It is not a bad practice. One thing to remember is that all statements will use an implicit transaction that they will automatically commit when the statement ends. That is a SELECT (as in the SELECT used by Fill) will always use a transaction, the question is whether it will have to start it on itself or it will use the existing one.
Is there any difference between the number, type and duration of locks acquired by a SELECT in an implicit transaction vs. an explicit transaction? Under the default transaction model (READ COMMITTED isolation) NO, there is none. The behavior is identical and indistinguishable. Under other isolation levels (repeatable read, serializable) there is a difference, but that is the necessary difference for the desired higher isolation level to occur and using an explicit transaction is the only way to achieve this desired isolation level, when necessary.
In addition if the SELECT has to read the effects of a transaction that is pending (not yet committed), as in your example (read back the generated IDs) then there is no other way. The SELECT must be part of the transaction that generated the IDs, otherwise it will not be able to see those uncommitted IDs!
A note of caution though. I believe you have at your disposal a great tool that can make all this transaction handling much easier: the System.Transactions. All ADO.Net code is system transaction aware and will automatically enroll any connection and command into the pending transaction, if you simply declare a
TransactionScope. That is if function Foo declares a
TransactionScope and then calls function Bar, if Bar does any ADO.Net operatio, it will automatically be part of the transaction declared in Foo, even if Bar does nothing explicitly. The
TransactionScope is hooked into the thread context and all ADO.Net call called by Bar will check for this context automatically, and use it. Note that I really mean any ADO.Net call, including Oracle provider ones. Alas though there is a warning: using new TransactionScope() Considered Harmful: the default constructor of
TransactionScope will create a serializable transaction, which is overkill. You have to use the constructor that takes a
TransactionOptions object and change the behavior to ReadCommitted. A second gotcha with
TransactionScope is that you have to be very careful how you manage connections: if you open more than one connection under a scope then they will be enrolled in a distributed transaction, which is slow and requires MSDTC to be configured, and leads to all sort of hard to debug errors. But overall I fell that the benefits of using
TransactionScope outweight the problems, and the resulted code is always more elegant than passing around