In a financial system I am currently maintaining, we are relying on the rollback mechanism of our database to simulate the results of running some large batch jobs - rolling back the transaction or committing it at the end, depending on whether we were doing a test run.
I really cannot decide what my opinion is. In a way I think this is great, because then there is no difference between the simulation and a live run - on the other hand it just feels kind of icky, like e.g. depending on code throwing exceptions to carry out your business logic.
What is your opinion on relying on database transactions to carry out your business logic?
Consider an administration system having 1000 mortgage deeds in a database. Now the user wants to run a batch job that creates the next term invoice on each deed, using a couple of advanced search criteria that decides which deeds are to be invoiced.
Before she actually does this, she does a test run (implemented by doing the actualy run but ending in a transaction rollback), creating a report on which deeds will be invoiced. If it looks satisfactory, she can choose to do the actual run, which will end in a transaction commit.
Each invoice will be stamped with a batch number, allowing us to revert the changes later if it is needed, so it's not "dangereous" to do the batch run. The users just feel that it's better UX to be able to simulate the results first.
It is NOT about testing. We do have test and staging environments for that. It's about a regular user using our system wanting to simulate the results of a large operation, that may seem "uncontrollable" or "irreversible" even though it isn't.
Doesn't seem like anyone has any real good arguments against our solution. As always, context means everything, so in the context of complex functional requirements exceeding performance requirements, using db rollback to implement batch job simulations seems a viable solution.
As there is no real answer to this question, I am not choosing an answer - instead I upvoted those who actually put forth an argument.