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# matplotlib: overlay plots with different scales?

So far I have the following code:

``````colors = ('k','r','b')
ax = []
for i in range(3):
ax.append(plt.axes())
plt.plot(datamatrix[:,0],datamatrix[:,i],colors[i]+'o')
ax[i].set(autoscale_on=True)
``````

With the `autoscale_on=True` option for each axis, I thought each plot should have its own y-axis limits, but it appears they all share the same value (even if they share different axes). How do I set them to scale to show the range of each `datamatrix[:,i]` (just an explicit call to `.set_ylim()`?) And also, how can I create an offset y-axis for the third variable (`datamatrix[:,2]`) that might be required above? Thanks all.

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It sounds like what you're wanting is subplots... What you're doing now doesn't make much sense (Or I'm very confused by your code snippet, at any rate...).

Try something more like this:

``````import matplotlib.pyplot as plt
import numpy as np

fig, axes = plt.subplots(nrows=3)

colors = ('k', 'r', 'b')
for ax, color in zip(axes, colors):
data = np.random.random(1) * np.random.random(10)
ax.plot(data, marker='o', linestyle='none', color=color)

plt.show()
``````

Edit:

If you don't want subplots, your code snippet makes a lot more sense.

You're trying to add three axes right on top of each other. Matplotlib is recognizing that there's already a subplot in that exactly size and location on the figure, and so it's returning the same axes object each time. In other words, if you look at your list `ax`, you'll see that they're all the same object.

If you really want to do that, you'll need to reset `fig._seen` to an empty dict each time you add an axes. You probably don't really want to do that, however.

Instead of putting three independent plots over each other, have a look at using `twinx` instead.

E.g.

``````import matplotlib.pyplot as plt
import numpy as np
# To make things reproducible...
np.random.seed(1977)

fig, ax = plt.subplots()

# Twin the x-axis twice to make independent y-axes.
axes = [ax, ax.twinx(), ax.twinx()]

# Make some space on the right side for the extra y-axis.

# Move the last y-axis spine over to the right by 20% of the width of the axes
axes[-1].spines['right'].set_position(('axes', 1.2))

# To make the border of the right-most axis visible, we need to turn the frame
# on. This hides the other plots, however, so we need to turn its fill off.
axes[-1].set_frame_on(True)
axes[-1].patch.set_visible(False)

# And finally we get to plot things...
colors = ('Green', 'Red', 'Blue')
for ax, color in zip(axes, colors):
data = np.random.random(1) * np.random.random(10)
ax.plot(data, marker='o', linestyle='none', color=color)
ax.set_ylabel('%s Thing' % color, color=color)
ax.tick_params(axis='y', colors=color)
axes[0].set_xlabel('X-axis')

plt.show()
``````

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Thanks -- actually I do want a single panel with all the points, but each having a different y scale... – crippledlambda Oct 12 '11 at 5:22
Hopefully the edits help. I'm assuming you want the y-axes labeled with the actual ranges. If you don't (and basically just want the y-values to be meaningless), then you can do this much more simply. – Joe Kington Oct 12 '11 at 17:01
Ah, `spines` is the attribute I wanted I think. But manually adjusting the spine seems like the way to go, even with a "floating" axis which is not necessarily connected with the data, so long as I ensure that the scales are manipulated correctly! Thanks. – crippledlambda Oct 13 '11 at 18:52
This is actually quite beautiful. I have copied this and put it to use already. One thing though, `tick_parms` does not exist? I had to set `axes[-1].yaxis.set_ticks_position('right')`, but otherwise worked beautifully! – crippledlambda Oct 15 '11 at 1:10
@JoeKington, I solved, it was enough to add `fig.tight_layout()` – Py-ser Jun 12 '14 at 3:15

Bootstrapping something fast to chart multiple y-axes sharing an x-axis using @joe-kington's answer:

``````# d = Pandas Dataframe,
# ys = [ [cols in the same y], [cols in the same y], [cols in the same y], .. ]
def chart(d,ys):

from itertools import cycle
fig, ax = plt.subplots()

axes = [ax]
for y in ys[1:]:
# Twin the x-axis twice to make independent y-axes.
axes.append(ax.twinx())

extra_ys =  len(axes[2:])

# Make some space on the right side for the extra y-axes.
if extra_ys>0:
temp = 0.85
if extra_ys<=2:
temp = 0.75
elif extra_ys<=4:
temp = 0.6
if extra_ys>5:
print 'you are being ridiculous'
# Move the last y-axis spine over to the right by x% of the width of the axes
i = 1.
for ax in axes[2:]:
ax.set_frame_on(True)
ax.patch.set_visible(False)
ax.yaxis.set_major_formatter(matplotlib.ticker.OldScalarFormatter())
i +=1.
# To make the border of the right-most axis visible, we need to turn the frame
# on. This hides the other plots, however, so we need to turn its fill off.

cols = []
lines = []
line_styles = cycle(['-','-','-', '--', '-.', ':', '.', ',', 'o', 'v', '^', '<', '>',
'1', '2', '3', '4', 's', 'p', '*', 'h', 'H', '+', 'x', 'D', 'd', '|', '_'])
colors = cycle(matplotlib.rcParams['axes.color_cycle'])
for ax,y in zip(axes,ys):
ls=line_styles.next()
if len(y)==1:
col = y[0]
cols.append(col)
color = colors.next()
lines.append(ax.plot(d[col],linestyle =ls,label = col,color=color))
ax.set_ylabel(col,color=color)
#ax.tick_params(axis='y', colors=color)
ax.spines['right'].set_color(color)
else:
for col in y:
color = colors.next()
lines.append(ax.plot(d[col],linestyle =ls,label = col,color=color))
cols.append(col)
ax.set_ylabel(', '.join(y))
#ax.tick_params(axis='y')
axes[0].set_xlabel(d.index.name)
lns = lines[0]
for l in lines[1:]:
lns +=l
labs = [l.get_label() for l in lns]
axes[0].legend(lns, labs, loc=0)

plt.show()
``````
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