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#!/usr/bin/python3
class Node(object):
def __init__(self, data):
self.data = data
self.ein = []
self.eout = []
# (Re-)insert a child node [target] to [self] at index [idx] (or as the
# rightmost child if index is not given). Also append [self] to the list of
# parents of [target].
def add_out(self, target, idx=None):
if target in self.eout:
self.eout.remove(target)
if idx is None:
self.eout.append(target)
else:
self.eout.insert(idx, target)
if self not in target.ein:
target.ein.append(self)
return target
def __repr__(self):
return str(self.data)
def __lt__(self, other):
return self.data < other.data
# Print the edit graph containing [nodes] in graphviz dot format. The [label]
# and [pos] functions determine node labels and coordinates (x,y), and the
# [node_attr] and [edge_attr] functions specify additional attributes for each
# node and edge. To actually use the coordinates returned by [pos], generate
# the image using neato -n1.
def graphviz(nodes, label=str, pos=None, node_attr=None, edge_attr=None):
# Generate node descriptions.
node_str = ''
node_id = {}
for node in nodes:
node_id[node] = len(node_id)
node_str += '\t{} [label="{}"'.format(node_id[node], label(node).replace('"', '\\"'))
if pos:
node_str += ', ' + 'pos="{},{}"'.format(*pos(node))
if node_attr:
node_str += ', ' + node_attr(node)
node_str += '];\n'
# Generate edge descriptions (breadth-first).
edge_str = ''
for node in nodes:
a = node_id[node]
for child in node.eout:
b = node_id[child]
edge_str += '\t{} -> {}'.format(a, b)
if edge_attr:
edge_str += ' [' + edge_attr(node, child) + ']'
edge_str += ';\n'
output = 'digraph G {\n'
output += '\tordering="out";\n'
output += '\tnode [shape="box", margin="0.05,0", fontname="sans", fontsize=13.0];\n'
output += '\n'
output += node_str
output += '\n'
output += edge_str
output += '}\n'
return output
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