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I'm a beginner in Java. Please suggest which collection(s) can/should be used for maintaining a sorted list in Java. I have tried Map and Set but they weren't what I was looking for.

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11 Answers

This comes very late, but there is a class in the JDK just for the purpose of having a sorted list. It is named (somewhat out of order with the other Sorted* interfaces) "java.util.PriorityQueue". It can sort either Comparable<?>s or using a Comparator.

The difference with a List sorted using Collections.sort(...) is that this will maintain order at all times, and have good insertion performance by using a heap data structure, where inserting in a sorted ArrayList will be O(n) (i.e., using binary search and move).

However other than List, PriorityQueue does not support indexed access (get(5)), the only way to access items in a heap is to take them out, one at a time (thus the name PriorityQueue).

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imo this answer deserves more upvotes since it points out the only Collection that has the capability in JDK –  nimcap Jul 2 '10 at 12:09
64  
From the Javadoc: "The Iterator provided in method iterator() is not guaranteed to traverse the elements of the PriorityQueue in any particular order." –  Christoffer Hammarström Mar 2 '11 at 14:37
6  
@giraff: a priority queue is just that, a data structure that is very efficient at keeping a priority queue. You can poll from the front and get the data items in sorted order. However heaps don't maintain a total order of elements internally (that's why they are so efficient), so there is no way of accessing elements in order without executing the poll operation. –  Martin Probst Jul 1 '11 at 16:42
12  
@MartinProbst: Could you modify or delete this highly misleading (and disturbingly upvoted) answer in light of the fact that a heap is not a sorted list, i.e. does not "maintain order at all times" as you state? –  chrispy Dec 22 '11 at 17:07
5  
@MartinProbst Your answer doesn't make that obvious at all. It's very misleading. –  chrispy Jan 16 '12 at 11:45
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TreeMap and TreeSet will give you an iteration over the contents in sorted order. Or you could use an ArrayList and use Collections.sort() to sort it. All those classes are in java.util

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There are two major drawbacks to this though, the first being that a Set can not have duplicates. The second is that if you use a list and Collections.sort(), you tend to be constantly sorting huge lists and gives poor performance. Sure you can use a 'dirty' flag, but it's not quite the same. –  Jeach Dec 6 '10 at 21:52
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If you want to maintain a sorted list which you will frequently modify (i.e. a structure which, in addition to being sorted, allows duplicates and whose elements can be efficiently referenced by index), then use an ArrayList but when you need to insert an element, always use Collections.binarySearch() to determine the index at which you add a given element. The latter method tells you the index you need to insert at to keep your list in sorted order.

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n inserts will be O(n^2). A TreeSet will give you cleaner code and O(n log n). OTOH, for infrequent modification binary search of an array will be faster and use less memory (so less GC overhead). –  Tom Hawtin - tackline Jan 6 '09 at 13:45
    
To keep the code clean and still allow for duplicates it would be easy enough to create a SortedList class that inserts values in sorted order. –  Mr. Shiny and New 安宇 Jan 6 '09 at 14:07
    
This is a way better answer than the most upvoted answer, imo, if you can live with the caveat mentioned by @TomHawtin-tackline. That the iterator works as expected is crucial for most cases. –  DuneCat Oct 11 '12 at 12:09
    
Incidentally, Tom is right on that specific behaviour: a tree set will give you more efficient modification. But a tree set isn't a list (in the strictest sense of having elements referenced by index and allowing duplicates) and the poster said they wanted a list. –  Neil Coffey Oct 11 '12 at 17:52
    
Thank you Neil, that was bloody awesome! –  vikingsteve Feb 22 at 19:48
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Use Google Guava's TreeMultiset. Guava is a spectacular collections API.

Guava: http://code.google.com/p/guava-libraries/

TreeMultiset: http://docs.guava-libraries.googlecode.com/git-history/master/javadoc/index.html

One problem with providing an implementation of List that maintains sorted order is the promise made in the Javadocs of the 'add' method.

