# How to sort a List/ArrayList?

I have a List of doubles in java and I want to sort ArrayList in descending order.

Input ArrayList is as below:

``````List<Double> testList = new ArrayList();

testList.add(0.5);
testList.add(0.2);
testList.add(0.9);
testList.add(0.1);
testList.add(0.1);
testList.add(0.1);
testList.add(0.54);
testList.add(0.71);
testList.add(0.71);
testList.add(0.71);
testList.add(0.92);
testList.add(0.12);
testList.add(0.65);
testList.add(0.34);
testList.add(0.62);
``````

The out put should be like this

``````0.92
0.9
0.71
0.71
0.71
0.65
0.62
0.54
0.5
0.34
0.2
0.12
0.1
0.1
0.1
``````
• testList.sort(Comparator.reverseOrder()); Mar 15, 2021 at 12:34

## 21 Answers

``````Collections.sort(testList);
Collections.reverse(testList);
``````

That will do what you want. Remember to import `Collections` though!

• Maybe it's worth mentioning that you can define your own `Comparator` :) Apr 27, 2013 at 12:53
• @Polygnome The OP is only sorting `Double`s. Apr 27, 2013 at 12:54
• Yes, but you could sort them in various ways, depending on the use case. Sometimes you might want to sort them by distance to 0. I don't even know about the runtime characteristics of `reverse`, but sorting descending could actually be faster then sorting ascending and then reversing. Moreover, using a List implementation that supports `Comparator` as constructor argument (thus keeping it invariant) would ensure the list is sorted at all times. Apr 27, 2013 at 12:58
• @Ayesha Yes, `Collections.sort` uses `compareTo` behind the scenes. Jan 13, 2014 at 22:44
• One should actually use `Collections.sort(list, Collections.reverseOrder());`. Apart from being more idiomatic (and possibly more efficient), using the reverse order comparator makes sure that the sort is stable (meaning that the order of elements will not be changed when they are equal according to the comparator, whereas reversing will change the order). Aug 30, 2014 at 23:18

Descending:

``````Collections.sort(mArrayList, new Comparator<CustomData>() {
@Override
public int compare(CustomData lhs, CustomData rhs) {
// -1 - less than, 1 - greater than, 0 - equal, all inversed for descending
return lhs.customInt > rhs.customInt ? -1 : (lhs.customInt < rhs.customInt) ? 1 : 0;
}
});
``````
• What should I do if `CustomData ` is `List<AnotherModel>` which `AnotherModel` has `id` and I want to sort by `id`? And I just access to `CustomData ` model in my class. Dec 26, 2017 at 11:48
• You'd just replace the CustomData class with AnotherModel and have a line like this : return lhs.id > rhs.id ? -1 : .. etc Jan 12, 2018 at 17:54
• The compare return statement can be better written as `Integer.compare(rhs.customInt, lhs.customInt);` Aug 13, 2019 at 9:30

For your example, this will do the magic in Java 8

``````List<Double> testList = new ArrayList();
testList.sort(Comparator.naturalOrder());
``````

But if you want to sort by some of the fields of the object you are sorting, you can do it easily by:

``````testList.sort(Comparator.comparing(ClassName::getFieldName));
``````

or

`````` testList.sort(Comparator.comparing(ClassName::getFieldName).reversed());
``````

or

`````` testList.stream().sorted(Comparator.comparing(ClassName::getFieldName).reversed()).collect(Collectors.toList());
``````
• Where is 'comparing'-method located? Oct 4, 2016 at 10:20
• you need to import: import static java.util.Comparator.comparing; Oct 4, 2016 at 13:20
• It is available with Java 1.7? Oct 5, 2016 at 11:07
• No, this is a part of stream and functional interface, which is all part of Java 8 Oct 5, 2016 at 14:01
• You are right @AjahnCharles. They have removed zero-arg, so I have updated my answer now. Oct 8, 2018 at 19:40

Use util method of java.util.Collections class, i.e

``````Collections.sort(list)
``````

