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For the Java app I am currently developing I am using an ID system, each ID being a unique string. I have two array lists, one is a an ArrayList<String> which holds just the IDs in the correct order, the other is an array list of objects which all have an .ID field. What is the best way to order the array list of objects so that their IDs are in the same order as the array list of String IDs?

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This sounds painful. Have you considered re-designing your application to use a HashMap? –  thkala Feb 23 '12 at 21:49
Define best way, big O, resource usage, etc –  stryba Feb 23 '12 at 21:50
Or possibly use SortedMap? That sorts by the key-value, or you could use a Comparator. –  Bradley Odell Feb 23 '12 at 21:52
@thkala TreeMap? TreeMap is ordered, but I don't know if the order of the ID's in the array can be calculated from the ID's. –  Maarten Bodewes Feb 23 '12 at 21:53
@stryba by best way I mean "easy for me to write" probably because I'm only ever going to have 150 objects to sort at a time –  flea whale Feb 23 '12 at 22:07

6 Answers 6

up vote 3 down vote accepted

I'd put all objects in a HashMap using their ID as key, then run over second ID list and create new list of objects using ID and map. Should have a complexity around 2n -> n while not as resource friendly.

EDIT: to make it clear what I mean

List<String> idList;
List<ObjectWithID> objectList;

Map<String, ObjectWithID> helperMap=new HashMap<>();

//first O(n)
for (ObjectWithID o:objectList) {
  helperMap.put(o.ID, o);

int i=0;
//second O(n)
for (String id:idList) {

Assuming objectList and idList have the same size and same ids/object.IDs resp.

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List.set() will fail if the list does not already have that index. Just use add() and lose the counter. –  thkala Feb 23 '12 at 23:12
@thkala: thats why I said "Assuming objectList and idList have the same size and same ids/object.IDs resp." –  stryba Feb 23 '12 at 23:20
Ah, right, I thought you created a new list. Objection withdrawn! +1 –  thkala Feb 23 '12 at 23:22
ahh with the example I now see, nice and simple and it works :) thanks @Stryba! –  flea whale Feb 23 '12 at 23:22
@fleawhale: but still, you might want to consider a redesign in general –  stryba Feb 23 '12 at 23:26

Allocate a 3rd list. An O(n^2) solution is to iterate over the list which has the ordered IDs. Inside this loop have another loop to find the object with its ID == current ID found in first loop/list. Extract this item and add it to the 3rd list:

for (ID in List<ID>)
    for (Item item in List<Item>){
        if (item.ID == ID){

Horrible algorithm. I suggest you design your datastructures. Use a map or a comparator.

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I've asked and it seems that there is no natural ordering of the ID's, other than the order in the list. Modded up as it is the only answer that does not assume natural ordering, and is simple to implement for a relatively small list. –  Maarten Bodewes Feb 23 '12 at 22:41
? most of the other answers don't assume natural ordering either –  stryba Feb 23 '12 at 22:44
@stryba Even my comment assumes some compare to work on the ID, according to the asker, the only order we can rely on is the order in the array. That means comparators, SortedMap and such are out, and any answer incorporating those is wrong. –  Maarten Bodewes Feb 23 '12 at 22:51
@owlstead: unless the comparator uses the order in the supplied ID list to do its job... –  thkala Feb 23 '12 at 22:54
@thkala but the only way to reliably do that has the same order as Adrian's answer, so what's the point? It only adds complexity for a relatively small list. –  Maarten Bodewes Feb 23 '12 at 23:02

Disclaimer: You do not mention why you need to order those entries, but if it is only for ID matching purposes, you should probably redesign your application to use something along the lines of a HashMap or TreeMap from the beginning.

Here's a possible solution, with O(n) complexity for the preparation and O(n * log(n)) complexity for the actual sorting:

class MyEntry {
   public String id;

ArrayList<String> idList = new ArrayList<String>();
ArrayList<MyEntry> entryList = new ArrayList<MyEntry>();

final HashMap<String, Integer> index = new HashMap<String, Integer>();

// Match each ID to its index
for (int i = 0; i < idList.size(); ++i) {
    index.put(idList.get(i), i);

Collections.sort(entryList, new Comparator<MyEntry>() {
    public int compare(MyEntry o1, MyEntry o2) {
        return index.get(o1.id) - index.get(o2.id);

Disclaimer II: I have not actually run this code, but it should work...


