def test_directed(self): """ Check that the ' directed ' class is added appropriately """ G = nx.Graph() G.add_node("separate node 1") G.add_node("separate node 2") G.add_edge("separate node 1", "separate node 2") G.add_edge("separate node 2", "separate node 1") graph = Graph() graph.add_graph_from_networkx(G, directed=True) expected_nodes = [ Node(classes="", data={"id": "separate node 1"}, position={}), Node(classes="", data={"id": "separate node 2"}, position={}), ] expected_edges = [ Edge( data={ "source": "separate node 1", "target": "separate node 2" }, classes=" directed ", ), Edge( data={ "source": "separate node 2", "target": "separate node 1" }, classes=" directed ", ), ] compare_nodes(expected_nodes, graph.nodes) compare_edges(expected_edges, graph.edges)
def test_classes(self): """ Test to ensure that approriate classes are added to the networkx object """ G = nx.Graph() G.add_node('separate node 1', classes='class1') G.add_node('separate node 2', classes='class2') G.add_edge('separate node 1', 'separate node 2') graph = Graph() graph.add_graph_from_networkx(G) expected_nodes = [ Node(classes='class1', data={'id': 'separate node 1'}, position={}), Node(classes='class2', data={'id': 'separate node 2'}, position={}) ] expected_edges = [ Edge(data={ 'source': 'separate node 1', 'target': 'separate node 2' }, position={}) ] compare_nodes(expected_nodes, graph.nodes) compare_edges(expected_edges, graph.edges)
def test_custom_node(self): class custom_node: def __init__(self, name): self.name = name def __str__(self): return "Node: " + str(self.name) n1 = custom_node("node 1") n2 = custom_node("node 2") G = nx.Graph() G.add_node(n1) G.add_node(n2) G.add_edge(n1, n2) graph = Graph() graph.add_graph_from_networkx(G) expected_nodes = [ Node(classes='', data={'id': 'Node: node 1'}, position={}), Node(classes='', data={'id': 'Node: node 2'}, position={}) ] expected_edges = [ Edge(data={ 'source': 'Node: node 1', 'target': 'Node: node 2' }, classes='', position={}) ] compare_edges(expected_nodes, graph.nodes) compare_edges(expected_edges, graph.edges)
def test_directed(self): """ Check that the ' directed ' class is added appropriately """ G = nx.Graph() G.add_node('separate node 1') G.add_node('separate node 2') G.add_edge('separate node 1', 'separate node 2') G.add_edge('separate node 2', 'separate node 1') graph = Graph() graph.add_graph_from_networkx(G, directed=True) expected_nodes = [ Node(classes='', data={'id': 'separate node 1'}, position={}), Node(classes='', data={'id': 'separate node 2'}, position={}) ] expected_edges = [ Edge(data={ 'source': 'separate node 1', 'target': 'separate node 2' }, classes=' directed ', position={}), Edge(data={ 'source': 'separate node 2', 'target': 'separate node 1' }, classes=' directed ', position={}) ] compare_nodes(expected_nodes, graph.nodes) compare_edges(expected_edges, graph.edges)
def test_remove_node(self): """ Test to ensure that nodes will be removed correctly """ data = { "nodes": [ { "data": { "id": "0" } }, { "data": { "id": "1" } }, { "data": { "id": "2" } }, ], "edges": [ { "data": { "source": "0", "target": "1" } }, { "data": { "source": "1", "target": "2" } }, { "data": { "source": "2", "target": "0" } }, ], } expected_nodes = [ Node(data={"id": "1"}, position={}), Node(data={"id": "2"}, position={}), ] expected_edges = [ Edge(classes="", data={ "source": "1", "target": "2" }), ] graph = Graph() graph.add_graph_from_json(data) graph.remove_node(graph.nodes[0]) compare_edges(expected_edges, graph.edges) compare_nodes(expected_nodes, graph.nodes)
def test_add_node(self): """ Test to ensure that a single node will be added to the graph """ # will call add_edges, so no extensive test are necessary node = Node(data={"id": "0"}) expected_nodes = [ Node(data={"id": "0"}, position={}), ] expected_edges = [] graph = Graph() graph.add_node(node) compare_edges(expected_edges, graph.edges) compare_nodes(expected_nodes, graph.nodes)
def test_add_nodes(self): """ Test to ensure that nodes will be added to the graph """ # create some nodes ids = ["0", "1"] nodes = [Node(data={"id": i}) for i in ids] expected_nodes = [ Node(data={"id": "0"}, position={}), Node(data={"id": "1"}, position={}), ] expected_edges = [] graph = Graph() graph.add_nodes(nodes) compare_edges(expected_edges, graph.edges) compare_nodes(expected_nodes, graph.nodes)
