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About Arrays

Short Description

Describes arrays, which are data structures designed to store collections of items.

Long Description

An array is a data structure that is designed to store a collection of items. The items can be the same type or different types.

Beginning in Windows PowerShell 3.0, a collection of zero or one object has some properties of arrays.

Creating and initializing an array

To create and initialize an array, assign multiple values to a variable. The values stored in the array are delimited with a comma and separated from the variable name by the assignment operator (=).

For example, to create an array named $A that contains the seven numeric (int) values of 22, 5, 10, 8, 12, 9, and 80, type:

$A = 22,5,10,8,12,9,80

You can also create and initialize an array by using the range operator (..). For example, to create and initialize an array named "$B" that contains the values 5 through 8, type:

$B = 5..8

As a result, $B contains four values: 5, 6, 7, and 8.

When no data type is specified, PowerShell creates each array as an object array (type: System.Object[]). To determine the data type of an array, use the GetType() method. For example, to determine the data type of the $a array, type:

$a.GetType()

To create a strongly typed array, that is, an array that can contain only values of a particular type, cast the variable as an array type, such as string[], long[], or int32[]. To cast an array, precede the variable name with an array type enclosed in brackets. For example, to create a 32-bit integer array named $ia containing four integers (1500, 2230, 3350, and 4000), type:

[int32[]]$ia = 1500,2230,3350,4000

As a result, the $ia array can contain only integers.

You can create arrays that are cast to any supported type in the Microsoft .NET Framework. For example, the objects that Get-Process retrieves to represent processes are of the System.Diagnostics.Process type. To create a strongly typed array of process objects, enter the following command:

[Diagnostics.Process[]]$zz = Get-Process

The array sub-expression operator

The array sub-expression operator creates an array, even if it contains zero or one object.

The syntax of the array operator is as follows:

@( ... )

You can use the array operator to create an array of zero or one object. For example:

PS> $a = @("Hello World")
PS> $a.Count
1
PS> $b = @()
PS> $b.Count
0

The array operator is particularly useful in scripts when you are getting objects, but do not know how many objects you will get. For example:

$p = @(Get-Process Notepad)

For more information about the array sub-expression operator, see about_Operators.

Accessing and using array elements

Reading an array

You can refer to an array by using its variable name. To display all the elements in the array, type the array name. For example, assuming $a is an array containing integers 0, 1, 2, until 9; typing:

$a
0
1
2
3
4
5
6
7
8
9

You can refer to the elements in an array by using an index, beginning at position 0. Enclose the index number in brackets. For example, to display the first element in the $a array, type:

$a[0]
0

To display the third element in the $a array, type:

$a[2]
2

You can retrieve part of the array using a range operator for the index. For example, to retrieve the second to fifth elements of the array, you would type:

$a[1..4]
1
2
3
4

Negative numbers count from the end of the array. For example, "-1" refers to the last element of the array. To display the last three elements of the array, in index ascending order, type:

$a = 0 .. 9
$a[-3..-1]
7
8
9

If you type negative indexes in descending order, your output changes.

$a = 0 .. 9
$a[-1..-3]
9
8
7

However, be cautious when using this notation. The notation cycles from the end boundary to the beginning of the array.

$a = 0 .. 9
$a[2..-2]
2
1
0
9
8

Also, one common mistake is to assume $a[0..-2] refers to all the elements of the array, except for the last one. It refers to the first, last, and second-to-last elements in the array.

You can use the plus operator (+) to combine a ranges with a list of elements in an array. For example, to display the elements at index positions 0, 2, and 4 through 6, type:

$a = 0 .. 9
$a[0,2+4..6]
0
2
4
5
6

Also, to list multiple ranges and individual elements you can use the plus operator. For example, to list elements zero to two, four to six, and the element at eighth positional type:

$a = 0..9
$a[+0..2+4..6+8]
0
1
2
4
5
6
8

Iterations over array elements

You can also use looping constructs, such as ForEach, For, and While loops, to refer to the elements in an array. For example, to use a ForEach loop to display the elements in the $a array, type:

$a = 0..9
foreach ($element in $a) {
  $element
}
0
1
2
3
4
5
6
7
8
9

The Foreach loop iterates through the array and returns each value in the array until reaching the end of the array.

