return_value = 6
        self._mock_syntax[1].min.return_value = 8
        self._mock_syntax[1].__str__.return_value = "2d8"
        self._mock_syntax[1].estimated_cost.return_value = 7
        self._mock_syntax[
            1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    -3: 2,
                    0: 1,
                    1: 2,
                    4: 1
                })
        self._mock_syntax[1].get_contained_variables.return_value = {
            "mock two"
        }

        self._test_binary_operator = BinaryOperatorExpression(
            ">", self._mock_syntax[0], self._mock_syntax[1])
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

    def test_binary_operator_add_production_function(self):
        BinaryOperatorExpression.add_production_function(
            self._mock_parser_gen, self._probability_distribution_factory)
        self._mock_parser_gen.production.assert_called_once_with(
            """expression : expression BINARY_OPERATOR expression""")

    def test_gt_roll_true(self):
        for _ in range(100):
            self.assertEqual(1, self._test_binary_operator.roll())

    def test_gt_roll_false(self):
        self._mock_syntax[0].roll.return_value = 2
        for _ in range(100):
            self.assertEqual(0, self._test_binary_operator.roll())

    def test_gt_max_true(self):
        self.assertEqual(1, self._test_binary_operator.max())

    def test_gt_max_false(self):
        self._mock_syntax[
            0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {5: 1})
        self._mock_syntax[
            1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {5: 1})

        self.assertEqual(0, self._test_binary_operator.max())

    def test_gt_min_true(self):
        self._mock_syntax[
            0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    5: 1,
                    6: 1
                })
        self._mock_syntax[
            1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {4: 1})
        self.assertEqual(1, self._test_binary_operator.min())

    def test_gt_min_false(self):
        self.assertEqual(0, self._test_binary_operator.min())

    def test_gt_str(self):
        self.assertEqual("7 > 2d8", str(self._test_binary_operator))

    def test_gt_estimated_cost(self):
        self.assertEqual(16, self._test_binary_operator.estimated_cost())

    def test_gt_get_probability_distribution(self):
        self.assertEqual(
            {
                0: 15,
                1: 9
            },
            self._test_binary_operator.get_probability_distribution().
            get_result_map(),
        )

    def test_gt_get_contained_variables(self):
        self.assertSetEqual(
            {"mock one", "mock two"},
            self._test_binary_operator.get_contained_variables(),
        )

Пример #16

 def setUp(self):
     self._probability_distribution_factory = ProbabilityDistributionFactory()
     self._test_constant_integers = ConstantIntegerExpression("14", self._probability_distribution_factory)
     self._mock_parser_gen = create_autospec(rply.ParserGenerator)

Пример #17

class TestIntegerDivisionExpression(TestCase):
    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )

        self._mock_syntax = [
            create_autospec(IDiceExpression) for _ in range(4)
        ]
        self._mock_syntax[0].roll.return_value = 10
        self._mock_syntax[0].max.return_value = 8
        self._mock_syntax[0].min.return_value = 201
        self._mock_syntax[0].__str__.return_value = "7"
        self._mock_syntax[0].estimated_cost.return_value = 7
        self._mock_syntax[
            0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    201: 1,
                    -10: 1
                })
        self._mock_syntax[0].get_contained_variables.return_value = {
            "mock one"
        }

        self._mock_syntax[1].roll.return_value = 3
        self._mock_syntax[1].max.return_value = 8
        self._mock_syntax[1].min.return_value = 2
        self._mock_syntax[1].__str__.return_value = "2"
        self._mock_syntax[1].estimated_cost.return_value = 9
        self._mock_syntax[
            1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    2: 1,
                    -2: 1
                })
        self._mock_syntax[1].get_contained_variables.return_value = {
            "mock two"
        }

        self._mock_syntax[
            2].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    10: 1,
                    12: 2
                })
        self._mock_syntax[
            3].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    2: 1,
                    3: 2,
                    0: 10
                })
        self._test_integer_division = IntegerDivisionExpression(
            self._mock_syntax[0], self._mock_syntax[1])
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

