If you mean syntactic nesting, then the answer is it depends on whether the inner
dosync will run on the same thread as the outer one.
In Clojure, whenever a
dosync block is entered, a new transaction is started if one hasn't been running already on this thread. This means that while execution stays on a single thread, inner transactions can be said to be subsumed by outer transactions; however if a
dosync occupies a position syntactically nested within another
dosync, but happens to be launched on a new thread, it will have a new transaction to itself.
An example which (hopefully) illustrates what happens:
user> (def r (ref 0))
user> (dosync (future (dosync (Thread/sleep 50) (println :foo) (alter r inc)))
(alter r inc))
The "inner" transaction retries after printing
:foo; the "outer" transaction never needs to restart. (Note that after this happens,
r's history chain is grown, so if the "large"
dosync form were evaluated for a second time, the inner
dosync would not retry. It still wouldn't be merged into the outer one, of course.)
Incidentally, Mark Volkmann has written a fantastic article on Clojure's Software Transactional Memory; it's highly recommended reading for anyone interested in gaining solid insight into details of this sort.