Introduction to matplotlib – Part 2

When you finished reading part 1 of the introduction you might have wondered how to draw more than one line or curve into on plot. I will show you now.

To make it a bit more interesting we generate two functions: sine and cosine. We generate our x-values with numpy’s linspace function

import numpy as np
import matplotlib.pyplot as plt

x = np.linspace(0, 2*np.pi)

sin = np.sin(x)
cos = np.cos(x)

plt.plot(x, sin, color='b')
plt.plot(x, cos, color='r')

You can plot two or more curves by repeatedly calling the plot method.

That’s fine as long as the individual plots share the same axis-description and values.


fig = plt.figure()
p1 = fig.add_subplot(2, 1, 1)
p2 = fig.add_subplot(2, 1, 2)
p1.plot(x, sin, c='b')
p2.plot(x, cos, c='r'

The add_subplot method allows us to put many plots into one “parent” plot aka figure. The arguments are (number_of_rows, number_of_columns, place in the matrix) So in this example we have 2 rows in 1 column, sine is in first, cosine in second position:

when you have a 2 by 2 matrix it is counted from columns to row

fig = plt.figure()
p1 = fig.add_subplot(221)
p2 = fig.add_subplot(222)
p3 = fig.add_subplot(223)
p4 = fig.add_subplot(224)
p1.plot(x, sin, c='b')
p2.plot(x, cos, c='r')
p3.plot(x, -sin, c='g')
p4.plot(x, -cos, c='y')

The code is available as a Jupyter Notebook on my github

10 things I didn’t know about Data Science a year ago

In my article My personal road map for learning data science in 2018 I wrote about how I try to tackle the data science knowledge sphere. Due to the fact that 2018 is slowly coming to an end I think it is time for a little wrap up.

What are the things I learned about Data Science in 2018? Here we go:

1. The difference between Data Science, Machine Learning, Deep Learning and AI

Continue reading “10 things I didn’t know about Data Science a year ago”