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I am desperately looking for a solution to create a nice binary tree diagram. It is crucial that incomplete nodes have distinguishable edges (if any).

I failed to produce the desired result with .dot, because I know of no way to order nodes. I don't mind, importing a file to yEd or another editor. However, I want to be able to generate data very easily with little syntax.

What I am aiming at is a tool which generates e.g. a .graphml format from minimalistic data, such as (A (B1 C1 C2) B2), where A is the root label, B1 the root's left child with another two children. A similar complexity as .dot or .tgf would be of course tolerable, but I want to avoid writing a compiler myself for generating the .graphml.

Any ideas appreciated.

Markus R.

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What do you mean by This works in .dot only if empty nodes are used ? –  marapet May 5 '12 at 19:27
That is, I have to use invisible virtual nodes(leafs) to direct an edge. –  Markus Rother May 7 '12 at 9:08
In visualizing the graph, why are virtual nodes to be avoided? –  parselmouth May 11 '12 at 18:50
I discovered, that using dot, even virtual nodes do not guarantee absence of vertical edges. If virtual nodes with graphml did the job, I would be happy. (Yet to find out). –  Markus Rother May 12 '12 at 19:35

1 Answer 1

The data that you supplied is more-or-less an s-expression. Given that this is the format that you want to ingest, pyparsing (a Python module) has an s-expression parser.

You'll also need a graph library. I use networkx for most of my work. With the pyparsing s-expression parser and networkx, the following code ingests the data and creates a tree as a digraph:

import networkx as nx

def build(g, X):
    if isinstance(X, list):
        parent = X[0]
        for branch in X[1:]:
            child = build(g, branch)
            g.add_edge(parent, child)

        return parent

    if isinstance(X, basestring):
        return X

#-- The sexp parser is constructed by the code example at...
#-- http://http://pyparsing.wikispaces.com/file/view/sexpParser.py
sexpr = sexp.parseString("(A (B1 C1 C2) B2)", parseAll = True)

#-- Get the parsing results as a list of component lists.
nested = sexpr.asList( )

#-- Construct an empty digraph.
dig = nx.DiGraph( )

#-- build the tree
for component in nested:
    build(dig, component)

#-- Write out the tree as a graphml file.
nx.write_graphml(dig, 'tree.graphml', prettyprint = True)

To test this, I also wrote the tree as a .dot file and used graphviz to create the following image:

(graphviz output of tree)

networkx is a good graph library and you can write additional code that walks over your tree to tag edges or nodes with additional metadata, if needed.

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Thanks. I was not aware of the networkx library. However, the result is not exactly what I need. In your example, if you remove, let's say C2, then in the generated new image, you will have a vertical line from B1 to C1, and hence no longer any indication that C1 is a right child (and B1 has no left child). What I need is an image, which maintains that structure. Regardless, the parser is very useful. –  Markus Rother May 10 '12 at 14:08
@MarkusRother if "(A (B1 C1 C2) B2)" describes the present tree, can you supply a similar nested structure for the case where C2 is removed? If the new nested structure were represented as "(A (B1 C1) B2)" -- how do we distinguish that C1 is the right child of B1 rather than the left child? –  parselmouth May 10 '12 at 16:26
@MarkusRother from reading your previous comment the word "vertical" stood out, and in conjunction with your comment to your question " invisible virtual nodes(leafs) to direct an edge", is the essence of your question one of generating GraphML from a nested structure, or is it the layout and visualization of (possibly) incomplete trees? –  parselmouth May 10 '12 at 16:30
I guess the latter - visualization. Sorry, if I did not point that out sufficiently clearly. To my understanding, a visualization of a binary(!) tree must always be obvious. There are only left or right edges in a binary tree, and any visualization of a binary tree with vertical edges is flawed, because it lacks that information. –  Markus Rother May 11 '12 at 8:13

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