Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

How do I write a static method in Java that will take a List, perform an action on each element, and return the result (without affecting the original of course)?

For example, if I want to add 2 to each element what goes in the ... here? The concrete return type must be the same, e.g. if my List is a LinkedList with values 1,2,3 I should get back a LinkedList with values 3,4,5. Similarly for ArrayList, Vector, Stack etc, which are all Lists.

I can see how to do this using multiple if (lst instanceof LinkedList) ... etc... any better way?

import java.util.List;

public class ListAdd {       

    static List<Integer> add2 (List<Integer> lst) {

    ...

        return result;
    }
}
share|improve this question
    
@Brandon: How would he copy the list, though? –  thkala Jul 7 '11 at 0:00
    
@Luigi: Would using reflection be an acceptable solution? –  thkala Jul 7 '11 at 0:01
    
@thkala: He should be able to use the Collections.copy(List,List) method. –  Brandon E Taylor Jul 7 '11 at 0:02
    
@Brandon: Collections.copy(List,List) requires that you provide the destination list - an actual instance of the class that you need. –  thkala Jul 7 '11 at 0:07
    
@thkala: Understood. And...I see your point. Thank you for pointing that out. –  Brandon E Taylor Jul 7 '11 at 0:08

8 Answers 8

Fundamentally, the List interface doesn't make any guarantees that you'll have a way to duplicate it.

You may have some luck with various techniques:

  • Using clone() on the passed in List, although it may throw, or (since it is protected in Object) simply not be accessible
  • Use reflection to look for a public no-argument constructor on the passed-in List
  • Try to serialize and deserialize it in order to perform a "deep clone"
  • Create some sort of factory and build in knowledge of how to duplicate each different kind of List your code may encounter (What if it's a wrapper created by unmodifiableList(), or some oddball custom implementation backed by a RandomAccessFile?)
  • If all else fails, either throw, or return an ArrayList or a Vector for lack of better options
share|improve this answer
1  
The problem is that clone() is not public in List (or any of its supertypes). So we still have to cast to some type which supports it, or use reflection. –  Paŭlo Ebermann Jul 7 '11 at 0:03
    
+1 for a rather complete answer. –  thkala Jul 7 '11 at 0:04
    
I've tried cloning, but it doesn't seem to be possible. If you make the static method generic, to take a type <T extends List, AbstractList> you have the problem that neither AbstractList nor any supertypes implement a clone() method... AbstractList isn't Cloneable, and Object just doesn't. –  Luigi Plinge Jul 7 '11 at 0:20
    
... despite the fact that all the concrete classes of List in the collections API are actually Cloneable :( –  Luigi Plinge Jul 7 '11 at 0:39
    
@Luigi Plinge: all public ones –  newacct Jul 7 '11 at 7:55

EDIT: I believe following reflection based code should satisfy OP's requirements:

static List<Integer> add2 (List<Integer> lst) throws Exception {
    Class<?> cl = lst.getClass();
    Constructor<?> con = cl.getConstructor(int.class);
    @SuppressWarnings("unchecked")
    List<Integer> copy = (List<Integer>) con.newInstance(lst.size());
    for (Integer i : lst)
        copy.add(i.intValue()+2);
    return copy;
}

TESTING

int[] intA = {5, 8, 9, 11};
List<Integer> l = new Vector<Integer>();
for (int i: intA)
    l.add(i);
System.out.println("original: " + l.getClass().getCanonicalName() + ", " + l);
List<Integer> n = add2(l);
System.out.println("converted: " + n.getClass().getCanonicalName() + ", " + n);

OUTPUT

original: java.util.Vector, [5, 8, 9, 11]
converted: java.util.Vector, [7, 10, 11, 13]
share|improve this answer
    
1. This does not return a list of the same class. 2. It would be better performance-wise to use the ArrayList(int) constructor - the list size is already known. –  thkala Jul 7 '11 at 0:03
    
When one passes a Vector, for instance, it will return an ArrayList, instead of a Vector. Probably not intended by OP. –  Pindatjuh Jul 7 '11 at 0:03
    
stackoverflow.com/questions/54909/… is the related question and has no answer that matches the requirements of this question completely. –  anubhava Jul 7 '11 at 0:34
    
Yep I read that question that you mention, but actually it's completely different - he just wanted to copy one type. This question is much more interesting! –  Luigi Plinge Jul 7 '11 at 0:52
    
@Luigi Plinge: This question is indeed more interesting. Please check my answer in EDIT section above and let me know if it meets your requirements or not. –  anubhava Jul 7 '11 at 3:33

The whole point of using an interface, in this case List, is to abstract the fact that the implementation is hidden behind the interface.