Just for the record, I focused way too much in finding a way to sort the original entry list. The solution proposed by stryba is simpler and faster for this particular use case.

My approach becomes advantageous only if future requirements make it necessary to quickly recover the index of an entry based on its ID.

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What about the O(2n) resp. O(n) solution I presented? –  stryba Feb 23 '12 at 22:39
@stryba: your solution is definitely faster - I may have focused a bit too much on sorting the existing list, as asked by the OP. On the other hand, it seems to me that whatever the OP is doing could use a redesign - I suspect that both of our solutions would be outperformed in that case... –  thkala Feb 23 '12 at 22:51
you're probably right this smells like redesign –  stryba Feb 23 '12 at 22:54

Just the general idea (no compiler)

public class MyListComparator implements Comparator<MyObject>{

    private ArrayList<String> ids;

    public MyListComparator(ArrayList<String> ids)
        this.ids = ids;

    public int compare(MyObject o1, MyObject o2) {
        Integer i1 = ids.indexOf(o1.id);
        Integer i2 = ids.indexOf(o2.id);
        return i1.compareTo(i2);
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the complexity is over the top here –  stryba Feb 23 '12 at 21:55
excited to see your response... my idea of responding is to move people forward –  ämbi Feb 23 '12 at 21:57
No offense, me too –  stryba Feb 23 '12 at 21:59
ok, none taken, still interested in your approach... there it is. –  ämbi Feb 23 '12 at 22:01

Storing in 2 lists is not good design. If possible, you can refactor it and store in a Map. Depending on your requirements, you can decide what kind of Map implementation you need. For Ex: If you want to maintain the insertion order, you can go for LinkedHashMap.

If it is not possible to refactor/redesign, you can use the following example that I coded to test the sorting functionality. First off, I created a Person object with variables "id" and "name", as follows:

public class Person {
    private String id;
    private String name;

     * @return the id
    public String getId() {
        return id;

     * @param id the id to set
    public void setId(String id) {
        this.id = id;

     * @return the name
    public String getName() {
        return name;

     * @param name the name to set
    public void setName(String name) {
        this.name = name;


And below is the Main class, where the sorting is implemented:

public class TwoLists {
    public static void main(String[] args) {
        ArrayList<String> idList = new ArrayList<String>();
        ArrayList<Person> personList = new ArrayList<Person>();


        TwoLists twoLists = new TwoLists();

        personList.add(twoLists.createPerson("4", "Name4"));
        personList.add(twoLists.createPerson("2", "Name2"));
        personList.add(twoLists.createPerson("3", "Name3"));
        personList.add(twoLists.createPerson("1", "Name1"));

        System.out.println("Before Sorting:");
        for(Person person: personList) {

        Collections.sort(personList, twoLists.new TwoListsComparator(idList));

        System.out.println("After Sorting:");
        for(Person person: personList) {

    private class TwoListsComparator implements Comparator<Person> {
        ArrayList<String> idList;

        private TwoListsComparator(ArrayList<String> idList) {
            this.idList = idList;

        public int compare(Person person1, Person person2) {
            int index1 = idList.indexOf(person1.getId());
            int index2 = idList.indexOf(person2.getId());

            return Integer.valueOf(index1).compareTo(index2);

    private Person createPerson(String id, String name) {
        Person p = new Person();

        return p;

In the above code, I created 2 lists : one for just id strings and other for Person objects. I'm then sorting the Person List by passing the idList to the comparator and comparing the index's.

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your solution has a complexity of O(n ^ 2 * log(n)): the indexOf() method has linear complexity. –  thkala Feb 23 '12 at 22:57
True, but it's just a worst-case option. –  bchetty Feb 23 '12 at 23:01
wow thanks, this is exactly what I asked for. id never heard of comparators before. cheers! –  flea whale Feb 23 '12 at 23:02
even if it is worst case scenario, they do happen you know –  stryba Feb 23 '12 at 23:03
it also looks similar to @mindandmedia's solution, just more boilerplate –  stryba Feb 23 '12 at 23:05

Why not sort both lists separately by ID.

Make one comparator that sorts your list of Strings, then make another comparator that compares the .ID field on your objects. Sort both lists separately, as long as both lists are 1-to-1 it should be fine.

Admittedly this is making a ton of assumptions about what you are trying to do. If this does not accomplish what you wanted, you should probably be a little more specific in your question about what you are trying to achieve.

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