Indexing PyKX Objects

An introduction to indexing within PyKX

Indexing in q works differently than you may be used to, and that behavior largely carries over into PyKX for indexing K objects. For more information about how indexing in q works (and by extension, how indexing K objects in PyKX work), refer to the following sections of the q tutorial book Q For Mortals:

• Indexing
• Iterated Indexing and Indexing at Depth
• Indexing with Lists
• Elided Indices

Indexes used on K objects in PyKX are converted to equivalent K objects in q using the toq module, just like any other Python to q conversion. To guarantee that the index used against a K object is what you intend it to be, you may perform the conversion of the index yourself before applying it. When K objects are used as the index for another K object, the index object is applied to the pykx.Collection object as they would be in q; i.e. as described in Q For Mortals.

The following provides some examples of applying indexing to various q objects:

Basic Vectors Indexing

Indexing in PyKX spans elements 0 to element N-1 where N is the length of the object being indexed.

Single element indexing

Single element indexing works similarly to any other standard Python sequence. Similar to Numpy PyKX supports negative indices to allow retrieval of indexes at the end of an array. For example:

>>> x = kx.q.til(10)
>>> x[2]
pykx.LongAtom(pykx.q('2'))
>>> x[-2]
pykx.LongAtom(pykx.q('8'))
>>> y = kx.CharVector('abcdefg')
>>> y[0]
pykx.CharAtom(pykx.q('"a"'))
>>> y[-2]
pykx.CharAtom(pykx.q('"f"')) 

Similar to Numpy indexing an array out of bounds will result in an IndexError being raised.

>>> x = kx.q.til(5)
>>> x[6]
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "/usr/local/anaconda3/lib/python3.8/site-packages/pykx/wrappers.py", line 1165, in __getitem__
    return q('@', self, _idx_to_k(key, _wrappers.k_n(self)))
  File "/usr/local/anaconda3/lib/python3.8/site-packages/pykx/wrappers.py", line 212, in _idx_to_k
    raise IndexError('index out of range')
IndexError: index out of range

N Dimensional list vectors can also be manipulated using single element indexing as follows

>>> x = kx.random.random([4, 4], 1.0)
>>> x
pykx.List(pykx.q('
0.5294808 0.6916099 0.2296615 0.6919531 
0.4707883 0.6346716 0.9672398 0.2306385 
0.949975  0.439081  0.5759051 0.5919004 
0.8481567 0.389056  0.391543  0.08123546
'))
>>> x[0][3]
pykx.FloatAtom(pykx.q('0.6919531'))

Slicing

Slicing vectors in PyKX is more simplistic than the functionality provided by Numpy. Vectors of N dimensions are indexed using obj[start:stop:step] semantics. This slice syntax operates where start is the starting index, stop is the stopping index and step is the number of steps between the elements where step is non zero

>>> x = kx.q.til(10)
>>> x[2:4]
pykx.LongVector(pykx.q('2 3'))
>>> x[5:]
pykx.LongVector(pykx.q('5 6 7 8 9'))
>>> x[:8:2]
pykx.LongVector(pykx.q('0 2 4 6'))

>>> x = kx.random.random([4, 4], 1.0)
>>> x[:2]
pykx.List(pykx.q('
0.1477547 0.274227  0.5635053 0.883823 
0.2439194 0.6718125 0.8639591 0.8439807
'))

>>> y = kx.CharVector('abcdefg')
>>> y[2:4]
pykx.CharVector(pykx.q('"cd"'))
>>> y[3:]
pykx.CharVector(pykx.q('"defg"'))
>>> y[:6:2]
pykx.CharVector(pykx.q('"ace"'))

Negative slicing works in a similar way and can be used for list, vector and table objects too.

>>> list = kx.q('("a"; 2; 3.3; `four)')
>>> list[-3:]
pykx.List(pykx.q('
2
3.3
`four
'))

>>> vector = kx.q.til(5)
>>> vector[:-1]
pykx.LongVector(pykx.q('0 1 2 3'))

>>> table = kx.Table(data = {
...     'a': [1, 2, 3],
...     'b': [4, 5, 6],
...     'c': [7, 8, 9],
... })
>>> table[-2:]
pykx.Table(pykx.q('
a b c
-----
2 5 8
3 6 9
'))

Assigning and Adding Values to Vectors/Lists

Vector assignment in PyKX operates similarly to that provided by Numpy and operations supported on basic Python lists. As with the previous sections this functionality supports both individual element assignment and slice assignment as follows:

>>> vec = kx.q.til(10)
>>> vec
pykx.LongVector(pykx.q('0 1 2 3 4 5 6 7 8 9'))
>>> vec[1] = 15
>>> vec
pykx.LongVector(pykx.q('0 15 2 3 4 5 6 7 8 9'))
>>> vec[-1] = 10
>>> vec
pykx.LongVector(pykx.q('0 15 2 3 4 5 6 7 8 10'))
>>> vec[:5] = 0
>>> vec
pykx.LongVector(pykx.q('0 0 0 0 0 5 6 7 8 10'))

N-Dimensional vector element assignment not supported

>>> x = kx.random.random([4, 4], 1.0)
>>> x
pykx.List(pykx.q('
0.3927524  0.5170911 0.5159796 0.4066642
0.1780839  0.3017723 0.785033  0.5347096
0.7111716  0.411597  0.4931835 0.5785203
0.08388858 0.1959907 0.375638  0.6137452
'))
    >>> x[0][2] = 3.0
>>> x
pykx.List(pykx.q('
    0.3927524  0.5170911 0.5159796 0.4066642
    0.1780839  0.3017723 0.785033  0.5347096
    0.7111716  0.411597  0.4931835 0.5785203
    0.08388858 0.1959907 0.375638  0.6137452
    '))

