def test_integration(): SLAVES = ('slave001', 'slave123') FRAMEWORKS = ('framework1', 'framework2') EXECUTORS = ('executor_a', 'executor_b') RUNS = ('001', '002', 'latest') with temporary_dir() as td: all_groups = set() for slave, framework, executor, run in itertools.product(SLAVES, FRAMEWORKS, EXECUTORS, RUNS): match = Match(td, slave, framework, executor, run) safe_mkdir(ExecutorDetector.path(match)) all_groups.add(tuple(sorted(match.groups().items()))) for match in ExecutorDetector(td): assert tuple(sorted(match.groups().items())) in all_groups
def test_find_root(): BAD_PATHS = ( os.path.sep, '.', os.path.sep * 10, '/root/slaves', '/root/slaves/S/frameworks/F/executors//runs/R', 'root/slaves/S/frameworks/F/executors//runs/R', ) GOOD_PATHS = ( ExecutorDetector.path(DEFAULT_MATCH), os.path.join(ExecutorDetector.path(DEFAULT_MATCH), 'some', 'other', 'path') ) for cwd in BAD_PATHS: assert ExecutorDetector.find_root(cwd) is None for cwd in GOOD_PATHS: assert ExecutorDetector.find_root(cwd) == 'abcd'
def test_find_root(): BAD_PATHS = ( os.path.sep, '.', os.path.sep * 10, '/root/slaves', '/root/slaves/S/frameworks/F/executors//runs/R', 'root/slaves/S/frameworks/F/executors//runs/R', ) GOOD_PATHS = ( ExecutorDetector.path(DEFAULT_MATCH), os.path.join(ExecutorDetector.path(DEFAULT_MATCH), 'some', 'other', 'path') ) for cwd in BAD_PATHS: assert ExecutorDetector.find_root(cwd) is None for cwd in GOOD_PATHS: assert ExecutorDetector.find_root(cwd) == 'abcd'
def test_find_root(): BAD_PATHS = ( os.path.sep, ".", os.path.sep * 10, "/root/slaves", "/root/slaves/S/frameworks/F/executors//runs/R", "root/slaves/S/frameworks/F/executors//runs/R", ) GOOD_PATHS = ( ExecutorDetector.path(DEFAULT_MATCH), os.path.join(ExecutorDetector.path(DEFAULT_MATCH), "some", "other", "path"), ) for cwd in BAD_PATHS: assert ExecutorDetector.find_root(cwd) is None for cwd in GOOD_PATHS: assert ExecutorDetector.find_root(cwd) == "abcd"
def test_integration(): SLAVES = ('slave001', 'slave123') FRAMEWORKS = ('framework1', 'framework2') EXECUTORS = ('executor_a', 'executor_b') RUNS = ('001', '002', 'latest') with temporary_dir() as td: all_groups = set() for slave, framework, executor, run in itertools.product(SLAVES, FRAMEWORKS, EXECUTORS, RUNS): match = Match(td, slave, framework, executor, run) safe_mkdir(ExecutorDetector.path(match)) all_groups.add(tuple(sorted(match.groups().items()))) for match in ExecutorDetector(td): assert tuple(sorted(match.groups().items())) in all_groups
def test_integration(): SLAVES = ("slave001", "slave123") FRAMEWORKS = ("framework1", "framework2") EXECUTORS = ("executor_a", "executor_b") RUNS = ("001", "002", "latest") with temporary_dir() as td: all_groups = set() for slave, framework, executor, run in itertools.product(SLAVES, FRAMEWORKS, EXECUTORS, RUNS): match = Match(td, slave, framework, executor, run) safe_mkdir(ExecutorDetector.path(match)) all_groups.add(tuple(sorted(match.groups().items()))) for match in ExecutorDetector(td): assert tuple(sorted(match.groups().items())) in all_groups
def test_bad_match(): assert ExecutorDetector.match('herpderp') is None
def test_match_inverse(): assert ExecutorDetector.match(ExecutorDetector.path(DEFAULT_MATCH)).groups() == ( DEFAULT_MATCH.groups())
def test_bad_match(): assert ExecutorDetector.match('herpderp') is None
def test_match_inverse(): assert ExecutorDetector.match(ExecutorDetector.path(DEFAULT_MATCH)).groups() == ( DEFAULT_MATCH.groups())