Your intention is clear to me, however: the Clonable interface supports creating a new instance with the same state. This interface might not be defined on your List.

Often it's a good idea to rethink this situation: why do you need to clone the List in this place, this class? Shouldn't your list-creator be responsible for cloning the list? Or shouldn't the caller, who knows the type, make sure he passes in a clone of his list?

Probably, if you look for the semantics as you defined it, you can implement all your supported Lists:

static Vector<Integer> addTwo(Vector<Integer> vector) {
    Vector<Integer> copy = null; // TODO: copy the vector
    return addTwo_mutable(copy);
}
static ArrayList<Integer> addTwo(ArrayList<Integer> aList) {
    ArrayList<Integer> copy = null; // TODO: copy the array list
    return addTwo_mutable(copy);
}
static LinkedList<Integer> addTwo(LinkedList<Integer> lList) {
    LinkedList<Integer> copy = null; // TODO: copy the linked list
    return addTwo_mutable(copy);
}

private <T extends List<Integer>> static T addTwo_mutable(T list) {
    return list; // TODO: implement
}

Even, when you don't support a data-type, you'll get a nice compiler error that the specified method does not exists.

(code not tested)

share|improve this answer
2  
Cloneable doesn't actually make the clone() method accessible -- it just means the protected method clone() performs a shallow copy instead of throwing. –  Jeffrey Hantin Jul 7 '11 at 0:04
    
"By convention, classes that implement this interface should override Object.clone (which is protected) with a public method." I remembered it as "you should override Object.clone," but you are absolutely right, Jeffrey! –  Pindatjuh Jul 7 '11 at 0:11
    
That's certainly one approach. I always wondered why Arrays.sort() mutated your current list rather than returning a new sorted one - maybe this is why. –  Luigi Plinge Jul 7 '11 at 0:14
    
The three classes there all implement a public clone method, but declare it as returning Object instead of its own type. :-( It is probably easier to use the copy-constructor on each (but this will ignore eventual subclasses). –  Paŭlo Ebermann Jul 7 '11 at 0:18
1  
Working with immutable data-structures is generally not the standard in Java. In functional programming languages, they are a lot more common (see Clojure). –  Pindatjuh Jul 7 '11 at 0:20

You could use reflection to look for a public zero-arg constructor on the result of lst.getClass() and then invoke() it to obtain the List into which you'll place your results. The Java Collections Framework recommends that any derivative of Collection offer a zero-arg constructor. That way, your results we be of the same runtime class as the argument.

share|improve this answer
    
Any general purpose collection, not every collection. (For example, the classes of the collection views of maps will not have such an constructor, neither the internal classes implementing List.subList.) –  Paŭlo Ebermann Jul 7 '11 at 0:21
    
Sounds good. I'm not really familiar with reflection though. If someone could show how this is done it would be be great. –  Luigi Plinge Jul 7 '11 at 0:35

Here is a variant which does neither copies nor modifies the original list. Instead, it wraps the original list by another object.

public List<Integer> add2(final List<Integer> lst) {
    return new AbstractList<Integer>() {
        public int size() {
            return lst.size();
        }
        public Integer get(int index) {
            return 2 + lst.get(index);
        }
    };
}

The returned list is not modifiable, but will change whenever the original list changes. (This implements the iterator based on index access, thus it will be slow for a linked list. Then better implement it based on AbstractSequentialList.)

Of course, the resulting list will obviously not be of the same class as the original list.

Use this solution only if you really only need a read-only two added view of your original list, not if you want a modified copy with similar properties.

share|improve this answer
    
Great idea! However I would add bounds checking to it, for safety. –  Pindatjuh Jul 7 '11 at 0:17
    
@Pindatjuh: The bounds checking is done by lst.get(index), no need to duplicate it here. –  Paŭlo Ebermann Jul 7 '11 at 0:22
    
Interesting way to make a view on your list! Thanks. Although not exactly what I'm after. –  Luigi Plinge Jul 7 '11 at 0:49
up vote 0 down vote accepted

OK well someone mentioned reflection. It seems to be an elegant solution:

import java.util.*;
public class ListAdd {

    static List<Integer> add2 (List<Integer> lst) throws Exception {

        List<Integer> result = lst.getClass().newInstance();
        for (Integer i : lst) result.add(i + 2);

        return result;
    }
}

Concise, but it thows an checked exception, which is not nice.

