File: //lib/python3/dist-packages/networkx/readwrite/json_graph/tests/test_node_link.py
import json
import pytest
import networkx as nx
from networkx.readwrite.json_graph import node_link_data, node_link_graph
# TODO: To be removed when signature change complete
def test_attrs_deprecation(recwarn):
G = nx.path_graph(3)
# No warnings when `attrs` kwarg not used
data = node_link_data(G)
H = node_link_graph(data)
assert len(recwarn) == 0
# Future warning raised with `attrs` kwarg
attrs = dict(source="source", target="target", name="id", key="key", link="links")
data = node_link_data(G, attrs=attrs)
assert len(recwarn) == 1
recwarn.clear()
H = node_link_graph(data, attrs=attrs)
assert len(recwarn) == 1
class TestNodeLink:
# TODO: To be removed when signature change complete
def test_custom_attrs_dep(self):
G = nx.path_graph(4)
G.add_node(1, color="red")
G.add_edge(1, 2, width=7)
G.graph[1] = "one"
G.graph["foo"] = "bar"
attrs = dict(
source="c_source",
target="c_target",
name="c_id",
key="c_key",
link="c_links",
)
H = node_link_graph(
node_link_data(G, attrs=attrs), multigraph=False, attrs=attrs
)
assert nx.is_isomorphic(G, H)
assert H.graph["foo"] == "bar"
assert H.nodes[1]["color"] == "red"
assert H[1][2]["width"] == 7
# provide only a partial dictionary of keywords.
# This is similar to an example in the doc string
attrs = dict(
link="c_links",
source="c_source",
target="c_target",
)
H = node_link_graph(
node_link_data(G, attrs=attrs), multigraph=False, attrs=attrs
)
assert nx.is_isomorphic(G, H)
assert H.graph["foo"] == "bar"
assert H.nodes[1]["color"] == "red"
assert H[1][2]["width"] == 7
# TODO: To be removed when signature change complete
def test_exception_dep(self):
with pytest.raises(nx.NetworkXError):
G = nx.MultiDiGraph()
attrs = dict(name="node", source="node", target="node", key="node")
node_link_data(G, attrs)
def test_graph(self):
G = nx.path_graph(4)
H = node_link_graph(node_link_data(G))
assert nx.is_isomorphic(G, H)
def test_graph_attributes(self):
G = nx.path_graph(4)
G.add_node(1, color="red")
G.add_edge(1, 2, width=7)
G.graph[1] = "one"
G.graph["foo"] = "bar"
H = node_link_graph(node_link_data(G))
assert H.graph["foo"] == "bar"
assert H.nodes[1]["color"] == "red"
assert H[1][2]["width"] == 7
d = json.dumps(node_link_data(G))
H = node_link_graph(json.loads(d))
assert H.graph["foo"] == "bar"
assert H.graph["1"] == "one"
assert H.nodes[1]["color"] == "red"
assert H[1][2]["width"] == 7
def test_digraph(self):
G = nx.DiGraph()
H = node_link_graph(node_link_data(G))
assert H.is_directed()
def test_multigraph(self):
G = nx.MultiGraph()
G.add_edge(1, 2, key="first")
G.add_edge(1, 2, key="second", color="blue")
H = node_link_graph(node_link_data(G))
assert nx.is_isomorphic(G, H)
assert H[1][2]["second"]["color"] == "blue"
def test_graph_with_tuple_nodes(self):
G = nx.Graph()
G.add_edge((0, 0), (1, 0), color=[255, 255, 0])
d = node_link_data(G)
dumped_d = json.dumps(d)
dd = json.loads(dumped_d)
H = node_link_graph(dd)
assert H.nodes[(0, 0)] == G.nodes[(0, 0)]
assert H[(0, 0)][(1, 0)]["color"] == [255, 255, 0]
def test_unicode_keys(self):
q = "qualité"
G = nx.Graph()
G.add_node(1, **{q: q})
s = node_link_data(G)
output = json.dumps(s, ensure_ascii=False)
data = json.loads(output)
H = node_link_graph(data)
assert H.nodes[1][q] == q
def test_exception(self):
with pytest.raises(nx.NetworkXError):
G = nx.MultiDiGraph()
attrs = dict(name="node", source="node", target="node", key="node")
node_link_data(G, **attrs)
def test_string_ids(self):
q = "qualité"
G = nx.DiGraph()
G.add_node("A")
G.add_node(q)
G.add_edge("A", q)
data = node_link_data(G)
assert data["links"][0]["source"] == "A"
assert data["links"][0]["target"] == q
H = node_link_graph(data)
assert nx.is_isomorphic(G, H)
def test_custom_attrs(self):
G = nx.path_graph(4)
G.add_node(1, color="red")
G.add_edge(1, 2, width=7)
G.graph[1] = "one"
G.graph["foo"] = "bar"
attrs = dict(
source="c_source",
target="c_target",
name="c_id",
key="c_key",
link="c_links",
)
H = node_link_graph(node_link_data(G, **attrs), multigraph=False, **attrs)
assert nx.is_isomorphic(G, H)
assert H.graph["foo"] == "bar"
assert H.nodes[1]["color"] == "red"
assert H[1][2]["width"] == 7