I've been experimenting with genetic algorithms as of late and now I'd like to build mathematical expressions out of the genomes (For easy talk, its to find an expression that matches a certain outcome).

I have genomes consisting of genes which are represented by bytes, One genome can look like this: {12, 127, 82, 35, 95, 223, 85, 4, 213, 228}. The length is predefined (although it must fall in a certain range), neither is the form it takes. That is, any entry can take any byte value.

Now the trick is to translate this to mathematical expressions. It's fairly easy to determine basic expressions, for example: Pick the first 2 values and treat them as products, pick the 3rd value and pick it as an operator ( +, -, *, /, ^ , mod ), pick the 4th value as a product and pick the 5th value as an operator again working over the result of the 3rd operator over the first 2 products. (or just handle it as an postfix expression)

The complexity rises when you start allowing priority rules. Now when for example the entry under index 2 represents a '(', your bound to have a ')' somewhere further on except for entry 3, but not necessarily entry 4

Of course the same goes for many things, you can't end up with an operator at the end, you can't end up with a loose number etc.

Now i can make a HUGE switch statement (for example) taking in all the possible possibilities but this will make the code unreadable. I was hoping if someone out there knows a good strategy of how to take this one on.

Thanks in advance!

** EDIT **

On request: The goal I'm trying to achieve is to make an application which can resolve a function for a set of numbers. As for the example I've given in the comment below: {4, 11, 30} and it might come up with the function (X ^ 3) + X