The For loop is useful when you are incrementing counters while examining the elements in an array. For example, to use a For loop to return every other value in an array, type:

$a = 0..9
for ($i = 0; $i -le ($a.length - 1); $i += 2) {
  $a[$i]
}
0
2
4
6
8

You can use a While loop to display the elements in an array until a defined condition is no longer true. For example, to display the elements in the $a array while the array index is less than 4, type:

$a = 0..9
$i=0
while($i -lt 4) {
  $a[$i];
  $i++
}
0
1
2
3

Properties of arrays

Count or Length or LongLength

To determine how many items are in an array, use the Length property or its Count alias. Longlength is useful if the array contains more than 2,147,483,647 elements.

$a = 0..9
$a.Count
$a.Length
10
10

Rank

Returns the number of dimensions in the array. Most arrays in PowerShell have one dimension, only. Even when you think you are building a multidimensional array; like the following example:

$a = @(
  @(0,1),
  @("b", "c"),
  @(Get-Process)
)

[int]$r = $a.Rank
"`$a rank: $r"
$a rank: 1

Building a truly multidimensional array, in PowerShell, requires the assistance of the .Net Framework. Like in the following example:

[int[,]]$rank2 = [int[,]]::new(5,5)
$rank2.rank
2

Methods of arrays

Clear

Sets all element values to the default value of the array's element type. The Clear() method does not reset the size of the array.

In the following example $a is an array of objects.

$a = 1, 2, 3
$a.Clear()
$a | % { $null -eq $_ }
True
True
True

In this example, $intA is explicitly typed to contain integers.

[int[]] $intA = 1, 2, 3
$intA.Clear()
$intA
0
0
0

ForEach

Allows to iterate over all elements in the array and perform a given operation for each element of the array.

The ForEach method has several overloads that perform different operations.

ForEach(scriptblock expression)
ForEach(type convertToType)
ForEach(string propertyName)
ForEach(string propertyName, object[] newValue)
ForEach(string methodName)
ForEach(string methodName, object[] arguments)
ForEach(scriptblock expression, object[] arguments)

ForEach(scriptblock expression)

ForEach(scriptblock expression, object[] arguments)

Note

The syntax requires the usage of a script block. Parentheses are optional.

The following example shows how use the foreach method. In this case the intent is to generate the square value of the elements in the array.

Please note this method was added in PowerShell v4 and is not available in versions below this. For prior versions please use the Pipelining method to the ForEach-Object Cmdlet

$a = @(0 .. 3)
$a.ForEach({ $_ * $_})
0
1
4
9

Just like the -ArgumentList parameter of ForEach-Object, the arguments parameter allows the passing of an array of arguments to a script block configured to accept them.

ForEach(type convertToType)

The ForEach method can be used to swiftly cast the elements to a different type; the following example shows how to convert a list of string dates to [DateTime] type.

@("1/1/2017", "2/1/2017", "3/1/2017").ForEach([datetime])

Sunday, January 1, 2017 12:00:00 AM
Wednesday, February 1, 2017 12:00:00 AM
Wednesday, March 1, 2017 12:00:00 AM

ForEach(string propertyName)

ForEach(string propertyName, object[] newValue)

The ForEach method can also be used to quickly retrieve, or set property values for every item in the collection.

# Set all LastAccessTime properties of files to the current date.
(dir 'C:\Temp').ForEach('LastAccessTime', (Get-Date))
# View the newly set LastAccessTime of all items, and find Unique entries.
(dir 'C:\Temp').ForEach('LastAccessTime') | Get-Unique
Wednesday, June 20, 2018 9:21:57 AM

ForEach(string methodName)

ForEach(string methodName, object[] arguments)

Lastly, ForEach methods can be used to execute a method on every item in the collection.

("one", "two", "three").ForEach("ToUpper")
ONE
TWO
THREE

Just like the -ArgumentList parameter of ForEach-Object, the arguments parameter allows the passing of an array of arguments to a script block configured to accept them.

Note

Starting in Windows PowerShell 3.0 retrieving properties and executing methods for each item in a collection can also be accomplished using "Methods of scalar objects and collections" You can read more about that here about_methods

Where

Allows to filter or select the elements of the array. The script must evaluate to anything different than: zero (0), empty string, $false or $null for the element to show after the Where

There is one definition for the Where method.

