I have two lists:

l2: til 20;

I am trying to create a dictionary 'd' that contains the elements of 'l1' as key and the elements of 'l2' evenly distributed over it. So like this:

d:(`a`b`c)!(0j, 3j, 6j, 9j, 12j, 15j, 18j;1j, 4j, 7j, 10j, 13j, 16j, 19j;2j, 5j, 8j, 11j, 14j, 17j)

The order of the elements is not relevant, I just need them balanced. I was able to achieve that in an iterative way (happy to add the code, if that's considered helpful), but there must be a more elegant way (potentially with adverbs?).

3 Answers 3


It can be done using the group :

q)group (count[l2]#l1)
(`a`b`c)!(0j, 3j, 6j, 9j, 12j, 15j, 18j;1j, 4j, 7j, 10j, 13j, 16j, 19j;2j, 5j, 8j, 11j, 14j, 17j)

If your l2 is something else instead of til 20 , then you have to lookup the items back after grouping :

q)l2: 20#.Q.a
q)l2 group (count[l2]#l1)     // lookup the items back from l2 after grouping 

You can use the reshape functionality of the take operator #. It takes two arguments: a LHS of at least 2 dimensions and the list to reshape.

For example (3;4)#til 12 will reshape the list 0 1 ... 12 into a 3 by 4 matrix

In our case, the number of the number of elements in l1 will will not necessary divide exactly into the number of elements in l2 (we don't want a rectangular matrix). Instead we can supply a null as the second dimension which will take care of distributing the remainders.

q) l1!(count[l1];0N)#l2
a| 0 1 2 3 4 5
b| 6 7 8 9 10 11 12
c| 13 14 15 16 17 18 19

This method performs very well for larger input lists.

As a side note, when using .Q.fc to split a vector argument over n slaves for multi-threading, kdb uses the # operator to reshape the vector into n vectors, one for each slave.

q)d:`a`b`c!{a where x = (a:til 20) mod y}'[til 3;3]
a| 0 3 6 9 12 15 18
b| 1 4 7 10 13 16 19
c| 2 5 8 11 14 17

  • 4
    Please add some explanation to your code such that others can learn from it
    – Nico Haase
    Mar 25, 2019 at 14:00

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