There is an ArrayList which stores integer values. I need to find the maximum value in this list. E.g. suppose the arrayList stored values are : 10, 20, 30, 40, 50 and the max value would be 50.

What is the efficient way to find the maximum value?

@Edit : I just found one solution for which I am not very sure

ArrayList<Integer> arrayList = new ArrayList<Integer>();
arrayList.add(100); /* add(200), add(250) add(350) add(150) add(450)*/

Integer i = Collections.max(arrayList)

and this returns the highest value.

Another way to compare the each value e.g. selection sort or binary sort algorithm  

15 Answers 15


You can use the Collections API to achieve what you want easily - read efficiently - enough Javadoc for Collections.max


Returns the maximum element of the given collection, according to the natural ordering of its elements. All elements in the collection must implement the Comparable interface.

  • 6
    Why is this the accepted answer? It's not the most efficient solution. Best case, it's O(n log(n)) and picking the max by checking them all is only O(n) – Brendan Long Nov 29 '11 at 3:03
  • Yes, iterating through the list is O(n log(n)) but if "There is no particularly efficient way", what do you propose that is a better solution besides checking them all? – gotomanners Nov 29 '11 at 9:53
  • Naively iterating is faster (checked, comparator was fetching scores from a Map) than either sorting and getting first element or using max. Both sort+take first and max used a lambda. – majTheHero Mar 27 at 12:24

This question is almost a year old but I have found that if you make a custom comparator for objects you can use Collections.max for an array list of objects.

import java.util.Comparator;

public class compPopulation implements Comparator<Country> {
    public int compare(Country a, Country b) {
        if (a.getPopulation() > b.getPopulation())
            return -1; // highest value first
        if (a.getPopulation() == b.Population())
            return 0;
        return 1;
ArrayList<Country> X = new ArrayList<Country>();
// create some country objects and put in the list
Country ZZ = Collections.max(X, new compPopulation());
  • 2
    Thanks for sharing your knowledge about Comparators. Your post made me writing a blog article: fenon.de/kleinsten-und-groessten-wert-einer-arraylist-ermitteln – R_User Nov 14 '13 at 17:18
  • do you need a custom comparator for Calendar types? – tatmanblue Sep 26 '17 at 14:42
  • Your code return smallest value in the list, if (a.getPopulation() > b.getPopulation()) return -1; The above has to change to, if (a.getPopulation() < b.getPopulation()) return -1; // highest value first – Chandrakanth Gowda Mar 7 '18 at 7:44
  • This can be done using a lambda as well: maxElement = Collections.max(collection, (el1, el2)-> el1 - el2); – majTheHero Mar 27 at 12:18
public int getMax(ArrayList list){
    int max = Integer.MIN_VALUE;
    for(int i=0; i<list.size(); i++){
        if(list.get(i) > max){
            max = list.get(i);
    return max;

From my understanding, this is basically what Collections.max() does, though they use a comparator since lists are generic.

  • This is faster than anything else for my case. – majTheHero Mar 27 at 12:25

We can simply use Collections.max() and Collections.min() method.

public class MaxList {
    public static void main(String[] args) {
        List l = new ArrayList();
        System.out.println(Collections.max(l)); // 5
        System.out.println(Collections.min(l)); // 1

Integer class implements Comparable.So we can easily get the max or min value of the Integer list.

public int maxOfNumList() {
    List<Integer> numList = new ArrayList<>();
    return Collections.max(numList);

If a class does not implements Comparable and we have to find max and min value then we have to write our own Comparator.

