In this tutorial, we will learn how to use the Java continue statement to skip the current iteration of a loop.
An array is a collection of similar types of data.
For example, if we want to store the names of 100 people then we can create an array of the string type that can store 100 names.
String[] array = new String[100];
Here, the above array cannot store more than 100 names. The number of values in a Java array is always fixed.
In Java, here is how we can declare an array.
dataType[] arrayName;
dataType
- it can be primitive data types like int
, char
, double
, byte
, etc. or Java objectsarrayName
- it is an identifier
For example,double[] data;
Here, data is an array that can hold values of type double.
But, how many elements can array this hold?
Good question! To define the number of elements that an array can hold, we have to allocate memory for the array in Java. For example,
// declare an array
double[] data;
// allocate memory
data = new double[10];
Here, the array can store 10 elements. We can also say that the size or length of the array is 10.
In Java, we can declare and allocate the memory of an array in one single statement. For example,
double[] data = new double[10];
In Java, we can initialize arrays during declaration. For example,
//declare and initialize and array
int[] age = {12, 4, 5, 2, 5};
Here, we have created an array named age and initialized it with the values inside the curly brackets.
Note that we have not provided the size of the array. In this case, the Java compiler automatically specifies the size by counting the number of elements in the array (i.e. 5).
In the Java array, each memory location is associated with a number. The number is known as an array index. We can also initialize arrays in Java, using the index number. For example,
// declare an array
int[] age = new int[5];
// initialize array
age[0] = 12;
age[1] = 4;
age[2] = 5;
..
Elements are stored in the array Java Arrays initialization
Note:
Array indices always start from 0. That is, the first element of an array is at index 0. If the size of an array is n, then the last element of the array will be at index n-1.