Introduction
Consider two arrays of the same length, say A = [0,1,0,2]
and B = [-1,1,2,2]
.
Suppose we know that their contents are equivalent in some sense, item by item:
0
is equivalent to-1
,1
is equivalent to1
,0
is equivalent to2
, and2
is equivalent to2
.
Equivalence is transitive: -1
and 0
are equivalent, and 0
and 2
are equivalent, so -1
and 2
are also equivalent.
The unification of A
and B
is the array where each item of A
(or B
) has been replaced by the largest number that's equivalent to it.
In this case, the unification would be [2,1,2,2]
.
The task
Write a program or function that takes two non-empty integer arrays of equal length, and outputs their unification. You can also modify one of the inputs in place instead of returning. The lowest byte count wins.
Test cases
[0] [0] -> [0]
[1] [2] -> [2]
[0,-1] [-1,-1] -> [0,0]
[0,1,0] [2,1,0] -> [2,1,2]
[1,2,3] [0,0,1] -> [3,3,3]
[0,1,0,2] [-1,1,2,2] -> [2,1,2,2]
[1,0,1,-4] [-3,-1,-2,2] -> [1,0,1,2]
[1,2,3,-2] [1,0,-3,-2] -> [1,2,3,-2]
[-3,-2,-1,0,1] [-1,-1,-1,-1,-1] -> [1,1,1,1,1]
[-3,-2,-1,0,1] [2,-1,0,1,-3] -> [2,2,2,2,2]
[-3,5,5,3,1] [4,2,3,1,2] -> [4,5,5,5,5]
[4,0,2,-5,0] [0,4,-5,3,5] -> [5,5,3,3,5]
[-2,4,-2,3,2,4,1,1] [-2,4,1,2,2,3,1,-2] -> [1,4,1,4,4,4,1,1]
[-10,-20,-11,12,-18,14,-8,-1,-14,15,-17,18,18,-6,3,1,15,-15,-19,-19] [-13,6,-4,3,19,1,-10,-15,-15,11,6,9,-11,18,6,6,-5,-15,7,-11] -> [-8,14,18,14,19,14,-8,-1,-1,15,14,18,18,18,14,14,15,-1,18,18]
[20,15,2,4,-10,-4,-19,15,-5,2,13,-3,-18,-5,-6,0,3,-6,3,-17] [-18,7,6,19,-8,-4,-16,-1,13,-18,8,8,-16,17,-9,14,-2,-12,7,6] -> [20,15,20,19,-8,-4,20,15,17,20,17,17,20,17,-6,14,15,-6,15,20]