List<MyObject> objList = new ArrayList<MyObject>();
MyObject maxObject = Collections.max(objList, new Comparator<MyObject>() {
    public int compare(MyObject o1, MyObject o2) {
        if (o1.getValue() == o2.getValue()) {
            return 0;
        } else if (o1.getValue() > o2.getValue()) {
            return -1;
        } else if (o1.getValue() < o2.getValue()) {
            return 1;
        return 0;


In Java 8, Collections have been enhanced by using lambda. So finding max and min can be accomplished as follows, using Comparator.comparing:


List<Integer> ints = Stream.of(12, 72, 54, 83, 51).collect(Collectors.toList());
System.out.println("the list: ");
ints.forEach((i) -> {
    System.out.print(i + " ");
Integer minNumber = ints.stream()
        .min(Comparator.comparing(i -> i)).get();
Integer maxNumber = ints.stream()
        .max(Comparator.comparing(i -> i)).get();

System.out.println("Min number is " + minNumber);
System.out.println("Max number is " + maxNumber);


 the list: 12 72 54 83 51  
 Min number is 12 
 Max number is 83

There is no particularly efficient way to find the maximum value in an unsorted list -- you just need to check them all and return the highest value.

  • what about this Integer i = Collections.max(arrayList). it returns the highest value in my case whether i am not very sure. what you say? – user1010399 Nov 29 '11 at 2:37
  • @user1010399 - This does exactly what I'm saying -- It checks every value and returns the highest one. – Brendan Long Nov 29 '11 at 3:04
  • ok, alright. thanks. i was bit confused between this collections method & sorting algorithm. – user1010399 Nov 29 '11 at 3:16

Here are three more ways to find the maximum value in a list, using streams:

List<Integer> nums = Arrays.asList(-1, 2, 1, 7, 3);
Optional<Integer> max1 = nums.stream().reduce(Integer::max);
Optional<Integer> max2 = nums.stream().max(Comparator.naturalOrder());
OptionalInt max3 = nums.stream().mapToInt(p->p).max();
System.out.println("max1: " + max1.get() + ", max2: " 
   + max2.get() + ", max3: " + max3.getAsInt());

All of these methods, just like Collections.max, iterate over the entire collection, hence they require time proportional to the size of the collection.


Java 8

As integers are comparable we can use the following one liner in:

List<Integer> ints = Stream.of(22,44,11,66,33,55).collect(Collectors.toList());
Integer max = ints.stream().mapToInt(i->i).max().orElseThrow(NoSuchElementException::new); //66
Integer min = ints.stream().mapToInt(i->i).min().orElseThrow(NoSuchElementException::new); //11

Another point to note is we cannot use Funtion.identity() in place of i->i as mapToInt expects ToIntFunction which is a completely different interface and is not related to Function. Moreover this interface has only one method applyAsInt and no identity() method.


Here is the fucntion

public int getIndexOfMax(ArrayList<Integer> arr){
    int MaxVal = arr.get(0); // take first as MaxVal
    int indexOfMax = -1; //returns -1 if all elements are equal
    for (int i = 0; i < arr.size(); i++) {
        //if current is less then MaxVal
        if(arr.get(i) < MaxVal ){
            MaxVal = arr.get(i); // put it in MaxVal
            indexOfMax = i; // put index of current Max
    return indexOfMax;  
package in.co.largestinarraylist;

import java.util.ArrayList;
import java.util.Scanner;

public class LargestInArrayList {

    public static void main(String[] args) {

        int n;
        ArrayList<Integer> L = new ArrayList<Integer>();
        int max;
        Scanner in = new Scanner(System.in);
        System.out.println("Enter Size of Array List");
        n = in.nextInt();
        System.out.println("Enter elements in Array List");

        for (int i = 0; i < n; i++) {

        max = L.get(0);

        for (int i = 0; i < L.size(); i++) {
            if (L.get(i) > max) {
                max = L.get(i);

        System.out.println("Max Element: " + max);

In addition to gotomanners answer, in case anyone else came here looking for a null safe solution to the same problem, this is what I ended up with

Collections.max(arrayList, Comparator.nullsFirst(Comparator.naturalOrder()))

In Java8

model =list.stream().max(Comparator.comparing(Model::yourSortList)).get();

depending on the size of your array a multithreaded solution might also speed up things

  • This sounds more like a comment than an actual answer to the question. – Pac0 Nov 28 '17 at 13:27

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