Im trying to sort through an arraylist of objects by a particular value within the object. What would be the best approach to do such a thing. Should I use Collections.sort() with some kind of comparator?

Im trying to sort a list of objects by a float value they hold in one of the variables.

EDIT: This is what I have so far:

public class CustomComparator implements Comparator<Marker> {
    public int compare(Mark o1, Mark o2) {
        return o1.getDistance().compareTo(o2.getDistance());

the error states: Cannot invoke compareTo(double) on the primitive type double.

Is it because a comparator cant return anything other than a certain type?

  • 2
    "Should I use Collections.sort() with some kind of comparator? " Yes, sounds like a good idea – Kennet Feb 2 '12 at 9:31
  • I dont know if it matters but the number of objects in the list will be as high as 80. Thats why Im kind of confused about using a comparator if that is the way to go because it only compares two values at once. – James andresakis Feb 2 '12 at 9:33
  • That's how the sorting works. First add one item to a list. When adding next; should this go before or after current in the list. When adding third item compare to first item in list, if after then compare to next item. And so on. – Kennet Feb 2 '12 at 9:41

11 Answers 11


You should use Comparable instead of a Comparator if a default sort is what your looking for.

See here, this may be of some help - When should a class be Comparable and/or Comparator?

Try this -

import java.util.ArrayList;
import java.util.Collections;
import java.util.List;

public class TestSort {

    public static void main(String args[]){

        ToSort toSort1 = new ToSort(new Float(3), "3");
        ToSort toSort2 = new ToSort(new Float(6), "6");
        ToSort toSort3 = new ToSort(new Float(9), "9");
        ToSort toSort4 = new ToSort(new Float(1), "1");
        ToSort toSort5 = new ToSort(new Float(5), "5");
        ToSort toSort6 = new ToSort(new Float(0), "0");
        ToSort toSort7 = new ToSort(new Float(3), "3");
        ToSort toSort8 = new ToSort(new Float(-3), "-3");

        List<ToSort> sortList = new ArrayList<ToSort>();


        for(ToSort toSort : sortList){


public class ToSort implements Comparable<ToSort> {

    private Float val;
    private String id;

    public ToSort(Float val, String id){
        this.val = val;
        this.id = id;

    public int compareTo(ToSort f) {

        if (val.floatValue() > f.val.floatValue()) {
            return 1;
        else if (val.floatValue() <  f.val.floatValue()) {
            return -1;
        else {
            return 0;


    public String toString(){
        return this.id;
  • Hey thanks for the link :) I go back and forth from one language to the next so Im always missing something :p you know how it goes......jack of all trades but a master of none lol – James andresakis Feb 2 '12 at 21:02

Follow this code to sort any ArrayList

Collections.sort(myList, new Comparator<EmployeeClass>(){
    public int compare(EmployeeClass obj1, EmployeeClass obj2) {
        // ## Ascending order
        return obj1.firstName.compareToIgnoreCase(obj2.firstName); // To compare string values
        // return Integer.valueOf(obj1.empId).compareTo(Integer.valueOf(obj2.empId)); // To compare integer values

        // ## Descending order
        // return obj2.firstName.compareToIgnoreCase(obj1.firstName); // To compare string values
        // return Integer.valueOf(obj2.empId).compareTo(Integer.valueOf(obj1.empId)); // To compare integer values
  • 13
    This should be the top answer! – John Smith Apr 8 '15 at 6:17
  • 3
    simple & great answer, kudos bro:) – Sadashiv Dec 23 '15 at 6:45
  • 1
    Simple and small.. Thanks! – Meet Nov 22 '16 at 6:32
  • 1
    This seems really clean. thanks. And One plus for provided tips. – Anurag Dec 1 '16 at 6:22
  • 1
    int compare can be replaced by: return Integer.compare(obj1.empId, obj2.empId); – Ali Zarei Oct 13 '19 at 17:40

I think this will help you better

Person p = new Person("Bruce", "Willis");
Person p1  = new Person("Tom", "Hanks");
Person p2 = new Person("Nicolas", "Cage");
Person p3 = new Person("John", "Travolta");

ArrayList<Person> list = new ArrayList<Person>();

Collections.sort(list, new Comparator() {
    public int compare(Object o1, Object o2) {
        Person p1 = (Person) o1;
        Person p2 = (Person) o2;
        return p1.getFirstName().compareToIgnoreCase(p2.getFirstName());

Now no need to Boxing (i.e no need to Creating OBJECT using new Operator use valueOf insted with compareTo of Collections.Sort..)

1)For Ascending order

Collections.sort(temp, new Comparator<XYZBean>() 
     public int compare(XYZBean lhs, XYZBean rhs) {

       return Integer.valueOf(lhs.getDistance()).compareTo(rhs.getDistance());

1)For Deascending order

Collections.sort(temp, new Comparator<XYZBean>() 
     public int compare(XYZBean lhs, XYZBean rhs) {

       return Integer.valueOf(rhs.getDistance()).compareTo(lhs.getDistance());

"Android-java" is here by no means different than "normal java", so yes Collections.sort() would be a good approach.