    def test_integer_division_add_production_function(self):
        IntegerDivisionExpression.add_production_function(
            self._mock_parser_gen, self._probability_distribution_factory)
        self._mock_parser_gen.production.assert_called_once_with(
            """expression : expression INTEGER_DIVISION expression""")

    def test_integer_division_roll(self):
        for _ in range(100):
            self.assertEqual(3, self._test_integer_division.roll())

    def test_integer_division_roll_raise_on_zero(self):
        self._mock_syntax[1].roll.return_value = 0
        self.assertRaises(ZeroDivisionError, self._test_integer_division.roll)

    def test_integer_division_max(self):
        self.assertEqual(100, self._test_integer_division.max())

    def test_integer_division_max_raise_on_zero(self):
        self._test_integer_division = IntegerDivisionExpression(
            self._mock_syntax[2], self._mock_syntax[3])
        self.assertRaises(ZeroDivisionError, self._test_integer_division.max)

    def test_integer_division_min(self):
        self.assertEqual(-101, self._test_integer_division.min())

    def test_integer_division_min_raise_on_zero(self):
        self._test_integer_division = IntegerDivisionExpression(
            self._mock_syntax[2], self._mock_syntax[3])
        self.assertRaises(ZeroDivisionError, self._test_integer_division.min)

    def test_integer_division_str(self):
        self.assertEqual("7 // 2", str(self._test_integer_division))

    def test_integer_division_estimated_cost(self):
        self.assertEqual(16, self._test_integer_division.estimated_cost())

    def test_integer_division_get_probability_distribution(self):
        self._mock_syntax[
            0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    10: 1,
                    12: 2,
                    0: 1
                })
        self._mock_syntax[
            1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    2: 1,
                    3: 2
                })
        self.assertEqual(
            {
                5: 1,
                6: 2,
                3: 2,
                4: 4,
                0: 3
            },
            self._test_integer_division.get_probability_distribution().
            get_result_map(),
        )

    def test_integer_division_get_probability_distribution_raise_on_zero(self):
        self._test_integer_division = IntegerDivisionExpression(
            self._mock_syntax[2], self._mock_syntax[3])
        self.assertRaises(
            ZeroDivisionError,
            self._test_integer_division.get_probability_distribution)

    def test_integer_division_get_contained_variables(self):
        self.assertSetEqual(
            {"mock one", "mock two"},
            self._test_integer_division.get_contained_variables(),
        )

Пример #18

class TestAddExpression(TestCase):
    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory()

        self._mock_syntax = [create_autospec(IDiceExpression) for _ in range(2)]
        self._mock_syntax[0].roll.return_value = 10
        self._mock_syntax[0].max.return_value = 8
        self._mock_syntax[0].min.return_value = 6
        self._mock_syntax[0].__str__.return_value = "7"
        self._mock_syntax[0].estimated_cost.return_value = 7
        self._mock_syntax[0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {-2: 1, 4: 1}
        )
        self._mock_syntax[0].get_contained_variables.return_value = {"mock one"}

        self._mock_syntax[1].roll.return_value = 4
        self._mock_syntax[1].max.return_value = 6
        self._mock_syntax[1].min.return_value = 8
        self._mock_syntax[1].__str__.return_value = "2"
        self._mock_syntax[1].estimated_cost.return_value = 2
        self._mock_syntax[1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {8: 1, -3: 2}
        )
        self._mock_syntax[1].get_contained_variables.return_value = {"mock two"}

        self._test_add = AddExpression(self._mock_syntax[0], self._mock_syntax[1])
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

    def test_add_add_production_function(self):
        AddExpression.add_production_function(self._mock_parser_gen, self._probability_distribution_factory)
        self._mock_parser_gen.production.assert_called_once_with("""expression : expression ADD expression""")

    def test_add_roll(self):
        for _ in range(100):
            self.assertEqual(14, self._test_add.roll())

