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I would like to feel the 'magic power' of copyOf method of Guava guava-libraries.

There is small app that I use to check it.

Here is a doc

The JDK provides Collections.unmodifiableXXX methods, but in our opinion, these can be

  • unwieldy and verbose; unpleasant to use everywhere you want to make defensive copies
  • unsafe: the returned collections are only truly immutable if nobody holds a reference to the original collection

So, I try to build a model where "someone holds a reference to the original collection". Thus, working with a copy of collection I should not be worried about changing value on copy. But magic does not work so far (there are two tries: 1. copyOf(collection), 2. copyOf(iterator)):

import com.google.common.collect.ImmutableList;

import java.util.LinkedList;
import java.util.List;

class MyObject {    
    String name;    
    public MyObject(String name) {this.name = name;}    
    @Override
    public String toString() {
      return name;
    }    
}

public class ListUnsafe {

    List<MyObject> list = new LinkedList<MyObject>();    
    {
        list.add(new MyObject("a"));
        list.add(new MyObject("b"));
        list.add(new MyObject("c"));
    }

    public List<MyObject> getList() {
        return ImmutableList.copyOf(list);
    }

    public List<MyObject> getCopyIterator() {
        return ImmutableList.copyOf(list.iterator());
    }

    public static void main(String[] args) {

        ListUnsafe obj = new ListUnsafe();
        {
           MyObject ref = obj.list.get(0);

           List<MyObject> myList =  obj.getList();

           MyObject copyObj = myList.get(0);
           copyObj.name = "new";

           System.out.println("ref: " + ref);
        }

        obj = new ListUnsafe();
        {
            MyObject ref = obj.list.get(0);

            List<MyObject> myList =  obj.getCopyIterator();

            MyObject copyObj = myList.iterator().next();

            copyObj.name = "new";

            System.out.println("ref: " + ref);

        }

    }

}

The output:

ref: new
ref: new

It means that we changed original data. What we did not want.

Question: Why it does not do copy? *How it differs from unmodifiableXXX?*

There is link to similar question:

The answer says about copyOf:

  • (from source) copyOf(Collection) instance doesn't create temporary ArrayList (copyOf(Iterable) and copyOf(Iterator) does so)
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1  
Presumably the list itself is immutable; the contained elements aren't. –  Oliver Charlesworth May 27 '13 at 1:33
1  
Note: the Collections.unmodifiable*() methods are not intended to return an immutable instance - they are intended to return a view of the collection that cannot be modified through that view. This can be valuable when the provider of the data needs to control modifications. –  Andy Thomas May 27 '13 at 2:27
    
They compare guava to jdk's unmodifiableXXX. Is if it could resolve issue if someone "holds a reference to the original collection" and this ref would hold old unchangeable value. As I understand it. How it differs from unmodifiableXXX? –  ses May 27 '13 at 3:26
1  
these copy is shallow copy. i.e. The list itself is copied, but they are still pointing to same objects. If you need deep copy you need to implement yourself –  Adrian Shum May 27 '13 at 3:27

2 Answers 2

  1. ImmutableList does not magically make the elements immutable; it's the list that cannot be modified, not the elements it contains.
  2. ImmutableList.copyOf makes a copy unless it is copying a list that is already an ImmutableList. If you call ImmutableList.copyOf(list) twice for the same immutable list, you will get two different copies.
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yeah.. I've already check sources. Probably this is the best thing to do first. –  ses May 28 '13 at 1:37

First of all thank you for all answers. I came up win an example that satisfies me. That shows difference between ImmutableSet.copyOf(..) and JDK's Collections.unmodifiableSet(..);

And yes: it does shallow copy (otherwise it was strange, because it was magic).

class Person {
    public Person(String name) {this.name = name;}
    public Person(String name, Person relation) {this(name);this.relation = relation;}

    String name;
    Person relation;
}

public class ImmutableExample {
    public static void main(String[] args) {

        Person bob = new Person("bob");
        Person chris = new Person("chris", bob);
        Person nullPerson = null; // NULL!

        final Set<Person> originalSet = new LinkedHashSet<Person>(Arrays.asList(
                bob,
                chris
                // nullPerson // NULL !  <- if we use null then we can not convert it to ImmutableSet
               ));

        Set<Person> googleSet = ImmutableSet.copyOf(originalSet);

        Set<Person> javaSet = Collections.unmodifiableSet(originalSet);

        // is it SAFE to delete someone from original collection?
        originalSet.remove(chris);

        // google
        for (Person person : googleSet) System.out.println(person.name); // Chris is still here! And this is good! Stay with us, Chris!

        // java standard
        for (Person person : javaSet) System.out.println(person.name); // Where is Chris ??

        //newSet.add(new Person("newGuy"));  // UnsupportedOperationException

    }
}

(The purpose of original question, though was providing client absolutely safe list for reading. But this could be achieved only with manual cloning of all objects in the list [if they are not immutable]. To provide something that even better (in terms of immutability and concurrency safety) than CopyOnWriteArrayList. I mean: it provides safe iterator, but not data itself if they are mutable in the returning list - client still can change data using references to returned (by getter) data items)

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