If you're not a library developer, don't be defensive in your code
Write unit tests instead
In fact, even if you're developing a library, throwing is most of the time: BAD
int must never be done in c# :
It raises a warning CS4072, because it's always false.
2. Throwing an Exception means it's exceptional: abnormal and rare.
It should never raise in production code. Especially because exception stack trace traversal can be a cpu intensive task. And you'll never be sure where the exception will be caught, if it's caught and logged or just simply silently ignored (after killing one of your background thread) because you don't control the user code. There is no "checked exception" in c# (like in java) which means you never know - if it's not well documented - what exceptions a given method could raise. By the way, that kind of documentation must be kept in sync with the code which is not always easy to do (increase maintenance costs).
3. Exceptions increases maintenance costs.
As exceptions are thrown at runtime and under certain conditions, they could be detected really late in the development process. As you may already know, the later an error is detected in the development process, the more expensive the fix will be. I've even seen exception raising code made its way to production code and not raise for a week, only for raising every day hereafter (killing the production. oops!).
4. Throwing on invalid input means you don't control input.
It's the case for public methods of libraries. However if you can check it at compile time with another type (for example a non nullable type like int) then it's the way to go. And of course, as they are public, it's their responsibility to check for input.
Imagine the user who uses what he thinks as valid data and then by a side effect, a method deep in the stack trace trows a
- What will be his reaction?
- How can he cope with that?
- Will it be easy for you to provide an explanation message ?
5. Private and internal methods should never ever throw exceptions related to their input.
You may throw exceptions in your code because an external component (maybe Database, a file or else) is misbehaving and you can't guarantee that your library will continue to run correctly in its current state.
Making a method public doesn't mean that it should (only that it can) be called from outside of your library (Look at Public versus Published from Martin Fowler). Use IOC, interfaces, factories and publish only what's needed by the user, while making the whole library classes available for unit testing. (Or you can use the
6. Throwing exceptions without any explanation message is making fun of the user
No need to remind what feelings one can have when a tool is broken, without having any clue on how to fix it. Yes, I know. You comes to SO and ask a question...
7. Invalid input means it breaks your code
If your code can produce a valid output with the value then it's not invalid and your code should manage it. Add a unit test to test this value.
8. Think in user terms:
Do you like when a library you use throws exceptions for smashing your face ? Like: "Hey, it's invalid, you should have known that!"
Even if from your point of view - with your knowledge of the library internals, the input is invalid, how you can explain it to the user (be kind and polite):
- Clear documentation (in Xml doc and an architecture summary may help).
- Publish the xml doc with the library.
- Clear error explanation in the exception if any.
- Give the choice :
Look at Dictionary class, what do you prefer? what call do you think is the fastest ? What call can raises exception ?
Dictionary<string, string> dictionary = new Dictionary<string, string>();
dictionary.TryGetValue("key", out res);
var other = dictionary["key"];
9. Why not using Code Contracts ?
It's an elegant way to avoid the ugly
if then throw and isolate the contract from the implementation, permitting to reuse the contract for different implementations at the same time. You can even publish the contract to your library user to further explain him how to use the library.
As a conclusion, even if you can easily use
throw, even if you can experience exceptions raising when you use .Net Framework, that doesn't mean it could be used without caution.