def test_merge_entities(): x = Entity("x", [1, 2, 3], weight=1, color="r") y = Entity("y", [2, 3, 4], weight=3) z = Entity.merge_entities("z", x, y) assert z.uidset == set([1, 2, 3, 4]) assert z.weight == 3 assert z.color == "r"
def test_merge_entities(): x = Entity('x',[1,2,3],weight=1,color='r') y = Entity('y',[2,3,4],weight=3) z = Entity.merge_entities('z',x,y) assert z.uidset == set([1,2,3,4]) assert z.weight == 3 assert z.color == 'r'
def test_entity_depth(): e1 = Entity('e1') e2 = Entity('e2',[e1]) e3 = Entity('e3',[e2]) e4 = Entity('e4',[e3,e1]) assert e4.depth() == 3 e3.remove(e2) assert e4.depth() == 1
def test_entity_constructor(): ent = Entity("edge", {"A", "C", "K"}) assert ent.uid == "edge" assert ent.size() == 3 assert len(ent.uidset) == 3 assert len(ent.children) == 0 assert isinstance(ent.incidence_dict["A"], set) assert "A" in ent
def test_entity_constructor(): ent = Entity('edge',{'A', 'C', 'K'}) assert ent.uid == 'edge' assert ent.size() == 3 assert len(ent.uidset) == 3 assert len(ent.children) == 0 assert isinstance(ent.incidence_dict['A'],set) assert 'A' in ent
def test_entity_depth(): e1 = Entity("e1") e2 = Entity("e2", [e1]) e3 = Entity("e3", [e2]) e4 = Entity("e4", [e3, e1]) assert e4.depth() == 3 e3.remove(e2) assert e4.depth() == 1
def test_add_no_overwrite(): # adding and entity of the same name as an existing entity # only updates properties e1 = Entity("e1", {"A", "C", "K"}) e2 = Entity("C", ["X"], w=5) assert "X" in e2.elements e1.add(e2) assert "X" not in e1["C"] assert e1["C"].w == 5
def test_add_no_overwrite(): ## adding and entity of the same name as an existing entity ## only updates properties e1 = Entity('e1',{'A','C','K'}) e2 = Entity('C', ['X'], w=5) assert 'X' in e2.elements e1.add(e2) assert 'X' not in e1['C'] assert e1['C'].w == 5
def test_entity_construct_from_entity(triloop): e1 = Entity("e1", elements=triloop.edgedict) e2 = Entity("e2", entity=e1) e3 = Entity("e3", entity=e2, elements={"Z": "A"}) assert e1 != e2 assert e1.elements == e2.elements assert e1.children == e3.children assert e1.elements != e3.elements with pytest.raises(HyperNetXError): e4 = Entity("e1", entity=e1)
def test_add_node_to_edge(seven_by_six): sbs = seven_by_six H = Hypergraph(sbs.edgedict) assert H.shape == (7, 6) # add node not already in hypergraph to edge # alreadyin hypergraph node = Entity("B") edge = H.edges["P"] H.add_node_to_edge(node, edge) assert H.shape == (8, 6) # add edge with nodes already in hypergraph H.add_edge(Entity("Z", ["A", "B"])) assert H.shape == (8, 7) # add edge not in hypergraph with nodes not in hypergraph H.add_edge(Entity("Y", ["M", "N"])) assert H.shape == (10, 8)
def test_add_node_to_edge(seven_by_six): sbs = seven_by_six H = Hypergraph(sbs.edgedict) assert H.shape == (7, 6) # add node not already in hypergraph to edge # alreadyin hypergraph node = Entity('B') edge = H.edges['P'] H.add_node_to_edge(node, edge) assert H.shape == (8, 6) # add edge with nodes already in hypergraph H.add_edge(Entity('Z', ['A', 'B'])) assert H.shape == (8, 7) # add edge not in hypergraph with nodes not in hypergraph H.add_edge(Entity('Y', ['M', 'N'])) assert H.shape == (10, 8)
def test_add_and_merge_properties(): ### assert that adding an existing entity will not overwrite e1 = Entity('e1',{'A', 'C', 'K'}) e2 = Entity('C', w=5) e1.add(e2) assert e1['C'].w == 5 ent3 = Entity('C') e1.add(ent3) assert e1['C'].w ==5