Also, wouldn't it be nicer if we could use the method on concrete types as well, e.g. if a is an ArrayList with values 1, 2, 3, we could call add2(a) and get an ArrayList back? So in an improved version, we could make the signature generic:

static <T extends List<Integer>> T add2 (T lst) {
    T res;
    try {
        res = (T) lst.getClass().newInstance();

    } catch (InstantiationException e) {
        throw new IllegalArgumentException(e);
    } catch (IllegalAccessException e) {
        throw new RuntimeException(e);
    }

    for (Integer i : lst) res.add(i + 2);
    return res;
}    

I think throwing a runtime exception is the least worst option if a list without a nullary construcor is passed in. I don't see a way to ensure that it does. (Java 8 type annotations to the rescue maybe?) Returning null would be kind of useless.

The downside of using this signature is that we can't return an ArrayList etc as the default, as we could have done as an alternative to throwing an exception, since the return type is guaranteed to be the same type as that passed in. However, if the user actually wants an ArrayList (or some other default type) back, he can make an ArrayList copy and use the method on that.

If anyone with API design experience reads this, I would be interested to know your thoughts on which is the preferable option: 1) returning a List that needs to be explicity cast back into the original type, but enabling a return of a different concrete type, or 2) ensuring the return type is the same (using generics), but risking exceptions if (for example) a singleton object without a nullary constructor is passed in?

share|improve this answer

There are already many answers, but I'd like to show you a different way to think of this problem.

The operation you want to perform is known as map in the world of functional programming. It is something we do really all the time in functional languages.

Let M<A> be some kind of container (in your case, M would be List, and A would be Integer; however, the container can be lots of other things). Suppose you have a function that transforms As into Bs, that is, f: A -> B. Let's write this function as of type F<A, B>, to use a notation closer to Java. Note that you can have A = B, as in the example you give (in which A = B = Integer).

Then, the operation map is defined as follows:

M<B> map(M<A>, F<A, B>)

That is, the operation will return a M<B>, presumably by applying F<A, B> to each A in M<A>.

In practice...

There's a brilliant library developed by Google, called Guava, which brings lot's of functional idioms to Java.

In Guava, the map operation is called transform, and it can operate on any Iterable. It has also more specific implementations that work directly on lists, sets, etc.

Using Guava, the code you want to write would look like this:

static List<Integer> add2(List<Integer> ns) {
  return Lists.transform(ns, new Function<Integer, Integer>() {
    @Override Integer apply(Integer n) { return n + 2; }
  }
}

Simple as that.

This code won't touch the original list, it will simply provide a new list that calculates its values as needed (that is, the values of the newly created list won't be calculated unless needed -- it's called a lazy operation).

As a final consideration, it is not possible for you to be absolutely sure that you will be able to return exactly the same implementation of List. And as many others pointed out, unless there's a very specific reason for this, you shouldn't really care. That's why List is an interface, you don't care about the implementation.

share|improve this answer
    
Very nice, I'll have to try Guava out. –  Luigi Plinge Jul 7 '11 at 3:00

Just to show you that what you want to do is not possible in the general case, consider the following class:

final class MyList extends ArrayList<Integer> {
  private MyList() {
    super.add(1);
    super.add(2);
    super.add(3);
  }
  private static class SingletonHolder {
    private static final MyList instance = new MyList();
  }
  public static MyList getInstance() {
    return SingletonHolder.instance;
  }
}

It is a singleton (also, a lazy, thread-safe singleton by the way), it's only instance can be obtained from MyList.getInstance(). You cannot use reflection reliably (because the constructor is private; for you to use reflection, you'd have to rely on proprietary, non-standard, non-portable APIs, or on code that could break due to a SecurityManager). So, there's no way for you to return a new instance of this list, with different values.

It's final as well, so that you cannot return a child of it.

Also, it would be possible to override every method of ArrayList that would modify the list, so that it would be really an immutable singleton.

Now, why would you want to return the exact same implementation of List?

share|improve this answer
    
In this case I wouldn't, but in the general case there are reasons (mainly performance) that Lists are implemented in different ways. The idea is that I have 1 method that I can use for all List types. I guess maybe my method signature should be static <T extends List<Integer>> T add2 (T lst) instead. Regarding not being able to use getInstance() for the singleton, I can just catch the resulting exception in the method and return an ArrayList for cases like this. –  Luigi Plinge Jul 7 '11 at 3:08
    
Look, the signature of your method is the least of your problems... –  Bruno Reis Jul 7 '11 at 3:11

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.