    def test_add_max(self):
        self.assertEqual(12, self._test_add.max())

    def test_add_min(self):
        self.assertEqual(-5, self._test_add.min())

    def test_add_str(self):
        self.assertEqual("7 + 2", str(self._test_add))

    def test_add_estimated_cost(self):
        self.assertEqual(9, self._test_add.estimated_cost())

    def test_add_get_probability_distribution(self):
        self._mock_syntax[0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {10: 1, -12: 2, 0: 1}
        )
        self._mock_syntax[1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {2: 1, 3: 2}
        )
        self.assertEqual(
            {12: 1, -10: 2, 2: 1, 13: 2, -9: 4, 3: 2},
            self._test_add.get_probability_distribution().get_result_map(),
        )

    def test_add_get_contained_variables(self):
        self.assertSetEqual({"mock one", "mock two"}, self._test_add.get_contained_variables())

Пример #19

class TestMultiplyExpression(TestCase):
    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )

        self._mock_syntax = [
            create_autospec(IDiceExpression) for _ in range(2)
        ]
        self._mock_syntax[0].roll.return_value = 10
        self._mock_syntax[0].max.return_value = 8
        self._mock_syntax[0].min.return_value = 2
        self._mock_syntax[0].__str__.return_value = "7"
        self._mock_syntax[0].estimated_cost.return_value = 9
        self._mock_syntax[
            0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    -2: 1,
                    4: 1
                })
        self._mock_syntax[0].get_contained_variables.return_value = {
            "mock one"
        }

        self._mock_syntax[1].roll.return_value = 4
        self._mock_syntax[1].max.return_value = 6
        self._mock_syntax[1].min.return_value = 8
        self._mock_syntax[1].__str__.return_value = "2"
        self._mock_syntax[1].estimated_cost.return_value = 7
        self._mock_syntax[
            1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    8: 1,
                    -3: 2
                })
        self._mock_syntax[1].get_contained_variables.return_value = {
            "mock two"
        }

        self._test_multiply = MultiplyExpression(self._mock_syntax[0],
                                                 self._mock_syntax[1])
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

    def test_multiply_add_production_function(self):
        MultiplyExpression.add_production_function(
            self._mock_parser_gen, self._probability_distribution_factory)
        self._mock_parser_gen.production.assert_called_once_with(
            """expression : expression MULTIPLY expression""")

    def test_multiply_roll(self):
        for _ in range(100):
            self.assertEqual(40, self._test_multiply.roll())

    def test_multiply_max(self):
        self.assertEqual(32, self._test_multiply.max())

    def test_multiply_min(self):
        self.assertEqual(-16, self._test_multiply.min())

    def test_multiply_str(self):
        self.assertEqual("7 * 2", str(self._test_multiply))

    def test_multiply_estimated_cost(self):
        self.assertEqual(16, self._test_multiply.estimated_cost())

    def test_multiply_get_probability_distribution(self):
        self._mock_syntax[
            0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    10: 1,
                    -12: 2,
                    0: 1
                })
        self._mock_syntax[
            1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    2: 1,
                    3: 2
                })
        self.assertEqual(
            {
                -36: 4,
                -24: 2,
                0: 3,
                20: 1,
                30: 2
            },
            self._test_multiply.get_probability_distribution().get_result_map(
            ),
        )

    def test_multiply_get_contained_variables(self):
        self.assertSetEqual({"mock one", "mock two"},
                            self._test_multiply.get_contained_variables())

