# Matplotlib - fixing x axis scale and autoscale y axis

I would like to plot only part of the array, fixing x part, but letting y part autoscale. I tried as shown below, but it does not work.

Any suggestions?

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

data=[np.arange(0,101,1),300-0.1*np.arange(0,101,1)]

plt.figure()

plt.scatter(data[0], data[1])
plt.xlim([50,100])
plt.autoscale(enable=True, axis='y')

plt.show()
``````

Autoscaling always uses the full range of the data, so the y-axis is scaled by full extent of the y-data, not just what's within the x-limits.

If you'd like to display a subset of the data, then it's probably easiest to plot only that subset:

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

x, y = np.arange(0,101,1) ,300 - 0.1*np.arange(0,101,1)
mask = (x >= 50) & (x <= 100)

fig, ax = plt.subplots()

plt.show()
``````
• I also had this idea but I didn't know that making subset was so simple in Python :) – Pygmalion Apr 6 '15 at 7:49

While Joe Kington certainly proposes the most sensible answer when he recommends that only the necessary data be plotted, there are situations where it would be best to plot all of the data and just zoom to a certain section. Additionally, it would be nice to have an "autoscale_y" function that only requires the axes object (i.e., unlike the answer here, which requires direct use of the data.)

Here is a function that just rescales the y-axis based on the data that is in the visible x-region:

``````def autoscale_y(ax,margin=0.1):
"""This function rescales the y-axis based on the data that is visible given the current xlim of the axis.
ax -- a matplotlib axes object
margin -- the fraction of the total height of the y-data to pad the upper and lower ylims"""

import numpy as np

def get_bottom_top(line):
xd = line.get_xdata()
yd = line.get_ydata()
lo,hi = ax.get_xlim()
y_displayed = yd[((xd>lo) & (xd<hi))]
h = np.max(y_displayed) - np.min(y_displayed)
bot = np.min(y_displayed)-margin*h
top = np.max(y_displayed)+margin*h
return bot,top

lines = ax.get_lines()
bot,top = np.inf, -np.inf

for line in lines:
new_bot, new_top = get_bottom_top(line)
if new_bot < bot: bot = new_bot
if new_top > top: top = new_top

ax.set_ylim(bot,top)
``````

This is something of a hack, and will probably not work in many situations, but for a simple plot, it works well.

Here is a simple example using this function:

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

x = np.linspace(-100,100,1000)
y = x**2 + np.cos(x)*100

fig,axs = plt.subplots(1,2,figsize=(8,5))

for ax in axs:
ax.plot(x,y)
ax.plot(x,y*2)
ax.plot(x,y*10)
ax.set_xlim(-10,10)

autoscale_y(axs[1])

axs[0].set_title('Rescaled x-axis')
axs[1].set_title('Rescaled x-axis\nand used "autoscale_y"')

plt.show()
``````

• This is great, but it fails if the plot has axhline()s in it. I will try to tune it up because it's exactly what I want. – EL_DON Aug 26 '16 at 5:14
• I replaced y_displayed = yd[((xd>=lo) & (xd<=hi))] with if len(xd)==2 and xd[0]==0.0 and xd[1]==1.0: y_displayed=yd #special case to handle axhline else: y_displayed = yd[((xd>=lo) & (xd<=hi))] – EL_DON Aug 26 '16 at 5:22
• Yes it's a pity that there's no autoscale_axis, probably it might be already implemented in the recent update of matplotlib. Thanks for your contribution, I use it and works great! However, even when you may want to plot the whole range of values and then zoom in, @Joe Kinton 's solution is simpler by plotting all the range on the left panel and the masked values on the right one. – Hugo Sep 28 '16 at 19:43
• Really nice solution! Requires just a minor modification if the x-axis is a `datetime`: `xd = [dt.toordinal() for dt in line.get_xdata()]` – bluenote10 Oct 6 '16 at 15:31
• To anyone interested, I’ve adapted this function to work on any axis: gist.github.com/ArcturusB/613eaba080a50385fa29e2eff8fe203f. – Arcturus B Jan 10 '19 at 14:59

I've built upon @DanHickstein's answer to cover cases of plot, scatter and axhline/axvline for scaling either the x or y axis. It can be called as simple as `autoscale()` to work on the most recent axes. If you wish to edit it, please fork it on gist.

``````def autoscale(ax=None, axis='y', margin=0.1):
'''Autoscales the x or y axis of a given matplotlib ax object
to fit the margins set by manually limits of the other axis,
with margins in fraction of the width of the plot

Defaults to current axes object if not specified.
'''
import matplotlib.pyplot as plt
import numpy as np
if ax is None:
ax = plt.gca()
newlow, newhigh = np.inf, -np.inf

for artist in ax.collections + ax.lines:
x,y = get_xy(artist)
if axis == 'y':
setlim = ax.set_ylim
lim = ax.get_xlim()
fixed, dependent = x, y
else:
setlim = ax.set_xlim
lim = ax.get_ylim()
fixed, dependent = y, x

low, high = calculate_new_limit(fixed, dependent, lim)
newlow = low if low < newlow else newlow
newhigh = high if high > newhigh else newhigh

margin = margin*(newhigh - newlow)

setlim(newlow-margin, newhigh+margin)

def calculate_new_limit(fixed, dependent, limit):
'''Calculates the min/max of the dependent axis given
a fixed axis with limits
'''
if len(fixed) > 2:
mask = (fixed>limit[0]) & (fixed < limit[1])
low, high = window.min(), window.max()
else:
low = dependent[0]
high = dependent[-1]
if low == 0.0 and high == 1.0:
# This is a axhline in the autoscale direction
low = np.inf
high = -np.inf
return low, high

def get_xy(artist):
'''Gets the xy coordinates of a given artist
'''
if "Collection" in str(artist):
x, y = artist.get_offsets().T
elif "Line" in str(artist):
x, y = artist.get_xdata(), artist.get_ydata()
else:
raise ValueError("This type of object isn't implemented yet")
return x, y
``````

It, like its predecessor, is a bit hacky, but that is necessary because collections and lines have different methods for returning the xy coordinates, and because axhline/axvline is tricky to work with since it only has two datapoints.

Here it is in action:

``````fig, axes = plt.subplots(ncols = 4, figsize=(12,3))
(ax1, ax2, ax3, ax4) = axes

x = np.linspace(0,100,300)
noise = np.random.normal(scale=0.1, size=x.shape)
y = 2*x + 3 + noise

for ax in axes:
ax.plot(x, y)
ax.scatter(x,y, color='red')
ax.axhline(50., ls='--', color='green')
for ax in axes[1:]:
ax.set_xlim(20,21)
ax.set_ylim(40,45)

autoscale(ax3, 'y', margin=0.1)
autoscale(ax4, 'x', margin=0.1)

ax1.set_title('Raw data')
ax2.set_title('Specificed limits')
ax3.set_title('Autoscale y')
ax4.set_title('Autoscale x')
plt.tight_layout()
``````