Java provides a data structure, the
array, which stores a
fixed-size sequential collection of elements of the same type. An array
is used to store a collection of data, but it is often more useful to
think of an array as a collection of variables of the same type.
Instead of declaring individual variables, such as number0, number1,
..., and number99, you declare one array variable such as numbers and
use numbers[0], numbers[1], and ..., numbers[99] to represent individual
variables.
This tutorial introduces how to declare array variables, create arrays, and process arrays using indexed variables.
Declaring Array Variables:
To use an array in a program, you must declare a variable to
reference the array, and you must specify the type of array the variable
can reference. Here is the syntax for declaring an array variable:
dataType[] arrayRefVar; // preferred way.
or
dataType arrayRefVar[]; // works but not preferred way.
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Note: The style
dataType[] arrayRefVar is preferred. The style
dataType arrayRefVar[] comes from the C/C++ language and was adopted in Java to accommodate C/C++ programmers.
Example:
The following code snippets are examples of this syntax:
double[] myList; // preferred way.
or
double myList[]; // works but not preferred way.
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Creating Arrays:
You can create an array by using the new operator with the following syntax:
arrayRefVar = new dataType[arraySize];
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The above statement does two things:
- It creates an array using new dataType[arraySize];
- It assigns the reference of the newly created array to the variable arrayRefVar.
Declaring an array variable, creating an array, and assigning the
reference of the array to the variable can be combined in one statement,
as shown below:
dataType[] arrayRefVar = new dataType[arraySize];
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Alternatively you can create arrays as follows:
dataType[] arrayRefVar = {value0, value1, ..., valuek};
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The array elements are accessed through the
index. Array indices are 0-based; that is, they start from 0 to
arrayRefVar.length-1.
Example:
Following statement declares an array variable, myList, creates an
array of 10 elements of double type, and assigns its reference to
myList.:
double[] myList = new double[10];
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Following picture represents array myList. Here myList holds ten double values and the indices are from 0 to 9.
Processing Arrays:
When processing array elements, we often use either for loop or
foreach loop because all of the elements in an array are of the same
type and the size of the array is known.
Example:
Here is a complete example of showing how to create, initialize and process arrays:
public class TestArray {
public static void main(String[] args) {
double[] myList = {1.9, 2.9, 3.4, 3.5};
// Print all the array elements
for (int i = 0; i < myList.length; i++) {
System.out.println(myList[i] + " ");
}
// Summing all elements
double total = 0;
for (int i = 0; i < myList.length; i++) {
total += myList[i];
}
System.out.println("Total is " + total);
// Finding the largest element
double max = myList[0];
for (int i = 1; i < myList.length; i++) {
if (myList[i] > max) max = myList[i];
}
System.out.println("Max is " + max);
}
}
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This would produce following result:
1.9
2.9
3.4
3.5
Total is 11.7
Max is 3.5
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The foreach Loops:
JDK 1.5 introduced a new for loop, known as foreach loop or enhanced
for loop, which enables you to traverse the complete array sequentially
without using an index variable.
Example:
The following code displays all the elements in the array myList:
public class TestArray {
public static void main(String[] args) {
double[] myList = {1.9, 2.9, 3.4, 3.5};
// Print all the array elements
for (double element: myList) {
System.out.println(element);
}
}
}
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This would produce following result:
Passing Arrays to Methods:
Just as you can pass primitive type values to methods, you can also
pass arrays to methods. For example, the following method displays the
elements in an int array:
public static void printArray(int[] array) {
for (int i = 0; i < array.length; i++) {
System.out.print(array[i] + " ");
}
}
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You can invoke it by passing an array. For example, the following
statement invokes the printArray method to display 3, 1, 2, 6, 4, and 2:
printArray(new int[]{3, 1, 2, 6, 4, 2});
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Returning an Array from a Method:
A method may also return an array. For example, the method shown below returns an array that is the reversal of another array:
public static int[] reverse(int[] list) {
int[] result = new int[list.length];
for (int i = 0; i = result.length - 1;
i < list.length; i++, j--) {
result[j] = list[i];
}
return result;
}
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The Arrays Class:
The java.util.Arrays class contains various static methods for
sorting and searching arrays, comparing arrays, and filling array
elements. These methods are overloaded for all primitive types.
| SN | Methods with Description |
| 1 | public static int binarySearch(Object[] a, Object key)
Searches
the specified array of Object ( Byte, Int , double etc) for the
specified value using the binary search algorithm. The array must be
sorted prior to making this call. This returns index of the search key,
if it is contained in the list; otherwise, (-(insertion point + 1). |
| 2 | public static boolean equals(long[] a, long[] a2)
Returns
true if the two specified arrays of longs are equal to one another. Two
arrays are considered equal if both arrays contain the same number of
elements, and all corresponding pairs of elements in the two arrays are
equal. This returns true if the two arrays are equal. Same method could
be used by all other premitive data types ( Byte, short, Int etc.) |
| 3 | public static void fill(int[] a, int val)
Assigns
the specified int value to each element of the specified array of ints.
Same method could be used by all other premitive data types ( Byte,
short, Int etc.) |
| 4 | public static void sort(Object[] a)
Sorts
the specified array of objects into ascending order, according to the
natural ordering of its elements. Same method could be used by all other
premitive data types ( Byte, short, Int etc.) |
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