Java Strings

In Java, a string is a sequence of characters. For example, "hello" is a string containing a sequence of characters 'h', 'e', 'l', 'l', and 'o'.

We use double quotes to represent a string in Java. For example,

// create a string
String type = "Java programming";

Here, we have created a string variable named type. The variable is initialized with the string Java Programming.


Example: Create a String in Java

class Main {
  public static void main(String[] args) {
    
    // create strings
    String first = "Java";
    String second = "Python";
    String third = "JavaScript";

    // print strings
    System.out.println(first);   // print Java
    System.out.println(second);  // print Python
    System.out.println(third);   // print JavaScript
  }
}

In the above example, we have created three strings named first, second, and third. Here, we are directly creating strings like primitive types.

However, there is another way of creating Java strings (using the new keyword). We will learn about that later in this tutorial.

Note: Strings in Java are not primitive types (like int, char, etc). Instead, all strings are objects of a predefined class named String.

And, all string variables are instances of the String class.


Java String Operations

Java String provides various methods to perform different operations on strings. We will look into some of the commonly used string operations.

1. Get length of a String

To find the length of a string, we use the length() method of the String. For example,

class Main {
  public static void main(String[] args) {

    // create a string
    String greet = "Hello! World";
    System.out.println("String: " + greet);

// get the length of greet int length = greet.length();
System.out.println("Length: " + length); } }

Output

String: Hello! World
Length: 12

In the above example, the length() method calculates the total number of characters in the string and returns it. To learn more, visit Java String length().


2. Join Two Java Strings

We can join two strings in Java using the concat() method. For example,

class Main {
  public static void main(String[] args) {

    // create first string
    String first = "Java ";
    System.out.println("First String: " + first);

    // create second
    String second = "Programming";
    System.out.println("Second String: " + second);

// join two strings String joinedString = first.concat(second);
System.out.println("Joined String: " + joinedString); } }

Output

First String: Java 
Second String: Programming     
Joined String: Java Programming

In the above example, we have created two strings named first and second. Notice the statement,

String joinedString = first.concat(second);

Here, the concat() method joins the second string to the first string and assigns it to the joinedString variable.

We can also join two strings using the + operator in Java. To learn more, visit Java String concat().


3. Compare two Strings

In Java, we can make comparisons between two strings using the equals() method. For example,

class Main {
  public static void main(String[] args) {

    // create 3 strings
    String first = "java programming";
    String second = "java programming";
    String third = "python programming";

// compare first and second strings boolean result1 = first.equals(second);
System.out.println("Strings first and second are equal: " + result1);
// compare first and third strings boolean result2 = first.equals(third);
System.out.println("Strings first and third are equal: " + result2); } }

Output

Strings first and second are equal: true
Strings first and third are equal: false

In the above example, we have created 3 strings named first, second, and third. Here, we are using the equal() method to check if one string is equal to another.

The equals() method checks the content of strings while comparing them. To learn more, visit Java String equals().

Note: We can also compare two strings using the == operator in Java. However, this approach is different than the equals() method. To learn more, visit Java String == vs equals().


Escape character in Java Strings

The escape character is used to escape some of the characters present inside a string.

Suppose we need to include double quotes inside a string.

// include double quote 
String example = "This is the "String" class";

Since strings are represented by double quotes, the compiler will treat "This is the " as the string. Hence, the above code will cause an error.

To solve this issue, we use the escape character \ in Java. For example,

// use the escape character
String example = "This is the \"String\" class.";

Now escape characters tell the compiler to escape double quotes and read the whole text.


Java Strings are Immutable

In Java, strings are immutable. This means, once we create a string, we cannot change that string.

To understand it more deeply, consider an example:

// create a string
String example = "Hello! ";

Here, we have created a string variable named example. The variable holds the string "Hello! ".

Now suppose we want to change the string.

// add another string "World"
// to the previous tring example
example = example.concat(" World");

Here, we are using the concat() method to add another string World to the previous string.

It looks like we are able to change the value of the previous string. However, this is not true.

Let's see what has happened here,

  1. JVM takes the first string "Hello! "
  2. creates a new string by adding "World" to the first string
  3. assign the new string "Hello! World" to the example variable
  4. the first string "Hello! " remains unchanged

Creating strings using the new keyword

So far we have created strings like primitive types in Java.

Since strings in Java are objects, we can create strings using the new keyword as well. For example,

// create a string using the new keyword
String name = new String("Java String");

In the above example, we have created a string name using the new keyword.

Here, when we create a string object, the String() constructor is invoked. To learn more about constructor, visit Java Constructor.

Note: The String class provides various other constructors to create strings. To learn more, visit Java String (official Java documentation).


Example: Create Java Strings using the new keyword

class Main {
  public static void main(String[] args) {

// create a string using new String name = new String("Java String");
System.out.println(name); // print Java String } }

Create String using literals vs new keyword

Now that we know how strings are created using string literals and the new keyword, let's see what is the major difference between them.

In Java, the JVM maintains a string pool to store all of its strings inside the memory. The string pool helps in reusing the strings.

1. While creating strings using string literals,

String example = "Java";

Here, we are directly providing the value of the string (Java). Hence, the compiler first checks the string pool to see if the string already exists.

  • If the string already exists, the new string is not created. Instead, the new reference, example points to the already existed string (Java).
  • If the string doesn't exist, the new string (Java is created.

2. While creating strings using the new keyword,

String example = new String("Java");

Here, the value of the string is not directly provided. Hence, a new "Java" string is created even though "Java" is already present inside the memory pool.


Methods of Java String

Besides those mentioned above, there are various string methods present in Java. Here are some of those methods:

Methods Description
contains() checks whether the string contains a substring
substring() returns the substring of the string
join() join the given strings using the delimiter
replace() replaces the specified old character with the specified new character
replaceAll() replaces all substrings matching the regex pattern
replaceFirst() replace the first matching substring
charAt() returns the character present in the specified location
getBytes() converts the string to an array of bytes
indexOf() returns the position of the specified character in the string
compareTo() compares two strings in the dictionary order
compareToIgnoreCase() compares two strings ignoring case differences
trim() removes any leading and trailing whitespaces
format() returns a formatted string
split() breaks the string into an array of strings
toLowerCase() converts the string to lowercase
toUpperCase() converts the string to uppercase
valueOf() returns the string representation of the specified argument
toCharArray() converts the string to a char array
matches() checks whether the string matches the given regex
startsWith() checks if the string begins with the given string
endsWith() checks if the string ends with the given string
isEmpty() checks whether a string is empty of not
intern() returns the canonical representation of the string
contentEquals() checks whether the string is equal to charSequence
hashCode() returns a hash code for the string
subSequence() returns a subsequence from the string