Пример #20

Файл: test_subtract_expression.py Проект: markbrockettrobson/python_dice

class TestSubtractExpression(TestCase):
    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )

        self._mock_syntax = [
            create_autospec(IDiceExpression) for _ in range(2)
        ]
        self._mock_syntax[0].roll.return_value = 10
        self._mock_syntax[0].max.return_value = 8
        self._mock_syntax[0].min.return_value = 6
        self._mock_syntax[0].__str__.return_value = "7"
        self._mock_syntax[0].estimated_cost.return_value = 9
        self._mock_syntax[
            0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    -2: 1,
                    4: 1
                })
        self._mock_syntax[0].get_contained_variables.return_value = {
            "mock one"
        }

        self._mock_syntax[1].roll.return_value = 4
        self._mock_syntax[1].max.return_value = 6
        self._mock_syntax[1].min.return_value = 8
        self._mock_syntax[1].__str__.return_value = "2"
        self._mock_syntax[1].estimated_cost.return_value = 7
        self._mock_syntax[
            1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    8: 1,
                    -3: 2
                })
        self._mock_syntax[1].get_contained_variables.return_value = {
            "mock two"
        }

        self._test_subtract = SubtractExpression(self._mock_syntax[0],
                                                 self._mock_syntax[1])
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

    def test_subtract_add_production_function(self):
        SubtractExpression.add_production_function(
            self._mock_parser_gen, self._probability_distribution_factory)
        self._mock_parser_gen.production.assert_called_once_with(
            """expression : expression SUBTRACT expression""")

    def test_subtract_roll(self):
        for _ in range(100):
            self.assertEqual(6, self._test_subtract.roll())

    def test_subtract_max(self):
        self.assertEqual(7, self._test_subtract.max())

    def test_subtract_min(self):
        self.assertEqual(-10, self._test_subtract.min())

    def test_subtract_str(self):
        self.assertEqual("7 - 2", str(self._test_subtract))

    def test_subtract_estimated_cost(self):
        self.assertEqual(16, self._test_subtract.estimated_cost())

    def test_subtract_get_probability_distribution(self):
        self._mock_syntax[
            0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    10: 1,
                    -12: 2,
                    0: 1
                })
        self._mock_syntax[
            1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
                {
                    2: 1,
                    3: 2
                })
        self.assertEqual(
            {
                8: 1,
                -14: 2,
                -2: 1,
                7: 2,
                -15: 4,
                -3: 2
            },
            self._test_subtract.get_probability_distribution().get_result_map(
            ),
        )

    def test_subtract_get_contained_variables(self):
        self.assertSetEqual({"mock one", "mock two"},
                            self._test_subtract.get_contained_variables())

Пример #21

Файл: test_var_assignment_expression.py Проект: markbrockettrobson/python_dice

class TestVarAssignmentExpression(TestCase):
    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )

        self._mock_syntax = create_autospec(IDiceExpression)
        self._mock_syntax.roll.return_value = 2
        self._mock_syntax.max.return_value = 8
        self._mock_syntax.min.return_value = 6
        self._mock_syntax.__str__.return_value = "7d3"
        self._mock_syntax.estimated_cost.return_value = 45
        self._mock_syntax.get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {
                -5: 1,
                1: 2,
                4: 1
            })
        self._mock_syntax.get_contained_variables.return_value = {"mock"}
        self._test_name = "test_name"

        self._mock_state = create_autospec(IProbabilityDistributionState,
                                           spec_set=True)

        self._test_assignment_expression = VarAssignmentExpression(
            self._mock_state, self._test_name, self._mock_syntax)
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

    def test_var_assignment_add_production_function(self):
        VarAssignmentExpression.add_production_function(
            self._mock_parser_gen, self._probability_distribution_factory)
        self._mock_parser_gen.production.assert_called_once_with(
            """expression : VAR NAME ASSIGNMENT expression""")

    def test_var_assignment_roll(self):
        for _ in range(100):
            self.assertEqual(2, self._test_assignment_expression.roll())
        self._mock_state.set_constant.assert_called_with(self._test_name, 2)

    def test_var_assignment_max(self):
        self.assertEqual(8, self._test_assignment_expression.max())
        self._mock_state.set_constant.assert_called_with(self._test_name, 8)

    def test_var_assignment_min(self):
        self.assertEqual(6, self._test_assignment_expression.min())
        self._mock_state.set_constant.assert_called_with(self._test_name, 6)

