# Reset default axis tics on matplotlib subplot

I would like to create an arbitrary number of plots in a single column using the same x-axis.

Here's an example:

import numpy as np
from matplotlib import pyplot as plt

N=1000
x = np.linspace(-.5,1.5,num=N)
xshift = x-0.5
Bz = 30*np.exp(-xshift**8/0.00125)*np.sin(xshift*2.*np.pi)
Np = 30*np.exp(-xshift**10/0.00125)+5
Vx = 200*np.exp(-xshift**10/0.00125)+400

fig = plt.figure()

#list of tuples of the form (data, label)
data_list = [(Bz,"B_z"),(Vx,"V_x"),(Np,"N_p")]

for i,(data,lab) in enumerate(data_list,1):
ax.set_ylabel("$\mathrm{%s}$"%lab)
ax.get_xaxis().set_ticklabels([])
ax.plot(x,data)
else:
#Reset default tick labels here on ax
pass

plt.show()


For this plot, it would be logical for the last plot to display the xtic labels whereas all the other plots have that information left off. I could pop the last item off the data_list and spell it out explicitly, but that seems hacky to me. Is there an elegant way to tell a matplotlib Axes that it should restore the default xticlabel settings?

(some documentation)

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I think this does what you want, but I think it might be as "hacky" as you fear. I also think it's probably the Right Way. :)

import numpy as np
from matplotlib import pyplot as plt

N=1000
x = np.linspace(-.5,1.5,num=N)
xshift = x-0.5
Bz = 30*np.exp(-xshift**8/0.00125)*np.sin(xshift*2.*np.pi)
Np = 30*np.exp(-xshift**10/0.00125)+5
Vx = 200*np.exp(-xshift**10/0.00125)+400

fig = plt.figure()

#list of tuples of the form (data, label)
data_list = [(Bz,"B_z"),(Vx,"V_x"),(Np,"N_p")]

left = .15
height = .2
width = .7
bottom = .0
axes_ticks = []
axes = []
for i,(data,lab) in enumerate(data_list,1):
bottom += height
ax.set_position((left, bottom, width, height))

ax.set_ylabel("$\mathrm{%s}$"%lab)
axes_ticks.append(ax.get_xaxis().get_ticklocs())
ax.get_xaxis().set_ticks([])
ax.plot(x,data)
axes.append(ax)
else:
#Reset default tick labels here on ax
axes[0].get_xaxis().set_ticks(axes_ticks[0])

plt.show()

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This seems a bit silly to me. It seems like this should be a reasonably easy operation. As it is, I don't particularly want to hard-code the height and width of each plot to make this work. That doesn't seem like the Right Way to me :). But thanks, this is better than anything I came up with so far. –  mgilson Nov 8 '12 at 16:33
If it makes you feel better, at least you're not using hard-coded rasterized coordinates, it's all relative to the display. –  Brian Cain Nov 8 '12 at 16:54