def test_add_and_merge_properties(): # assert that adding an existing entity will not overwrite e1 = Entity("e1", {"A", "C", "K"}) e2 = Entity("C", w=5) e1.add(e2) assert e1["C"].w == 5 ent3 = Entity("C") e1.add(ent3) assert e1["C"].w == 5
def test_entity_set(): eset = EntitySet('eset1', {'A', 'C', 'K'}) eset2 = eset.clone('eset2') assert eset.elements == eset2.elements assert len(eset) == 3 assert eset.uid == 'eset1' assert len(eset.children) == 0 with pytest.raises(HyperNetXError) as excinfo: eset2.add(Entity('Z',['A','C','B'])) assert 'Fails the bipartite condition' in str(excinfo.value)
def test_entity_set(): eset = EntitySet("eset1", {"A", "C", "K"}) eset2 = eset.clone("eset2") assert eset.elements == eset2.elements assert len(eset) == 3 assert eset.uid == "eset1" assert len(eset.children) == 0 with pytest.raises(HyperNetXError) as excinfo: eset2.add(Entity("Z", ["A", "C", "B"])) assert "Fails the bipartite condition" in str(excinfo.value)
def test_entity_no_self_reference(): # confirm entity may not add itself. ent = Entity("e", {"A", "C", "K"}) with pytest.raises(HyperNetXError) as excinfo: ent.add(Entity("e")) assert "Self reference" in str(excinfo.value) with pytest.raises(HyperNetXError) as excinfo2: ent.add(ent) assert "Self reference" in str(excinfo2.value)
def test_entity_no_self_reference(): ### confirm entity may not add itself. ent = Entity('e',{'A', 'C', 'K'}) with pytest.raises(HyperNetXError) as excinfo: ent.add(Entity('e')) assert 'Self reference' in str(excinfo.value) with pytest.raises(HyperNetXError) as excinfo2: ent.add(ent) assert 'Self reference' in str(excinfo2.value)
def test_entity_add(): # add an element with property ent = Entity("e", {"A", "C", "K"}) ent.add(Entity("D", [1, 2, 3], color="red")) assert ent.size() == 4 assert len(ent.children) == 3 assert 2 in ent["D"].elements assert ent["D"].color == "red"
def test_entity_add(): ### add an element with property ent = Entity('e',{'A', 'C', 'K'}) ent.add(Entity('D',[1,2,3],color='red')) assert ent.size() == 4 assert len(ent.children) == 3 assert 2 in ent['D'].elements assert ent['D'].color == 'red'
def test_equality(): ## Different uids, elements generated differently e1 = Entity('e1',[1,2,3]) e2 = Entity('e2',[1,2,3]) assert not e1 == e2 assert not e1[1] == e2[1] ## Different uids, elements generated the same elts = [Entity(uid) for uid in [1,2,3]] e1 = Entity('e1',elts) e2 = Entity('e2',elts) assert not e1==e2 assert e1[1]==e2[1] ## Different properties only e1 = Entity('e1',elts) e2 = Entity('e1',elts,weight=1) assert not e1==e2
def test_entity_from_dict_mixed_types(): e1 = Entity("e1", [2]) d = {"e1": e1, "e2": [5]} e3 = Entity("e3", d) assert 2 in e3.children
def test_entity_remove(): ent = Entity("e", {"A", "C", "K"}) assert ent.size() == 3 ent.remove("A") assert ent.size() == 2
def test_static_hypergraph_constructor_entity(seven_by_six): sbs = seven_by_six E = Entity('sbs', sbs.edgedict) H = Hypergraph(E, static=True) assert H.isstatic assert 'A' in H.edges.incidence_dict['P']
def test_entity_from_dict_mixed_types(): e1 = Entity('e1',[2]) d = {'e1':e1, 'e2':[5]} e3 = Entity('e3',d) assert 2 in e3.children
def test_entity_remove(): ent = Entity('e',{'A', 'C', 'K'}) assert ent.size() == 3 ent.remove('A') assert ent.size() == 2