In addition to positional assignment users can make use of the append and extend methods for pykx.*Vector and pykx.List objects. When appending objects to a list this can be achieved for single item assignments, while extend will look to add multiple elements to a Vector or List object. The following tabbed section shows the use of append and extend operations including failing cases.

pykx.*Vectorpykx.List

>>> import pykx as kx
>>> qvec = kx.random.random(3, 1.0, seed = 42)
>>> qvec
pykx.FloatVector(pykx.q('0.7742128 0.7049724 0.5212126'))
>>> qvec.append(1.1)
>>> qvec
pykx.FloatVector(pykx.q('0.7742128 0.7049724 0.5212126 1.1'))
>>>
>>> qvec.append([1.2, 1.3, 1.4])
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "/usr/local/anaconda3/lib/python3.8/site-packages/pykx/wrappers.py", line 1262, in append
    raise QError(f'Appending data of type: {type(data)} '
pykx.exceptions.QError: Appending data of type: <class 'pykx.wrappers.FloatVector'> to vector of type: <class 'pykx.wrappers.FloatVector'> not supported
>>>
>>> qvec.extend([1.2, 1.3, 1.4])
pykx.FloatVector(pykx.q('0.7742128 0.7049724 0.5212126 1.1 1.2 1.3 1.4'))
>>>
>>> qvec.extend([1, 2, 3])
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "/usr/local/anaconda3/lib/python3.8/site-packages/pykx/wrappers.py", line 1271, in extend
    raise QError(f'Extending data of type: {type(data)} '
pykx.exceptions.QError: Extending data of type: <class 'pykx.wrappers.LongVector'> to vector of type: <class 'pykx.wrappers.FloatVector'> not supported

>>> qlist = kx.toq([1, 2, 1.3])
>>> qlist
pykx.List(pykx.q('
1
2
1.3
'))
>>> qlist.append({'x': 1})
>>> qlist
pykx.List(pykx.q('
1
2
1.3
(,`x)!,1
'))
>>> qlist.extend([1, 2])
>>> qlist
pykx.List(pykx.q('
1
2
1.3
(,`x)!,1
1
2
'))

Indexing Non Vector Objects

In addition to being able to index and slice PyKX vector and list objects it is also possible to apply index and slicing semantics on PyKX Table objects. Application of slice/index semantics on tabular objects will return table like objects

>>> import pandas as pd
>>> from random import random
>>> from uuid import uuid4
>>> df = pd.DataFrame.from_dict({
    'x':  [random() for _ in range(10)],
    'x1': [random() for _ in range(10)],
    'x2': [uuid4() for _ in range(10)]
})
>>> tab = kx.toq(df)
>>> tab
pykx.Table(pykx.q('
x           x1         x2                                  
-----------------------------------------------------------
0.1872634   0.4176994  c9555cdf-57db-28a8-bf6c-67f6ee711a5f
0.8416288   0.01920741 3ecca92c-aae6-f796-38c9-80f4da70a89d
0.7250709   0.8761714  6417d4b3-3fc6-e35a-1c34-8c5c3327b1e8
0.481804    0.7575856  4040cd34-c49e-587b-e546-e1342bf1dd85
0.9351307   0.6030223  e8327955-bd9a-246a-0b17-fbf8f05fd28a
0.7093398   0.1811364  54a1959c-997c-6c57-1ff2-a0f3e845f01d
0.9452199   0.2329662  008bded0-3383-f19b-1d18-abfb199b1ac1
0.7092423   0.250046   6f54a161-49e7-f707-0054-626b867fb02f
0.002184472 0.0737272  f294c3cb-a6da-e15d-c8e0-3a848d2abf10
0.06670537  0.3186642  cd17ee98-c089-10a3-8992-d437a566f081
'))
>>> tab[3]
x           x1         x2
-----------------------------------------------------------
0.481804    0.7575856  4040cd34-c49e-587b-e546-e1342bf1dd85
'))
>>> tab[:5]
pykx.Table(pykx.q('
x         x1         x2                                  
---------------------------------------------------------
0.1872634 0.4176994  c9555cdf-57db-28a8-bf6c-67f6ee711a5f
0.8416288 0.01920741 3ecca92c-aae6-f796-38c9-80f4da70a89d
0.7250709 0.8761714  6417d4b3-3fc6-e35a-1c34-8c5c3327b1e8
0.481804  0.7575856  4040cd34-c49e-587b-e546-e1342bf1dd85
0.9351307 0.6030223  e8327955-bd9a-246a-0b17-fbf8f05fd28a
'))
>>> tab[0:8:2]
pykx.Table(pykx.q('
x         x1        x2                                  
--------------------------------------------------------
0.1872634 0.4176994 c9555cdf-57db-28a8-bf6c-67f6ee711a5f
0.7250709 0.8761714 6417d4b3-3fc6-e35a-1c34-8c5c3327b1e8
0.9351307 0.6030223 e8327955-bd9a-246a-0b17-fbf8f05fd28a
0.9452199 0.2329662 008bded0-3383-f19b-1d18-abfb199b1ac1
'))