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I would like to write the radian units of the axes as proportional to \pi: something like

$\frac{\pi}{4}$, $\frac{\pi}{2}$, ... 

in place of

0.785, 1.5707 ... 

Is there any standard way? As an example, what should I add to the following code?

from pylab import *

x=arange(-10.0,10.0,0.1)
y= arctan(x)

plot(x,y,'b.')
show()

I found this example http://matplotlib.sourceforge.net/examples/units/radian_demo.html but it does not work because I don't have basic_units module.

Thank you!

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"I found this example matplotlib.sourceforge.net/examples/units/radian_demo.html but it does not work because I don't have basic_units module." Yes you do. It's in the examples folder of Matplotlib. –  endolith Mar 12 '13 at 1:23

2 Answers 2

up vote 5 down vote accepted

hard code them in fractions or accept floating numbers

import matplotlib.pyplot as plt
import numpy as np

x=np.arange(-10.0,10.0,0.1)
y=np.arctan(x)

fig = plt.figure()
ax  = fig.add_subplot(111)

ax.plot(x,y,'b.')

y_pi   = y/np.pi
unit   = 0.25
y_tick = np.arange(-0.5, 0.5+unit, unit)

y_label = [r"$-\frac{\pi}{2}$", r"$-\frac{\pi}{4}$", r"$0$", r"$+\frac{\pi}{4}$",   r"$+\frac{\pi}{2}$"]
ax.set_yticks(y_tick*np.pi)
ax.set_yticklabels(y_label, fontsize=20)

y_label2 = [r"$" + format(r, ".2g")+ r"\pi$" for r in y_tick]
ax2 = ax.twinx()
ax2.set_yticks(y_tick*np.pi)
ax2.set_yticklabels(y_label2, fontsize=20)

plt.show()

the result is

enter image description here

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Thank you very much! –  KraZmAzzD May 27 '12 at 23:46

i wrote a little function, that gives you back a list of labels:

import numpy as np
from fractions import Fraction

def create_pi_labels(a, b, step):

    max_denominator = int(1/step)
    # i added this line and the .limit_denominator to solve an 
    # issue with floating point precision
    # because of floataing point precision Fraction(1/3) would be 
    # Fraction(6004799503160661, 18014398509481984)

    values = np.arange(a, b+step/10, step)
    fracs = [Fraction(x).limit_denominator(max_denominator) for x in values]
    ticks = values*np.pi

    labels = []

    for frac in fracs:
        if frac.numerator==0:
            labels.append(r"$0$")
        elif frac.numerator<0:
            if frac.denominator==1 and abs(frac.numerator)==1:
                labels.append(r"$-\pi$")
            elif frac.denominator==1:
                labels.append(r"$-{}\pi$".format(abs(frac.numerator)))
            else:
                labels.append(r"$-\frac{{{}}}{{{}}} \pi$".format(abs(frac.numerator), frac.denominator))
        else:
            if frac.denominator==1 and frac.numerator==1:
                labels.append(r"$\pi$")
            elif frac.denominator==1:
                labels.append(r"${}\pi$".format(frac.numerator))
            else:
                labels.append(r"$\frac{{{}}}{{{}}} \pi$".format(frac.numerator, frac.denominator))

    return ticks, labels

https://github.com/MaxNoe/python-plotting/blob/master/source/create_pi_labels.py

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