np.random.rand vs np.random.random
First note that numpy.random.random
is actually an alias for numpy.random.random_sample
. I'll use the latter in the following. (See this question and answer for more aliases.)
Both functions generate samples from the uniform distribution on [0, 1). The only difference is in how the arguments are handled. With numpy.random.rand
, the length of each dimension of the output array is a separate argument. With numpy.random.random_sample
, the shape argument is a single tuple.
For example, to create an array of samples with shape (3, 5), you can write
sample = np.random.rand(3, 5)
or
sample = np.random.random_sample((3, 5))
(Really, that's it.)
Update
As of version 1.17, NumPy has a new random API. The recommended method for generating samples from the uniform distribution on [0, 1) is:
>>> rng = np.random.default_rng() # Create a default Generator.
>>> rng.random(size=10) # Generate 10 samples.
array([0.00416913, 0.31533329, 0.19057857, 0.48732511, 0.40638395,
0.32165646, 0.02597142, 0.19788567, 0.08142055, 0.15755424])
The new Generator
class does not have the rand()
or random_sample()
methods. There is a uniform()
method that allows you to specify the lower and upper bounds of the distribution. E.g.
>>> rng.uniform(1, 2, size=10)
array([1.75573298, 1.79862591, 1.53700962, 1.29183769, 1.16439681,
1.64413869, 1.7675135 , 1.02121057, 1.37345967, 1.73589452])
The old functions in the numpy.random
namespace will continue to work, but they are considered "frozen", with no ongoing development. If you are writing new code, and you don't have to support pre-1.17 versions of numpy, it is recommended that you use the new random API.
I had the same question. This shows the outputs are identical. The difference is in input format (single arg for dimensions (tuple or list) vs a sequence of dimension args):
# np.random.random([2,3]) vs np.random.rand(2,3)
print()
np.random.seed(1)
print(' .. np.random.random([2,3]):\n', np.random.random([2,3]))
print()
np.random.seed(1)
print(' .. np.random.rand(2,3):\n', np.random.rand(2,3))
# output
.. np.random.random([2,3]):
[[4.17022005e-01 7.20324493e-01 1.14374817e-04]
[3.02332573e-01 1.46755891e-01 9.23385948e-02]]
.. np.random.rand(2,3):
[[4.17022005e-01 7.20324493e-01 1.14374817e-04]
[3.02332573e-01 1.46755891e-01 9.23385948e-02]]