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Kudos for the multiset suggestion –  darthtrevino May 26 '11 at 14:55
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+1 for mentioning the requirement that a List always adds at the end. –  Roland Illig Jun 27 '11 at 13:24
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Note that TreeMultiSet still does not allow duplicate elements (elements that compareTo() returns 0, not equals() check). If you tend to add more than one item of same priority, it will only increase the count of the first added one, discarding other and effectively being a good Counting Bag implementation. –  sebgymn Sep 28 '12 at 17:59
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There are a few options. I'd suggest TreeSet if you don't want duplicates and the objects you're inserting are comparable.

You can also use the static methods of the Collections class to do this.

See Collections#sort(java.util.List) and TreeSet for more info.

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You want the SortedSet implementations, namely TreeSet.

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Not necessarily; sets cannot have duplicate values. It depends on the OP's requirements. –  Zach Langley Jan 6 '09 at 13:20
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If you just want to sort a list, use any kind of List and use Collections.sort(). If you want to make sure elements in the list are unique and always sorted, use a SortedSet.

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TreeSet would not work because they do not allow duplicates plus they do not provide method to fetch element at specific position. PriorityQueue would not work because it does not allow fetching elements at specific position which is a basic requirement for a list. I think you need to implement your own algorithm to maintain a sorted list in Java with O(logn) insert time, unless you do not need duplicates. Maybe a solution could be using a TreeMap where the key is a subclass of the item overriding the equals method so that duplicates are allowed.

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What I have done is implement List having a internal instance with all the methods delegated.

 public class ContactList implements List<Contact>, Serializable {
    private static final long serialVersionUID = -1862666454644475565L;
    private final List<Contact> list;

public ContactList() {
    super();
    this.list = new ArrayList<Contact>();
}

public ContactList(List<Contact> list) {
    super();
    //copy and order list
    List<Contact>aux= new ArrayList(list);
    Collections.sort(aux);

    this.list = aux;
}

public void clear() {
    list.clear();
}

public boolean contains(Object object) {
    return list.contains(object);
}

After, I have implemented a new method "putOrdered" which insert in the proper position if the element doesn't exist or replace just in case it exist.

public void putOrdered(Contact contact) {
    int index=Collections.binarySearch(this.list,contact);
    if(index<0){
        index= -(index+1);
        list.add(index, contact);
    }else{
        list.set(index, contact);
    }
}

If you want to allow repeated elements just implement addOrdered instead (or both).

public void addOrdered(Contact contact) {
    int index=Collections.binarySearch(this.list,contact);
    if(index<0){
        index= -(index+1);
    }
    list.add(index, contact);
}

If you want to avoid inserts you can also throw and unsupported operation exception on "add" and "set" methods.

public boolean add(Contact object) {
    throw new UnsupportedOperationException("Use putOrdered instead");
}

... and also You have to be careful with ListIterator methods because they could modify your internal list. In this case you can return a copy of the internal list or again throw an exception.

public ListIterator<Contact> listIterator() {
    return (new ArrayList<Contact>(list)).listIterator();
}
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What you want is a binary search tree. It maintains sorted order while offering logarithmic access for searches, removals and insertions (unless you have a degenerated tree - then it's linear). It is quite easy to implement and you even can make it implement the List interface, but then the index-access gets complicated.

Second approach is to have an ArrayList and then a bubble sort implementation. Because you are inserting or removing one element at a time, the access times for insertions and removals are linear. Searches are logarithmic and index access constant (times can get different for LinkedList). The only code you need is 5, maybe 6 lines of bubble sort.

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As I say... yes, I know it's an old post, but technologies appear everyday and the answer will change in the time.

You can try solving these tasks with LambdaJ. You can find it here: http://code.google.com/p/lambdaj/

Here you have an example:

Sort Iterative

List<Person> sortedByAgePersons = new ArrayList<Person>(persons);
Collections.sort(sortedByAgePersons, new Comparator<Person>() {
        public int compare(Person p1, Person p2) {
           return Integer.valueOf(p1.getAge()).compareTo(p2.getAge());
        }
}); 

Sort with lambda

List<Person> sortedByAgePersons = sort(persons, on(Person.class).getAge()); 

Of course, having this kind of beauty impacts in the performance (an average of 2 times), but can you find a more readable code?

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