An array 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.
All arrays consist of contiguous memory locations. The lowest address corresponds to the first element and the highest address to the last element.
To declare an array in VB.Net, you use the Dim statement. For example,
Dim intData(30) ' an array of 31 elements Dim strData(20) As String ' an array of 21 strings Dim twoDarray(10, 20) As Integer 'a two dimensional array of integers Dim ranges(10, 100) 'a two dimensional array
You can also initialize the array elements while declaring the array. For example,
Dim intData() As Integer = {12, 16, 20, 24, 28, 32} Dim names() As String = {"Karthik", "Sandhya", _ "Shivangi", "Ashwitha", "Somnath"} Dim miscData() As Object = {"Hello World", 12d, 16ui, "A"c}
The elements in an array can be stored and accessed by using the index of the array. The following program demonstrates this −
Module arrayApl Sub Main() Dim n(10) As Integer ' n is an array of 11 integers ' Dim i, j As Integer ' initialize elements of array n ' For i = 0 To 10 n(i) = i + 100 ' set element at location i to i + 100 Next i ' output each array element's value ' For j = 0 To 10 Console.WriteLine("Element({0}) = {1}", j, n(j)) Next j Console.ReadKey() End Sub End Module
When the above code is compiled and executed, it produces the following result −
Element(0) = 100 Element(1) = 101 Element(2) = 102 Element(3) = 103 Element(4) = 104 Element(5) = 105 Element(6) = 106 Element(7) = 107 Element(8) = 108 Element(9) = 109 Element(10) = 110
Dynamic arrays are arrays that can be dimensioned and re-dimensioned as par the need of the program. You can declare a dynamic array using the ReDim statement.
Syntax for ReDim statement −
ReDim [Preserve] arrayname(subscripts)
Where,
The Preserve keyword helps to preserve the data in an existing array, when you resize it.
arrayname is the name of the array to re-dimension.
subscripts specifies the new dimension.
Module arrayApl Sub Main() Dim marks() As Integer ReDim marks(2) marks(0) = 85 marks(1) = 75 marks(2) = 90 ReDim Preserve marks(10) marks(3) = 80 marks(4) = 76 marks(5) = 92 marks(6) = 99 marks(7) = 79 marks(8) = 75 For i = 0 To 10 Console.WriteLine(i & vbTab & marks(i)) Next i Console.ReadKey() End Sub End Module
When the above code is compiled and executed, it produces the following result −
0 85 1 75 2 90 3 80 4 76 5 92 6 99 7 79 8 75 9 0 10 0
VB.Net allows multidimensional arrays. Multidimensional arrays are also called rectangular arrays.
You can declare a 2-dimensional array of strings as −
Dim twoDStringArray(10, 20) As String
or, a 3-dimensional array of Integer variables −
Dim threeDIntArray(10, 10, 10) As Integer
The following program demonstrates creating and using a 2-dimensional array −
Module arrayApl Sub Main() ' an array with 5 rows and 2 columns Dim a(,) As Integer = {{0, 0}, {1, 2}, {2, 4}, {3, 6}, {4, 8}} Dim i, j As Integer ' output each array element's value ' For i = 0 To 4 For j = 0 To 1 Console.WriteLine("a[{0},{1}] = {2}", i, j, a(i, j)) Next j Next i Console.ReadKey() End Sub End Module
When the above code is compiled and executed, it produces the following result −
a[0,0]: 0 a[0,1]: 0 a[1,0]: 1 a[1,1]: 2 a[2,0]: 2 a[2,1]: 4 a[3,0]: 3 a[3,1]: 6 a[4,0]: 4 a[4,1]: 8
A Jagged array is an array of arrays. The following code shows declaring a jagged array named scores of Integers −
Dim scores As Integer()() = New Integer(5)(){}
The following example illustrates using a jagged array −
Module arrayApl Sub Main() 'a jagged array of 5 array of integers Dim a As Integer()() = New Integer(4)() {} a(0) = New Integer() {0, 0} a(1) = New Integer() {1, 2} a(2) = New Integer() {2, 4} a(3) = New Integer() {3, 6} a(4) = New Integer() {4, 8} Dim i, j As Integer ' output each array element's value For i = 0 To 4 For j = 0 To 1 Console.WriteLine("a[{0},{1}] = {2}", i, j, a(i)(j)) Next j Next i Console.ReadKey() End Sub End Module
When the above code is compiled and executed, it produces the following result −
a[0][0]: 0 a[0][1]: 0 a[1][0]: 1 a[1][1]: 2 a[2][0]: 2 a[2][1]: 4 a[3][0]: 3 a[3][1]: 6 a[4][0]: 4 a[4][1]: 8
The Array class is the base class for all the arrays in VB.Net. It is defined in the System namespace. The Array class provides various properties and methods to work with arrays.
