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

I'm looking for a way to test if some given List is an unmodifiable one.

I have an object that has a List<NoMatter>, in order to offer methods such as addNoMatter(NoMatter nm) instead of allowing the API client to simply do .getNoMatters().add(nm); I always return an unmodifiable version of this list, so the client is still able to have the list. I do it as follows:

public List<NoMatter> getNoMatters() {
    return Collections.unmodifiableList(this.noMatters);
}

The problem is that when I'm doing my tests I simply cant check if this object is of type UnmodifiableList. My first try was doing:

@Test
public void checkIfListIsImmutable(){
    assertTrue("List is not immutable", this.myObj.getNoMatters() instanceof UnmodifiableList);
}

Happens that I cant seem to be able to import the type UnmodifiableList neither java.util.Collections$UnmodifiableRandomAccessList that is what I get when I try System.out.println(myObj.getNoMatters().getClass().getName()); at the console.

So how can I achieve it???

PS.: I know I can pass this test by doing:

@Test(expected = UnsupportedOperationException.class)
public void checkIfListIsImmutable(){
     this.myObj.getNoMatters().add(null);
}

EDIT: The above test doesn't grants me that the list Im dealing with isn't immutable as I would need to have tests to every method that may modify my original list, including .remove(), .clear(), .shuffle(), etc! thats why I do not think this is a nice way to proceed.

>>> But I still believe that its not even close to an elegant solution! <<<

share|improve this question
up vote 4 down vote accepted

I actually think that is your best bet. Your alternative (less elegant) way is to check the name of the class.

this.myObj.getNoMatters().getClass().getSimpleName().equals("UnmodifiableCollection")

The issue for you is the wrapped UnmodifiableCollection is package-private.

I don't see anything wrong with expecting an exception there, but that's just me.

share|improve this answer

I think your solution is not only reasonable, it is elegant. You want to test that you cannot modify the list, and your test proves it succinctly. Testing the name of the class tests the name, not the behavior. In this case, who cares about the name?

Likewise, if I wanted to test that I cannot pass null to some method, I'd pass null in a test and expect an IllegalArgumentException.

share|improve this answer
    
You're right, I agree w/ you (upvoted even), but its not too good if you wanna test many lists at the same test once the test stops when first exception happens! – renatoargh Dec 3 '11 at 3:08
2  
I'm used to JUnit 3, so YMMV, but you should be able to write try { list.add(null); fail(); } catch (RuntimeException expected) { ; } I even made an Eclipse template for this called testfail – user949300 Dec 3 '11 at 9:32
    
p.s. - in the above template, change RuntimeException to be as specific as possible to the exception you expect, e.g. UnsupportedOperationException in this example. – user949300 Dec 3 '11 at 17:06
    
take a look at my edit, please! :) – renatoargh Dec 3 '11 at 19:47
    
At some point, the effort put into unit tests reaches a near-zero return. I think you are reaching it. You could test for all the myriad possibilities. You could write your own Immutable wrapper that throws a specific exception, MyUnsupportedOperationException, and, assume that that proves that your wrapper is there. Or you could just try add(), perhaps remove(), and be happy. The chance that some weird class will throw the exception for remove, yet will allow you to call clear(), seems remote. – user949300 Dec 3 '11 at 23:14

You can use Class#isInstance to check.

Collections.unmodifiableList(someList).getClass().isInstance(listToCheck);

/e1
The following returns false.

Collections.unmodifiableList(new ArrayList<Object>()).getClass().isInstance(new ArrayList<Object>())

The following returns true.

Collections.unmodifiableList(new ArrayList<Object>()).getClass().isInstance(Collections.unmodifiableList(new ArrayList<Object>()))

/e2
Your problem may be because Collections#unmodifiableList returns an UnmodifiableList some of the time, and an UnmodifiableRandomAccessList the rest of the time (see below for code). However, since UnmodifiableRandomAccessList extends UnmodifiableList, if you get an instance of an UnmodifiableList to check with you'll be golden.

To obtain an instance of UnmodifiableList you can use Collections.unmodifiableList(new LinkedList<Object>()). LinkedList does not implement RandomAccess, so an instance of UnmodifiableRandomAccessList will not be returned.

Code of Collections#unmodifiableList:

public static <T> List<T> unmodifiableList(List<? extends T> list) {
        return (list instanceof RandomAccess ?
                new UnmodifiableRandomAccessList<>(list) :
                new UnmodifiableList<>(list));
}

Class header of UnmodifiableRandomAccessList:

static class UnmodifiableRandomAccessList<E> extends UnmodifiableList<E> implements RandomAccess
share|improve this answer
    
it doesnt work well as it return true both when the list to check is ArrayList or Collections.unmodifiedList(list) – renatoargh Dec 3 '11 at 2:46
    
@RenatoGama see my edit – Jeffrey Dec 3 '11 at 3:00
1  
@RenatoGama See my second edit, I think I found the problem you're encountering. – Jeffrey Dec 3 '11 at 3:13

Why do you want to test that your list is immutable? Your "alternative" solution is the way to go: you should focus on testing the behaviour of your class, not its state.

What I mean is you don't really care whether your method returns an instance of UnmodifiableList or anything else. Who cares? Your test should certainly not. If later on you change the implementation to achieve the exact same behaviour, your test should not fail.

So what do you want to test? That users cannot add anything to the list? Then write a test (as you suggested) that adds something to the list and expect an exception. That they can't remove anything from the list? Do the same with another test. And so forth.

It is indeed elegant to test for negative cases like these ones, and I found it's very often forgotten in the functional coverage of a class. Proper coverage should specifically state what your class disallow and say what's expected in these cases.

share|improve this answer

sort of a hack, but try:

import java.util.*;
public class Main {
    public static void main(String[] args) {
        List<Integer> list=new LinkedList<Integer>();
        list.add(1);
        List<Integer> unmodifiableList=Collections.unmodifiableList(list);
        System.out.println(unmodifiableList.getClass());
        if(unmodifiableList.getClass().getName().contains("UnmodifiableList"))
            System.out.println(true);
    }
}
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.