How to filter with arrays containing missing values#

import awkward as ak
import numpy as np

Indexing with missing values#

In Building an awkward index, we looked building arrays of integers to perform awkward indexing using ak.argmin() and ak.argmax(). In particular, the keepdims argument of ak.argmin() and ak.argmax() is very useful for creating arrays that can be used to index into the original array. However, reducers such as ak.argmax() behave differently when they are asked to operate upon empty lists.

Let’s first create an array that contains empty sublists:

array = ak.Array(
    [
        [],
        [10, 3, 2, 9],
        [4, 5, 5, 12, 6],
        [],
        [8, 9, -1],
    ]
)
array

[[],
 [10, 3, 2, 9],
 [4, 5, 5, 12, 6],
 [],
 [8, 9, -1]]
---------------------
type: 5 * var * int64

Awkward reducers accept a mask_identity argument, which changes the ak.Array.type and the values of the result:

ak.argmax(array, keepdims=True, axis=-1, mask_identity=False)

[[-1],
 [0],
 [3],
 [-1],
 [1]]
-------------------
type: 5 * 1 * int64
ak.argmax(array, keepdims=True, axis=-1, mask_identity=True)

[[None],
 [0],
 [3],
 [None],
 [1]]
--------------------
type: 5 * 1 * ?int64

Setting mask_identity=True yields the identity value for the reducer instead of None when reducing empty lists. From the above examples of ak.argmax(), we can see that the identity for the ak.argmax() is -1: What happens if we try and use the array produced with mask_identity=False to index into array?

As discussed in Indexing with argmin and argmax, we first need to convert at least one dimension to a ragged dimension

index = ak.from_regular(
    ak.argmax(array, keepdims=True, axis=-1, mask_identity=False)
)

Now, if we try and index into array with index, it will raise an exception

array[index]

---------------------------------------------------------------------------
IndexError                                Traceback (most recent call last)
Cell In[6], line 1
----> 1 array[index]

File ~/micromamba/envs/awkward-docs/lib/python3.11/site-packages/awkward/highlevel.py:1062, in Array.__getitem__(self, where)
    632 """
    633 Args:
    634     where (many types supported; see below): Index of positions to
   (...)
   1058 have the same dimension as the array being indexed.
   1059 """
   1060 with ak._errors.SlicingErrorContext(self, where):
   1061     return wrap_layout(
-> 1062         prepare_layout(self._layout[where]),
   1063         self._behavior,
   1064         allow_other=True,
   1065         attrs=self._attrs,
   1066     )

File ~/micromamba/envs/awkward-docs/lib/python3.11/site-packages/awkward/contents/content.py:519, in Content.__getitem__(self, where)
    518 def __getitem__(self, where):
--> 519     return self._getitem(where)

File ~/micromamba/envs/awkward-docs/lib/python3.11/site-packages/awkward/contents/content.py:572, in Content._getitem(self, where)
    569         return out._getitem_at(0)
    571 elif isinstance(where, ak.highlevel.Array):
--> 572     return self._getitem(where.layout)
    574 # Convert between nplikes of different backends
    575 elif (
    576     isinstance(where, ak.contents.Content)
    577     and where.backend is not self._backend
    578 ):

File ~/micromamba/envs/awkward-docs/lib/python3.11/site-packages/awkward/contents/content.py:647, in Content._getitem(self, where)
    644     return where.to_NumpyArray(np.int64)
    646 elif isinstance(where, Content):
--> 647     return self._getitem((where,))
    649 elif is_sized_iterable(where):
    650     # Do we have an array
    651     nplike = nplike_of_obj(where, default=None)

File ~/micromamba/envs/awkward-docs/lib/python3.11/site-packages/awkward/contents/content.py:564, in Content._getitem(self, where)
    555 nextwhere = ak._slicing.prepare_advanced_indexing(items, backend)
    557 next = ak.contents.RegularArray(
    558     this,
    559     this.length,
    560     1,
    561     parameters=None,
    562 )
--> 564 out = next._getitem_next(nextwhere[0], nextwhere[1:], None)
    566 if out.length is not unknown_length and out.length == 0:
    567     return out._getitem_nothing()

File ~/micromamba/envs/awkward-docs/lib/python3.11/site-packages/awkward/contents/regulararray.py:712, in RegularArray._getitem_next(self, head, tail, advanced)
    696     assert head.offsets.nplike is index_nplike
    697     self._maybe_index_error(
    698         self._backend[
    699             "awkward_RegularArray_getitem_jagged_expand",
   (...)
    710         slicer=head,
    711     )
--> 712     down = self._content._getitem_next_jagged(
    713         multistarts, multistops, head._content, tail
    714     )
    716     return RegularArray(
    717         down, headlength, self._length, parameters=self._parameters
    718     )
    720 elif isinstance(head, ak.contents.IndexedOptionArray):

