the main problem is how to count distinct elements of the vector. as you would resolve it?
If you allowed to use hashing, you could do the following
init Hashtable h
distinct_count := 0
for each element v of the vector V
if h does not contain v (O(1) time in average)
insert v into h (O(1) time in average)
distinct_count := distinct_count + 1
This is in average O(n) time.
If not here is an O(n log n) solution - this time worst case
sort V (O(n log n) comparisons)
Then it should be easy to determine the number of different elements in O(n) time ;-)
I could also tell you an algorithm to sort V in O(n*b) where b is the bit count of the integers - if this helps you.
Here is the algorithm:
sort(vector, begin_index, end_index, currentBit)
reorder the vector[begin_index to end_index] so that the elements that have a 1 at bit currentBit are after those that have a 0 there (O(end_index-begin_index) time)
Let c be the count of elements that have a 0 at bit currentBit (O(end_index-begin_index) time; can be got from the step before)
if (currentBit is not 0)
call sort(vector, begin_index, begin_index+c)
call sort(vector, begin_index+c+1, end_index)
Call it with
vector = V
begin_index = 0
end_index = n-1
currentBit = bit count of the integers (=: b)-1.
This even uses dynamic programming as requested.
As you can determine very easily this is O(n*b) time with a recursion depth of b.