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I have been using guava for some time now and truly trusted it, until I stumbled of an example yesterday, which got me thinking. Long story short, here it is:

 public static void testGuavaImmutability(){
     StringBuilder stringBuilder = new StringBuilder("partOne");
     ImmutableList<StringBuilder> myList = ImmutableList.of(stringBuilder);

After running this you can see that the value of an entry inside an ImmutableList has changed. If two threads were involved here, one could happen to not see the updated of the other.

Also the thing that makes me very impatient for an answer is that Item15 in Effective Java, point five says this:

Make defensives copies in the constructor - which seems pretty logic.

Looking at the source code of the ImmutableList, I see this:

 SingletonImmutableList(E element) {
     this.element = checkNotNull(element);

So, no copy is actually made, although I have no idea how a generic deep copy would be implemented in such a case (may be serialization?).

So.. why are they called Immutable then?

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3 Answers 3

up vote 23 down vote accepted

What you're getting at here is the difference between immutable and deeply immutable.

An immutable object will never change, but anything that it refers to might change. Deep immutability is much stronger: neither the base object nor any object you can navigate to from it will change.

Each is appropriate in its own situations. When you create your own class that has a field of type Date, that date is owned by your object; it's truly a part of it. Therefore, you should make defensive copies of it (on the way in and the way out!) to provide deep immutability.

But a collection does not really "own" its elements. Their states are not considered part of the collection's state; it is a different type of class -- a container. (Furthermore, as you allude, it has no deep knowledge of what element type is being used, so it wouldn't know how to copy the elements anyway.)

Another answer states that the Guava collections should have used the term unmodifiable. But there is a very well-defined difference between the terms unmodifiable and immutable in the context of collections, and it has nothing to do with shallow vs. deep immutability. "Unmodifiable" says you cannot change this instance, via the reference you have; "immutable" means this instance cannot change, period, whether by you or any other actor.

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Simple and to the point! –  Eugene Aug 21 '12 at 14:18
This sounds like a plausible distinction. Do you have any references that back your definitions? BTW by your definition, immutable objects are not even required to have a temporaly consistent equals. To be honest, this is the first time I hear about such definitions. –  Marko Topolnik Aug 21 '12 at 15:13
@MarkoTopolnik Are Oracle's documentation about wrapper objects plus Jon Skeet's answer to "Immutable vs Unmodifiable collection" question good enough? I think they are widely used terms. –  Xaerxess Aug 21 '12 at 22:32
@Xaerxess And what exactly claims do you imagine those documents back? In fact, the definition from your second link even explicitly defines immutable as I have defined it. There is no distintion at any point, in either of your references, made between immutable and deeply immutable and moreover everyone assumes deeply immutable as the only concept. –  Marko Topolnik Aug 22 '12 at 7:06
@MarkoTopolnik Did you read comments too? –  Xaerxess Aug 22 '12 at 8:08

The list itself is immutable because you cannot add/remove elements. The elements are on their own regarding immutability. In more precise terms, we have definitions from a historical Java 1.4.2 document:

  • Collections that do not support any modification operations (such as add, remove and clear) are referred to as unmodifiable. Collections that are not unmodifiable are referred to modifiable.
  • Collections that additionally guarantee that no change in the Collection object will ever be visible are referred to as immutable. Collections that are not immutable are referred to as mutable.

Note that for these definitions to make any sense we must assume an implicit distiction between a collection in an abstract sense and an object that represents that collection. This is important because the object that represents an immutable collection is not itself immutable by any standard definition of that term. For example, its equals relation has no temporal consistency, a vital requirement on immutable objects.

As far as defensive copying, note that is an ill-defined problem in general and there will never be a general immutable collection in Java that will manage to defensively copy its elements. Note additionally that such a collection would be less useful than the immutable collections that really exist: when you put an object into a collection, in 99.99% cases you want that very object to be there, not some other object that is not even equal to it.

There is a quite standard definition of object immutability (as opposed to collection immutability) which assumes transitive immutability of the whole object graph reachable from the immutable object. Taken too literally, though, such a definition will almost never be satisfied in the real world. Two cases in point:

  • nothing is immutable in the face of reflection. Even final fields are writable.
  • even String, that bastillon of immutability, has been proven mutable outside the Java sandbox (without a SecurityManager—which covers 99% of real-world Java programs).
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thank you for your answer and well I really do not want to rain on your parade, but to me, this is first obvious from the code, second without any sense at all. If you drop the List word at all and think about it as a ObjectHolder and I want to make this Holder immutable, then the object itself has to "immutabilized", I need a copy of it that is only mine. This guy over here (where I got the example from) seems to have the same opinion, and he is not an ordinary guy at all: jeremymanson.blogspot.com/2008/04/immutability-in-java.html –  Eugene Aug 21 '12 at 11:54
Your question "why are they called immutable" is answered to the best of my ability. Your rant in the comment above goes more towards a critique of the Java language, but has nothing to do with your question. –  Marko Topolnik Aug 21 '12 at 11:57
My rant? :) I am by any means not trying to be aggressive and if I induced that then I am truly sorry. Your edit makes more sense - it was the same I had in mind, just wanted a confirmation. So to guava immutable is actually more unmodifiable. Thank you for your time –  Eugene Aug 21 '12 at 12:06
@Marko Topolnik: Guava's ImmutableList is surely "more immutable" then JDK's unmodifiable wrapper. It's actually as immutable as possible - no amount of defensive copying and whatever can ensure "true immutability" in Java. Note that there's no general copy method in Java. –  maaartinus Aug 21 '12 at 12:45
@Marko Topolnik: Agreed, it's not immutable enough, but it can't be. Even with all members final and immutable, you can still store mutable state in globals or use System.setProperty or whatever. You'd need a different language to get true immutability. –  maaartinus Aug 21 '12 at 13:57

You mix the immutability of the list and the immutability of the objects it contains. In an immutable collection you cannot add/remove objects, but if the object it contains are mutable you can modify them after get()ing them.

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