def test_construction_acyclic(self): a = Node('a') b = Node('b', a) c = Node('c', b) try: a.add_parent(c) assert False except ValueError: assert True
def test_construction_index_out_of_bounds(self): b = Node('b') c = Node('c') try: c.add_parent(b, index=13) b._add_child(c, index=13) assert False except ValueError: assert True
def test_remove_parent(self): a = Node('a') b = Node('b', a) c = Node('c', b) c.remove_parent(0) assert c.parents == [] assert b.children == [] b.remove_parent(a) assert b.parents == [] assert a.children == []
def test_construction_add(self): b = Node('b') c = Node('c') d = Node('d') c.add_parent(b) assert c.parents == [b] assert b.children == [c] b._add_child(d) assert b.children == [c, d] assert d.parents == [] # _add_child doesn't call add_parent
def test_remove(self): a = Node('a') b = Node('b') c = Node('c', a, b) d = Node('d', c) e = Node('e', c) c.remove(keep_parents=False, keep_children=False) assert c.children == [] assert c.parents == [] assert b.children == [] assert e.parents == []
def test_construction_add_index(self): b = Node('b') c = Node('c', b) d = Node('d') e = Node('e') c.add_parent(d, index=0, index_child=0) assert c.parents == [d, b] assert b.children == [c] assert d.children == [c] b._add_child(e, index=0) assert b.children == [e, c] assert e.parents == [] # _add_child doesn't call add_parent
def test_construction1(self): a = Node('a') assert a.name == 'a' assert a.parents == [] assert a.children == [] assert a.is_root() assert a.is_leaf()
def test_component(self): a = Node('a') b = Node('b') c = Node('c', b) d = Node('d', a, c) e = Node('e', d) f = Node('f', d, c) g = Node('g', e, f) assert c.component == [c, b, d, f, e, g] assert g.component == [g, e, f, d, a, c, b]
def test_change_to(self): a = Node('a') b = Node('b') c = Node('c', a, b) d = Node('d', c) e = Node('e', c) f = Node('f') c_new = Node('c_new', a, f) c = c.change_to(c_new, transfer_parents=False, transfer_children=True) assert c.parents == [a, f] assert c.children == [d, e] c_new2 = Node('c_new2', a) c = c.change_to(c_new2, transfer_parents=True, transfer_children=False) assert c.parents == [a, f] assert c.children == []
def test_family_tree(self): a = Node('a') b = Node('b') c = Node('c', b) d = Node('d', a, c) e = Node('e', d) f = Node('f', d, c) g = Node('g', e, f) assert a.descendants == [d, e, f, g] assert e.descendants == [g] assert g.descendants == [] assert g.ancestors == [e, f, d, a, c, b] assert c.ancestors == [b] assert a.ancestors == [] assert d.neighbours == [e, f, a, c]
def test_construction(self): a = Node('a') b = Node('b') c = Node('c', b) d = Node('d', a, c) e = Node('e', d) f = Node('f', d, c) g = Node('g', e, f) assert b.is_root() assert c.parents == [b] assert d.parents == [a, c] assert g.parents == [e, f] assert b.children == [c] assert c.children == [d, f] assert g.is_leaf()
def test_none_parent(self): a = Node('a', None) assert a.parents == []
def test_construction_unique(self): b = Node('b') c = Node('c', b) c.add_parent(b) assert c.parents == [b] assert b.children == [c]