# Randomly generate 1 or -1 (positive or negative integer)

I wanted to generate 1 or -1 in Python as a step to randomizing between non-negative and non-positive numbers or to randomly changing sign of an already existing integer. What would be the best way to generate 1 or -1 in Python? Assuming even distribution I know I could use:

import random

#method1
my_number = random.choice((-1, 1))

#method2
my_number = (-1)**random.randrange(2)

#method3
# if I understand correctly random.random() should never return exactly 1
# so I use "<", not "<="
if random.random() < 0.5:
my_number = 1
else:
my_number = -1

#method4
my_number = random.randint(0,1)*2-1

Using timeit module I got the following results:

#method1
s = "my_number = random.choice((-1, 1))"
timeit.timeit(stmt = s, setup = "import random")
>2.814896769857569
#method2
s = "my_number = (-1)**random.randrange(2)"
timeit.timeit(stmt = s, setup = "import random")
>3.521280517518562
#method3
s = """
if random.random() < 0.5: my_number = 1
else: my_number = -1"""
timeit.timeit(stmt = s, setup = "import random")
>0.25321546903273884
#method4
s = "random.randint(0,1)*2-1"
timeit.timeit(stmt = s, setup = "import random")
>4.526625442240402

So unexpectedly method 3 is the fastest. My bet was on method 1 to be the fastest as it is also shortest. Also both method 1 (since Python 3.6 I think?) and 3 give the possibility to introduce uneven distributions. Although method 1 is shortest (main advantege) for now I would choose method 3:

def positive_or_negative():
if random.random() < 0.5:
return 1
else:
return -1

Testing:

s = """
import random
def positive_or_negative():
if random.random() < 0.5:
return 1
else:
return -1
"""
timeit.timeit(stmt = "my_number = positive_or_negative()", setup = s)
>0.3916183138621818

Any better (faster or shorter) method to randomly generate -1 or 1 in Python? Any reason why would you choose method 1 over method 3 or vice versa?

• Method 3 is fastest because all the other methods have to do something like that internally. Oct 18, 2017 at 22:38

A one liner variation of #3:

return 1 if random.random() < 0.5 else -1

It's fast(er) than the 'math' variants, because it doesn't involve additional arithmetic.

Here's another one-liner that my timings show to be faster than the if/else comparison to 0.5:

[-1,1][random.randrange(2)]
• I tested this - it is not faster. timeit.timeit(stmt = "my_number = 1 if random.random() < 0.5 else -1", setup = "import random") >0.17129717730503558 and timeit.timeit("my_number = [-1,1][random.randrange(1,2)]",setup= "import random") >2.5639535604734647 Oct 20, 2017 at 13:10
• @Siemkowski Your range specification is different than mine, and there may be differences between various versions of Python.
– pjs
Oct 20, 2017 at 13:21
• sorry, pasted wrong line, but it is still slower for me. I use Python 3.6.1. What version did you test it on? Oct 20, 2017 at 13:23
• @Siemkowski Python 2.7.10 on MacOS.
– pjs
Oct 20, 2017 at 13:32
• I like the simplicity of this code. Don't care about the difference in performance as much in my scenario - thanks! (: Apr 18, 2021 at 5:51

not sure what your application is exactly, but I needed something similar for a large vectorized array.

Here's a good way to get a sign array:

(2*np.random.randint(0,2,size=(your_size))-1)

The result is an array, for example:

array([-1, -1, -1, 1, 1, 1, -1, -1, 1, 1, 1, -1, -1, 1, -1])

and you can use the reshape command to get the above to the size of your matrix:

(2*np.random.randint(0,2,size=(m*n))-1).reshape(m,n)

Then you can multiply a matrix by the above and get all of the members with random signs.

A= np.array([[1, 2, 3], [4, 5, 6]])

B = A*(2*np.random.randint(0,2,size=(2*3))-1).reshape(2,3)

Then you get something like :

B = array([[ 1, 2, -3],[ 4, 5, -6]])

Pretty quick, if your data is vectorized.

1. Generate random number: 0 or 1
2. Get them mutiplied by 2: 0 or 2
3. Substract 1: -1 or 1

Adapt that to any programming code. No need for test functions.

print(random.randint(0,1)*2-1)

works also without randint

print(int(random.random()*2)*2-1)

The fastest way to generate random numbers if you're going to be doing lots of them is by using numpy:

In [1]: import numpy as np

In [2]: import random

In [3]: %timeit [random.choice([-1,1]) for i in range(100000)]
10 loops, best of 3: 88.9 ms per loop

In [4]: %timeit [(-1)**random.randrange(2) for i in range(100000)]
10 loops, best of 3: 110 ms per loop

In [5]: %timeit [1 if random.random() < 0.5 else -1 for i in range(100000)]
100 loops, best of 3: 18.4 ms per loop

In [6]: %timeit [random.randint(0,1)*2-1 for i in range(100000)]
1 loop, best of 3: 180 ms per loop

In [7]: %timeit np.random.choice([-1,1],size=100000)
1000 loops, best of 3: 1.52 ms per loop
• At least the last one doesn't only return -1,+1. Oct 18, 2017 at 23:25
• isn't the last one (7) equivalent to random.choices([-1,1], k=100000) in random module? Oct 19, 2017 at 8:35
• @Siemkowski There was an edit, and the comment above referred to (8) i suppose. Oct 19, 2017 at 11:09
• @sascha I know, I am referring to (7) Oct 19, 2017 at 11:14
• Yes it is. But python's random module is not numpy's random module. Oct 19, 2017 at 11:15

If you need many bits or can pre-calculate bit-arrays for later consumption, numpy's methods might shine.

Here is some more demo-approach using numpy (which surprisingly does not have a method dedicated for this job exactly):

import numpy as np
import random

def sample_bits(N):
assert N % 8 == 0  # demo only
n_bytes = N // 8

rbytes = np.random.randint(0, 255, dtype=np.uint8, size=n_bytes)
return np.unpackbits(rbytes)

def alt(N):
return np.random.choice([-1,1],size=N)

def alt2(N):
return [1 if random.random() < 0.5 else -1 for i in range(N)]

if __name__ == '__main__':
import timeit
print(timeit.timeit("sample_bits(1024)", setup="from __main__ import sample_bits", number=10000))
print(timeit.timeit("alt(1024)", setup="from __main__ import alt", number=10000))
print(timeit.timeit("alt2(1024)", setup="from __main__ import alt2", number=10000))

Output:

0.06640421246836543
0.352129537507486
1.5522800431775592

The general idea is:

• use numpy to generate many uint8's in one step
• (there might be something better using internal functions without the randint-API)
• unpack uint8's to 8 bits
• uniformity follows from randint's uniformity guarantees

Again, this is only a demo:

• for one specific case
• not caring about different result-types of these functions
• not caring about -1 vs. 0 (might be important in your use-case)
• (not even optimal compared to much more low-level approaches; MT used internally can be used as a bit-source, which does not need fp-math, like many other PRNGs!)

random.randrange(-1,3,2)
prints a random number -1 or 1.
Remember "import random".
Explanation: https://www.w3schools.com/python/ref_random_randrange.asp

My code is as

vals = array("i", [-1, 1])

def my_rnd():
return vals[randint(0, 7) % 2]
• Why use randint(0, 7) % 2 instead of just randint(0, 1)? Oct 18, 2017 at 22:40
• My test shows this slower than all the OP's options. Oct 18, 2017 at 23:06