I've got a classification system, which I will unfortunately need to be vague about for work reasons. Say we have 5 features to consider, it is basically a set of rules:
A B C D E Result 1 2 b 5 3 X 1 2 c 5 4 X 1 2 e 5 2 X
We take a subject and get its values for A-E, then try matching the rules in sequence. If one matches we return the first result.
C is a discrete value, which could be any of a-e. The rest are just integers.
The ruleset has been automatically generated from our old system and has an extremely large number of rules (~25 million). The old rules were if statements, e.g.
result("X") if $A >= 1 && $A <= 10 && $C eq 'A';
As you can see, the old rules often do not even use some features, or accept ranges. Some are more annoying:
result("Y") if ($A == 1 && $B == 2) || ($A == 2 && $B == 4);
The ruleset needs to be much smaller as it has to be human maintained, so I'd like to shrink rule sets so that the first example would become:
A B C D E Result 1 2 bce 5 2-4 X
The upshot is that we can split the ruleset by the Result column and shrink each independently. However, I cannot think of an easy way to identify and shrink down the ruleset. I've tried clustering algorithms but they choke because some of the data is discrete, and treating it as continuous is imperfect. Another example:
A B C Result 1 2 a X 1 2 b X (repeat a few hundred times) 2 4 a X 2 4 b X (ditto)
In an ideal world, this would be two rules:
A B C Result 1 2 * X 2 4 * X
That is: not only would the algorithm identify the relationship between A and B, but would also deduce that C is noise (not important for the rule)
Does anyone have an idea of how to go about this problem? Any language or library is fair game, as I expect this to be a mostly one-off process. Thanks in advance.