Let's say I have a set of integers. I want to find the longest increasing subsequence of that set using dynamic programming. This is simply out of practice, reviewing my old notes from my algorithms course, and I don't seem to understand how this works.

OK, I will describe first the simplest solution which is O(N^2), where N is the size of the set. There also exists a O(N log N) solution, which I will describe also. Look here for it at the section Efficient algorithms. I will assume the indices of the array are from 0 to N1. So let's define DP[i] to be the length of the LIS(Longest increasing subsequence) which is ending at element with index i. To compute DP[i] we look at all indices j < i and check both if DP[j] + 1 > DP[i] and array[j] < array[i](we want it to be increasing). If this is true we can update the current optimum for DP[i]. To find the global optimum for the array you can take the maximum value from DP[0..N1].
I use the array OK, now to the more efficient Let Now iterate through every integer
Total runtime  Now let's do a real example: Set of integers:
Steps:
So the length of the LIS is To reconstruct the actual To make things simpler, we can keep in the array That is input[4] = 1, input[5] = 2, input[3] = 4, input[7] = 5, input[8] = 8. If we update properly the parent array, the actual LIS is:
Now to the important thing  how do we update the parent array? There are two options:



Petar Minchev's explanation helped clear things up for me, but it was hard for me to parse what everything was, so I made a Python implementation with overlydescriptive variable names and lots of comments. I did a naive recursive solution, the O(n^2) solution, and the O(n log n) solution. I hope it helps clear up the algorithms! The Recursive Solution
The O(n^2) Dynamic Programming Solution
The O(n log n) Dynamic Programming Solution



Note: adding code that also shows how to print out the array sequence after taking some time to figure this out with help.



Here are three steps of evaluating the problem from dynamic programming point of view:
If we take as an example sequence {0, 8, 2, 3, 7, 9}, at index:
Here's the working C++11 code:



This can be solved in O(n^2) using Dynamic Programming. Python code for the same would be like:
For input: output would be: The list_index of output list is the list_index of input list. The value at a given list_index in output list denotes the Longest increasing subsequence length for that list_index. 


Here is a Scala implementation of the O(n^2) algorithm:



protected by Community♦ Dec 21 '11 at 14:14
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