    def test_var_assignment_str(self):
        self.assertEqual(f"VAR {self._test_name} = 7d3",
                         str(self._test_assignment_expression))

    def test_var_assignment_estimated_cost(self):
        self.assertEqual(45 + 2,
                         self._test_assignment_expression.estimated_cost())

    def test_var_get_probability_distribution(self):
        mock_probability_distribution = create_autospec(
            IProbabilityDistribution)
        self._mock_syntax.get_probability_distribution.return_value = mock_probability_distribution
        self.assertEqual(
            mock_probability_distribution,
            self._test_assignment_expression.get_probability_distribution(),
        )
        self._mock_state.set_var.assert_called_with(
            self._test_name, mock_probability_distribution)

    def test_get_contained_variables(self):
        self.assertEqual(
            set(), self._test_assignment_expression.get_contained_variables())

Пример #22

class TestBinaryOperatorNotExpression(TestCase):
    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )

        self._mock_syntax = create_autospec(IDiceExpression)
        self._mock_syntax.roll.return_value = 0
        self._mock_syntax.max.return_value = 8
        self._mock_syntax.min.return_value = 6
        self._mock_syntax.__str__.return_value = "7d3"
        self._mock_syntax.estimated_cost.return_value = 9
        self._mock_syntax.get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {
                -3: 1,
                0: 2,
                4: 1
            })
        self._mock_syntax.get_contained_variables.return_value = {"mock"}

        self._test_binary_operator = NotExpression(self._mock_syntax)
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

    def test_binary_operator_add_production_function(self):
        NotExpression.add_production_function(
            self._mock_parser_gen, self._probability_distribution_factory)
        self._mock_parser_gen.production.assert_called_once_with(
            """expression : NOT expression""")

    def test_ne_roll_true(self):
        for _ in range(100):
            self.assertEqual(1, self._test_binary_operator.roll())

    def test_ne_roll_false(self):
        self._mock_syntax.roll.return_value = 4
        for _ in range(100):
            self.assertEqual(0, self._test_binary_operator.roll())

    def test_ne_max_true(self):
        self._mock_syntax.max.return_value = 4
        self.assertEqual(1, self._test_binary_operator.max())

    def test_ne_max_false(self):
        self._mock_syntax.get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {
                4: 1,
                54: 1
            })
        self.assertEqual(0, self._test_binary_operator.max())

    def test_ne_min_true(self):
        self._mock_syntax.get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {0: 1})
        self.assertEqual(1, self._test_binary_operator.min())

    def test_ne_min_false(self):
        self.assertEqual(0, self._test_binary_operator.min())

    def test_ne_str(self):
        self.assertEqual("!7d3", str(self._test_binary_operator))

    def test_ne_estimated_cost(self):
        self.assertEqual(9, self._test_binary_operator.estimated_cost())

    def test_ne_get_probability_distribution(self):
        self.assertEqual(
            {
                0: 1,
                1: 3
            },
            self._test_binary_operator.get_probability_distribution().
            get_result_map(),
        )

    def test_ne_get_contained_variables(self):
        self.assertSetEqual(
            {"mock"},
            self._test_binary_operator.get_contained_variables(),
        )

Пример #23

Файл: test_constant_binary_expression.py Проект: markbrockettrobson/python_dice

 def setUp(self):
     self._probability_distribution_factory = ProbabilityDistributionFactory()
     self._test_constant_binary_true = ConstantBinaryExpression("True", self._probability_distribution_factory)
     self._test_constant_binary_false = ConstantBinaryExpression("False", self._probability_distribution_factory)
     self._mock_parser_gen = create_autospec(rply.ParserGenerator)

