# Adding self-edge in a graphical plot with Python's daft library

I want to add an edge that link beta to beta, in the following plot:

Is generated the following code using DAFT:

from matplotlib import rc
rc("font", family="serif", size=12)
rc("text", usetex=True)
import daft

pgm = daft.PGM([2.3, 3.05], origin=[0.3, 0.3], observed_style="inner")

# Hierarchical parameters.
pgm.add_node(daft.Node("beta", r"$\beta$", 1.5, 2))

# Latent variable.
pgm.add_node(daft.Node("w", r"$w_n$", 1, 1))

# Data.
pgm.add_node(daft.Node("x", r"$x_n$", 2, 1, observed=True))

pgm.add_edge("beta", "beta")  # Attempting to create a self-edge, but no effect!

# Render and save.
pgm.render()
pgm.figure.savefig("nogray.pdf")


But why it doesn't work? Especially with this line pgm.add_edge("beta", "beta"). I welcome other suggestions other than Daft, as long as it is under Python.

-
Oops, sorry. I updated the code with missing 'matplotlib' header. – neversaint Jul 12 '14 at 14:09

If you look at the source code here from line 301 (the Edge class) you will see that all lines are given by straight lines based on the coordinates ([x, x + dx], [y, y + dy]) as shown below in the code for an undirected edge:

x, y, dx, dy = self._get_coords(ctx)

# Plot the line.
line = ax.plot([x, x + dx], [y, y + dy], **p)
return line


As such there doesn't appear to be a way of defining a self-edge (as such an edge would need to be curved in order to curve back to the same node).

As far as an alternative library you may want to look at networkx, the following docs show the use with self loops. Alternatively you could raise an issue on the DAFT Github.

-