Exemple #1
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def test_sampling_example_graph2():
    sif_file = join(dirname(__file__), 'korkut_stmts.sif')
    g = pg.load_signed_sif(sif_file)
    source = 'BLK'
    target = 'EIF4EBP1'
    enum_cf_paths = set(
        pg.enumerate_paths(g,
                           source,
                           target,
                           signed=True,
                           target_polarity=0,
                           max_depth=8,
                           cycle_free=True))
    sampled_cf_paths = set(
        pg.sample_paths(g,
                        source,
                        target,
                        signed=True,
                        target_polarity=0,
                        max_depth=8,
                        num_samples=10000,
                        cycle_free=True))
    count_cf_paths = pg.count_paths(g,
                                    source,
                                    target,
                                    signed=True,
                                    target_polarity=0,
                                    max_depth=8,
                                    cycle_free=True)
    # The sampled paths should be a subset of the enumerated paths
    assert sampled_cf_paths.intersection(enum_cf_paths) == sampled_cf_paths
Exemple #2
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def test_enumerate_example_graph2():
    sif_file = join(dirname(__file__), 'korkut_stmts.sif')
    g = pg.load_signed_sif(sif_file)
    source = 'BLK'
    target = 'EIF4EBP1'
    enum_paths = pg.enumerate_paths(g,
                                    source,
                                    target,
                                    signed=True,
                                    target_polarity=0,
                                    max_depth=8,
                                    cycle_free=False)
    assert len(enum_paths) == len(set(enum_paths))
    enum_paths = set(enum_paths)
    count_paths = pg.count_paths(g,
                                 source,
                                 target,
                                 signed=True,
                                 target_polarity=0,
                                 max_depth=8,
                                 cycle_free=False)

    enum_cf_paths = pg.enumerate_paths(g,
                                       source,
                                       target,
                                       signed=True,
                                       target_polarity=0,
                                       max_depth=8,
                                       cycle_free=True)
    assert len(enum_cf_paths) == len(set(enum_cf_paths))
    enum_cf_paths = set(enum_cf_paths)
    count_cf_paths = pg.count_paths(g,
                                    source,
                                    target,
                                    signed=True,
                                    target_polarity=0,
                                    max_depth=8,
                                    cycle_free=True)
    # Check that the counts match the enumeratio
    assert len(enum_paths) == count_paths
    assert len(enum_cf_paths) == count_cf_paths
    # All of the cycle-free paths should be contained in the set of paths
    # with cycles
    assert enum_paths.intersection(enum_cf_paths) == enum_cf_paths
    # Check that all paths in the set difference contain cycles
    for path in enum_paths.difference(enum_cf_paths):
        assert len(set(path)) < len(path)
Exemple #3
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def test_uniform_sampling_example_graph1():
    sif_file = join(dirname(__file__), 'korkut_im.sif')
    g = pg.load_signed_sif(sif_file)
    source = 'BLK_phosphoY389_phosphorylation_PTK2_Y397'
    target = 'EIF4EBP1_T37_p_obs'
    target_polarity = 0
    length = 8
    cfpg = pg.CFPG.from_graph(g,
                              source,
                              target,
                              length,
                              signed=True,
                              target_polarity=0)
    os.environ['TEST_FLAG'] = 'TRUE'
    np.random.seed(1)
    # Count paths
    # Now, re-weight for uniformity and re-sample
    num_samples = cfpg.count_paths() * 1000
    cfpg.set_uniform_path_distribution()
    sampled_paths_uni = cfpg.sample_paths(num_samples=num_samples)
    ctr_uni = Counter(sampled_paths_uni)
    for path, count in ctr_uni.items():
        assert count > 900 and count < 1100
Exemple #4
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def test_example_graph1():
    sif_file = join(dirname(__file__), 'korkut_im.sif')
    g = pg.load_signed_sif(sif_file)
    source = 'BLK_phosphoY389_phosphorylation_PTK2_Y397'
    target = 'EIF4EBP1_T37_p_obs'
    target_polarity = 0
    enum_paths = pg.enumerate_paths(g,
                                    source,
                                    target,
                                    signed=True,
                                    target_polarity=0,
                                    max_depth=8,
                                    cycle_free=False)
    assert len(enum_paths) == len(set(enum_paths))
    enum_paths = set(enum_paths)
    sampled_paths = set(
        pg.sample_paths(g,
                        source,
                        target,
                        signed=True,
                        target_polarity=0,
                        max_depth=8,
                        num_samples=10000,
                        cycle_free=False))
    count_paths = pg.count_paths(g,
                                 source,
                                 target,
                                 signed=True,
                                 target_polarity=0,
                                 max_depth=8,
                                 cycle_free=False)
    assert len(sampled_paths) == len(enum_paths)
    assert len(sampled_paths) == count_paths
    assert sampled_paths == enum_paths

    enum_cf_paths = pg.enumerate_paths(g,
                                       source,
                                       target,
                                       signed=True,
                                       target_polarity=0,
                                       max_depth=8,
                                       cycle_free=True)
    assert len(enum_cf_paths) == len(set(enum_cf_paths))
    enum_cf_paths = set(enum_cf_paths)
    sampled_cf_paths = set(
        pg.sample_paths(g,
                        source,
                        target,
                        signed=True,
                        target_polarity=0,
                        max_depth=8,
                        num_samples=10000,
                        cycle_free=True))
    count_cf_paths = pg.count_paths(g,
                                    source,
                                    target,
                                    signed=True,
                                    target_polarity=0,
                                    max_depth=8,
                                    cycle_free=True)
    assert len(sampled_cf_paths) == len(enum_cf_paths)
    assert len(sampled_cf_paths) == count_cf_paths
    assert sampled_cf_paths == enum_cf_paths

    # 101 cycle free paths
    assert count_cf_paths == 101
    # All of the cycle-free paths should be contained in the set of paths
    # with cycles
    assert sampled_paths.intersection(sampled_cf_paths) == sampled_cf_paths
    # Check that all paths in the set difference contain cycles
    for path in sampled_paths.difference(sampled_cf_paths):
        assert len(set(path)) < len(path)