In all common languages/interpreters/compilers, exception handling is implemented to have a minimal performance impact when an exception isn't raised -- under the hood, adding an exception handler is usually just pushing a single value onto a stack or something similar. Just adding a
try block wont usually have a performance impact.
On the other hand, when an exception is actually raised, things can get very slow very fast. Its the trade-off for being able to add the try block without worrying about worrying, and its usually seen as acceptable, because you only take the performance hit if something unexpected has already gone wrong somewhere else.
So, in theory, if there is a condition that you expect to happen, use an
if instead. Its semantically better because it expresses to the reader that the bad condition is probably going to happen from time to time (e.g., user types in some invalid input), while the
try expresses something that you hope never happens (the data source is corrupt). As above, its also going to be easier on performance.
Of course, rules are defined by their exceptions (no pun intended). In practice, there are two situations where this becomes the wrong answer:
First, if you are performing a complex operation like parsing a file, and its and all-or-nothing -- if one field in the file is corrupt, you want to bail on the whole operation. Exceptions allow you to jump out of the whole complex process up to an exception handler encapsulating the entire parse. Sure, you could litter the parsing code with checks and return values and checks on the return values -- but its going to be a lot cleaner just to throw the exception and let it rise up to the top of the operation. Even if you expect that the input is going to be bad sometimes, if there isn't a reasonable way to handle the error exactly at the point where the error occurs, use exceptions to let the error rise up to a more appropriate place to handle it. Thats really what exceptions were for in the first place -- getting rid of all that error handling code down in the details, and moving it to one, consolidated, reasonable place.
Second, a library might not let you make the choice. For example,
int.TryParse is a good alternative to
int.Parse if the input hasn't already been vetted. On the other hand, a library might not have a non-exception-throwing option. In that case, don't brew up your own code to check without exceptions -- though it might be bad form to use exception handling to check for an expected condition, its worse form to duplicate the functionality of the library, just to avoid an exception. Just use the
try/catch, and maybe add a snide comment about how you didn't WANT to do it, but the library authors MADE you :).
For your particular example, probably stick with the exception. While exception handling isn't considered 'fast,' its still faster than a round trip to the database; and there isn't going to be a reasonable way to check for that exception without sending the command anyways. Plus, hitting a database in interfacing with an external system -- that in itself is a pretty to good reason to expect the unexpected -- exception handling almost always makes sense when you are leaving your particular controlled environment.
Or, more specifically to your example, you may consider using a stored procedure with a MERGE statement, to use the source data in
table to update or insert as appropriate; the update will be a little friendlier on all fronts than doing a delete-then-insert for existing keys.