Exemplo n.º 1
0
def test_cstr_error():
    o_src = Gene('source')
    o_tgt = Gene('target')
    # genes should have a family
    with pytest.raises(Exception):
        o_edge = Edge(o_src, o_tgt)

    o_family = GeneFamily(None, None)
    o_family.addGene(o_src)
    # both genes sould have a family
    with pytest.raises(Exception):
        o_edge = Edge(o_src, o_tgt)

    # gene should belong to the same organism
    o_family.addGene(o_tgt)
    o_src.fill_parents("", None)
    o_tgt.fill_parents(None, None)
    with pytest.raises(Exception):
        o_edge = Edge(o_src, o_tgt)
Exemplo n.º 2
0
def test_edges(filled_families):
    lo_fam, lo_genes = filled_families

    # get several genes and make an edge
    #   between them and the first of the list
    n_genes = randint(2, len(lo_genes))
    sample_genes = sample(lo_genes, n_genes )
    l_edges = []
    for o_gene in sample_genes:
        # it is strange to me to update family attribute from another class.
        l_edges.append( Edge(lo_genes[0], o_gene) )
    # we have 0->{*}

    l = lo_fam[0].edges
    #set because order is not guaranted
    assert set(l_edges) == set(l)
Exemplo n.º 3
0
def test_cstr():
    o_src = Gene('source')
    o_tgt = Gene('target')

    # set organism and contig to None.
    o_src.fill_parents(None, None)
    o_tgt.fill_parents(None, None)

    # define the None GeneFamily, and add the 2 genes to it.
    o_family = GeneFamily(None, None)
    o_family.addGene(o_src)
    o_family.addGene(o_tgt)

    o_edge = Edge(o_src, o_tgt)
    assert isinstance(o_edge, Edge)

    assert o_edge.source == o_src.family
    assert o_edge.target == o_tgt.family
    assert dict(o_edge.organisms) == {None: [(o_src, o_tgt)]}
Exemplo n.º 4
0
def filled_edge(make_gene_pair):
    # Note that the same edge here links 4 families.
    p1 = make_gene_pair("org1", "s1", "t1")
    p2 = make_gene_pair("org1", "s2", "t1")
    p3 = make_gene_pair("org2", "s1", "t2")
    p4 = make_gene_pair("org2", "s1", "s2")
    # org1: s1,s2 -- t1
    # org2: s1 -- t2,s2

    o_edge = Edge(*p1)
    o_edge.addGenes(*p2)
    o_edge.addGenes(*p3)
    o_edge.addGenes(*p4)

    return o_edge
Exemplo n.º 5
0
def test_addGenes(make_gene_pair):
    p1 = make_gene_pair("org1", "s1", "t1")
    p2 = make_gene_pair("org1", "s2", "t1")
    p3 = make_gene_pair("org2", "s1", "t2")
    p4 = make_gene_pair("org2", "s1", "s2")
    # org1: s1,s2 -- t1
    # org2: s1 -- t2,s2

    o_edge = Edge(*p1)
    o_edge.addGenes(*p2)
    o_edge.addGenes(*p3)
    o_edge.addGenes(*p4)
    assert set(o_edge.organisms.keys()) == set(["org1", "org2"])
    assert o_edge.organisms["org1"] == [p1, p2]
    assert o_edge.organisms["org2"] == [p3, p4]
Exemplo n.º 6
0
def test_neighbors(filled_families):
    lo_fam, lo_genes = filled_families

    # get several genes and make an edge
    #   between them and the first of the list
    n_genes = randint(2, len(lo_genes))
    sample_genes = sample(lo_genes, n_genes )
    for o_gene in sample_genes:
        # it is strange to me to update family attribute from another class.
        Edge(lo_genes[0], o_gene)
    # we have 0->{*}

    # first gene belong to the first family
    # let's get the family neighbors
    # set because order is not guaranted
    s = set(lo_fam[0].neighbors)
    print(s)
    assert n_genes == len(s)

    xpected = { g.family for g in sample_genes }
    assert xpected == s
Exemplo n.º 7
0
def test_genePairs(make_gene_pair):
    # cannot use filled_edge because i need access to pairs.
    p1 = make_gene_pair("org1", "s1", "t1")
    p2 = make_gene_pair("org1", "s2", "t1")
    p3 = make_gene_pair("org2", "s1", "t2")
    p4 = make_gene_pair("org2", "s1", "s2")
    # org1: s1,s2 -- t1
    # org2: s1 -- t2,s2

    o_edge = Edge(*p1)
    o_edge.addGenes(*p2)
    o_edge.addGenes(*p3)
    o_edge.addGenes(*p4)

    # 'set' because the order is not guaranted due to '.values()'.
    l_pairs = o_edge.genePairs
    assert set(l_pairs) == set([p1, p2, p3, p4])
Exemplo n.º 8
0
def o_edge(make_gene_pair):
    p = make_gene_pair("org", "src", "tgt")
    return Edge(*p)