# How to get Cartesian product in Python using a generator?

I'm trying to get the Cartesian product of multiple arrays but the arrays are pretty large and I am trying to optimize memory usage. I have tried implementing a generator by using the below code but it just returns that there is a generator at a certain location.

``````import itertools

x = [[1,2],[3,4]]

def iter_tools(*array):
yield list(itertools.product(*array))

print(iter_tools(*x))
``````

When I try the same code but with `return` instead of `yield` it works fine. How could I get the cartesian product by implementing a generator?

• Your generator materializes the whole product immediately defeating the entire purpose. In any case, `itertools.product(*array)` is already an efficient iterator. There is no need to wrap it in an generator. So just use `itertools.product(*array)`. Your generator does work, generator functions return generators. It seems like you have a fundamental misunderstanding. May 8, 2020 at 18:01
• @juanpa Thanks! I posted an answer partly based on your comment. May 8, 2020 at 19:00

Bottom line, `itertools.product` is already an iterator. You don't need to write your own. (A generator is a kind of iterator.) For example:

``````>>> x = [[1, 2], [3, 4]]
>>> p = itertools.product(*x)
>>> next(p)
(1, 3)
>>> next(p)
(1, 4)
``````

Now, to explain, it seems like you're misunderstanding something fundamental. A generator function returns a generator iterator. That's what you're seeing from the print:

``````>>> iter_tools(*x)
<generator object iter_tools at 0x7f05d9bc3660>
``````

Use `list()` to cast an iterator to a list.

``````>>> list(iter_tools(*x))
[[(1, 3), (1, 4), (2, 3), (2, 4)]]
``````

Note how it's a nested list. That's because your `iter_tools` yields one list then nothing else. On that note, that part makes no sense because casting `itertools.product` to a list defeats the whole purpose of an iterator - lazy evaluation. If you actually wanted to yield the values from an iterator, you would use `yield from`:

``````def iter_tools(*array):
yield from itertools.product(*array)
``````

In this case `iter_tools` is pointless, but if your actual `iter_tools` is more complex, this might be what you actually want.

This answer is partly based on juanpa.arrivillaga's comment

The idea of a generator is that you don't do all the calculation at the same time, as you do with your call `list(itertools.product(*array))`. So what you want to do is generate the results one by one. For example like this:

``````def iter_tools(*array):
for i in array:
for j in array:
yield (i, j)

``````

You can then do something with each resulting tuple like this:

``````for tup in iter_tools(*x):
print(tup)
``````

Of course you can easily adapt the generator so that it yields each row or columns per call.

Or if you are happy with what itertools provides:

``````for i in itertools.product(*x):
print(i)
``````

What you need depends on your use-case. Hope I could help you :)

If you want to yield individual item from the cartesian product, you need to iterate over the product:

``````import itertools

x = [[1,2],[3,4]]

def iter_tools(*array):
for a in itertools.product(*array):
yield a

for a in iter_tools(*x):
print(a)

``````
• `itertools.product` is already an iterator, making this `iter_tools` pointless. May 8, 2020 at 18:06