99

I am waiting for another developer to finish a piece of code that will return an np array of shape (100,2000) with values of either -1,0, or 1.

In the meantime, I want to randomly create an array of the same characteristics so I can get a head start on my development and testing. The thing is that I want this randomly created array to be the same each time, so that I'm not testing against an array that keeps changing its value each time I re-run my process.

I can create my array like this, but is there a way to create it so that it's the same each time. I can pickle the object and unpickle it, but wondering if there's another way.

r = np.random.randint(3, size=(100, 2000)) - 1

6 Answers 6

203

Create your own instance of numpy.random.RandomState() with your chosen seed. Do not use numpy.random.seed() except to work around inflexible libraries that do not let you pass around your own RandomState instance.

[~]
|1> from numpy.random import RandomState

[~]
|2> prng = RandomState(1234567890)

[~]
|3> prng.randint(-1, 2, size=10)
array([ 1,  1, -1,  0,  0, -1,  1,  0, -1, -1])

[~]
|4> prng2 = RandomState(1234567890)

[~]
|5> prng2.randint(-1, 2, size=10)
array([ 1,  1, -1,  0,  0, -1,  1,  0, -1, -1])
12
  • 7
    Do you have any rationale for your recommendation? What's wrong with numpy.random.seed()? I know it's not thread-safe, but it's really convenient if you don't need thread-safety. Apr 30, 2011 at 19:54
  • 58
    It's mostly to form good habits. You may not need independent streams now, but Sven-6-months-from-now might. If you write your libraries to use the methods directly from numpy.random, you cannot make independent streams later. It's also easier to write libraries with the intention of having controlled PRNG streams. There are always multiple ways to enter your library, and each of them should have a way to control the seed. Passing around PRNG objects is a cleaner way of doing that than relying on numpy.random.seed(). Unfortunately, this comment box is too short to contain more examples.:-) May 2, 2011 at 19:03
  • 27
    Another way of describing Robert's rationale: using numpy.random.seed uses a global variable to keep the PRNG state, and the same standard reasons that global variables are bad apply here. Mar 1, 2012 at 11:19
  • 9
    If you want the PRNGs to be independent, do not seed them with anything. Just use numpy.random.RandomState() with no arguments. This will seed the state with unique values drawn from your operating system facilities for such things (/dev/urandom on UNIX machines and the Windows equivalent there). If numpy.random.RandomState(1234567890) is not working for you, please show exactly what you typed and exactly the error message that you got. Mar 3, 2012 at 12:57
  • 5
    Not a good idea. Use numpy.random.RandomState() with no arguments for the best results. Oct 24, 2014 at 11:00
95

Simply seed the random number generator with a fixed value, e.g.

numpy.random.seed(42)

This way, you'll always get the same random number sequence.

This function will seed the global default random number generator, and any call to a function in numpy.random will use and alter its state. This is fine for many simple use cases, but it's a form of global state with all the problems global state brings. For a cleaner solution, see Robert Kern's answer below.

11
  • 49
    Someone snuck in the numpy.random.seed() function when I wasn't paying attention. :-) I intentionally left it out of the original module. I recommend that people use their own instances of RandomState and passing those objects around. Apr 29, 2011 at 21:01
  • 6
    Robert is a major contributor to numpy. I think we should give his opinion some weight.
    – deprecated
    May 1, 2011 at 0:27
  • 11
    @deprecated: I'm thankful for Robert's work, but his work isn't a substitute for giving a rationale for the recommendation. Furthermore, if the use of numpy.random.seed() is discouraged, this should be mentioned in the documentation. Apparently, other contributors to NumPy don't share Robert's opinion. No offense intended at all, I'm just curious. May 1, 2011 at 11:11
  • 14
    This is the same as using random.seed vs. using a random.Random object in the Python standard library. If you use random.seed or numpy.random.seed, you are seeding all random instances, both in your code and in any code that you are calling or any code that is run in the same session as yours. If those things depend on those things being actually random, then you start to run into problems. If you deploy code that sets the random seed, you can introduce a security vulnerability.
    – asmeurer
    Mar 24, 2014 at 18:33
  • 3
    @asmeurer Anyone using a pseudorandom number generator for security purposes probably doesn't know what they're doing.
    – JAB
    Apr 28, 2016 at 18:30
6

I just want to clarify something in regard to @Robert Kern answer just in case that is not clear. Even if you do use the RandomState you would have to initialize it every time you call a numpy random method like in Robert's example otherwise you'll get the following results.