def test_add_edges(self): """ Test to ensure that an edge with the corresponding nodes will be added to the graph """ edge = Edge(data={"source": "0", "target": "1"}) edge_inv = Edge(data={"source": "1", "target": "0"}) expected_nodes = [ Node(data={"id": "0"}, position={}), Node(data={"id": "1"}, position={}), ] expected_edges = [ Edge(classes="", data={ "source": "0", "target": "1" }), ] expected_edges_multiple = [ Edge(classes="", data={ "source": "0", "target": "1" }), Edge(classes=" multiple_edges ", data={ "source": "1", "target": "0" }), ] graph = Graph() graph.add_edge(copy.copy(edge)) compare_edges(expected_edges, graph.edges) compare_nodes(expected_nodes, graph.nodes) # test for passing arguments graph.add_edge(copy.copy(edge_inv), multiple_edges=True) compare_edges(expected_edges_multiple, graph.edges) compare_nodes(expected_nodes, graph.nodes)
def test_classes(self): """ Test to ensure that approriate classes are added to the networkx object """ G = nx.Graph() G.add_node("separate node 1", classes="class1") G.add_node("separate node 2", classes="class2") G.add_edge("separate node 1", "separate node 2") graph = Graph() graph.add_graph_from_networkx(G) expected_nodes = [ Node(classes="class1", data={"id": "separate node 1"}), Node(classes="class2", data={"id": "separate node 2"}), ] expected_edges = [ Edge(data={ "source": "separate node 1", "target": "separate node 2" }) ] compare_nodes(expected_nodes, graph.nodes) compare_edges(expected_edges, graph.edges)
def test_lonely_nodes(self): """ Test to ensure that nodes with no associated edges end up in the graph """ G1 = nx.complete_graph(5) G2 = nx.Graph() G2.add_node('unconnected_node') G2 = nx.complete_graph(1) graph = Graph() graph.add_graph_from_networkx(G1) graph.add_graph_from_networkx(G2) expected_nodes = [ Node(data={'id': '0'}, position={}), Node(data={'id': '1'}, position={}), Node(data={'id': '2'}, position={}), Node(data={'id': '3'}, position={}), Node(data={'id': '4'}, position={}), Node(data={'id': 'unconnected_node'}, position={}) ] expected_edges = [ Edge(data={ 'source': '0', 'target': '1' }, position={}), Edge(data={ 'source': '0', 'target': '2' }, position={}), Edge(data={ 'source': '0', 'target': '3' }, position={}), Edge(data={ 'source': '0', 'target': '4' }, position={}), Edge(data={ 'source': '1', 'target': '2' }, position={}), Edge(data={ 'source': '1', 'target': '3' }, position={}), Edge(data={ 'source': '1', 'target': '4' }, position={}), Edge(data={ 'source': '2', 'target': '3' }, position={}), Edge(data={ 'source': '2', 'target': '4' }, position={}), Edge(data={ 'source': '3', 'target': '4' }, position={}) ] compare_nodes(expected_nodes, graph.nodes) compare_edges(expected_edges, graph.edges)
def test_multidigraphs(self): ''' Test to ensure multidigraphs are generated correctly. ''' G = nx.MultiDiGraph() G.add_edge(1, 2, weight=15) G.add_edge(1, 2, weight=15) G.add_edge(1, 2, weight=1) G.add_edge(2, 1, weight=10) G.add_edge(2, 4) graph = Graph() graph.add_graph_from_networkx(G) expected_edges = [ Edge(classes=' directed multiple_edges ', data={ 'source': '1', 'target': '2', 'weight': 15 }, position={}), Edge(classes=' directed multiple_edges ', data={ 'source': '1', 'target': '2', 'weight': 15 }, position={}), Edge(classes=' directed multiple_edges ', data={ 'source': '1', 'target': '2', 'weight': 1 }, position={}), Edge(classes=' directed multiple_edges ', data={ 'source': '2', 'target': '1', 'weight': 10 }, position={}), Edge(classes=' directed multiple_edges ', data={ 'source': '2', 'target': '4' }, position={}) ] expected_nodes = [ Node(data={'id': '1'}, position={}), Node(data={'id': '2'}, position={}), Node(data={'id': '4'}, position={}) ] compare_edges(expected_edges, graph.edges) compare_nodes(expected_nodes, graph.nodes) graph = Graph() # override default behavior graph.add_graph_from_networkx(G, multiple_edges=False, directed=False) expected_edges = [ Edge(data={ 'source': '1', 'target': '2', 'weight': 15 }, position={}), Edge(data={ 'source': '2', 'target': '4' }, position={}) ] compare_edges(expected_edges, graph.edges)
