In Java is there a way to check the condition:

"Does this single character appear at all in string x"

without using a loop?

  • 6
    Is there any particular reason that you are trying to avoid loops?
    – shsteimer
    Commented Feb 3, 2009 at 14:26
  • 3
    You cannot do a general search for the character without a loop. Look up how a Turing Machine works. Commented Jun 15, 2015 at 19:02
  • 9
    We should assume @barfoon doesn't want the loop to be in their code. Obviously the machine does a loop somewhere. Otherwise the question is nonsense.
    – WW.
    Commented Jun 6, 2017 at 6:10
  • I would say java's string manipulation is quite limited
    – ACV
    Commented Jun 13, 2020 at 11:01
  • @barfoon, based on the definition of single character and how the user accesses that character, there might be a different usage pattern. I have added an answer
    – Thiyanesh
    Commented Feb 22, 2021 at 22:39

16 Answers 16


You can use string.indexOf('a').

If the char a is present in string :

it returns the the index of the first occurrence of the character in the character sequence represented by this object, or -1 if the character does not occur.

  • 12
    But there's always a loop behind that call because you can't find a symbol otherwise.
    – vava
    Commented Feb 3, 2009 at 6:25
  • 7
    indexOf() uses a loop internally.
    – mmcdole
    Commented Feb 3, 2009 at 6:57
  • 27
    Thats not what Barfoon asked. B wishes to avoid doing the loop in B's code. Naturally the API needs to do a loop after all a String is an array of characters wrapped up in a nice class with lots of useful methods.
    – mP.
    Commented Feb 5, 2009 at 2:55
  • 7
    How are these answers getting so many upvotes? The solutions of using indexOf() uses loop internally. None of the answers gives correct solution and if someone dares to ask a new question, people declare it Duplicate. Really disappointing ;( Commented Mar 3, 2017 at 7:22
  • 10
    @PrashantPrabhakarSingh I don't see how this can be done without a loop. A string is more or less an group of characters. If it is a group (collection, array, etc) then no matter if it is internal or external to the native code, I would expect that you would need a loop in order to find something within the "group". I believe "without using a loop?" is more like "without writing my own loop?".
    – Tyler
    Commented Sep 26, 2017 at 13:27
  • String.contains() which checks if the string contains a specified sequence of char values
  • String.indexOf() which returns the index within the string of the first occurence of the specified character or substring (there are 4 variations of this method)
  • 23
    a char isnt a CharSequence so it cant be passed to String.contains(CharSequence).
    – mP.
    Commented Feb 3, 2009 at 5:45
  • 48
    To use String.contains() with a single char c do this: String.contains(Character.toString(c)) Commented Sep 19, 2012 at 22:30
  • 13
    Or do this if you like short code: String.contains(""+c) Commented Oct 18, 2015 at 16:05

I'm not sure what the original poster is asking exactly. Since indexOf(...) and contains(...) both probably use loops internally, perhaps he's looking to see if this is possible at all without a loop? I can think of two ways off hand, one would of course be recurrsion:

public boolean containsChar(String s, char search) {
    if (s.length() == 0)
        return false;
        return s.charAt(0) == search || containsChar(s.substring(1), search);

The other is far less elegant, but completeness...:

 * Works for strings of up to 5 characters
public boolean containsChar(String s, char search) {
    if (s.length() > 5) throw IllegalArgumentException();

    try {
        if (s.charAt(0) == search) return true;
        if (s.charAt(1) == search) return true;
        if (s.charAt(2) == search) return true;
        if (s.charAt(3) == search) return true;
        if (s.charAt(4) == search) return true;
    } catch (IndexOutOfBoundsException e) {
        // this should never happen...
        return false;
    return false;

The number of lines grow as you need to support longer and longer strings of course. But there are no loops/recurrsions at all. You can even remove the length check if you're concerned that that length() uses a loop.

  • 14
    If you define recursion as a non-loop procedure, you're a geek :D +1 for being creative.
    – guerda
    Commented Feb 3, 2009 at 14:05
  • 1
    It's all good for the hard coded length of 5. Otherwise THERE IS A NEED TO DO A LOOP to search for the character. Not to be pedantic but, the proof of this is shown by the definition of a Turing Machine. The foundation of a computational device. Commented Jun 15, 2015 at 18:59
  • 4
    Correct me if I'm wrong, I feel at the end of the day, a recursion is a loop in disguise isn't it? And it may leads to more memory consumption than an ordinary loop in some scenarios.
    – PasinduJay
    Commented Oct 31, 2017 at 4:26

You can use 2 methods from the String class.

  • String.contains() which checks if the string contains a specified sequence of char values
  • String.indexOf() which returns the index within the string of the first occurence of the specified character or substring or returns -1 if the character is not found (there are 4 variations of this method)

Method 1:

String myString = "foobar";
if (myString.contains("x") {
    // Do something.

Method 2:

String myString = "foobar";
if (myString.indexOf("x") >= 0 {
    // Do something.

