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I'm creating loglog plots with matplotlib. As can be seen in the figure below, the default ticks are chosen badly (at best); the right y-axis doesn't even have any at all (it does in the linear equivalent) and both x-axis have only one.

loglog plot with bad default ticks

Is there a way to get a reasonable number of ticks with labels, without specifying them by hand for every plot?

EDIT: the exact code is too long, but here's a short example of the problem:

x = linspace(4, 18, 20)
y = 1 / (x ** 4)
fig = figure()
ax = fig.add_axes([.1, .1, .8, .8])
ax.loglog(x, y)
ax.set_xlim([4, 18])
ax2 = ax.twiny()
ax2.set_xlim([4 / 3., 18 / 3.])
share|improve this question
The default only puts ticks on the decades (and you have less than a decade) Can you show us the code you are using to generate this? – tcaswell Oct 8 '13 at 4:54
possible duplicate of set ticks with logarithmic scale – tcaswell Oct 8 '13 at 5:01
On looking at this more, it looks like you are doing all of your plotting on the hartee/bohr axes and the using twinx and twiny to get the eV and angstrom axes, but never plot anything to them. You need to explicitly set their limits to match the limits on your other axes (properly converted). – tcaswell Oct 8 '13 at 5:03
@tcaswell: you are correct in that I never plot anything to them, but I am already setting the limits and I think they are correct. I'll look at the possible duplicate. – Mark Oct 8 '13 at 5:06
The other question is similar but I don't think it's a duplicate as it sets the tick points manually, which I don't want. – Mark Oct 8 '13 at 5:08
up vote 1 down vote accepted

I've been fighting with something like what you show (only one major tick in the axis range). None of the matplotlib tick formatter satisfied me, so I use matplotlib.ticker.FuncFormatter to achieve what I wanted. I haven't tested with twin axes, but my feeling is that it should work anyway.

import matplotlib.pyplot as plt
from matplotlib import ticker
import numpy as np

#@Mark: thanks for the suggestion :D
mi, ma, conv = 4, 8, 1./3.
x = np.linspace(mi, ma, 20)
y = 1 / (x ** 4)

fig, ax = plt.subplots()

ax.plot(x, y)  # plot the lines
ax.set_xscale('log') #convert to log

ax.set_xlim([0.2, 1.8])  #large enough, but should show only 1 tick

def ticks_format(value, index):
    This function decompose value in base*10^{exp} and return a latex string.
    If 0<=value<99: return the value as it is.
    if 0.1<value<0: returns as it is rounded to the first decimal
    otherwise returns $base*10^{exp}$
    I've designed the function to be use with values for which the decomposition
    returns integers
    exp = np.floor(np.log10(value))
    base = value/10**exp
    if exp == 0 or exp == 1:
        return '${0:d}$'.format(int(value))
    if exp == -1:
        return '${0:.1f}$'.format(value)
        return '${0:d}\\times10^{{{1:d}}}$'.format(int(base), int(exp))

# here specify which minor ticks per decate you want
# likely all of them give you a too crowed axis
subs = [1., 3., 6.]
# set the minor locators
# remove the tick labels for the major ticks: 
# if not done they will be printed with the custom ones (you don't want it)
# plus you want to remove them to avoid font missmatch: the above function 
# returns latex string, and I don't know how matplotlib does exponents in labels
# set the desired minor tick labels using the above function

The figure that I get is the following enter image description here:

Of course you can set different minor locators for x and y axis and you can wrap everything from ticks_format to the end into a function that accepts an axes instance ax and subs or subsx and subsy as input parameters.

I hope that this helps you

share|improve this answer
It works well for about one order of magnitude variation close to 0 I think, which is a common problem area. If you need to use log scales on a smaller domain, minor ticks don't help much, but that is probably exceptional... Also the formatting is cool! – Mark Oct 9 '13 at 5:11

In the end, this is the best I could come up with with the help of other answers here and elsewere is this:

enter image description here

On the left, x and y vary over only a part of an order of magnitude, with labels working out fairly well. On the left, x varies between 1 and 2 orders of magnitude. It works okay, but the method is reaching it's limit. The y values vary many orders of magnitude and the standard labels are used automatically.

from matplotlib import ticker
from numpy import linspace, logspace, log10, floor
from warnings import warn

def round_to_n(x, n):
    ''' '''
    return round(x, -int(floor(log10(abs(x)))) + (n - 1))

def ticks_log_format(value, index):
    ''' '''
    pwr = floor(log10(value))
    base = value / (10 ** pwr)
    if pwr == 0 or pwr == 1:
        return '${0:d}$'.format(int(value))
    if -3 <= pwr < 0:
        return '${0:.3g}$'.format(value)
    if 0 < pwr <= 3:
        return '${0:d}$'.format(int(value))
        return '${0:d}\\times10^{{{1:d}}}$'.format(int(base), int(pwr))

def calc_ticks(domain, tick_count, equidistant):
    if equidistant:
        ticks = logspace(log10(domain[0]), log10(domain[1]), num = tick_count, base = 10)
        ticks = linspace(domain[0], domain[1], num = tick_count)
    for n in range(1, 6):
        if len(set(round_to_n(tick, n) for tick in ticks)) == tick_count:
    return list(round_to_n(tick, n) for tick in ticks)

''' small domain log ticks '''
def sdlt_x(ax, domain, tick_count = 4, equidistant = True):
    ''' '''
    if min(domain) <= 0:
        warn('domain %g-%g contains values lower than 0' % (domain[0], domain[1]))
        domain = [max(value, 0.) for value in domain]
    if log10(max(domain) / min(domain)) > 1.7:
    ticks = calc_ticks(domain, tick_count = tick_count, equidistant = equidistant)

''' any way to prevent this code duplication? '''
def sdlt_y(ax, domain, tick_count = 5, equidistant = True):
    ''' '''
    if min(domain) <= 0:
        warn('domain %g-%g contains values lower than 0' % (domain[0], domain[1]))
        domain = [max(value, 1e-8) for value in domain]
    if log10(max(domain) / min(domain)) > 1.7:
    ticks = calc_ticks(domain, tick_count = tick_count, equidistant = equidistant)

''' demo '''
fig, (ax1, ax2,) = plt.subplots(1, 2)
for mi, ma, ax in ((100, 130, ax1,), (10, 400, ax2,), ):
    x = np.linspace(mi, ma, 50)
    y = 1 / ((x + random(50) * 0.1 * (ma - mi)) ** 4)
    ax.scatter(x, y)
    sdlt_x(ax, (mi, ma, ))
    sdlt_y(ax, (min(y), max(y), ))

EDIT: updated with an option to make labels equidistant (so the values are logarithmic, but the visible positions are equidistant).

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