def test_lonely_nodes(self): """ Test to ensure that nodes with no associated edges end up in the graph """ G1 = nx.complete_graph(5) G2 = nx.Graph() G2.add_node("unconnected_node") G2 = nx.complete_graph(1) graph = Graph() graph.add_graph_from_networkx(G1) graph.add_graph_from_networkx(G2) expected_nodes = [ Node(data={"id": "0"}, position={}), Node(data={"id": "1"}, position={}), Node(data={"id": "2"}, position={}), Node(data={"id": "3"}, position={}), Node(data={"id": "4"}, position={}), Node(data={"id": "unconnected_node"}, position={}), ] expected_edges = [ Edge(data={ "source": "0", "target": "1" }), Edge(data={ "source": "0", "target": "2" }), Edge(data={ "source": "0", "target": "3" }), Edge(data={ "source": "0", "target": "4" }), Edge(data={ "source": "1", "target": "2" }), Edge(data={ "source": "1", "target": "3" }), Edge(data={ "source": "1", "target": "4" }), Edge(data={ "source": "2", "target": "3" }), Edge(data={ "source": "2", "target": "4" }), Edge(data={ "source": "3", "target": "4" }), ] compare_nodes(expected_nodes, graph.nodes) compare_edges(expected_edges, graph.edges)
def test_multidigraphs(self): """ Test to ensure multidigraphs are generated correctly. """ G = nx.MultiDiGraph() G.add_edge(1, 2, weight=15) G.add_edge(1, 2, weight=15) G.add_edge(1, 2, weight=1) G.add_edge(2, 1, weight=10) G.add_edge(2, 4) graph = Graph() graph.add_graph_from_networkx(G) expected_edges = [ Edge( classes=" directed multiple_edges ", data={ "source": "1", "target": "2", "weight": 15 }, ), Edge( classes=" directed multiple_edges ", data={ "source": "1", "target": "2", "weight": 15 }, ), Edge( classes=" directed multiple_edges ", data={ "source": "1", "target": "2", "weight": 1 }, ), Edge( classes=" directed multiple_edges ", data={ "source": "2", "target": "1", "weight": 10 }, ), Edge( classes=" directed multiple_edges ", data={ "source": "2", "target": "4" }, ), ] expected_nodes = [ Node(data={"id": "1"}, position={}), Node(data={"id": "2"}, position={}), Node(data={"id": "4"}, position={}), ] compare_edges(expected_edges, graph.edges) compare_nodes(expected_nodes, graph.nodes) graph = Graph() # override default behavior graph.add_graph_from_networkx(G, multiple_edges=False, directed=False) expected_edges = [ Edge(data={ "source": "1", "target": "2", "weight": 15 }), Edge(data={ "source": "2", "target": "4" }), ] compare_edges(expected_edges, graph.edges)
def test_remove_edge(self): """ Test to ensure that edges will be removed """ # only a small test because everything else is covered in remove_edge_by_id() data = { "nodes": [ { "data": { "id": "0" } }, { "data": { "id": "1" } }, { "data": { "id": "2" } }, ], "edges": [ { "data": { "source": "0", "target": "1" } }, { "data": { "source": "1", "target": "2" } }, { "data": { "source": "2", "target": "0" } }, ], } expected_nodes = [ Node(data={"id": "0"}, position={}), Node(data={"id": "1"}, position={}), Node(data={"id": "2"}, position={}), ] expected_edges = [ Edge(classes="", data={ "source": "1", "target": "2" }), Edge(classes="", data={ "source": "2", "target": "0" }), ] graph = Graph() graph.add_graph_from_json(data) graph.remove_edge(graph.edges[0]) compare_edges(expected_edges, graph.edges) compare_nodes(expected_nodes, graph.nodes)
def test_lonely_nodes(self): """ Test to ensure that nodes with no associated edges end up in the graph """ G1 = nx.complete_graph(5) G2 = nx.Graph() G2.add_node("unconnected_node") G2 = nx.complete_graph(1) graph = Graph() graph.add_graph_from_networkx(G1) graph.add_graph_from_networkx(G2) expected_nodes = [ Node(data={"id": "0"}, position={}), Node(data={"id": "1"}, position={}), Node(data={"id": "2"}, position={}), Node(data={"id": "3"}, position={}), Node(data={"id": "4"}, position={}), Node(data={"id": "unconnected_node"}, position={}), ] # remove individual node using node as input graph.remove_node(graph.nodes[0]) expected_nodes = [ Node(data={"id": "1"}, position={}), Node(data={"id": "2"}, position={}), Node(data={"id": "3"}, position={}), Node(data={"id": "4"}, position={}), Node(data={"id": "unconnected_node"}, position={}), ] # remove individual node using index node as input graph.remove_node_by_id("3") expected_nodes = [ Node(data={"id": "1"}, position={}), Node(data={"id": "2"}, position={}), Node(data={"id": "4"}, position={}), Node(data={"id": "unconnected_node"}, position={}), ] # remove all nodes of the graph graph.clear() expected_nodes = []