Python 3.6.9 |Anaconda, Inc.| (default, Jul 30 2019, 19:07:31) 
[GCC 7.3.0] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> import numpy as np
>>> prng = np.random.RandomState(2019)
>>> prng.randint(-1, 2, size=10)
array([-1,  1,  0, -1,  1,  1, -1,  0, -1,  1])
>>> prng.randint(-1, 2, size=10)
array([-1, -1, -1,  0, -1, -1,  1,  0, -1, -1])
>>> prng.randint(-1, 2, size=10)
array([ 0, -1, -1,  0,  1,  1, -1,  1, -1,  1])
>>> prng.randint(-1, 2, size=10)
array([ 1,  1,  0,  0,  0, -1,  1,  1,  0, -1])
0
4

If you are using other functions relying on a random state, you can't just set and overall seed, but should instead create a function to generate your random list of number and set the seed as a parameter of the function. This will not disturb any other random generators in the code:

# Random states
def get_states(random_state, low, high, size):
    rs = np.random.RandomState(random_state)
    states = rs.randint(low=low, high=high, size=size)
    return states

# Call function
states = get_states(random_state=42, low=2, high=28347, size=25)
4

It is important to understand what is the seed of a random generator and when/how it is set in your code (check e.g. here for a nice explanation of the mathematical meaning of the seed).

For that you need to set the seed by doing:

random_state = np.random.RandomState(seed=your_favorite_seed_value)

It is then important to generate the random numbers from random_state and not from np.random. I.e. you should do:

random_state.randint(...)

instead of

np.random.randint(...) 

which will create a new instance of RandomState() and basically use your computer internal clock to set the seed.

3

Based on the latest updates in Random sampling the preferred way is to use Generators instead of RandomState. Refer to What's new or different to compare both approaches. One of the key changes is the difference between the slow Mersenne Twister pseudo-random number generator (RandomState) and a stream of random bits based on different algorithms (BitGenerators) used in the new approach (Generators).

Otherwise, the steps for producing random numpy array is very similar:

  1. Initialize random generator

Instead of RandomState you will initialize random generator. default_rng is the recommended constructor for the random Generator, but you can ofc try another ways.

import numpy as np

rng = np.random.default_rng(42)
# rng -> Generator(PCG64)
  1. Generate numpy array

Instead of randint method, there is Generator.integers method which is now the canonical way to generate integer random numbers from a discrete uniform distribution (see already mentioned What's new or different summary). Note, that endpoint=True uses [low, high] interval for sampling instead of the default [low, high).

arr = rng.integers(-1, 1, size=10, endpoint=True)
# array([-1,  1,  0,  0,  0,  1, -1,  1, -1, -1])

As already discussed, you have to initialize random generator (or random state) every time to generate identical array. Therefore, the simplest thing is to define custom function similar to the one from @mari756h answer:

def get_array(low, high, size, random_state=42, endpoint=True):
    rng = np.random.default_rng(random_state)
    return rng.integers(low, high, size=size, endpoint=endpoint)

When you call the function with the same parameters you will always get the identical numpy array.

get_array(-1, 1, 10)
# array([-1,  1,  0,  0,  0,  1, -1,  1, -1, -1])

get_array(-1, 1, 10, random_state=12345)  # change random state to get different array
# array([ 1, -1,  1, -1, -1,  1,  0,  1,  1,  0])

get_array(-1, 1, (2, 2), endpoint=False)
# array([[-1,  0],
#        [ 0, -1]])

And for your needs you would use get_array(-1, 1, size=(100, 2000)).

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