How do I build a numpy array from a generator?

One google behind this stackoverflow result, I found that there is a numpy.fromiter(data, dtype, count). The default count=-1 takes all elements from the iterable. It requires a dtype to be set explicitly. In my case, this worked:

numpy.fromiter(something.generate(from_this_input), float)


Numpy arrays require their length to be set explicitly at creation time, unlike python lists. This is necessary so that space for each item can be consecutively allocated in memory. Consecutive allocation is the key feature of numpy arrays: this combined with native code implementation let operations on them execute much quicker than regular lists.

Keeping this in mind, it is technically impossible to take a generator object and turn it into an array unless you either:

  1. can predict how many elements it will yield when run:

    my_array = numpy.empty(predict_length())
    for i, el in enumerate(gimme()): my_array[i] = el
    
  2. are willing to store its elements in an intermediate list :

    my_array = numpy.array(list(gimme()))
    
  3. can make two identical generators, run through the first one to find the total length, initialize the array, and then run through the generator again to find each element:

    length = sum(1 for el in gimme())
    my_array = numpy.empty(length)
    for i, el in enumerate(gimme()): my_array[i] = el
    

1 is probably what you're looking for. 2 is space inefficient, and 3 is time inefficient (you have to go through the generator twice).


While you can create a 1D array from a generator with numpy.fromiter(), you can create an N-D array from a generator with numpy.stack:

>>> mygen = (np.ones((5, 3)) for _ in range(10))
>>> x = numpy.stack(mygen)
>>> x.shape
(10, 5, 3)

It also works for 1D arrays:

>>> numpy.stack(2*i for i in range(10))
array([ 0,  2,  4,  6,  8, 10, 12, 14, 16, 18])

Note that numpy.stack is internally consuming the generator and creating an intermediate list with arrays = [asanyarray(arr) for arr in arrays]. The implementation can be found here.

[WARNING] As pointed out by @Joseh Seedy, Numpy 1.16 raises a warning that defeats usage of such function with generators.