Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Today I found a very very weird behavior of the JVM, a (normally type-safe) List<Date> did actually hold a List<MyObject> at runtime!

I wonder how that ever could happen, but couldn't find anything in the web.

That's the situation: I'm working with Spring Data JPA 1.2.0 on a JBoss EAP 6.0 Server with JRE 1.6.0_18-b07.

By mistake, in a Spring Data JPA Repository class there was written a wrong result type in the @Query expression. It should have been:

  @Query("select distinct trunc(record.orderDateTime) from MyType record [...]" )
  public List<Date> getOrderDates(...);

But was:

  @Query("select record from MyType record [...]" )
  public List<Date> getOrderDates(...);

So, the aim was to load a list of dates (java.util.Date), which works fine if the query is properly defined as in the first code snippet.

But that coding mistake led to the following result: At runtime, there actually WAS a List<MyType> returned, even though the method's signature defines a List<Date>. Also in my model an attribute of List<Date> was/contained a List<MyType>. I debugged it and couldn't believe my eyes! I could even write the content of this list to a JSP (I only recognized this weird behavior because a JSP couldn't be displayed any more due to a Spring Expression Language error occuring with the attempt to type match from MyType to Date, which of course had to crash).

Hell, shall I now loose my believe in the type-safety of Java?

Has anybody ever had such a problem?

Does an explanation for this exist?

And can I do anything to fix that or is it a general issue? Maybe another version of the JRE, JBOSS, ...?

share|improve this question
1  
Parameterized types, and all the stuff built around them, are not supported by the JVM -- it's just compiler "sugar". I'm not surprised that it's not "airtight". – Hot Licks Jan 16 '13 at 16:47

I wonder how that ever could happen, but couldn't find anything in the web.

It happens because generics are mostly a compile-time-only feature. Metadata is maintained in terms of a class's type parameters, fields etc... but at execution time, type arguments are (mostly) lost. For example:

Object x = new ArrayList<String>();
Object y = new ArrayList<Integer>();
System.out.println(x.getClass() == y.getClass()); // True

The JVM can't tell the difference - which is why you'll get a warning when you try to cast:

// At execution time, this cast will *really* only check for List
List<String> dodgyCast = (List<String>) y;

For the most part, the compiler keeps "regular" code using generics safe. But when you have things like ORMs providing values via reflection or dynamic byte code, all of that safety goes out of the window.

share|improve this answer
    
Stupid question: In the case of X.getClass and y.getClass, wouldn't it be because they're both ArrayLists as their class, and the type inside of them (The type of object they hold), would be one more level down? Therefore, x.getClass() == y.getClass() may be true, but x.get(1).getClass() == y.get(1).getClass() would return false. It's like looking at a house and saying they're identical on the outside, even if their layouts inside are totally different, isn't it? – Gyhth Jan 16 '13 at 16:51
    
@Gyhth using your analogy, it's not the house layout that's different, but the people who lives inside them. They behave the same, have the same components, are used the same way, but people inside of them are different. I.e., X and Yare the same, no matter what they store. – Caesar Ralf Jan 16 '13 at 17:05
1  
@Gyhth: No, not really. If you ask the same questions in .NET, for example, you find that a generic collection really knows about its element type. You really can't have a field of type List<String> which is actually a List<SomeOtherType>, because they're two different types at the runtime level. The two parameterized types are different, because the type arguments are present at execution. It's the fact that they're missing at execution time in Java which is the problem. – Jon Skeet Jan 16 '13 at 17:07
    
Ahh, alright. Thanks for clearing that up gents. – Gyhth Jan 16 '13 at 17:12

Sadly, that kind of thing can happen because of type erasure. The type you set at your collection is only checked at compilation time, not runtime.

The thing is that your query is not compiled, so there's no way Java can know what kind of objects it will return. To avoid this kind of behaviour, I always create tests of my queries.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.