# Efficiently find ranges of consecutive non-set bits in BitSet

I'm trying to represent calendar available/unavailable slots for a particular day with each bit representing 15mins using BitSet. The bits which are set represent blocked calendar events. For getting the the slots which are free, I need to find the ranges where bits are not set.

I have the following BitSet

``````00000000000000000011111001000000000011100000000000000000011000
``````

How to efficiently find the ranges of bits which are not set. In this case (1,18) and (24,25) and (27,36) etc.

Below is the current code I have written, which I feel is not efficient and also not clean.

``````int startIndex = -1;
int nextIndex = -1;
for(int i = getSlotIndex(currentWorkingStartDate); i <= getSlotIndex(currentWorkingEndDate); i++) {
if(!matrix.get(i)) {
if(startIndex == -1) {
startIndex = i;
nextIndex = i;
}else {
nextIndex = i;
}
}else if(startIndex != -1){

ZonedDateTime availableStartDate = day.plusHours((startIndex/4)).plusMinutes(startIndex%4 * 15);
ZonedDateTime availableEndDate = availableStartDate.plusMinutes((nextIndex - startIndex + 1) * 15L);
getSlotsBasedOnDurationWithTimeZone(new SlotModel(availableStartDate,availableEndDate),durationOfSlot,candidateTimeZoneId));
startIndex = -1;
nextIndex = -1;
}
}

if(startIndex != -1) {
ZonedDateTime availableStartDate = day.plusHours((startIndex/4)).plusMinutes(startIndex%4 * 15);
ZonedDateTime availableEndDate = availableStartDate.plusMinutes((nextIndex - startIndex) * 15L);
getSlotsBasedOnDurationWithTimeZone(new SlotModel(availableStartDate,availableEndDate),durationOfSlot,candidateTimeZoneId));
}
``````

There is a method for getting the next unset bit at or after a given index: `BitSet.nextClearBit(int)`.

There is a complementary method, `nextSetBit(int)`, for finding the next set bit.

So, you can find the start of a range with the former, and the end of the range with the latter.

You need to handle the return values of the methods carefully:

• If `nextSetBit` returns -1, that means that the current run of clear bits extends to the end of the BitSet.
• `nextClearBit` doesn't return -1, because BitSets don't have a clearly-defined size in terms of the number of clear bits - they essentially extend infinitely, but only actually allocate storage to hold set bits. So, if `nextClearBit` returns a value beyond the logical size of the BitSet (i.e. an index for a 15-minute slot beyond the end of the day/date range), you know that you can stop searching.
• For completeness: there are also `previousClearBit(int)` and `previousSetBit(int)` to search from the back to the front
– Lino
Feb 4, 2022 at 11:08