Most things I've seen just use the max probability, which seems alright, but doesn't give you any indication of confidence. The relative probabilities should be important too, right? Let me explain:

In the case of a binary classifier, suppose your categories are A and B.

P(A) = 0.01, P(B) = 0.99 is a classification result that very strongly indicates 'A'.

P(A) = 0.6, P(B) = 0.4 is a less confident 'A' classification.

Once you throw category 'C' into the mix, you could get P(A) = 0.8, P(B) = 0.1, P(C) = 0.1, which is strongly 'A'

You could also, however, get one of the following:

P(A) = 0.50, P(B) = 0.25, P(C) = 0.25

P(A) = 0.50, P(B) = 0.49, P(C) = 0.01

Now, the first case is less confident, but would still come up 'A' If max was my only criteria, the second case would be exactly the same, but clearly its not.

In case 1, 'A' isn't that confident of a result, but there's nothing else its likely to be. In case 2, P(A) is still 0.5, but its basically the same as P(B), meaning I shouldn't really have any faith in the observation being an 'A'

Is there a function which would capture this notion of relative confidence? I've been trying to think up a solution which isn't a cludgy collection of if-statements, but haven't come up with anything good.