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import stormpy import stormpy.logic from stormpy.storage import BitVector from stormpy.utility import ShortestPathsGenerator from stormpy.utility import MatrixFormat from helpers.helper import get_example_path
import pytest import math
# this is admittedly slightly overengineered
class ModelWithKnownShortestPaths: """Knuth's die model with reference kSP methods""" def __init__(self): self.target_label = "one"
program_path = get_example_path("dtmc", "die.pm") raw_formula = "P=? [ F \"" + self.target_label + "\" ]" program = stormpy.parse_prism_program(program_path) formulas = stormpy.parse_properties_for_prism_program(raw_formula, program)
self.model = stormpy.build_model(program, formulas)
def probability(self, k): return (1/2)**((2 * k) + 1)
def state_set(self, k): return BitVector(self.model.nr_states, [0, 1, 3, 7])
def path(self, k): path = [0] + k * [1, 3] + [7] return list(reversed(path)) # SPG returns traversal from back
@pytest.fixture(scope="module", params=[1, 2, 3, 3000, 42]) def index(request): return request.param
@pytest.fixture(scope="module") def model_with_known_shortest_paths(): return ModelWithKnownShortestPaths()
@pytest.fixture(scope="module") def model(model_with_known_shortest_paths): return model_with_known_shortest_paths.model
@pytest.fixture(scope="module") def expected_distance(model_with_known_shortest_paths): return model_with_known_shortest_paths.probability
@pytest.fixture(scope="module") def expected_state_set(model_with_known_shortest_paths): return model_with_known_shortest_paths.state_set
@pytest.fixture(scope="module") def expected_path(model_with_known_shortest_paths): return model_with_known_shortest_paths.path
@pytest.fixture(scope="module") def target_label(model_with_known_shortest_paths): return model_with_known_shortest_paths.target_label
@pytest.fixture def state(model): some_state = 7 assert model.nr_states > some_state, "test model too small" return some_state
@pytest.fixture def state_list(model): some_state_list = [4, 5, 7] assert model.nr_states > max(some_state_list), "test model too small" return some_state_list
@pytest.fixture def state_bitvector(model, state_list): return BitVector(length=model.nr_states, set_entries=state_list)
@pytest.fixture def transition_matrix(model): return model.transition_matrix
@pytest.fixture def target_prob_map(model, state_list): return {i: (1.0 if i in state_list else 0.0) for i in range(model.nr_states)}
@pytest.fixture def target_prob_list(target_prob_map): return [target_prob_map[i] for i in range(max(target_prob_map.keys()))]
@pytest.fixture def initial_states(model): return BitVector(model.nr_states, model.initial_states)
@pytest.fixture def matrix_format(): return MatrixFormat.Straight
class TestShortestPaths: def test_spg_ctor_bitvector_target(self, model, state_bitvector): _ = ShortestPathsGenerator(model, state_bitvector)
def test_spg_ctor_single_state_target(self, model, state): _ = ShortestPathsGenerator(model, state)
def test_spg_ctor_state_list_target(self, model, state_list): _ = ShortestPathsGenerator(model, state_list)
def test_spg_ctor_label_target(self, model, target_label): _ = ShortestPathsGenerator(model, target_label)
def test_spg_ctor_matrix_vector(self, transition_matrix, target_prob_list, initial_states, matrix_format): _ = ShortestPathsGenerator(transition_matrix, target_prob_list, initial_states, matrix_format)
def test_spg_ctor_matrix_map(self, transition_matrix, target_prob_map, initial_states, matrix_format): _ = ShortestPathsGenerator(transition_matrix, target_prob_map, initial_states, matrix_format)
def test_spg_distance(self, model, target_label, index, expected_distance): spg = ShortestPathsGenerator(model, target_label) assert math.isclose(spg.get_distance(index), expected_distance(index))
def test_spg_state_set(self, model, target_label, index, expected_state_set): spg = ShortestPathsGenerator(model, target_label) assert spg.get_states(index) == expected_state_set(index)
def test_spg_state_list(self, model, target_label, index, expected_path): spg = ShortestPathsGenerator(model, target_label) assert spg.get_path_as_list(index) == expected_path(index)
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