def test_validate_secondary_period_returns_false_when_provided_sp_is_negative(
):
planner = CyclicExecutivePlanner(
[Task('T1', 30, 6),
Task('T2', 20, 3),
Task('T3', 120, 14)])
assert not planner.validate_secondary_period(-5)
def test_validate_secondary_period_returns_false_when_not_full_frame_from_task_start_to_task_deadline_for_each_task(
):
planner = CyclicExecutivePlanner(
[Task('T1', 30, 6),
Task('T2', 20, 3),
Task('T3', 120, 14)])
assert not planner.validate_secondary_period(15)
def test_can_add_task_returns_true_when_task_can_fit_in_secondary_period_and_was_not_executed_in_this_deadline_slice(
):
tasks = [Task('T1', 30, 6), Task('T2', 20, 3), Task('T3', 120, 14)]
planner = CyclicExecutivePlanner(tasks)
planner.matrix = ExecutionMatrix(planner.hyperperiod, planner.hyperperiod,
planner.secondary_period)
assert planner.can_add_task(tasks[0], 0)
def test_calculate_remaining_sp_space_returns_remaining_secondary_period_space_when_timestamp_provided(
):
tasks = [Task('T1', 30, 6), Task('T2', 20, 3), Task('T3', 120, 14)]
planner = CyclicExecutivePlanner(tasks)
assert planner.calculate_remaining_sp_space(0) == 20
assert planner.calculate_remaining_sp_space(1) == 19
assert planner.calculate_remaining_sp_space(19) == 1
assert planner.calculate_remaining_sp_space(20) == 20
assert planner.calculate_remaining_sp_space(39) == 1
def test_can_add_task_returns_false_when_task_not_fit_in_secondary_period():
tasks = [Task('T1', 30, 6), Task('T2', 20, 3), Task('T3', 120, 14)]
planner = CyclicExecutivePlanner(tasks)
planner.matrix = ExecutionMatrix(planner.hyperperiod, planner.hyperperiod,
planner.secondary_period)
time_stamp = 15
for x in range(time_stamp):
planner.matrix.processors[0].add_time_unit()
assert not planner.can_add_task(tasks[0], time_stamp)
def test_hyperperiod_cyclic_executive_planner():
tasks = list_of_tasks()
processors = 1
planner = CyclicExecutivePlanner(tasks=tasks, processors=processors)
assert planner.tasks == tasks
assert planner.processors == 1
planner.calculate_hyperperiod()
assert planner.hyperperiod == 120
def test_can_add_task_returns_false_when_task_was_already_enqueued_in_this_deadline_slice(
):
tasks = [Task('T1', 30, 6), Task('T2', 20, 3), Task('T3', 120, 14)]
planner = CyclicExecutivePlanner(tasks)
planner.matrix = ExecutionMatrix(planner.hyperperiod, planner.hyperperiod,
planner.secondary_period)
planner.matrix.processors[0].add_time_unit()
planner.matrix.processors[0].set_task(tasks[0])
for x in range(tasks[0].deadline - 1):
planner.matrix.processors[0].add_time_unit()
assert not planner.can_add_task(tasks[0], planner.secondary_period + 1)
def test_calculates_secondary_period_when_initialized():
planner = CyclicExecutivePlanner([Task('T1', 10, 5)])
assert planner.secondary_period == 5
planner = CyclicExecutivePlanner(
[Task('T1', 20, 3),
Task('T2', 5, 2),
Task('T3', 10, 2)])
assert planner.secondary_period == 3
planner = CyclicExecutivePlanner(
[Task('T1', 30, 6),
Task('T2', 20, 3),
Task('T3', 120, 14)])
assert planner.secondary_period == 20
def test_get_plan_raises_exception_when_task_cannot_be_planned_correctly():
# Case 1
planner = CyclicExecutivePlanner(
[Task('T1', 5, 2),
Task('T2', 10, 5),
Task('T3', 5, 1)])
with pytest.raises(Exception):
planner.get_plan()
# Case 2
planner = CyclicExecutivePlanner(
[Task('T1', 6, 2),
Task('T2', 4, 1),
Task('T3', 10, 3)])
with pytest.raises(Exception):
planner.get_plan()
def test_get_plan_returns_cyclic_executive_planified_matrix_when_tasks_are_valids(
):
# Case 1
planner = CyclicExecutivePlanner(
[Task('T1', 5, 2),
Task('T2', 10, 3),
Task('T3', 5, 1)])
matrix = planner.get_plan()
expected = ['T1', 'T1', 'T3', 'T2', 'T2', 'T2', 'T1', 'T1', 'T3', '']
compare_each_processor_value(expected, matrix.processors[0])
# Case 2
planner = CyclicExecutivePlanner(
[Task('T1', 6, 2),
Task('T2', 5, 1),
Task('T3', 10, 2)])
matrix = planner.get_plan()
expected = [
'T1', 'T1', 'T2', '', 'T3', 'T3', 'T1', 'T1', 'T2', '', 'T2', '', 'T1',
'T1', 'T3', 'T3', 'T2', '', 'T1', 'T1', 'T2', '', 'T3', 'T3', 'T1',
'T1', 'T2', '', '', ''
]
compare_each_processor_value(expected, matrix.processors[0])
# Case 3
planner = CyclicExecutivePlanner(
[Task('T1', 15, 3),
Task('T2', 10, 2),
Task('T3', 25, 5)])
matrix = planner.get_plan()
expected = [
'T1', 'T1', 'T1', 'T2', 'T2', 'T3', 'T3', 'T3', 'T3', 'T3', 'T2', 'T2',
'', '', '', 'T1', 'T1', 'T1', '', '', 'T2', 'T2', '', '', '', 'T3',
'T3', 'T3', 'T3', 'T3', 'T1', 'T1', 'T1', 'T2', 'T2', '', '', '', '',
'', 'T2', 'T2', '', '', '', 'T1', 'T1', 'T1', '', '', 'T2', 'T2', '',
'', '', 'T3', 'T3', 'T3', 'T3', 'T3', 'T1', 'T1', 'T1', 'T2', 'T2', '',
'', '', '', '', 'T2', 'T2', '', '', '', 'T1', 'T1', 'T1', '', '', 'T2',
'T2', '', '', '', 'T3', 'T3', 'T3', 'T3', 'T3', 'T1', 'T1', 'T1', 'T2',
'T2', '', '', '', '', '', 'T2', 'T2', '', '', '', 'T1', 'T1', 'T1', '',
'', 'T2', 'T2', '', '', '', 'T3', 'T3', 'T3', 'T3', 'T3', 'T1', 'T1',
'T1', 'T2', 'T2', 'T3', 'T3', 'T3', 'T3', 'T3', 'T2', 'T2', '', '', '',
'T1', 'T1', 'T1', '', '', 'T2', 'T2', '', '', '', '', '', '', '', ''
]
compare_each_processor_value(expected, matrix.processors[0])
def test_planner_always_set_processors_in_one_when_initialized():
planner = CyclicExecutivePlanner([Task('T1', 10, 5)], 5)
assert planner.processors == 1
def test_initialization_trows_error_when_secondary_period_cannot_be_calculated(
):
with pytest.raises(Exception):
CyclicExecutivePlanner([Task('T1', 30, 60), Task('T2', 20, 3)])
def test_initialization_trows_error_when_tasks_is_empty():
with pytest.raises(Exception):
CyclicExecutivePlanner([])