The following table provides some of the most commonly used properties of the Array class −
Sr.No | Property Name & Description |
---|---|
1 |
IsFixedSize Gets a value indicating whether the Array has a fixed size. |
2 |
IsReadOnly Gets a value indicating whether the Array is read-only. |
3 |
Length Gets a 32-bit integer that represents the total number of elements in all the dimensions of the Array. |
4 |
LongLength Gets a 64-bit integer that represents the total number of elements in all the dimensions of the Array. |
5 |
Rank Gets the rank (number of dimensions) of the Array. |
The following table provides some of the most commonly used methods of the Array class −
Sr.No | Method Name & Description |
---|---|
1 |
Public Shared Sub Clear (array As Array, index As Integer, length As Integer) Sets a range of elements in the Array to zero, to false, or to null, depending on the element type. |
2 |
Public Shared Sub Copy (sourceArray As Array, destinationArray As Array, length As Integer) Copies a range of elements from an Array starting at the first element and pastes them into another Array starting at the first element. The length is specified as a 32-bit integer. |
3 |
Public Sub CopyTo (array As Array, index As Integer) Copies all the elements of the current one-dimensional Array to the specified one-dimensional Array starting at the specified destination Array index. The index is specified as a 32-bit integer. |
4 |
Public Function GetLength (dimension As Integer) As Integer Gets a 32-bit integer that represents the number of elements in the specified dimension of the Array. |
5 |
Public Function GetLongLength (dimension As Integer) As Long Gets a 64-bit integer that represents the number of elements in the specified dimension of the Array. |
6 |
Public Function GetLowerBound (dimension As Integer) As Integer Gets the lower bound of the specified dimension in the Array. |
7 |
Public Function GetType As Type Gets the Type of the current instance (Inherited from Object). |
8 |
Public Function GetUpperBound (dimension As Integer) As Integer Gets the upper bound of the specified dimension in the Array. |
9 |
Public Function GetValue (index As Integer) As Object Gets the value at the specified position in the one-dimensional Array. The index is specified as a 32-bit integer. |
10 |
Public Shared Function IndexOf (array As Array,value As Object) As Integer Searches for the specified object and returns the index of the first occurrence within the entire one-dimensional Array. |
11 |
Public Shared Sub Reverse (array As Array) Reverses the sequence of the elements in the entire one-dimensional Array. |
12 |
Public Sub SetValue (value As Object, index As Integer) Sets a value to the element at the specified position in the one-dimensional Array. The index is specified as a 32-bit integer. |
13 |
Public Shared Sub Sort (array As Array) Sorts the elements in an entire one-dimensional Array using the IComparable implementation of each element of the Array. |
14 |
Public Overridable Function ToString As String Returns a string that represents the current object (Inherited from Object). |
For complete list of Array class properties and methods, please consult Microsoft documentation.
The following program demonstrates use of some of the methods of the Array class:
Module arrayApl Sub Main() Dim list As Integer() = {34, 72, 13, 44, 25, 30, 10} Dim temp As Integer() = list Dim i As Integer Console.Write("Original Array: ") For Each i In list Console.Write("{0} ", i) Next i Console.WriteLine() ' reverse the array Array.Reverse(temp) Console.Write("Reversed Array: ") For Each i In temp Console.Write("{0} ", i) Next i Console.WriteLine() 'sort the array Array.Sort(list) Console.Write("Sorted Array: ") For Each i In list Console.Write("{0} ", i) Next i Console.WriteLine() Console.ReadKey() End Sub End Module
When the above code is compiled and executed, it produces the following result −
Original Array: 34 72 13 44 25 30 10 Reversed Array: 10 30 25 44 13 72 34 Sorted Array: 10 13 25 30 34 44 72