I have a data structure that looks like this:

<client>: {
    <document>: [
        {'start': <datetime>,
         'end': <datetime>,
         'group': <string>}

The list of dictionaries within a <document> is sorted by the 'start' date, and a new entry cannot start before the one before it ends. I iterate over this data structure and I collect the values of group as time progresses into a new structure, e.g.:

<client>: {
    <document>: {'progression': <group_1>|<group_2>|...|<group_n>}

where <group_1> corresponds to the value of 'group' for the first dictionary in <document>, and so on. I want to visualize this progression of groups for all documents, so for example I know that I have 5,000 entries starting with "abc" (before the first pipe); out of those, 2,000 are followed by "def", so "abc"|"def". Of those, 500 revert back to "abc": "abc"|"def"|"abc" and the remaining 1,500 are followed by "ghi": "abc"|"def"|"ghi". The remaining 3,000 entries starting with "abc" follow some different progression pattern.

What I am trying to do is visualize this progression via something looking like a Sankey diagram, or an other appropriate tree-like structure, in which the top node would be "abc", then there would be a "thick" branch to the left corresponding to the different progression pattern, and a "thinner" branch to the right corresponding to the 2,000 "abc" cases followed by "def". Then "def" would be another node with similar branches, one leading to a new "abc" (for the "abc"|"def"|"abc" case) and one leading to "ghi" (for the "abc"|"def"|"ghi" case), preferably annotated with the count in each node as the "tree" thins down. I use a combination of Python Counter structures to retrieve the numbers for each potential progression, but I do not know how I can create a visualization programmatically.

My understanding is that it is probably a problem that can be addressed using dot language, and packages like pydot and/or pygraphviz, but I am not sure whether I am on the right track.


I think in your case Sankey diagrams will be the best choice. Let's suppose you are have data structure that stores your groups info from here: 'progression': <group_1>|<group_2>|...|<group_n>. Then you can construct Sankey diagram like this:

data = [

# Append _1, _2... indices to differ paths like 1-2-2-1 and 1-2-1-2
nodes = sorted(list(set(itertools.chain(*[[str(e) + '_' + str(i) for i, e in enumerate(l)] for l in data]))))
countered = defaultdict(int)
for line in data:
    for i in range(len(line) - 1):
        countered[(str(line[i]) + '_' + str(i), str(line[i+1]) + '_' + str(i+1))] += 1
links = [
    {'source': key[0], 'target': key[1], 'value': value}
    for key, value in countered.items()

links = {
    'source': [nodes.index(key[0]) for key, value in countered.items()],
    'target': [nodes.index(key[1]) for key, value in countered.items()],
    'value': [value for key, value in countered.items()]

data_trace = dict(
    domain = dict(
      x =  [0,1],
      y =  [0,1]
    orientation = "h",
    valueformat = ".0f",
    node = dict(
      pad = 10,
      thickness = 30,
      line = dict(
        color = "black",
        width = 0
      label =  nodes
    link = links

layout =  dict(
    title = "___",
    height = 772,
    font = dict(
      size = 10

fig = dict(data=[data_trace], layout=layout)
iplot(fig, validate=True)

It will draw you a Sankey plot like this:

enter image description here

You can find more info about how Sankey in plotly works here.

  • I cannot thank you enough, @vurmux. Starting from this code snippet, I managed to create a family of very complex Sankey diagrams doing what I want. The addition of the underscored 1,2, etc to account for progress in time was a game changer. – nvergos 2 days ago

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