Esempio n. 1
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def test_4_easy():
    """ Generate election 4-easy using syn2 then run audit on it with multi.
    """
    with warnings.catch_warnings(record=True):
        # Generate election from object storing pseudo command-line arguments.
        e = multi.Election()
        syn_args = Args()
        syn_args.election_dirname = '4-easy'
        syn_args.syn_type = '2'
        cli_syn.dispatch(e, syn_args)

        # Audit election
        e = multi.Election()
        multi_args = Args()
        multi_args.election_dirname = '4-easy'
        multi_args.election_name = '4-easy'
        multi_args.elections_root = './elections'
        multi_args.set_audit_seed = 42
        multi_args.read_election_spec = False
        multi_args.read_reported = False
        multi_args.make_audit_orders = False
        multi_args.read_audited = False
        multi_args.audit = True
        multi_args.pause = False
        cli_multi.dispatch(e, multi_args)
Esempio n. 2
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def test_4_easy():
    """ Generate election 4-easy using syn2 then run audit on it with OpenAuditTool.
    """
    with warnings.catch_warnings(record=True):
        # Generate election from object storing pseudo command-line arguments.
        e = OpenAuditTool.Election()
        syn_args = Args()
        syn_args.election_dirname = '4-easy'
        syn_args.syn_type = '2'
        cli_syn.dispatch(e, syn_args)

        # Audit election
        e = OpenAuditTool.Election()
        OpenAuditTool_args = Args()
        OpenAuditTool_args.election_dirname = '4-easy'
        OpenAuditTool_args.election_name = '4-easy'
        OpenAuditTool_args.elections_root = './elections'
        OpenAuditTool_args.set_audit_seed = 42
        OpenAuditTool_args.read_election_spec = False
        OpenAuditTool_args.read_reported = False
        OpenAuditTool_args.make_audit_orders = False
        OpenAuditTool_args.read_audited = False
        OpenAuditTool_args.audit = True
        OpenAuditTool_args.pause = False

        # added for new planner code:
        OpenAuditTool_args.num_winners = 2
        OpenAuditTool_args.max_num_it = 100
        OpenAuditTool_args.sample_by_size = False
        OpenAuditTool_args.use_discrete_rm = False
        OpenAuditTool_args.pick_county_func = "round_robin"
        cli_OpenAuditTool.dispatch(e, OpenAuditTool_args)
Esempio n. 3
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def irv_edge(election_dirname, config_dirname=None):
    """ Generate election 8-irv1 using syn2 then run audit on it with OpenAuditTool.
    """
    with warnings.catch_warnings(record=True):
        # Generate election from object storing pseudo command-line arguments.
        e = OpenAuditTool.Election()
        syn_args = Args()
        syn_args.election_dirname = election_dirname
        syn_args.config_dirname = config_dirname
        syn_args.syn_type = '3'
        cli_syn.dispatch(e, syn_args)

        # Audit election
        e = OpenAuditTool.Election()
        OpenAuditTool_args = Args()
        OpenAuditTool_args.election_dirname = election_dirname
        OpenAuditTool_args.election_name = election_dirname
        OpenAuditTool_args.elections_root = './elections'
        OpenAuditTool_args.set_audit_seed = int(time.clock() * 100000)
        OpenAuditTool_args.read_election_spec = False
        OpenAuditTool_args.read_reported = False
        OpenAuditTool_args.make_audit_orders = False
        OpenAuditTool_args.read_audited = False
        OpenAuditTool_args.audit = True
        OpenAuditTool_args.pause = False

        # added for new planner code:
        OpenAuditTool_args.num_winners = 1
        OpenAuditTool_args.max_num_it = 100
        OpenAuditTool_args.sample_by_size = False
        OpenAuditTool_args.use_discrete_rm = False
        OpenAuditTool_args.pick_county_func = "round_robin"
        cli_OpenAuditTool.dispatch(e, OpenAuditTool_args)
Esempio n. 4
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def generate_segments(e, syn, low, high):
    """ 
    Return list of random segments (r, s) where low <= r < s <= high. 

    Number of segments returned is (high-low).

    Since r<s, does not return segments of the form (k, k).

    Intent is that cids are integers in range low <= cid <= high,
    and each segment yields a contest group covering cids r..s (inclusive).

    The segments "nest" -- given any two segments, either they
    are disjoint, or they are equal, or one contains the other.
    """

    assert low <= high
    L = []
    if low != high:
        L.append((low, high))
        mid = syn.RandomState.choice(range(low, high))
        L.extend(generate_segments(e, syn, low, mid))
        L.extend(generate_segments(e, syn, mid + 1, high))
    return L


if __name__ == "__main__":

    e = OpenAuditTool.Election()
    args = cli_syn.parse_args()
    cli_syn.dispatch(e, args)