I have several huge arrays (millions++ members). All those are arrays of numbers and they are not sorted (and I cannot do that). Some are
uint16_t/32/64. I would like to approximate the count of distinct values in these arrays. The conditions are following:
- speed is VERY important, I need to do this in one pass through the array and I must go through it sequentially (cannot jump back and forth) (I am doing this in C++, if that's important)
- I don't need EXACT counts. What I want to know is that if it is an uint32_t array if there are like 10 or 20 distinct numbers or if there are thousands or millions.
- I have quite a bit of memory that I can use, but the less is used the better
- the smaller the array data type, the more accurate I need to be
- I dont mind STL, but if I can do it without it that would be great (no BOOST though, sorry)
- if the approach can be easily parallelized, that would be cool (but its not a mandatory condition)
Examples of perfect output:
ArrayA [uint32_t, 3M members]: ~128 distinct values ArrayB [uint32_t, 9M members]: 100000+ distinct values ArrayC [uint8_t, 50K members]: 2-5 distinct values ArrayD [uint8_t, 700K members]: 64+ distinct values
I understand that some of the constraints may seem illogical, but thats the way it is. As a side note, I also want the top X (3 or 10) most used and least used values, but that is far easier to do and I can do it on my own. However if someone has thoughts for that too, feel free to share them!
EDIT: a bit of clarification regarding STL. If you have a solution using it, please post it. Not using STL would be just a bonus for us, we dont fancy it too much. However if it is a good solution, it will be used!