I've achieved the following plot with a combination networkx and graphviz:

enter image description here

I'm very happy with the result. In the plot you can identify what I call aggregation nodes: those are the latest green ones (where all the green nodes converge) one hop before the orange ones.

What I'd like to achieve is the following:

1) Put labels on the sides of the nodes. As you can see, the labels are over them and it's difficult to read;

2) Only show labels on the aggregation nodes and the orange ones.

This is how I get to plot the diagram.

# We create the graph
G = nx.DiGraph()

# We add nodes and edges

# We establish attributes to nodes

# Tune plot
nodeFontSize    = 10
nodeSize        = 20
nodeColorList   = list(getNodeColor(nodesAttrDic,G.nodes()))
edgeColorList   = getEdgeColor(G.edges())

# Graphiz tunning
prog = 'dot'
args = '-Gnodesep=1 -Granksep=2 -Gpad=0.5 -Grankdir=TD'
root = None
pos  = graphviz_layout(G, prog = prog, root = root, args = args)

    pos         = pos,
    with_labels = True, 
    node_color  = nodeColorList, 
    edge_color  = edgeColorList, 
    font_size   = nodeFontSize,
    node_size   = nodeSize,)


Any ideas on how to do this?



  • it seems that you've invested quite a lot in tweaking the networkx drawing tools, but in case you decide to move drawing to graphviz, your qu (1) would benefit from xlabel. See also this example which shows using both label and xlabel at the same time – Bonlenfum Mar 20 '18 at 16:02
  • 1
    But sticking with networkx, the source for draw_networkx_labels makes it clear that you really would need to modify the pos dictionary yourself. It only uses matplotlib.axes.text() underneath, which need explicit coordinates. You could use [plt.annotate](matplotlib.org/users/annotations_intro.html( instead, which has nice customization of offsets. (This would need you to write it of course :) – Bonlenfum Mar 20 '18 at 16:06
  • Indeed, thanks for your comment. In the answer I have used draw_network_lables to position them as I needed. Thanks! – Lucas Aimaretto Mar 20 '18 at 17:43

Ok, so I've partially solved the second question: how to plot from the aggregation nodes onwards. To do so I estimate the number of hops towards the latest one. After that I decide to label the nodes below the threshold.

def getHopToNH(nodes):
    path        = []
    labelList   = {}

    for startNode in G.nodes():
        endNode = 'myLabel'
            p = len(nx.shortest_path(G,source=startNode,target=endNode))
            p = -1

        if p < 8:
            labelList = {**labelList,**{str(startNode):str(startNode)}}
            labelList = {**labelList,**{str(startNode):''}}

    return labelList


Now, in order to re-position the labels, I had to modify the position myself.

for p in pos:

    yOffSet = -300
    xOffSet = -400

    pos[p] = (pos[p][0]+xOffSet,pos[p][1]+yOffSet)

labelDescr = nx.draw_networkx_labels(G,
    pos         = pos,
    labels      = nodeLabelDict,
    font_size   = nodeFontSize,)

for n,t in labelDescr.items():
    finDegree = 70

After this, I get to plot the following:

enter image description here

And I really like this output now ... :-)

  • A simpler method to find you "aggregation nodes" would be to filter for nodes with an in-degree > 1. – Paul Brodersen Mar 20 '18 at 11:05
  • 1
    Actually, that is not true, see node 163 and 183 (?). Disregard previous comment. – Paul Brodersen Mar 20 '18 at 11:20
  • Yeah! The same happens with node 112. The trick is to find a suitable threshold for the number of hops ... I'm still struggling though with a neat way of controlling label position ... :-( – Lucas Aimaretto Mar 20 '18 at 14:26
  • Where did you use label list? @LucasAimaretto – Vince Miller Sep 10 at 14:47
  • And what is nodeLabelDict & nodeFontSize ? – Vince Miller Sep 10 at 14:53

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