You could use `itertools.product`

to iterate over the cartesian product ^{1} of some values (in this case the indices):

```
import itertools
shape = [4,5,2,6]
for idx in itertools.product(*[range(s) for s in shape]):
value = dataset[idx]
print(idx, value)
# i would be "idx[0]", j "idx[1]" and so on...
```

However if it's a numpy array you want to iterate over, it *could* be easier to use `np.ndenumerate`

:

```
import numpy as np
arr = np.random.random([4,5,2,6])
for idx, value in np.ndenumerate(arr):
print(idx, value)
# i would be "idx[0]", j "idx[1]" and so on...
```

^{1} You asked for clarification what `itertools.product(*[range(s) for s in shape])`

actually does. So I'll explain it in more details.

For example is you have this loop:

```
for i in range(10):
for j in range(8):
# do whatever
```

This can also be written using `product`

as:

```
for i, j in itertools.product(range(10), range(8)):
# ^^^^^^^^---- the inner for loop
# ^^^^^^^^^-------------- the outer for loop
# do whatever
```

That means `product`

is just a handy way of reducing the number of **independant** for-loops.

If you want to convert a variable number of `for`

-loops to a `product`

you essentially need two steps:

```
# Create the "values" each for-loop iterates over
loopover = [range(s) for s in shape]
# Unpack the list using "*" operator because "product" needs them as
# different positional arguments:
prod = itertools.product(*loopover)
for idx in prod:
i_0, i_1, ..., i_n = idx # index is a tuple that can be unpacked if you know the number of values.
# The "..." has to be replaced with the variables in real code!
# do whatever
```

That's equivalent to:

```
for i_1 in range(shape[0]):
for i_2 in range(shape[1]):
... # more loops
for i_n in range(shape[n]): # n is the length of the "shape" object
# do whatever
```