Links by: Zach Scrivena

String temp = "abcdefghi";
   System.out.println("there is 'b' in temp string");
   System.out.println("there is no 'b' in temp string");
  • 1
    isn't this the exact duplicate of the accepted answer ?, we acknowledge your effort but you should try finding some unanswered question and answer them. Commented Jul 11, 2011 at 9:35

If you need to check the same string often you can calculate the character occurrences up-front. This is an implementation that uses a bit array contained into a long array:

public class FastCharacterInStringChecker implements Serializable {
private static final long serialVersionUID = 1L;

private final long[] l = new long[1024]; // 65536 / 64 = 1024

public FastCharacterInStringChecker(final String string) {
    for (final char c: string.toCharArray()) {
        final int index = c >> 6;
        final int value = c - (index << 6);
        l[index] |= 1L << value;

public boolean contains(final char c) {
    final int index = c >> 6; // c / 64
    final int value = c - (index << 6); // c - (index * 64)
    return (l[index] & (1L << value)) != 0;
  • 1
    I tried your solution on a similar problem I have. My closest solution was over 1500 miliseconds for string1 length 63k and string2 length 95k. Your solution spits out a result in 3-5 milliseconds. Can you please edit your solution to include an explanation? Please? Commented Nov 21, 2017 at 21:54

To check if something does not exist in a string, you at least need to look at each character in a string. So even if you don't explicitly use a loop, it'll have the same efficiency. That being said, you can try using str.contains(""+char).

  • Agreed. At some point, somebody, somewhere needs to construct a loop to do this. Fortunately the Java API does this or our code would be very cluttered! Commented Feb 3, 2009 at 6:26

Is the below what you were looking for?

int index = string.indexOf(character);
return index != -1;
  • Why do you have && string.lastIndexOf(character) != index Commented Sep 4, 2019 at 4:25

String.contains(String) or String.indexOf(String) - suggested

"abc".contains("Z"); // false - correct
"zzzz".contains("Z"); // false - correct
"Z".contains("Z"); // true - correct
"πŸ˜€andπŸ˜€".contains("πŸ˜€"); // true - correct
"πŸ˜€andπŸ˜€".contains("πŸ˜‚"); // false - correct
"πŸ˜€andπŸ˜€".indexOf("πŸ˜€"); // 0 - correct
"πŸ˜€andπŸ˜€".indexOf("πŸ˜‚"); // -1 - correct

String.indexOf(int) and carefully considered String.indexOf(char) with char to int widening

"πŸ˜€andπŸ˜€".indexOf("πŸ˜€".charAt(0)); // 0 though incorrect usage has correct output due to portion of correct data
"πŸ˜€andπŸ˜€".indexOf("πŸ˜‚".charAt(0)); // 0 -- incorrect usage and ambiguous result
"πŸ˜€andπŸ˜€".indexOf("πŸ˜‚".codePointAt(0)); // -1 -- correct usage and correct output

The discussions around character is ambiguous in Java world

can the value of char or Character considered as single character?

No. In the context of unicode characters, char or Character can sometimes be part of a single character and should not be treated as a complete single character logically.

if not, what should be considered as single character (logically)?

Any system supporting character encodings for Unicode characters should consider unicode's codepoint as single character.

So Java should do that very clear & loud rather than exposing too much of internal implementation details to users.

String class is bad at abstraction (though it requires confusingly good amount of understanding of its encapsulations to understand the abstraction πŸ˜’πŸ˜’πŸ˜’ and hence an anti-pattern).

How is it different from general char usage?

char can be only be mapped to a character in Basic Multilingual Plane.

Only codePoint - int can cover the complete range of Unicode characters.

Why is this difference?

char is internally treated as 16-bit unsigned value and could not represent all the unicode characters using UTF-16 internal representation using only 2-bytes. Sometimes, values in a 16-bit range have to be combined with another 16-bit value to correctly define character.

Without getting too verbose, the usage of indexOf, charAt, length and such methods should be more explicit. Sincerely hoping Java will add new UnicodeString and UnicodeCharacter classes with clearly defined abstractions.

Reason to prefer contains and not indexOf(int)

  1. Practically there are many code flows that treat a logical character as char in java.
  2. In Unicode context, char is not sufficient
  3. Though the indexOf takes in an int, char to int conversion masks this from the user and user might do something like str.indexOf(someotherstr.charAt(0))(unless the user is aware of the exact context)
  4. So, treating everything as CharSequence (aka String) is better
    public static void main(String[] args) {
        System.out.println("πŸ˜€andπŸ˜€".indexOf("πŸ˜€".charAt(0))); // 0 though incorrect usage has correct output due to portion of correct data
        System.out.println("πŸ˜€andπŸ˜€".indexOf("πŸ˜‚".charAt(0))); // 0 -- incorrect usage and ambiguous result
        System.out.println("πŸ˜€andπŸ˜€".indexOf("πŸ˜‚".codePointAt(0))); // -1 -- correct usage and correct output
        System.out.println("πŸ˜€andπŸ˜€".contains("πŸ˜€")); // true - correct
        System.out.println("πŸ˜€andπŸ˜€".contains("πŸ˜‚")); // false - correct