Пример #24

Файл: test_abs_expression.py Проект: markbrockettrobson/python_dice

class TestAbsExpression(TestCase):
    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )
        self._mock_syntax = create_autospec(IDiceExpression)
        self._mock_syntax.roll.return_value = 2
        self._mock_syntax.max.return_value = 8
        self._mock_syntax.min.return_value = 6
        self._mock_syntax.__str__.return_value = "7d3"
        self._mock_syntax.estimated_cost.return_value = 21
        self._mock_syntax.get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {
                -5: 1,
                1: 2,
                4: 1
            })
        self._mock_syntax.get_contained_variables.return_value = {"mock"}

        self._test_abs_operator = AbsExpression(self._mock_syntax)
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

    def test_abs_add_production_function(self):
        AbsExpression.add_production_function(
            self._mock_parser_gen, self._probability_distribution_factory)
        self._mock_parser_gen.production.assert_called_once_with(
            """expression : ABS OPEN_PARENTHESIS expression CLOSE_PARENTHESIS"""
        )

    def test_abs_roll_pos(self):
        for _ in range(100):
            self.assertEqual(2, self._test_abs_operator.roll())

    def test_abs_roll_neg(self):
        self._mock_syntax.roll.return_value = -4
        for _ in range(100):
            self.assertEqual(4, self._test_abs_operator.roll())

    def test_abs_max(self):
        self.assertEqual(5, self._test_abs_operator.max())

    def test_abs_min(self):
        self.assertEqual(1, self._test_abs_operator.min())

    def test_abs_str(self):
        self.assertEqual("ABS(7d3)", str(self._test_abs_operator))

    def test_abs_estimated_cost(self):
        self.assertEqual(21, self._test_abs_operator.estimated_cost())

    def test_abs_get_probability_distribution(self):
        self.assertEqual(
            {
                1: 2,
                4: 1,
                5: 1
            },
            self._test_abs_operator.get_probability_distribution().
            get_result_map(),
        )

    def test_abs_get_contained_variables(self):
        self.assertSetEqual({"mock"},
                            self._test_abs_operator.get_contained_variables())

Пример #25

Файл: test_minmax_expression.py Проект: markbrockettrobson/python_dice

class TestAddExpression(TestCase):
    def setUp(self):
        self._probability_distribution_factory = ProbabilityDistributionFactory()

        self._mock_syntax = [create_autospec(IDiceExpression) for _ in range(2)]
        self._mock_syntax[0].roll.return_value = 10
        self._mock_syntax[0].max.return_value = 8
        self._mock_syntax[0].min.return_value = 6
        self._mock_syntax[0].__str__.return_value = "7d7"
        self._mock_syntax[0].estimated_cost.return_value = 9
        self._mock_syntax[0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {-2: 1, 4: 1}
        )
        self._mock_syntax[0].get_contained_variables.return_value = {"mock one"}

        self._mock_syntax[1].roll.return_value = 4
        self._mock_syntax[1].max.return_value = 6
        self._mock_syntax[1].min.return_value = 8
        self._mock_syntax[1].__str__.return_value = "2d2"
        self._mock_syntax[1].estimated_cost.return_value = 7
        self._mock_syntax[1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {8: 1, -3: 2}
        )
        self._mock_syntax[1].get_contained_variables.return_value = {"mock two"}

        self._test_minmax = MinMaxExpression("MAX", self._mock_syntax[0], self._mock_syntax[1])
        self._mock_parser_gen = create_autospec(rply.ParserGenerator)

    def test_minmax_add_production_function(self):
        MinMaxExpression.add_production_function(self._mock_parser_gen, self._probability_distribution_factory)
        self._mock_parser_gen.production.assert_called_once_with(
            """expression : MINMAX OPEN_PARENTHESIS expression COMMA expression CLOSE_PARENTHESIS"""
        )

    def test_max_roll(self):
        for _ in range(100):
            self.assertEqual(10, self._test_minmax.roll())

    def test_min_roll(self):
        self._test_minmax = MinMaxExpression("MIN", self._mock_syntax[0], self._mock_syntax[1])
        for _ in range(100):
            self.assertEqual(4, self._test_minmax.roll())