In fact, if you want to sort custom object you can use

``````Collections.sort(List<T> list, Comparator<? super T> c)
``````

see collections api

• What about sorting array?
– Jack
Apr 7, 2022 at 18:55

Using lambdas (Java 8), and stripping it down to the barest of syntax (the JVM will infer plenty in this case), you get:

``````Collections.sort(testList, (a, b) -> b.compareTo(a));
``````

A more verbose version:

``````// Implement a reverse-order Comparator by lambda function
Comparator<Double> comp = (Double a, Double b) -> {
return b.compareTo(a);
};

Collections.sort(testList, comp);
``````

The use of a lambda is possible because the Comparator interface has only a single method to implement, so the VM can infer which method it's implementing. Since the types of the params can be inferred, they don't need to be stated, i.e. `(a, b)` instead of `(Double a, Double b)`. And since the lambda body has only a single line, and the method is expected to return a value, the `return` is inferred and the braces aren't necessary.

• This is cool, thanks! This one is a bit more compact: Collections.sort(testList, Comparator.reverseOrder()); Apr 21, 2018 at 9:36
• Even more compact: testList.sort(Comparator.reverseOrder()); Jun 8, 2018 at 9:18
• You don't need the compareTo as well. `Collections.sort(testList, (a, b) -> b - a);` will achieve the same result Mar 28 at 0:40

With Java8 there is a default sort method on the List interface that will allow you to sort the collection if you provide a Comparator. You can easily sort the example in the question as follows:

``````testList.sort((a, b) -> Double.compare(b, a));
``````

Note: the args in the lambda are swapped when passed in to Double.compare to ensure the sort is descending

• To me this is the best answer as it also works for sorting using objects ... example `locationDetails.sort((locationDetailAsc,locationDetailsDsc) -> Long.compare(locationDetailsDsc.getSnapshot().getQuantity(), locationDetailAsc.getSnapshot().getQuantity()));` Feb 21, 2018 at 11:52
• what type of sort does this method perform? Sep 22, 2020 at 11:50

Here is a short cheatsheet that covers typical cases:

``````import static java.util.Comparator.comparing;

// sort
list.sort(naturalOrder());

// sort (reversed)
list.sort(reverseOrder());

// sort by field
list.sort(comparing(Type::getField));

// sort by field (reversed)
list.sort(comparing(Type::getField).reversed());

// sort by int field
list.sort(comparingInt(Type::getIntField));

// sort by double field (reversed)
list.sort(comparingDouble(Type::getDoubleField).reversed());

// sort by nullable field (nulls last)
list.sort(comparing(Type::getNullableField, nullsLast(naturalOrder())));

// two-level sort
list.sort(comparing(Type::getField1).thenComparing(Type::getField2));
``````
• What about sorting array?
– Jack
Apr 7, 2022 at 18:56

You can use `Collections.sort(list)` to sort `list` if your `list` contains `Comparable` elements. Otherwise I would recommend you to implement that interface like here:

``````public class Circle implements Comparable<Circle> {}
``````

and of course provide your own realization of `compareTo` method like here:

``````@Override
public int compareTo(Circle another) {
if (this.getD()<another.getD()){
return -1;
}else{
return 1;
}
}
``````

And then you can again use `Colection.sort(list)` as now list contains objects of Comparable type and can be sorted. Order depends on `compareTo` method. Check this https://docs.oracle.com/javase/tutorial/collections/interfaces/order.html for more detailed information.

`Collections.sort` allows you to pass an instance of a `Comparator` which defines the sorting logic. So instead of sorting the list in natural order and then reversing it, one can simply pass `Collections.reverseOrder()` to `sort` in order to sort the list in reverse order:

``````// import java.util.Collections;
Collections.sort(testList, Collections.reverseOrder());
``````

