As I gain an understanding of dynamic programming, I am finding it easier and easier to develop a notion of optimal substructure in a given situation. For example, with finding the optimal ordering to multiply a matrix chain, I understand that (sorry to be verbose; it helps me out) the minimum number of multiplications needed to compute Ai * Ai+1 * ... * Aj can be found by finding the split/parenetheses placement point k between i and j that minimizes the sum of the multiplications needed for Ai*...Ak and Ak+1...*Aj, plus the cost that comes with the actual dimensions. In other words, M(i,j) = mink(M(i,k) + M(k+1,j) + di-1dkdj).
Likewise, in finding the longest palindromic substring of a string, the optimal substructure is that the length l[i,j] of a maximum length palindrome between indices i and j and the input array is either 2 + l[i+1, j-1], when the elements at i and j are the same and can thus be added, or otherwise the maximum of l[i+1, j], l[i, j-1] (correct me if I mix anything up...)
But how, in any situation, do I translate this into an algorithm to find the length of an ideal sequence such as the above or even its contents? Do I basically just run loops to tabulate everything, and then essentially 'choose' what is needed from the table? With the matrix chain, that seems to be exactly what to do, but for the palindrome, I'm a little confused on how to construct the loops.