    def test_max_max(self):
        self.assertEqual(8, self._test_minmax.max())

    def test_min_max(self):
        self._test_minmax = MinMaxExpression("MIN", self._mock_syntax[0], self._mock_syntax[1])
        self.assertEqual(6, self._test_minmax.max())

    def test_max_min(self):
        self.assertEqual(8, self._test_minmax.max())

    def test_min_min(self):
        self._test_minmax = MinMaxExpression("MIN", self._mock_syntax[0], self._mock_syntax[1])
        self.assertEqual(6, self._test_minmax.min())

    def test_max_str(self):
        self.assertEqual("MAX(7d7, 2d2)", str(self._test_minmax))

    def test_min_str(self):
        self._test_minmax = MinMaxExpression("MIN", self._mock_syntax[0], self._mock_syntax[1])
        self.assertEqual("MIN(7d7, 2d2)", str(self._test_minmax))

    def test_min_max_estimated_cost(self):
        self.assertEqual(16, self._test_minmax.estimated_cost())

    def test_max_get_probability_distribution(self):
        self._mock_syntax[0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {10: 1, -12: 2, 0: 1}
        )
        self._mock_syntax[1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {2: 1, 3: 2}
        )
        self.assertEqual(
            {2: 3, 3: 6, 10: 3},
            self._test_minmax.get_probability_distribution().get_result_map(),
        )

    def test_min_get_probability_distribution(self):
        self._test_minmax = MinMaxExpression("MIN", self._mock_syntax[0], self._mock_syntax[1])
        self._mock_syntax[0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {10: 1, -12: 2, 0: 1}
        )
        self._mock_syntax[1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {2: 1, 3: 2}
        )
        self.assertEqual(
            {-12: 6, 0: 3, 2: 1, 3: 2},
            self._test_minmax.get_probability_distribution().get_result_map(),
        )

    def test_max_get_probability_distribution_second_example(self):
        self._mock_syntax[0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {-3: 1, -2: 1, -1: 1, 0: 1, 5: 1, 6: 1}
        )
        self._mock_syntax[1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {0: 1}
        )
        self.assertEqual(
            {0: 4, 5: 1, 6: 1},
            self._test_minmax.get_probability_distribution().get_result_map(),
        )

    def test_min_get_probability_distribution_second_example(self):
        self._test_minmax = MinMaxExpression("MIN", self._mock_syntax[0], self._mock_syntax[1])
        self._mock_syntax[0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {-1: 1, 1: 1}
        )
        self._mock_syntax[1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {0: 1}
        )
        self.assertEqual(
            {0: 1, -1: 1},
            self._test_minmax.get_probability_distribution().get_result_map(),
        )

    def test_max_get_probability_distribution_third_example(self):
        self._mock_syntax[0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {-1: 1, 1: 1}
        )
        self._mock_syntax[1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {0: 1}
        )
        self.assertEqual(
            {0: 1, 1: 1},
            self._test_minmax.get_probability_distribution().get_result_map(),
        )

    def test_min_get_probability_distribution_third_example(self):
        self._test_minmax = MinMaxExpression("MIN", self._mock_syntax[0], self._mock_syntax[1])
        self._mock_syntax[0].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {-3: 1, -2: 1, -1: 1, 0: 1, 5: 1, 6: 1}
        )
        self._mock_syntax[1].get_probability_distribution.return_value = self._probability_distribution_factory.create(
            {0: 1}
        )
        self.assertEqual(
            {-3: 1, -2: 1, -1: 1, 0: 3},
            self._test_minmax.get_probability_distribution().get_result_map(),
        )

    def test_min_get_contained_variables(self):
        self.assertSetEqual({"mock one", "mock two"}, self._test_minmax.get_contained_variables())

Пример #26

class TestProbabilityState(TestCase):
    def setUp(self) -> None:
        self._probability_distribution_factory = ProbabilityDistributionFactory(
        )
        self._probability_outcome_factory = ProbabilityOutcomeFactory()
        self._constraint_factory = ConstraintFactory()

        self._test_name = "test_name"

