Ejemplo n.º 1
0
    def matrix_plotting(self, G):
        # Calculate the largest connected component subgraph: largest_ccs
        largest_ccs = sorted(nx.connected_component_subgraphs(G),
                             key=lambda x: len(x))[-1]

        # Create the customized MatrixPlot object: h
        h = MatrixPlot(graph=largest_ccs)

        # Draw the MatrixPlot to the screen
        h.draw()
        plt.show()
Ejemplo n.º 2
0
    print(len(g.nodes()))

################################# Task 1 (MatrixPlot)
# Import necessary modules
from nxviz import MatrixPlot
import matplotlib.pyplot as plt

# Calculate the largest connected component subgraph: largest_ccs
largest_ccs = sorted(nx.connected_component_subgraphs(G),
                     key=lambda x: len(x))[-1]

# Create the customized MatrixPlot object: h
h = MatrixPlot(graph=largest_ccs, node_grouping='grouping')

# Draw the MatrixPlot to the screen
h.draw()
plt.show()

################################## Task 2 (ArcPlot)
# Import necessary modules
from nxviz.plots import ArcPlot
import matplotlib.pyplot as plt

# Iterate over all the nodes in G, including the metadata
for n, d in G.nodes(data=True):

    # Calculate the degree of each node: G.node[n]['degree']
    G.node[n]['degree'] = nx.degree(G, n)

# Create the ArcPlot object: a
a = ArcPlot(graph=G, node_order='degree')
Ejemplo n.º 3
0
from collections import Counter

mf_count = Counter([gender[i - 1] for i in g1.nodes()])


def test_answer(mf_counts):
    assert mf_counts['female'] == 17
    assert mf_counts['male'] == 12


test_answer(mf_count)

from nxviz import MatrixPlot

m = MatrixPlot(g)
m.draw()
plt.show()

from nxviz import ArcPlot

a = ArcPlot(g)
a.draw()

from nxviz import CircosPlot

c = CircosPlot(g)
c.draw()
plt.show()
# plt.savefig('images/seventh.png', dpi=300)

#%% hiveplot