# Algorithms find the most frequently occurring sequence of strings of length 3

"Given multiple name arrays, find the most frequently occurring sequence of names of length 3(sequence of length 3), if it exists"

Eg: Given 3 name arrays:

``````Ana John Maria
Paul
Sharon Ana John Maria Tiffany Ted
``````

The output will be `Ana John Maria` since this sequence is encountered twice, in the first and the 3rd array.

i can't seem to find a correct solution for this.

Can anyone point me in the right direction? Maybe it's a well known algorihm for this. Can anyone give me a link? Thanks

-
You could just count each word, then compare the counts. Not the most elegant solution, but probably the simplest. – Hassan Aug 15 '12 at 16:55
@oleksii it's a sequence of length 3 – Dan Dinu Aug 15 '12 at 16:58
Is it an array with 3 name(-sequences) or is it 3 arrays each with a couple of names in them? – aefxx Aug 15 '12 at 17:00
@DanDinu:Are you interested in a specific programming language? – Cratylus Aug 17 '12 at 13:23

Merge the arrays into a tree similar to trie, where each node is not a single letter, but a whole name. This should allow you to find and count subsequences more easily. In fact, I strongly suspect that there is a standard algorithm for this task which you can look up.

Update: Look at algorithms using suffix trees: http://en.wikipedia.org/wiki/Suffix_tree

-

A simple approach would be to take sequences of 3 and put them in a `HashTable`. As soon as you encounter a sequence of 3 you increment the corresponding occurence counter. In the end just return the most frequent occurence/sequence.This is found by scanning the `HashTable` for the entry with the max occurence value. Example in Java:

``````public class Sequence {
public List<String> sequenceOfThree(List<List<String>> names){
Map<List<String>, Integer> map = new HashMap<List<String>, Integer>();
for(List<String> nameList:names){
int startIdx = 0;
int endIdx = 3;
while(endIdx <= nameList.size()){
List<String> subsequence = nameList.subList(startIdx, endIdx);
Integer count = map.get(subsequence);
if(count == null){
count = 0;
}
map.put(subsequence, count + 1);
startIdx++;
endIdx++;
}
}
Integer max = Integer.MIN_VALUE;
List<String> result = Collections.emptyList();
for(Entry<List<String>, Integer> entries:map.entrySet()){
if(entries.getValue() > max){
max = entries.getValue();
result = entries.getKey();
}
}
return result;
}
/**
* @param args
*/
public static void main(String[] args) {
List<List<String>> names = new ArrayList<List<String>>();
It is `O(MN)` where `M` is the number of lists and `N` the size of the list – Cratylus Aug 15 '12 at 21:53