Esempio n. 1
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def main():
    """Checks the interoperability of Python and C++ passes."""
    g = graph.PyGraph()
    config = {}
    p_manager = stepmanager.StepManager(g, config, provides=provide)

    p_manager.execute(['Test3Step'])
Esempio n. 2
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def main():
    g = graph.PyGraph()
    os_name = sys.argv[1]
    json_file = sys.argv[2]
    i_file = sys.argv[3]
    print("Testing with", i_file, "and json:", json_file, "and os: ", os_name)
    with open(json_file) as f:
        warnings = json.load(f)

    config = {'os': os_name,
              'input_files': [i_file]}
    p_manager = stepmanager.StepManager(g, config)

    p_manager.execute(['ValidationStep','DisplayResultsStep'])

    val_step = p_manager.get_step('ValidationStep')
    side_data = val_step.get_side_data()
    
    #TODO ABB3 nicht im kritischen Bereich
    
    for tmp in side_data:
        print('critical side data',tmp['location'].get_name())
    
    assert len(warnings) == len(side_data)
    for should, have in zip(warnings, side_data):
        assert should['type'] == have['type']
        assert should['location'] == have['location'].get_name()
Esempio n. 3
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def main():
    g = graph.PyGraph()
    config = {}
    p_manager = stepmanager.StepManager(g, config,
                                              provides=provide)

    global shared_state

    # standard tests
    p_manager.execute(['Test8Step'])
    assert(shared_state == tests[0])
    shared_state = ""

    p_manager.execute(['Test9Step'])
    assert(shared_state == tests[1])
    shared_state = ""

    p_manager.execute(['Test8Step', 'Test9Step'])
    assert(shared_state == tests[2])
    shared_state = ""

    # conditinal tests
    config['cond'] = False
    p_manager.execute(['TestDep1'])
    assert(shared_state == 'Run: TestDep1\n')
    shared_state = ""

    config['cond'] = True
    p_manager.execute(['TestDep1'])
    assert(shared_state == 'Run: TestDep0\nRun: TestDep1\n')
    shared_state = ""
Esempio n. 4
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def main():
    s_dir = os.path.dirname(os.path.realpath(__file__))

    logging.basicConfig(level=logging.DEBUG)
    for file, oil, validate in TESTS:
        g = graph.PyGraph()
        config = {'oilfile': oil, 'os': 'osek', 'input_files': [file]}
        p_manager = stepmanager.StepManager(g, config)

        p_manager.execute(['OilStep'])

        validate(g)
Esempio n. 5
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def init_test():
    """CLI usage: your_program <os_name> <json_file> <ll_file>"""
    g = graph.PyGraph()
    os_name = sys.argv[1]
    json_file = sys.argv[2]
    i_file = sys.argv[3]
    print("Testing with", i_file, "and json:", json_file, "and os: ", os_name)
    with open(json_file) as f:
        data = json.load(f)

    config = {'os': os_name, 'input_files': [i_file]}
    s_manager = stepmanager.StepManager(g, config)

    s_manager.execute(['ValidationStep'])

    return g, data, s_manager
Esempio n. 6
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import pyximport
pyximport.install()
import graph

g = graph.PyGraph()
n1 = g.add_node(1)
n2 = g.add_node(2)
n3 = g.add_node(3)
n4 = g.add_node(4)
g.add_edge(n1, n2)
g.add_edge(n2, n3)
g.add_edge(n1, n3)
g.add_edge(n2, n4)
g.add_edge(n4, n3)

for n in g.nodes():
    print n, "has", n.degree(), "edges"
    for e in n.edges():
        print "  ", e
Esempio n. 7
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def main(dataLoc, stationName):
    cc = graph.PyGraph(dataLoc, stationName)
    routes = cc.routeAtStation()
    print(routes, sep="\n")
Esempio n. 8
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File: ara.py Progetto: luhsra/ara
def main():
    """Entry point for ARSA."""
    parser = argparse.ArgumentParser(
        prog=sys.argv[0],
        description=sys.modules[__name__].__doc__,
        formatter_class=argparse.ArgumentDefaultsHelpFormatter)
    parser.add_argument('--verbose',
                        '-v',
                        help="alias for --log-level=info",
                        action="store_true",
                        default=False)
    parser.add_argument('--log-level',
                        help="choose the log level",
                        choices=['warn', 'info', 'debug'],
                        default='warn')
    parser.add_argument('--os',
                        '-O',
                        help="specify the operation system",
                        choices=['freertos', 'osek'],
                        default='osek')
    parser.add_argument('--step',
                        '-s',
                        help="choose steps that will be executed",
                        action='append')
    parser.add_argument('--list-steps',
                        '-l',
                        action="store_true",
                        default=False,
                        help="list all available steps")
    parser.add_argument('input_files',
                        help="all LLVM-IR input files",
                        nargs='*')
    parser.add_argument('--oilfile', help="name of oilfile")

    args = parser.parse_args()

    # logging
    if args.log_level != 'debug' and args.verbose:
        args.log_level = 'info'
    log_levels = {
        'debug': logging.DEBUG,
        'info': logging.INFO,
        'warn': logging.WARNING
    }
    _format = '%(asctime)s %(levelname)-7s %(name)-12s%(message)s'
    logging.basicConfig(format=_format, level=log_levels[args.log_level])

    g = graph.PyGraph()
    s_manager = stepmanager.StepManager(g, vars(args))
    avail_steps = s_manager.get_steps()

    if args.list_steps:
        print(print_avail_steps(avail_steps))
        sys.exit(0)
    elif not args.input_files:
        parser.error('input_files are required (except -l or -h is set)')
    elif args.os == 'OSEK' and not args.oilfile:
        parser.error('when analyzing OSEK and oilfile is required')

    logging.debug("Processing files: %s", ', '.join(args.input_files))

    if args.step is None:
        args.step = ['DisplayResultsStep']

    if len(set(args.step) & set([s.get_name() for s in avail_steps])) == 0:
        msg = 'Invalid step for --step. {}'.format(
            print_avail_steps(avail_steps))
        parser.error(msg)

    logging.debug("Executing steps: %s", ', '.join(args.step))

    s_manager.execute(args.step)