        _1_n5 = self._probability_outcome_factory.create_empty(-5)
        _1_n5.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_1", {-5}))
        _1_1 = self._probability_outcome_factory.create_empty(1)
        _1_1.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_1", {1}))

        _1_4 = self._probability_outcome_factory.create_empty(4)
        _1_4.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_1", {4}))

        _2_n5 = self._probability_outcome_factory.create_empty(-5)
        _2_n5.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_2", {-5}))
        _2_1 = self._probability_outcome_factory.create_empty(1)
        _2_1.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_2", {1}))

        _2_4 = self._probability_outcome_factory.create_empty(4)
        _2_4.constraint_set.add_constraint(
            self._constraint_factory.var_value_constraint("test_name_2", {4}))

        self._test_distribution = self._probability_distribution_factory.create(
            {
                -5: 1,
                1: 2,
                4: 1
            })
        self._return_one_distribution = self._probability_distribution_factory.create(
            {
                _1_n5: 1,
                _1_1: 2,
                _1_4: 1
            })
        self._return_two_distribution = self._probability_distribution_factory.create(
            {
                _2_n5: 1,
                _2_1: 2,
                _2_4: 1
            })

        self._test_int = 1
        self._test_probability_state = ProbabilityDistributionState(
            self._probability_distribution_factory, self._constraint_factory)

    def test_probability_state_has_constant_false(self):
        self._test_probability_state.set_constant("a", self._test_int)
        self.assertFalse(
            self._test_probability_state.has_constant(self._test_name))

    def test_probability_state_has_constant_true(self):
        self._test_probability_state.set_constant(self._test_name,
                                                  self._test_int)
        self.assertTrue(
            self._test_probability_state.has_constant(self._test_name))

    def test_probability_state_has_var_false(self):
        self._test_probability_state.set_var("a", self._test_distribution)
        self.assertFalse(self._test_probability_state.has_var(self._test_name))

    def test_probability_state_has_var_true(self):
        self._test_probability_state.set_var(self._test_name,
                                             self._test_distribution)
        self.assertTrue(self._test_probability_state.has_var(self._test_name))

    def test_probability_state_get_constant_false(self):
        self._test_probability_state.set_constant("a", self._test_int)
        with self.assertRaises(KeyError):
            self._test_probability_state.get_constant(self._test_name)

    def test_probability_state_get_constant_true(self):
        self._test_probability_state.set_constant(self._test_name,
                                                  self._test_int)
        self.assertEqual(
            self._test_int,
            self._test_probability_state.get_constant(self._test_name))

    def test_probability_state_get_var_false(self):
        self._test_probability_state.set_var("a", self._test_distribution)
        with self.assertRaises(KeyError):
            self._test_probability_state.get_var(self._test_name)

    def test_probability_state_get_var_dict(self):
        self._test_probability_state.set_var(self._test_name,
                                             self._test_distribution)

        self.assertIn(
            self._test_name,
            self._test_probability_state.get_var_dict(),
        )
        self.assertEqual(
            str(self._return_one_distribution),
            str(self._test_probability_state.get_var_dict()[self._test_name]))

    def test_probability_state_get_var_dict_second_time(self):
        self._test_probability_state.set_var(self._test_name,
                                             self._test_distribution)
        self._test_probability_state.set_var(self._test_name,
                                             self._test_distribution)

        self.assertIn(
            self._test_name,
            self._test_probability_state.get_var_dict(),
        )

        self.assertEqual(
            str(self._return_two_distribution),
            str(self._test_probability_state.get_var_dict()[self._test_name]))

    def test_probability_state_get_constant_dict(self):
        self._test_probability_state.set_constant(self._test_name,
                                                  self._test_int)
        self.assertEqual(
            {self._test_name: self._test_int},
            self._test_probability_state.get_constant_dict(),
        )