As mentioned by @Marco13, apart from being more idiomatic (and possibly more efficient), using the reverse order comparator makes sure that the sort is stable (meaning that the order of elements will not be changed when they are equal according to the comparator, whereas reversing will change the order)

``````//Here is sorted List alphabetically with syncronized

package com.mnas.technology.automation.utility;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.Iterator;
import java.util.List;

import org.apache.log4j.Logger;

/**
* @author manoj.kumar
*/
public class SynchronizedArrayList {
static Logger log = Logger.getLogger(SynchronizedArrayList.class.getName());

@SuppressWarnings("unchecked")
public static void main(String[] args) {

List<Employee> synchronizedList = Collections.synchronizedList(new ArrayList<Employee>());
synchronizedList.add(new Employee("Aditya"));
synchronizedList.add(new Employee("Siddharth"));
synchronizedList.add(new Employee("Manoj"));
Collections.sort(synchronizedList, new Comparator() {
public int compare(Object synchronizedListOne, Object synchronizedListTwo) {
//use instanceof to verify the references are indeed of the type in question
return ((Employee) synchronizedListOne).name
.compareTo(((Employee) synchronizedListTwo).name);
}
});
/*for( Employee sd : synchronizedList) {
log.info("Sorted Synchronized Array List..."+sd.name);
}*/

// when iterating over a synchronized list, we need to synchronize access to the synchronized list
synchronized (synchronizedList) {
Iterator<Employee> iterator = synchronizedList.iterator();
while (iterator.hasNext()) {
log.info("Sorted Synchronized Array List Items: " + iterator.next().name);
}
}

}
}

class Employee {
String name;

Employee(String name) {
this.name = name;

}
}
``````
• seems to be thas is Collections.synchronizedList helps us May 31, 2019 at 10:19

You can do like this:

``````List<String> yourList = new ArrayList<String>();
Collections.sort(yourList, Collections.reverseOrder());
``````

Collection has a default Comparator that can help you with that.

Also, if you want to use some Java 8 new features, you can do like that:

``````List<String> yourList = new ArrayList<String>();
yourList = yourList.stream().sorted(Collections.reverseOrder()).collect(Collectors.toList());
``````

if you are using Java SE 8, then this might be of help.

``````//create a comparator object using a Lambda expression
Comparator<Double> compareDouble = (d1, d2) -> d1.compareTo(d2);

//Sort the Collection in this case 'testList' in reverse order
Collections.sort(testList, Collections.reverseOrder(compareDouble));

//print the sorted list using method reference only applicable in SE 8
testList.forEach(System.out::println);
``````
• There is also `Collections.reverseOrder()` without any arguments, which makes your implementation of `compareDouble` superfluous (it's equivalent to the natural ordering of `Double`s). The answer here should be `Collections.sort(testList, Collections.reverseOrder());`
– Matt
May 13, 2015 at 9:23

|*| Sorting an List :

``````import java.util.Collections;
``````

|=> Sort Asc Order :

``````Collections.sort(NamAryVar);
``````

|=> Sort Dsc Order :

``````Collections.sort(NamAryVar, Collections.reverseOrder());
``````

|*| Reverse the order of List :

``````Collections.reverse(NamAryVar);
``````

In JAVA 8 its much easy now.

``````List<String> alphaNumbers = Arrays.asList("one", "two", "three", "four");
List<String> alphaNumbersUpperCase = alphaNumbers.stream()
.map(String::toUpperCase)
.sorted()
.collect(Collectors.toList());
System.out.println(alphaNumbersUpperCase); // [FOUR, ONE, THREE, TWO]
``````

-- For reverse use this

``````.sorted(Comparator.reverseOrder())
``````

You can use like that

``````ArrayList<Group> groupList = new ArrayList<>();
Collections.sort(groupList, Collections.reverseOrder());
Collections.reverse(groupList);
``````