  • 1
    But how do I make it sort by a value within the object. Thats what Im stuck on. – James andresakis Feb 2 '12 at 9:38
public class DateComparator implements Comparator<Marker> {
    public int compare(Mark lhs, Mark rhs) {
        Double distance = Double.valueOf(lhs.getDistance());
        Double distance1 = Double.valueOf(rhs.getDistance());
        if (distance.compareTo(distance1) < 0) {
            return -1;
        } else if (distance.compareTo(distance1) > 0) {
            return 1;
        } else {
            return 0;

ArrayList(Marker) arraylist;

How To use:

Collections.sort(arraylist, new DateComparator());

You can compare two String by using this.

Collections.sort(contactsList, new Comparator<ContactsData>() {

                    public int compare(ContactsData lhs, ContactsData rhs) {

                        char l = Character.toUpperCase(lhs.name.charAt(0));

                        if (l < 'A' || l > 'Z')

                            l += 'Z';

                        char r = Character.toUpperCase(rhs.name.charAt(0));

                        if (r < 'A' || r > 'Z')

                            r += 'Z';

                        String s1 = l + lhs.name.substring(1);

                        String s2 = r + rhs.name.substring(1);

                        return s1.compareTo(s2);



And Now make a ContactData Class.

public class ContactsData {

public String name;
public String id;
public String email;
public String avatar; 
public String connection_type;
public String thumb;
public String small;
public String first_name;
public String last_name;
public String no_of_user;
public int grpIndex;

public ContactsData(String name, String id, String email, String avatar, String connection_type)
    this.name = name;
    this.id = id;
    this.email = email;
    this.avatar = avatar;
    this.connection_type = connection_type;


Here contactsList is :

public static ArrayList<ContactsData> contactsList = new ArrayList<ContactsData>();

Either make a Comparator that can compare your objects, or if they are all instances of the same class, you can make that class implement Comparable. You can then use Collections.sort() to do the actual sorting.

  • I went ahead and implemented Comparable in my class but and created a method to call sort on the list when i need to have it sorted but how do I sort it by a value with in the object? – James andresakis Feb 2 '12 at 9:42
  • The compareTo()-method is where you do the comparison. A little googling gave several detailed examples on how to use it, here is one of them: javadeveloper.co.in/java-example/java-comparable-example.html – Jave Feb 2 '12 at 9:45
  • I set up a method similar to the example however I get an error stating I cant use compareTo on a cast double. It seems like for what ever reason, what Im doing it doesnt like. Cannot invoke compareTo(double) on the primitive type double. Ill add my code up above to show what I mean – James andresakis Feb 2 '12 at 20:56

It's very easy for Kotlin!

listToBeSorted.sortBy { it.distance }


I have a listview which shows the Information about the all clients I am sorting the clients name using this custom comparator class. They are having some extra lerret apart from english letters which i am managing with this setStrength(Collator.SECONDARY)

 public class CustomNameComparator implements Comparator<ClientInfo> {

    public int compare(ClientInfo o1, ClientInfo o2) { 

        Locale locale=Locale.getDefault();
        Collator collator = Collator.getInstance(locale);
        return collator.compare(o1.title, o2.title);


PRIMARY strength: Typically, this is used to denote differences between base characters (for example, "a" < "b"). It is the strongest difference. For example, dictionaries are divided into different sections by base character. 
SECONDARY strength: Accents in the characters are considered secondary differences (for example, "as" < "às" < "at"). Other differences between letters can also be considered secondary differences, depending on the language. A secondary difference is ignored when there is a primary difference anywhere in the strings. 
TERTIARY strength: Upper and lower case differences in characters are distinguished at tertiary strength (for example, "ao" < "Ao" < "aò"). In addition, a variant of a letter differs from the base form on the tertiary strength (such as "A" and "Ⓐ"). Another example is the difference between large and small Kana. A tertiary difference is ignored when there is a primary or secondary difference anywhere in the strings. 
IDENTICAL strength: When all other strengths are equal, the IDENTICAL strength is used as a tiebreaker. The Unicode code point values of the NFD form of each string are compared, just in case there is no difference. For example, Hebrew cantellation marks are only distinguished at this strength. This strength should be used sparingly, as only code point value differences between two strings are an extremely rare occurrence. Using this strength substantially decreases the performance for both comparison and collation key generation APIs. This strength also increases the size of the collation key. 

**Here is a another way to make a rule base sorting if u need it just sharing**

/*      String rules="< å,Å< ä,Ä< a,A< b,B< c,C< d,D< é< e,E< f,F< g,G< h,H< ï< i,I"+"< j,J< k,K< l,L< m,M< n,N< ö,Ö< o,O< p,P< q,Q< r,R"+"< s,S< t,T< ü< u,U< v,V< w,W< x,X< y,Y< z,Z";
        RuleBasedCollator rbc = null;
        try {
            rbc = new RuleBasedCollator(rules);
        } catch (ParseException e) {
            // TODO Auto-generated catch block
        String myTitles[]={o1.title,o2.title};
        Collections.sort(Arrays.asList(myTitles), rbc);*/

Model Class:

public class ToDoModel implements Comparable<ToDoModel> {
    private String id;
    private Date taskDate;

    public String getId() {
        return id;

    public void setId(String id) {
        this.id = id;

    public Date getTaskDate() {
        return taskDate;

    public void setTaskDate(Date taskDate) {
        this.taskDate = taskDate;

    public int compareTo(ToDoModel another) {
        return getTaskDate().compareTo(another.getTaskDate());  

Now set data in ArrayList

for (int i = 0; i < your_array_length; i++) {
    ToDoModel tm = new ToDoModel();

Now Sort ArrayList


Summary: It will sort your data datewise

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