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I'm currently trying to verify whether or not, given an unsorted array A of length N and an integer k, whether there exists some element that occurs n/k times or more.

My thinking for this problem was to compute the mode and then compare this to n/k. However, I don't know how to compute this mode quickly. My final result needs to be n*log(k), but I have no idea really on how to do this. The quickest I could find was n*k...

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<sniff-sniff> This smells slightly of homework. Might it be, @samoz? (Not that there's anything wrong with that.) – Scottie T Feb 4 '09 at 18:31
up vote 5 down vote accepted

Use a hash table to count the frequency of each value:

uint[int] counts;
foreach(num; myArray) {

int mostFrequent;
uint maxCount = 0;
foreach(num, count; counts) {
    if(count > maxCount) { 
        mostFrequent = num;
        maxCount = count;
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I was going to suggest this as well. It's a O(N) algorithm. – Welbog Feb 4 '09 at 18:17
if you only want to know if n/k is exceeded or only need the first element and not all elements that exceed n/k you can add a check in the first loop and terminate when the count exceeds n/k for any element, optionally saving that element if needed. – tvanfosson Feb 4 '09 at 18:24
This is the right type of answer for the question I asked. However, I forgot to mention I cannot assume the existence of a perfect hash question, but to the question I asked, this is the correct answer. – samoz Feb 5 '09 at 13:59

Just walking the array and keeping counts in a hash/dictionary (and returning true once n/k is found, else false) would be O(n)

edit, something like:

counts = {}
for n in numbers:
    if ( counts.has_key( n ) ):
        counts[ n ] += 1
        counts[ n ] = 1
    if ( counts[ n ] >= n / k ):
        return true
return false
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Set m = n/k rounded up. Do a quicksort, but discard sublists of length less than m.

Like quicksort, you can have bad luck and repeatedly choose pivots that close to the ends. But this has a small probability of happening, if you choose the pivots randomly.

There'll be O(log(k)) levels to the recursion, and each level takes O(n) time.

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Calculating Statistical Mode in F# .net for data set (integers) that has single Mode

let foundX (num: int, dList) = List.filter (fun x -> x = num) dList
let groupNum dList =
    |> (List.map (fun x -> foundX (x, dList)))
    |> (List.maxBy (fun x -> x.Length))

let Mode (dList: int List) = 
    let x = groupNum dList

//using Mode
let data = [1;1;1;1;1;1;1;1;2;2;3;3;3;1;4;4;4;4;4]
Mode data;;`

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 found = false
 value = null
 B = new hashtable
 for (i =0, j = A[i]; i < |A| and !found; ++i, j=A[i])
    if B contains key j
       B[j] = B[j] + 1
       if B[j] > |A|/k
          found = true
          value = j
       B[j] = 1
 end for

Assuming that your hashtable implementation has O(1) insert/lookup this should be O(n)

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