For example I have a class Person: String name, int age ==>Constructor new Person(name,age)

``````import java.util.Collections;
import java.util.ArrayList;
import java.util.Arrays;

public void main(String[] args){
Person ibrahima=new Person("Timera",40);
Person toto=new Person("Toto",35);
Person alex=new Person("Alex",50);
ArrayList<Person> myList=new ArrayList<Person>
Collections.sort(myList, new Comparator<Person>() {
@Override
public int compare(Person p1, Person p2) {
// return p1.age+"".compareTo(p2.age+""); //sort by age
return p1.name.compareTo(p2.name); // if you want to short by name
}
});
System.out.println(myList.toString());
//[Person [name=Alex, age=50], Person [name=Timera, age=40], Person [name=Toto, age=35]]
Collections.reverse(myList);
System.out.println(myList.toString());
//[Person [name=Toto, age=35], Person [name=Timera, age=40], Person [name=Alex, age=50]]

}
``````
• `if you want to short by name` -> `if you want to sort by name` May 9, 2018 at 12:15

If you have to sort object based on its id in the ArrayList , then use java8 stream.

`````` List<Person> personList = new ArrayList<>();

List<Person> personListSorted =
personList.stream()
.sorted(Comparator.comparing(Person::getPersonId))
.collect(Collectors.toList());
``````

With Eclipse Collections you could create a primitive double list, sort it and then reverse it to put it in descending order. This approach would avoid boxing the doubles.

``````MutableDoubleList doubleList =
DoubleLists.mutable.with(
0.5, 0.2, 0.9, 0.1, 0.1, 0.1, 0.54, 0.71,
0.71, 0.71, 0.92, 0.12, 0.65, 0.34, 0.62)
.sortThis().reverseThis();
doubleList.each(System.out::println);
``````

Updated: Sept. 2023

Since the 10.3 release, Eclipse Collections supports indirect sorting of primitive lists.

``````@Test
public void sortDoubleListInDescendingOrder()
{
MutableDoubleList testList = DoubleLists.mutable
.with(0.5, 0.2, 0.9, 0.1, 0.1, 0.1, 0.54, 0.71, 0.71,
0.71, 0.92, 0.12, 0.65, 0.34, 0.62);

DoubleList expected = DoubleLists.mutable
.with(0.92, 0.9, 0.71, 0.71, 0.71, 0.65, 0.62, 0.54,
0.5, 0.34, 0.2, 0.12, 0.1, 0.1, 0.1);

Assertions.assertNotEquals(expected, testList);

testList.sortThis((i, j) -> -Double.compare(i, j));

Assertions.assertEquals(expected, testList);
}
``````

End Update

If you want a `List<Double>`, then the following would work.

``````List<Double> objectList =
Lists.mutable.with(
0.5, 0.2, 0.9, 0.1, 0.1, 0.1, 0.54, 0.71,
0.71, 0.71, 0.92, 0.12, 0.65, 0.34, 0.62)
.sortThis(Collections.reverseOrder());
objectList.forEach(System.out::println);
``````

If you want to keep the type as `ArrayList<Double>`, you can initialize and sort the list using the `ArrayListIterate` utility class as follows:

``````ArrayList<Double> arrayList =
ArrayListIterate.sortThis(
new ArrayList<>(objectList), Collections.reverseOrder());
arrayList.forEach(System.out::println);
``````

Note: I am a committer for Eclipse Collections.

The following line should do the thick

``````testList.sort(Collections.reverseOrder());
``````
``````  yearList = arrayListOf()
for (year in 1950 until 2021) {
yearList.add(year)
}

yearList.reverse()
val list: ArrayList<String> = arrayListOf()

for (year in yearList) {
list.add(year.toString())
}
``````

An alternative way to order a List is using the Collections framework;

in this case using the SortedSet (the bean in the list should implement Comparable, so Double is ok):

``````List<Double> testList;
...
SortedSet<Double> sortedSet= new TreeSet<Double>();
for(Double number: testList) {
sortedSet.add(number);
}
orderedList=new ArrayList(sortedSet);
``````

In general, to order by an attribute of a bean in the list,put all the elements of the list in a SortedMap, using as a key the attribute, then get the values() from the SortedMap (the attribute should implement Comparable):

``````List<Bean> testList;
...
SortedMap<AttributeType,Bean> sortedMap= new TreeMap<AttributeType, Bean>();
for(Bean bean : testList) {
sortedMap.put(bean.getAttribute(),bean);
}
orderedList=new ArrayList(sortedMap.values());
``````