40

This should be easy but I have just started toying with matplotlib and python. I can do a line or a scatter plot but i am not sure how to do a simple step function. Any help is much appreciated.

x = 1,2,3,4
y = 0.002871972681775004, 0.00514787917410944, 0.00863476098280219, 0.012003316194034325
2

6 Answers 6

64

It seems like you want step.

E.g.

import matplotlib.pyplot as plt

x = [1,2,3,4] 
y = [0.002871972681775004, 0.00514787917410944, 
     0.00863476098280219, 0.012003316194034325]

plt.step(x, y)
plt.show()

enter image description here

3
  • 7
    Well, if you don't want any vertical lines, have a look at plt.hlines. E.g. plt.hlines(y, range(1,5), range(2,6)) Jan 19, 2012 at 6:17
  • 2
    @Joe Kington: Sorry for the year-later comment. I'm a bit confused by this. Shouldn't the graph show 0.0028 between 1 and 2 and then jump to 0.051 at 2, and so on? It looks like step uses the next value along. (I'm thinking of a timeseries step, where the value is a at t0 and remains a until t1 when it changes to b and so on.) Is there a way to make step() behave in this way. Mar 31, 2013 at 21:19
  • 16
    To answer my comment above, I've found that you can add the where='post' parameter to the step function. So in the example above, it would be: plt.step(x, y, where='post') Mar 31, 2013 at 21:28
23

If you have non-uniformly spaced data points, you can use the drawstyle keyword argument for plot:

x = [1,2.5,3.5,4] 
y = [0.002871972681775004, 0.00514787917410944, 
     0.00863476098280219, 0.012003316194034325]

plt.plot(x, y, drawstyle='steps-pre')

Also available are steps-mid and steps-post.

2
  • Great. I used this for something else. Simple and precise.
    – Jerry Ajay
    Jul 21, 2015 at 23:46
  • 1
    drawstyle documentation link. "‘steps’ is equivalent to ‘steps-pre’ and is maintained for backward-compatibility." Apr 11, 2017 at 15:03
3

New in matplotlib 3.4.0

There is a new plt.stairs method to complement plt.step:

plt.stairs and the underlying StepPatch provide a cleaner interface for plotting stepwise constant functions for the common case that you know the step edges.

This supersedes many use cases of plt.step, for instance when plotting the output of np.histogram.

Check out the official matplotlib gallery for how to use plt.stairs and StepPatch.


When to use plt.step vs plt.stairs

  • Use the original plt.step if you have reference points. Here the steps are anchored at [1,2,3,4] and extended to the left:

    plt.step(x=[1,2,3,4], y=[20,40,60,30])
    
  • Use the new plt.stairs if you have edges. The previous [1,2,3,4] step points correspond to [1,1,2,3,4] stair edges:

    plt.stairs(values=[20,40,60,30], edges=[1,1,2,3,4])
    

plt.step vs plt.stairs


Using plt.stairs with np.histogram

Since np.histogram returns edges, it works directly with plt.stairs:

data = np.random.normal(5, 3, 3000)
bins = np.linspace(0, 10, 20)
hist, edges = np.histogram(data, bins)

plt.stairs(hist, edges)

plt.stairs with np.histogram

2

I think you want pylab.bar(x,y,width=1) or equally pyplot's bar method. if not checkout the gallery for the many styles of plots you can do. Each image comes with example code showing you how to make it using matplotlib.

2

Draw two lines, one at y=0, and one at y=1, cutting off at whatever x your step function is for.

e.g. if you want to step from 0 to 1 at x=2.3 and plot from x=0 to x=5:

import matplotlib.pyplot as plt
#                                 _
# if you want the vertical line _|
plt.plot([0,2.3,2.3,5],[0,0,1,1])
#
# OR:
#                                       _
# if you don't want the vertical line _
#plt.plot([0,2.3],[0,0],[2.3,5],[1,1])

# now change the y axis so we can actually see the line
plt.ylim(-0.1,1.1)

plt.show()
0

In case someone just wants to stepify some data rather than actually plot it:

def get_x_y_steps(x, y, where="post"):
    if where == "post":
        x_step = [x[0]] + [_x for tup in zip(x, x)[1:] for _x in tup]
        y_step = [_y for tup in zip(y, y)[:-1] for _y in tup] + [y[-1]]
    elif where == "pre":
        x_step = [_x for tup in zip(x, x)[:-1] for _x in tup] + [x[-1]]
        y_step = [y[0]] + [_y for tup in zip(y, y)[1:] for _y in tup]
    return x_step, y_step
2
  • Have been looking without success for an inbuilt function. Thanks! I had an issue (due to version?): TypeError: 'zip' object is not subscriptable. I'm using Python 3.5. The function works after I change all zip for list(zip(...)).
    – Daniel
    Feb 11, 2017 at 13:32
  • @daniel Thanks for noting that! I wrote the code for python 2, so that explains the error.
    – Ulf Aslak
    Feb 12, 2017 at 11:13

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