File ~/micromamba/envs/awkward-docs/lib/python3.11/site-packages/awkward/contents/listoffsetarray.py:427, in ListOffsetArray._getitem_next_jagged(self, slicestarts, slicestops, slicecontent, tail)
    421 def _getitem_next_jagged(
    422     self, slicestarts: Index, slicestops: Index, slicecontent: Content, tail
    423 ) -> Content:
    424     out = ak.contents.ListArray(
    425         self.starts, self.stops, self._content, parameters=self._parameters
    426     )
--> 427     return out._getitem_next_jagged(slicestarts, slicestops, slicecontent, tail)

File ~/micromamba/envs/awkward-docs/lib/python3.11/site-packages/awkward/contents/listarray.py:551, in ListArray._getitem_next_jagged(self, slicestarts, slicestops, slicecontent, tail)
    540 nextcarry = ak.index.Index64.empty(carrylen, self._backend.index_nplike)
    542 assert (
    543     outoffsets.nplike is self._backend.index_nplike
    544     and nextcarry.nplike is self._backend.index_nplike
   (...)
    549     and self._stops.nplike is self._backend.index_nplike
    550 )
--> 551 self._maybe_index_error(
    552     self._backend[
    553         "awkward_ListArray_getitem_jagged_apply",
    554         outoffsets.dtype.type,
    555         nextcarry.dtype.type,
    556         slicestarts.dtype.type,
    557         slicestops.dtype.type,
    558         sliceindex.dtype.type,
    559         self._starts.dtype.type,
    560         self._stops.dtype.type,
    561     ](
    562         outoffsets.data,
    563         nextcarry.data,
    564         slicestarts.data,
    565         slicestops.data,
    566         slicestarts.length,
    567         sliceindex.data,
    568         sliceindex.length,
    569         self._starts.data,
    570         self._stops.data,
    571         self._content.length,
    572     ),
    573     slicer=ak.contents.ListArray(slicestarts, slicestops, slicecontent),
    574 )
    575 nextcontent = self._content._carry(nextcarry, True)
    576 nexthead, nexttail = ak._slicing.head_tail(tail)

File ~/micromamba/envs/awkward-docs/lib/python3.11/site-packages/awkward/contents/content.py:282, in Content._maybe_index_error(self, error, slicer)
    280 else:
    281     message = self._backend.format_kernel_error(error)
--> 282     raise ak._errors.index_error(self, slicer, message)

IndexError: cannot slice ListArray (of length 5) with [[-1], [0], [3], [-1], [1]]: index out of range while attempting to get index -1 (in compiled code: https://github.com/scikit-hep/awkward/blob/awkward-cpp-28/awkward-cpp/src/cpu-kernels/awkward_ListArray_getitem_jagged_apply.cpp#L43)

This error occurred while attempting to slice

    <Array [[], [10, 3, 2, 9], ..., [], [8, 9, -1]] type='5 * var * int64'>

with

    <Array [[-1], [0], [3], [-1], [1]] type='5 * var * int64'>

From the error message, it is clear that for some sublist(s) the index -1 is out of range. This makes sense; some of our sublists are empty, meaning that there is no valid integer to index into them.

Now let’s look at the result of indexing with mask_identity=True.

index = ak.argmax(array, keepdims=True, axis=-1, mask_identity=True)

Because it contains an option type, index already satisfies rule (2) in Building an awkward index, and we do not need to convert it to a ragged array. We can see that this index succeeds:

array[index]

[[None],
 [10],
 [12],
 [None],
 [9]]
----------------------
type: 5 * var * ?int64

Here, the missing values in the index array correspond to missing values in the output array.

Indexing with missing sublists#

Ragged indexing also supports using None in place of empty sublists within an index. For example, given the following array

array = ak.Array(
    [
        [10, 3, 2, 9],
        [4, 5, 5, 12, 6],
        [],
        [8, 9, -1],
    ]
)
array

[[10, 3, 2, 9],
 [4, 5, 5, 12, 6],
 [],
 [8, 9, -1]]
---------------------
type: 4 * var * int64

let’s use build a ragged index to pull out some particular values. Rather than using empty lists, we can use None to mask out sublists that we don’t care about:

array[
    [
        [0, 1],
        None,
        [],
        [2],
    ],
]

[[10, 3],
 None,
 [],
 [-1]]
-----------------------------
type: 4 * option[var * int64]

If we compare this with simply providing an empty sublist,

array[
    [
        [0, 1],
        [],
        [],
        [2],
    ],
]

[[10, 3],
 [],
 [],
 [-1]]
---------------------
type: 4 * var * int64

we can see that the None value introduces an option-type into the final result. None values can be used at any level in the index array to introduce an option-type at that depth in the result.