redef fun iterator do return elements.keys.iterator
# All the nodes
- private var elements: HashMap[E, POSetElement[E]] = new HashMap[E, POSetElement[E]]
+ private var elements = new HashMap[E, POSetElement[E]]
redef fun has(e) do return self.elements.keys.has(e)
return fe.dtos.has(t)
end
- # Display the POSet in a gaphical windows.
- # Graphviz with a working -Txlib is expected.
- # Used fo debugging.
- fun show_dot
+ # Write the POSet as a graphviz digraph.
+ #
+ # Nodes are identified with their `to_s`.
+ # Edges are unlabeled.
+ fun write_dot(f: OStream)
do
- var f = new OProcess("dot", "-Txlib")
- #var f = stdout
f.write "digraph \{\n"
for x in elements.keys do
- f.write "\"{x}\";\n"
+ var xstr = x.to_s.escape_to_dot
+ f.write "\"{xstr}\";\n"
var xe = self.elements[x]
for y in xe.dtos do
+ var ystr = y.to_s.escape_to_dot
if self.has_edge(y,x) then
- f.write "\"{x}\" -> \"{y}\"[dir=both];\n"
+ f.write "\"{xstr}\" -> \"{ystr}\"[dir=both];\n"
else
- f.write "\"{x}\" -> \"{y}\";\n"
+ f.write "\"{xstr}\" -> \"{ystr}\";\n"
end
end
end
f.write "\}\n"
- #f.close
- #f.wait
+ end
+
+ # Display the POSet in a graphical windows.
+ # Graphviz with a working -Txlib is expected.
+ #
+ # See `write_dot` for details.
+ fun show_dot
+ do
+ var f = new OProcess("dot", "-Txlib")
+ f.write "\}\n"
+ write_dot(f)
+ f.close
+ f.wait
end
# Compare two elements in an arbitrary total order.