# memoization for recursive Longest Increasing subsequence

I came up with simple following recursive solution for Longest increasing sub-sequence. But, Can you help to include memoization into this recursive solution.

``````public int findLIS(int a[], int maxSoFar, int item, int count) {

if(item == a.length) {
return count;
}
int length1 = findLIS(a,maxSoFar, item+1, count);
int length2 = 0;
if(a[item] > maxSoFar) {

length2 = findLIS(a, a[item], item+1, count + 1);
}
return Math.max(length1, length2);
}
``````

PS: This not a homework question, it is more of my interest.

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What language is this? – irrelephant Dec 8 '12 at 21:17
Java, but you can easily convert to your favorite language. I can do it for you if you want – coder000001 Dec 8 '12 at 21:28

Use a `Map<Pair<Integer,Integer>,Integer>`, and at the beginning of the method add:

``````Integer cache = map.get(new Pair<Integer,Integer>(maxSoFar,item));
if (cache != null) return cache;
``````

Each time you `return` anything - make sure to write `(maxSoFar,item)=returnValue` to the map.

The idea is to map between the pair that represent where you are in the calculation - to the maximal value found for this state, to avoid recalculating it.

It seems java, so you can use apache commons Pair as your `Pair` interface.

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Thanks.Before posting here, I quickly checked with an array of { 10, 22, 9, 33, 21, 50, 41, 60, 80 }; and a memo = new int[10][81]; But, it didn't work for me. I'll check with your solution too. – coder000001 Dec 8 '12 at 21:35
@coder000001: It is equivalent to the map solution. Please post the code you used, there might be a bug in it – amit Dec 8 '12 at 21:36
Thanks, It works. – coder000001 Dec 10 '12 at 11:16
it may not equivalent. whn array gets bigger allocating memory may lead to core dump. so Map is a better soln. – Access Denied Dec 11 '12 at 4:43