The way that
dx is run, it doesn't typically have sufficient information to do all possible verification, nor is it written to do so. In particular, part of verification has to do with how the code in one class refers to code in other classes, and when
dx is run, the code for the "other classes" in question might not actually be available. For example, you could compile some code against Android API level 6, producing a
.dex file. Later, when a device running API level 29 comes out, you could try to run that
.dex file. It's only when the file is on a system and getting ready to run that the system has all the info needed to perform verification. At that point, it can inspect the references in the
.dex file with what's available on the system and either accept (pass verification of) or reject (fail verification of) that file.
As a brief example, maybe the
.dex file refers to a class or method that existed in API level 6 but was removed as of API level 29.
But to be clear, as @JesusFreke said,
dx needs to be able to parse
.class files enough to be able to do its job of translation. If it runs into a problem at that layer, it will report that as a failure to translate, which, in context, is about equivalent to a verification error, though it's not generally phrased as such.
Even disregarding the possibility of evolution of the API, it is possible to take a
.class that wouldn't verify, succeed in translating it into a (part of a)
.dex file, and then observe that the
.dex file fails to verify.
I hope this helps!