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I'd like to create an Argand Diagram from a set of complex numbers using matplotlib.

  • Are there any pre-built functions to help me do this?

  • Can anyone recommend an approach?

enter image description here

Image by LeonardoG, CC-SA-3.0

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5 Answers 5

23

I'm not sure exactly what you're after here...you have a set of complex numbers, and want to map them to the plane by using their real part as the x coordinate and the imaginary part as y?

If so you can get the real part of any python imaginary number with number.real and the imaginary part with number.imag. If you're using numpy, it also provides a set of helper functions numpy.real and numpy.imag etc. which work on numpy arrays.

So for instance if you had an array of complex numbers stored something like this:

In [13]: a = n.arange(5) + 1j*n.arange(6,11)

In [14]: a
Out[14]: array([ 0. +6.j,  1. +7.j,  2. +8.j,  3. +9.j,  4.+10.j])

...you can just do

In [15]: fig,ax = subplots()

In [16]: ax.scatter(a.real,a.imag)

This plots dots on an argand diagram for each point.

edit: For the plotting part, you must of course have imported matplotlib.pyplot via from matplotlib.pyplot import * or (as I did) use the ipython shell in pylab mode.

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  • 14
    Try to avoid import *: it's much more readable and less confusing if you don't import in the current name space and do something like import matplotlib.pyplot as plt and then plt.. Plus this avoids you possible name clashes Jul 3, 2013 at 11:45
13

To follow up @inclement's answer; the following function produces an argand plot that is centred around 0,0 and scaled to the maximum absolute value in the set of complex numbers.

I used the plot function and specified solid lines from (0,0). These can be removed by replacing ro- with ro.

def argand(a):
    import matplotlib.pyplot as plt
    import numpy as np
    for x in range(len(a)):
        plt.plot([0,a[x].real],[0,a[x].imag],'ro-',label='python')
    limit=np.max(np.ceil(np.absolute(a))) # set limits for axis
    plt.xlim((-limit,limit))
    plt.ylim((-limit,limit))
    plt.ylabel('Imaginary')
    plt.xlabel('Real')
    plt.show()

For example:

>>> a = n.arange(5) + 1j*n.arange(6,11)
>>> from argand import argand
>>> argand(a)

produces: argand function output graph

EDIT:

I have just realised there is also a polar plot function:

for x in a:
    plt.polar([0,angle(x)],[0,abs(x)],marker='o')

enter image description here

2
  • What does label = 'python'do in your plot?
    – lpnorm
    Mar 16, 2022 at 10:41
  • @Ipnorm A while ago now but doesn't do anything by the looks...
    – Lee
    Mar 16, 2022 at 18:08
2

If you prefer a plot like the one below

one type of plot

or this one second type of plot

you can do this simply by these two lines (as an example for the plots above):

z=[20+10j,15,-10-10j,5+15j] # array of complex values

complex_plane2(z,1) # function to be called

by using a simple jupyter code from here https://github.com/osnove/other/blob/master/complex_plane.py

I have written it for my own purposes. Even better it it helps to others.

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  • 2
    Could you please edit your answer to paste the image directly?
    – RSW
    Nov 5, 2022 at 6:25
1

To get that:

enter image description here

You can use:

  • cmath.polar to convert a complex number to polar rho-theta coordinates. In the code below this function is first vectorized in order to process an array of complex numbers instead of a single number, this is just to prevent the use an explicit loop.

  • A pyplot axis with its projection type set to polar. Plot can be done using pyplot.stem or pyplot.scatter.

In order to plot horizontal and vertical lines for Cartesian coordinates there are two possibilities:

  • Add a Cartesian axis and plot Cartesian coordinates. This solution is described in this question. I don't think it's an easy solution as the Cartesian axis won't be centered, nor it will have the correct scaling factor.

  • Use the polar axis, and translate Cartesian coordinates for projections into polar coordinates. This is the solution I used to plot the graph above. To not clutter the graph I've shown only one point with its projected Cartesian coordinates.

Code used for the plot above:

from cmath import pi, e, polar
from numpy import linspace, vectorize, sin, cos
from numpy.random import rand
from matplotlib import pyplot as plt

# Arrays of evenly spaced angles, and random lengths
angles = linspace(0, 2*pi, 12, endpoint=False)
lengths = 3*rand(*angles.shape)

# Create an array of complex numbers in Cartesian form
z = lengths * e ** (1j*angles)

# Convert back to polar form
vect_polar = vectorize(polar)
rho_theta = vect_polar(z)

# Plot numbers on polar projection
fig, ax = plt.subplots(subplot_kw={'projection': 'polar'})
ax.stem(rho_theta[1], rho_theta[0])

# Get a number, find projections on axes
n = 11
rho, theta = rho_theta[0][n], rho_theta[1][n]
a = cos(theta)
b = sin(theta)
rho_h, theta_h = abs(a)*rho, 0 if a >= 0 else -pi
rho_v, theta_v = abs(b)*rho, pi/2 if b >= 0 else -pi/2

# Plot h/v lines on polar projection
ax.plot((theta_h, theta), (rho_h, rho), c='r', ls='--')
ax.plot((theta, theta_v), (rho, rho_v), c='g', ls='--')
0
import matplotlib.pyplot as plt
from numpy import *


'''
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
This draws the axis for argand diagram
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
'''
r = 1
Y = [r*exp(1j*theta) for theta in linspace(0,2*pi, 200)]
Y = array(Y)
plt.plot(real(Y), imag(Y), 'r')
plt.ylabel('Imaginary')
plt.xlabel('Real')
plt.axhline(y=0,color='black')
plt.axvline(x=0, color='black')


def argand(complex_number):
    '''
    This function takes a complex number.
    '''
    y = complex_number
    x1,y1 = [0,real(y)], [0, imag(y)]
    x2,y2 = [real(y), real(y)], [0, imag(y)]


    plt.plot(x1,y1, 'r') # Draw the hypotenuse
    plt.plot(x2,y2, 'r') # Draw the projection on real-axis

    plt.plot(real(y), imag(y), 'bo')

[argand(r*exp(1j*theta)) for theta in linspace(0,2*pi,100)]
plt.show()

https://github.com/QuantumNovice/Matplotlib-Argand-Diagram/blob/master/argand.py

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