# Does a heaviside step function exist?

Is there a heaviside function in Python similar to that of MATLAB's `heaviside`?

I am struggling to find one.

-

If you are using numpy, you could implement it as `0.5 * (numpy.sign(x) + 1)`

``````In [19]: x
Out[19]: array([-2. , -1.5, -1. , -0.5,  0. ,  0.5,  1. ,  1.5,  2. ])

In [20]: 0.5 * (numpy.sign(x) + 1)
Out[20]: array([ 0. ,  0. ,  0. ,  0. ,  0.5,  1. ,  1. ,  1. ,  1. ])
``````
-
+1 for the numpy solution. – nye17 Apr 4 '13 at 3:48

It's part of sympy, which you can install with `pip install sympy`

From the docs:

``````class sympy.functions.special.delta_functions.Heaviside

Heaviside Piecewise function. Heaviside function has the following properties:

1) diff(Heaviside(x),x) = DiracDelta(x)    ( 0, if x<0 )
2) Heaviside(x) = < [*] 1/2 if x==0        ( 1, if x>0 )
``````

You would use it like this:

``````In [1]: from sympy.functions.special.delta_functions import Heaviside

In [2]: Heaviside(1)
Out[2]: 1

In [3]: Heaviside(0)
Out[3]: 1/2

In [4]: Heaviside(-1)
Out[4]: 0
``````

You could also write your own:

``````heaviside = lambda x: 0.5 if x == 0 else 0 if x < 0 else 1
``````

Although that may not meet your needs if you require a symbolic variable.

-

Probably the simplest method is just

``````def step(x):
return 1 * (x > 0)
``````

This works for both single numbers and numpy arrays, returns integers, and is zero for x = 0. The last criteria may be preferable over `step(0) => 0.5` in certain circumstances.

-
Maybe `return int(x > 0)` is more readable? At least for me. – becko Feb 13 at 22:29
@becko Definitely more readable, but it won't work on numpy arrays. If you try it you'll get `TypeError: only length-1 arrays can be converted to Python scalars`. And it's probably less readable than `return 1 if x > 0 else 0`, which is almost identical to what you have here. – clwainwright Feb 14 at 22:36
Right, you had me with the Numpy arrays – becko Feb 14 at 23:07

I'm not sure if it's there out-of-the-box, but you can always write one:

``````def heaviside(x):
if x == 0:
return 0.5

return 0 if x < 0 else 1
``````
-
Or just `return 0.5 if x == 0 else 0 if x < 0 else 1`. – Steven Rumbalski Feb 27 '13 at 20:13
It's certainly shorter, but I prefer not nesting `if..else` statements if it can be avoided. It's a matter of style I guess. :) – netcoder Feb 27 '13 at 20:58
I recently objected to someone nesting something like this three levels deep. But I also noticed that Python's version of the conditional expression nests much better than most. – Steven Rumbalski Feb 27 '13 at 21:07
This definition works fine for my needs. Thank you @netcoder and to everybody else who has contributed. – 8765674 Feb 27 '13 at 21:29
Watch your use of constants 0, you may want to use 0.0 and 1.0 etc. – Arcturus Feb 28 '13 at 6:41

Not sure if the best way getting things done... but here is function that I hacked up.

``````def u(t):
unit_step = numpy.arange(t.shape[0])
lcv = numpy.arange(t.shape[0])
for place in lcv:
if t[place] == 0:
unit_step[place] = .5
elif t[place] > 0:
unit_step[place] = 1
elif t[place] < 0:
unit_step[place] = 0
return unit_step
``````

-