I have a dataset like this:

```
a = tf.data.Dataset.range(1, 16)
b = tf.data.Dataset.range(16, 32)
zipped = tf.data.Dataset.zip((a, b))
list(zipped.as_numpy_iterator())
# output:
[(0, 16),
(1, 17),
(2, 18),
(3, 19),
(4, 20),
(5, 21),
(6, 22),
(7, 23),
(8, 24),
(9, 25),
(10, 26),
(11, 27),
(12, 28),
(13, 29),
(14, 30),
(15, 31)]
```

When I apply `batch(4)`

to it, the expected result is an array of batches, where each batch contains four tuples:

```
[[(0, 16), (1, 17), (2, 18), (3, 19)],
[(4, 20), (5, 21), (6, 22), (7, 23)],
[(9, 24), (10, 25), (10, 26), (11, 27)],
[(12, 28), (13, 29), (14, 30), (15, 31)]]
```

But this is what I receive instead:

```
batched = zipped.batch(4)
list(batched.as_numpy_iterator())
# Output:
[(array([0, 1, 2, 3]), array([16, 17, 18, 19])),
(array([4, 5, 6, 7]), array([20, 21, 22, 23])),
(array([ 8, 9, 10, 11]), array([24, 25, 26, 27])),
(array([12, 13, 14, 15]), array([28, 29, 30, 31]))]
```

I'm following this tutorial, he does the same steps but gets the correct output somehow.

Update: according to the documentation this is the intended behavior:

The components of the resulting element will have an additional

outerdimension, which will be batch_size

But it doesn't make any sense. To my understanding, dataset is a list of pieces of data. It doesn't matter the shape of those pieces of data, when we are batching it we are combining the elements [whatever their shape is] into batches, therefore it should always insert the new dimention to the second position (`(length, a, b, c)`

-> `(length', batch_size, a, b, c)`

).

So my questions are: I wonder what is the purpose of `batch()`

being implemented this way? And what is the alternative that does what I described?