I sometimes, although very rarely do self-modifying code in Ruby.
Sometimes you have a method where you don't really know whether the data you are using (e.g. some lazy cache) is properly initialized or not. So, you have to check at the beginning of your method whether the data is properly initialized and then maybe initialize it. But you really only have to do that initialization once, but you check for it every single time.
So, sometimes I write a method which does the initialization and then replaces itself with a version that doesn't include the initialization code.
@backing_store ||= self.expensive_initialization
But honestly, I don't think that's worth it. In fact, I'm embarrassed to admit that I have never actually benchmarked to see whether that one conditional actually makes any difference. (On a modern Ruby implementation with an aggressively optimizing profile-feedback-driven JIT compiler probably not.)
Note that, depending on how you define "self-modifying code", this may or may not be what you want. You are replacing some part of the currently executing program, so …
EDIT: Now that I think about it, that optimization doesn't make much sense. The expensive initialization is only executed once anyway. The only thing that modification avoids, is the conditional. It would be better to take an example where the check itself is expensive, but I can't think of one.
However, I thought of a cool example of self-modifying code: the Maxine JVM. Maxine is a Research VM (it's technically not actually allowed to be called a "JVM" because its developers don't run the compatibility testsuites) written completely in Java. Now, there are plenty of JVMs written in itself, but Maxine is the only one I know of that also runs in itself. This is extremely powerful. For example, the JIT compiler can JIT compile itself to adapt it to the type of code that it is JIT compiling.
A very similar thing happens in the Klein VM which is a VM for the Self Programming Language.
In both cases, the VM can optimize and recompile itself at runtime.