I'm given a random sequence of numbers of random length, consisting of 0's, 1's, 2's:
I'm also given a number: either 1 or 2. I can only loop through the sequence once, and I need to identify all the subsequences of the number I'm given, run that value through another function and add the value to a sum (initialized to 0).
Any 0's can be replaced with a 1 or a 2. Subsequences can therefore be "expanded", by replacing 0's beside it with the number. If a subsequence cannot be expanded to a minimum length of more than 4, I need to discard it.
For example, say I'm given the sequence:
and the number 1. I identify the subsequence of length 2 at the beginning (See first element). It can be expanded to a subsequence of length 7, by replacing the first 0, third and fourth zero with 1's. Therefore I run its current length through a function and add it to the sum.
sum += function(2);
I then identify the next subsequence of 1's (See fourth element). It's currently of size 2 and can be expanded to a maximum size of 7, by replacing the zeros around it. So I pass its length to a function and add it to the sum.
sum += function (2);
I finally identify the last subsequence of 1's (See sixth element). It currently has a length of 1 and can be expanded to a maximum size of 2, by replacing the zero beside it with a 1, which is less than 4, so I discard it.
Could someone help me write a function that does what was described above by only looping through the sequence once. Please do not give me real code, just ideas, suggestions or pseudocode.
I don't have any work to share, I'm completely lost. I also know no algorithms, so please don't start talking about things like dynamic programming or linear programming, but instead explain possible ways to approach the problem.