If everything is guaranteed to be positive, try
multiple = baseNumber + number - 1;
multiple -= (multiple % number);
That does it in constant time.
First, we add number - 1
to make sure that we have a number at least as large as the next multiple but smaller than the one after that. Then we subtract the remainder of the division by number
to make sure we have the desired multiple.
If baseNumber
can be negative (but number
still positive), we face the problem that multiple % number
may be negative if multiple < 0
, so the above could skip a multiple of number
. To avoid that, we can use e.g.
remainder = multiple % number;
if (remainder < 0) remainder += number;
multiple -= remainder;
If branching is too expensive, we can avoid the if
at the cost of two divisions instead of one,
multiple -= (number + (multiple % number)) % number;
Generally, the if
seems preferable, though.
If number
can be negative, replace it with its absolute value first.
Note: The above returns, as the original code does, baseNumber
if that is already a multiple of number
. If that isn't desired, remove the - 1
in the first line.