# Find an optimal combination of rows and columns in a matrix

I have a computational problem in C++, not sure if I can ask it here, I could not find anything fitting so far.

I have a vector of objects, each containing another vector with certain values. Now I understand I could put them into a matrix, using the class 'dimension' or 'matrix'. Let's say they are in a matrix as follows:

``````        C1   C2   C3   C4   C5   C6
R1    10   9    4    11   13   10
R2    11   12   10   12    8    6
R3    12   13   15   10    7   12
``````

C stands for column, R stands for row.

Problem: Which combination of rows and columns has the lowest value if summed up?

Rule: Each value has a factor, lets call it 'f'. 'f' is 1 if adjacent columns in the combination chain (two to the left and two to the right) do not use the same row. If one of the four adjacent columns use the same row, 'f' is increased to 2. As a consequence 'f' is between 1 and 5, depending on how many adjacent columns in the combination chain use the same row.

Example: Let's say for the first three columns we use the combination C1/R1 (10), C2/R2 (12), C3/R3 (15). The summed value is then 1*10 + 1*12 + 1*15 = 37

However if we use C1/R1 (10), C2/R1(12), C3/R1(15). The summed value is 3*10 + 3*12 + 3*15 = 111

I need to find the combination with the lowest value for the whole chain C1, C2, C3, C4, C5, C6.

Now I could create a matrix of permutations for all possible combinations and then simply compute all permutations, sort the matrix, and chose the row with the lowest value.

But this would take too long, as I have to do this quite often and the initial vector can be quite long, making the permutations grow exponentially.

I am looking for an algorithm in C++ that delivers the result (or even an approximation) in a reasonable time.

Any idea if there are tools in C++ that can do that?

-