You should take a look at the `[Genetic Programming Field Guide][1]`

. It explains some of this. Different GP's use different techniques to generate the constants. In TinyGP you they are part of the "terminal set". TinyGP generates them at the very beginning. So they are fixed. New "constants" are created through mutation and crossover.

Perhaps 1, 2 and 10 are in your constant set. You might have a constant of 1 as a terminal node. Mutation might make this "1/2", and now you have .5. Further mutation might change this to "1/2/10". Now you have 0.05. The full tree remains through each step. This is how TinyGP effectively gets more constant values.

This DOES result in the sprawling equations like you noticed. Rewrite rules can help with this. Though, you need to think about when to rewrite. Rewriting at the end can give you better looking equations. Rewriting as you go gives you smaller trees which might prevent TinyGP from creating a richer set of constants, as there are now fewer branches to mutate and cross over to.

A really simple rewrite rule that helps is to squash all of the constant values. For example, if you detect no variables under a node, just calculate it and replace with the calculated value. For TinyGP, you can only do this at the end because you cannot introduce new constant nodes as you go.