I want to write a class representing Markov chain (let's name it
MC). It has a constructor, which takes the state transition matrix (that is,
vector<vector<double>>. I suppose, it is a good idea to check it is really a matrix (has the same number of rows and columns) and is really a transition matrix: all the numbers in it are probabilities, that is, no less than
0.0 and no greater than
1.0, and for every row the sum of its elements is
1.0. However, there is a problem which arises from floating point limitations: for example, the sum
0.3 + 0.3 + 0.3 + 0.1 will not be equal to
1.0, so the check will not be that easy. So I see two possible solutions of that problem:
- Choose some epsilon and compare with epsilon error. Of course it will now accept some matrices violating the transition matrix property, but in general, if someone occasionally passes some bad data into the constructor, he will get an exception.
- Don't check anything, rely on the class' user, if he passes something bad, it is completely his fault, and the behavior of the class will be unexpected.
What approach is better and more "real-world"? I like the first, but again, not sure how should I choose epsilon.