def test_remove_edge_by_id(self): """ Test to ensure that edges will be removed given the ids of the nodes for different graphs """ data = { "nodes": [ { "data": { "id": "0" } }, { "data": { "id": "1" } }, { "data": { "id": "2" } }, ], "edges": [ { "data": { "source": "0", "target": "1", "weight": "1" } }, { "data": { "source": "0", "target": "1", "weight": "2" } }, { "data": { "source": "1", "target": "0" } }, { "data": { "source": "1", "target": "2" } }, { "data": { "source": "2", "target": "0" } }, ], } expected_nodes = [ Node(data={"id": "0"}, position={}), Node(data={"id": "1"}, position={}), Node(data={"id": "2"}, position={}), ] expected_edges_undirected = [ Edge(classes="", data={ "source": "1", "target": "2" }), Edge(classes="", data={ "source": "2", "target": "0" }), ] expected_edges_directed = [ Edge(classes=" directed ", data={ "source": "1", "target": "0" }), Edge(classes=" directed ", data={ "source": "1", "target": "2" }), Edge(classes=" directed ", data={ "source": "2", "target": "0" }), ] expected_edges_multiple = [ Edge(classes=" multiple_edges ", data={ "source": "1", "target": "2" }), Edge(classes=" multiple_edges ", data={ "source": "2", "target": "0" }), ] graph = Graph() graph.add_graph_from_json(data) graph.remove_edge_by_id("0", "1") compare_edges(expected_edges_undirected, graph.edges) compare_nodes(expected_nodes, graph.nodes) graph = Graph() graph.add_graph_from_json(data, directed=True) graph.remove_edge_by_id("0", "1") compare_edges(expected_edges_directed, graph.edges) compare_nodes(expected_nodes, graph.nodes) graph.remove_edge_by_id("1", "0") compare_edges(expected_edges_directed[1:], graph.edges) compare_nodes(expected_nodes, graph.nodes) graph = Graph() graph.add_graph_from_json(data, multiple_edges=True) graph.remove_edge_by_id("0", "1") compare_edges(expected_edges_multiple, graph.edges) compare_nodes(expected_nodes, graph.nodes)
def test_add_edges(self): """ Test to ensure that edges with the corresponding nodes will be added to the graph """ ids = ["0", "1", "2"] edges = [ Edge(data={ "source": source, "target": target }) for source, target in zip(ids[:-1], ids[1:]) ] edges_weighted = [ Edge(data={ "source": "0", "target": "1", "weight": str(i) }) for i in range(1, 3) ] edge_inv = Edge(data={"source": "1", "target": "0"}) edges += edges_weighted edges += [edge_inv] expected_nodes = [ Node(data={"id": "0"}, position={}), Node(data={"id": "1"}, position={}), Node(data={"id": "2"}, position={}), ] expected_edges_undirected = [ Edge(classes="", data={ "source": "0", "target": "1" }), Edge(classes="", data={ "source": "1", "target": "2" }), ] expected_edges_directed = [ Edge(classes=" directed ", data={ "source": "0", "target": "1" }), Edge(classes=" directed ", data={ "source": "1", "target": "2" }), Edge(classes=" directed ", data={ "source": "1", "target": "0" }), ] expected_edges_multiple = [ Edge(classes=" multiple_edges ", data={ "source": "0", "target": "1" }), Edge(classes=" multiple_edges ", data={ "source": "1", "target": "2" }), Edge( classes=" multiple_edges ", data={ "source": "0", "target": "1", "weight": "1" }, ), Edge( classes=" multiple_edges ", data={ "source": "0", "target": "1", "weight": "2" }, ), Edge(classes=" multiple_edges ", data={ "source": "1", "target": "0" }), ] graph = Graph() graph.add_edges([copy.copy(edge) for edge in edges]) compare_edges(expected_edges_undirected, graph.edges) compare_nodes(expected_nodes, graph.nodes) graph = Graph() graph.add_edges([copy.copy(edge) for edge in edges], directed=True) compare_edges(expected_edges_directed, graph.edges) compare_nodes(expected_nodes, graph.nodes) graph = Graph() graph.add_edges([copy.copy(edge) for edge in edges], multiple_edges=True) compare_edges(expected_edges_multiple, graph.edges) compare_nodes(expected_nodes, graph.nodes)