Well I have never really worked with assertions in my limited experience with java and was wondering why I have read on a lot of sites and a lot of books that deal with assertions, the same warning that assert statements should not be used for argument checking in public methods? I was wondering whether this had something to do with the order of execution of the assert statement relative to the other statements in java.
The intent of assertions is to check your program logic -- an assertion failure is a "Stop everything -- there's a bug!" indication. In particular, an assertion failure indicates "there's a bug HERE", but "HERE" is somewhere internal to your code, and the cause of the failure can only really be determined by examining your code (which the user of your API cannot and should not be expected to do).
When you get bad data across an API, you want to indicate "Hey! You gave me bad data!" IllegalArgumentException and its kin are the way to indicate that.
(But note that there's nothing wrong with using assertion checks on parameters WITHIN your code -- where you're not supporting a truly "public" API that will be used by people outside your team.)
But this does bring up another point: To the extent reasonable/possible, you should "catch" internal exceptions of the IllegalArgumentException ilk that may occur due to your own bugs and convert them into FatalError exceptions or some such, so the user of your API isn't led to go looking for a bad parameter on his part when there's a bug in your code.
(Also note the distinction here between
As per programming with Assertions
For one, Java assertions are removed at runtime unless they are explicitly enabled when compiled.
Exceptions are more appropriate for parameter validation, because you are expecting to handle them, whereas assertion has the semantic meaning "this MUST be true at this point in the code, or else I have no idea how to handle this".
Informally, argument checking and assertions serve different purposes:
Essentially, when you assert a condition
the check conveys the following plain-English thought to the readers of your code: "I checked my code, and according to my reasoning, I am certain that
When you check an argument
your code says that "the caller has forgotten to ensure that the
These are two different thoughts, so it is natural to employ two different ways to convey them in your code.
Because assertions are disabled in production build. If you need to be able to catch when a public method has been used incorrectly, then an assertion would not trigger the check in production build, and an exception would be a better way to signal errors.
This is especially significant for libraries because you don't control who and how your methods will be called; for application programs, assertions in public methods is fine as long as and because when you have correct input validation (where "input" may be either user input, or input coming from another system, or from persistent storage), then the assertions should never be triggered.
The notion that assertions should not be used for argument checking in public methods is just plain wrong. Just because you read something in a book does not mean that it is correct.
Argument checking in public methods falls squarely within the general category of checking against bugs, therefore it should be treated as such, and the mechanism that we already have for catching bugs is assertions.
If the public interface of a method says "the 'index' argument to this method should never be negative" then invoking it with a negative index is a bug, and the following things hold true:
As a matter of fact, guaranteeing that a particular exception will be thrown even in production for a condition which you consider to be a bug tempts the n00b programmer to write code which will rely on that exception being thrown in production, and which will, therefore, be a bug in and of itself.
Wrong is also the notion that assertions check for bugs 'here'. No, the bug that an assertion catches can be anywhere in the chain of method calls listed in the stack trace, or it might even be elsewhere, and that's just a fact of life.
There are billions of devices out there, most of them running on precious battery power, executing quadrillions of instructions every day, which are just testing against conditions which are guaranteed to never happen by millions of man-hours of testing that has already been painstakingly carried out by developers. This is madness.
So, just plain
Obviously, this will only perform the test if assertions are enabled, but the real beauty of it is that if the assertion fails, then the
For more information on this subject, see this article on my blog: michael.gr - Assertions and testing