"""Demonstrate/test the Sankey class by producing a long chain of connections.
"""
import numpy as np
import matplotlib.pyplot as plt

from matplotlib.sankey import Sankey
from itertools import cycle

links_per_side = 6
def side(sankey, n=1):
    """Generate a side chain.
    """
    prior = len(sankey.diagrams)
    colors = cycle(['orange', 'b', 'g', 'r', 'c', 'm', 'y'])
    for i in range(0, 2*n, 2):
        sankey.add(flows=[1, -1], orientations=[-1, -1],
                   patchlabel=str(prior+i), facecolor=colors.next(),
                   prior=prior+i-1, connect=(1, 0), alpha=0.5)
        sankey.add(flows=[1, -1], orientations=[1, 1],
                   patchlabel=str(prior+i+1), facecolor=colors.next(),
                   prior=prior+i, connect=(1, 0), alpha=0.5)
def corner(sankey):
    """Generate a corner link.
    """
    prior = len(sankey.diagrams)
    sankey.add(flows=[1, -1], orientations=[0, 1],
               patchlabel=str(prior), facecolor='k',
               prior=prior-1, connect=(1, 0), alpha=0.5)
fig = plt.figure()
ax = fig.add_subplot(1, 1, 1, xticks=[], yticks=[],
                     title="Why would you want to do this?\n(But you could.)")
sankey = Sankey(ax=ax, unit=None)
sankey.add(flows=[1, -1], orientations=[0, 1],
           patchlabel="0", facecolor='k',
           rotation=45)
side(sankey, n=links_per_side)
corner(sankey)
side(sankey, n=links_per_side)
corner(sankey)
side(sankey, n=links_per_side)
corner(sankey)
side(sankey, n=links_per_side)
sankey.finish()
# Notice:
# 1. The alignment doesn't drift significantly (if at all; with 16007
#    subdiagrams there is still closure).
# 2. The first diagram is rotated 45 deg, so all other diagrams are rotated
#    accordingly.

plt.show()