There are 2 performance aspects: the time of set construction from the given arrays and the time of getting the next not included value.

Also, there is memory usage aspect - if you have thousands of such independent sets, you would probably want the set data structure to consume as little memory as possible. (But I guess it isn't your case.)

Finally, typical number of not included values matters. I've tested 2 cases: a half of values are used and 99% of values are used.

I've benchmarked 3 solutions: your original boolean array, bitSet and HashSet.
https://gist.github.com/leventov/6749728

Results:

```
Benchmark Mean Units
construction_bitSet_05_load 19,184 usec/op
construction_bitSet_099_load 38,319 usec/op
construction_booleanArray_05_load 7,987 usec/op
construction_booleanArray_099_load 16,255 usec/op
construction_complementHashSet_05_load 859,151 usec/op
construction_complementHashSet_099_load 923,588 usec/op
construction_hashSet_05_load 262,920 usec/op
construction_hashSet_099_load 441,306 usec/op
nextIndex_bitSet_05_load 2,086 nsec/op
nextIndex_bitSet_099_load 2,147 nsec/op
nextIndex_booleanArray_05_load 9,264 nsec/op
nextIndex_booleanArray_099_load 65,424 nsec/op
nextIndex_complementHashSet_05_load 27,298 nsec/op
nextIndex_complementHashSet_099_load 142,565 nsec/op
nextIndex_hashSet_05_load 27,159 nsec/op
nextIndex_hashSet_099_load 1948,120 nsec/op
```

(Complement HashSet is faster than ordinal in 99% load case, but is very expective on creation.)

Just as I personally expected, your original solution is fastest on set construction, and BitSet is fastest on the next not included value retrieval.

Memory consumption:

`boolean[]`

: 14000 bytes.
`BitSet`

: 1750 bytes (1 byte for each 8 possible values)
`HashSet`

: ~= 62 bytes per included value (~= 38 bytes with `-XX:+UseCompressedOops`

)
- complement
`HashSet`

: analogously per *not* included value.

`HashSet`

. – Elist Sep 29 '13 at 0:09`BitSet`

instead of boolean array. – leventov Sep 29 '13 at 7:59