  1. char can handle most of the practical use cases. Still its better to use codepoints within programming environment for future extensibility.
  2. codepoint should handle nearly all of the technical use cases around encodings.
  3. Still, Grapheme Clusters falls out of the scope of codepoint level of abstraction.
  4. Storage layers can choose char interface if ints are too costly(doubled). Unless storage cost is the only metric, its still better to use codepoint. Also, its better to treat storage as byte and delegate semantics to business logic built around storage.
  5. Semantics can be abstracted at multiple levels. codepoint should become lowest level of interface and other semantics can be built around codepoint in runtime environment.
  • 2
    that is a very happy answer :)
    – dreamcrash
    Commented Mar 15, 2021 at 22:02
  • Best answer I've read in quite a while, well done
    – Ray Toal
    Commented Jul 23, 2022 at 2:17

Yes, using the indexOf() method on the string class. See the API documentation for this method

package com;
public class _index {

    public static void main(String[] args) {
        String s1="be proud to be an indian";
        char ch=s1.charAt(s1.indexOf('e'));
        int count = 0; 
        for(int i=0;i<s1.length();i++) {
                System.out.println("number of E:=="+ch);
        System.out.println("Total count of E:=="+count);
static String removeOccurences(String a, String b)
    StringBuilder s2 = new StringBuilder(a);

    for(int i=0;i<b.length();i++){
        char ch = b.charAt(i);  
        System.out.println(ch+"  first index"+a.indexOf(ch));

        int lastind = a.lastIndexOf(ch);

    for(int k=new String(s2).indexOf(ch);k > 0;k=new String(s2).indexOf(ch)){
            if(s2.charAt(k) == ch){
        System.out.println("val of s2 :             "+s2.toString());


    return (s1.toString());
  • Here we are looking for occurrences of every character from String b present in String a and deleting the characters.
    – Ganeshmani
    Commented May 22, 2012 at 5:22

If you see the source code of indexOf in JAVA:

public int indexOf(int ch, int fromIndex) {

        final int max = value.length;

        if (fromIndex < 0) {

            fromIndex = 0;

        } else if (fromIndex >= max) {

            // Note: fromIndex might be near -1>>>1.

            return -1;


        if (ch < Character.MIN_SUPPLEMENTARY_CODE_POINT) {

            // handle most cases here (ch is a BMP code point or a

            // negative value (invalid code point))

            final char[] value = this.value;

            for (int i = fromIndex; i < max; i++) {

                if (value[i] == ch) {

                    return i;



            return -1;

        } else {

            return indexOfSupplementary(ch, fromIndex);



you can see it uses a for loop for finding a character. Note that each indexOf you may use in your code, is equal to one loop.

So, it is unavoidable to use loop for a single character.

However, if you want to find a special string with more different forms, use useful libraries such as util.regex, it deploys stronger algorithm to match a character or a string pattern with Regular Expressions. For example to find an email in a string:

String regex = "^(.+)@(.+)$";
Pattern pattern = Pattern.compile(regex);
Matcher matcher = pattern.matcher(email);

If you don't like to use regex, just use a loop and charAt and try to cover all cases in one loop.

Be careful recursive methods has more overhead than loop, so it's not recommended.


how about one uses this ;

let text = "Hello world, welcome to the universe.";
let result = text.includes("world");
console.log(result) ....// true

the result will be a true or false

this always works for me


You can use this code. It will check the char is present or not. If it is present then the return value is >= 0 otherwise it's -1. Here I am printing alphabets that is not present in the input.

import java.util.Scanner;
public class Test {
    public static void letters()
         System.out.println("Enter input char");
         Scanner sc = new Scanner(System.in);
         String input = sc.next();
         System.out.println("Output : ");
        for (char alphabet = 'A'; alphabet <= 'Z'; alphabet++) {
            if (input.toUpperCase().indexOf(alphabet) < 0) 
                System.out.print(alphabet + " ");
    public static void main(String[] args) {

Ouput Example

Enter input char
Output : 
  • please do not put the explanation in code block
    – Nirvana
    Commented Aug 30, 2021 at 7:39

You won't be able to check if char appears at all in some string without atleast going over the string once using loop / recursion ( the built-in methods like indexOf also use a loop )

If the no. of times you look up if a char is in string x is more way more than the length of the string than I would recommend using a Set data structure as that would be more efficient than simply using indexOf

String s = "abc";

// Build a set so we can check if character exists in constant time O(1)
Set<Character> set = new HashSet<>();
int len = s.length();
for(int i = 0; i < len; i++) set.add(s.charAt(i));

// Now we can check without the need of a loop
// contains method of set doesn't use a loop unlike string's contains method
set.contains('a') // true
set.contains('z') // false

Using set you will be able to check if character exists in a string in constant time O(1) but you will also use additional memory ( Space complexity will be O(n) ).

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