"VTBL"s are an artifact of languages that deal in Storage Structures. That is, in C++, you can deduce with a fair degree of accuracy exactly how a class will map in RAM.
Java doesn't deal with Storage Structures, it deals with Data Structures. You can easily use a Storage Structure as a Data Structure, but the reverse isn't as trivial. If you happen to have a copy of BYTE magazine from back in early 1991, you can even find the article where I extolled the virtues of mapping C++ data structures onto the storage structures used by the Commodore Amiga OS ROM Kernel (Exec). Back then, in fact, the term "data structure" was used as a sort of catch-all, since we still worried about how things would fit precisely into memory.
Data Structures are generally used by algorithms. Storage Structures are more closely related to internal implementations and serialized forms. Actual program execution requires a little bit of both, but the Storage Structures underlying a Java Data Structure are supposed to be opaque. It's a large part of what makes Java "Write Once, Run Anywhere". If you don't have to worry about the size and byte orientation of things, you don't have to load down your app with "swabbers" and memory-offset calculators.
Some programming languages don't like forward and circular references. Java would be hard put to do without them. However, there's a difference between a hard reference to code and a reference to a method signature that's bound to a bytecode and which will (possibly) eventually be JIT-compiled to machine code. Or even re-optimized and recompiled, in some of the more advanced JVMS. What it all boils down to is that you have, in effect, multiple passes over the class, where one establishes the dictionary and another plugs in the linkages. Including automatic inlining, if appropriate.