Where(scriptblock expression[, WhereOperatorSelectionMode mode
                            [, int numberToReturn]])

The Expression is scriptblock that is required for filtering, the mode optional argument allows additional selection capabilities, and the numberToReturn optional argument allows the ability to limit how many items are returned from the filter.

Note

The syntax requires the usage of a script block. Parentheses are optional.

The following example shows how to select all odd numbers from the array.

(0..9).Where{ $_ % 2 }
1
3
5
7
9

The following selection modes are available.

Default

The Default mode filters items using the Expression scriptblock.

If a numberToReturn is provided, it specifies the maximum number of items to return.

# Get the zip files in the current users profile, sorted by LastAccessTime.
$Zips = dir $env:userprofile -Recurse '*.zip' | Sort-Object LastAccessTime
# Get the least accessed file over 100MB
$Zips.Where({$_.Length -gt 100MB}, 'Default', 1)

Note

Both the Default mode and First mode return the first (numberToReturn) items, and can be used interchangeably.

Last

$h = (Get-Date).AddHours(-1)
$logs = dir 'C:\' -Recurse '*.log' | Sort-Object CreationTime
# Find the last 5 log files created in the past hour.
$logs.Where({$_.CreationTime -gt $h}, 'Last', 5)

SkipUntil

The SkipUntil mode skips all objects in a collection until an object passes the script block expression filter. It then returns ALL remaining collection items without testing them. Only one passing item is tested

This means the returned collection will contain both passing and non-passing items that have NOT been tested.

The number of items returned can be limited by passing a value to the numberToReturn argument.

$computers = "Server01", "Server02", "Server03", "localhost", "Server04"
# Find the first available online server.
$computers.Where({ Test-Connection $_ }, 'SkipUntil', 1)
localhost

Until

The Until mode inverts the SkipUntil mode. It returns ALL items in a collection until an item passes the script block expression. Once an item passes the scriptblock expression, the Where method stops processing items.

This means that you will receive the first set of non-passing items from the Where method. After one item passes, the rest will NOT be tested nor returned.

The number of items returned can be limited by passing a value to the numberToReturn argument.

# Retrieve the first set of numbers less than or equal to 10.
(1..50).Where({$_ -gt 10}, 'Until')
# This would perform the same operation.
(1..50).Where({$_ -le 10})
1
2
3
4
5
6
7
8
9
10

Note

Both Until and SkipUntil operate under the premise of NOT testing a batch of items.

Until returns the items BEFORE the first pass.

SkipUntil returns all the items AFTER the first pass, including the first passing item.

Split

The Split mode splits, or groups collection items into two separate collections. Those that pass the scriptblock expression, and those that do not.

If a numberToReturn is specified, the first collection, will contain the passing items, not to exceed the value specified.

The remaining objects, even those that PASS the expression filter, will be returned in the second collection.

$running, $stopped = (Get-Service).Where({$_.Status -eq 'Running'}, 'Split')
$running
Status   Name               DisplayName
------   ----               -----------
Running  Appinfo            Application Information
Running  AudioEndpointBu... Windows Audio Endpoint Builder
Running  Audiosrv           Windows Audio
...
$stopped
Status   Name               DisplayName
------   ----               -----------
Stopped  AJRouter           AllJoyn Router Service
Stopped  ALG                Application Layer Gateway Service
Stopped  AppIDSvc           Application Identity
...

Get the members of an array

To get the properties and methods of an array, such as the Length property and the SetValue method, use the InputObject parameter of the Get-Member cmdlet.

When you pipe an array to Get-Member, PowerShell sends the items one at a time and Get-Member returns the type of each item in the array (ignoring duplicates).

When you use the -InputObject parameter, Get-Member returns the members of the array.

For example, the following command gets the members of the $a array variable.

Get-Member -InputObject $a

You can also get the members of an array by typing a comma (,) before the value that is piped to the Get-Member cmdlet. The comma makes the array the second item in an array of arrays. Windows PowerShell pipes the arrays one at a time and Get-Member returns the members of the array. Like the next two examples.

,$a | Get-Member

,(1,2,3) | Get-Member

Manipulating an array

You can change the elements in an array, add an element to an array, and combine the values from two arrays into a third array.

To change the value of a particular element in an array, specify the array name and the index of the element that you want to change, and then use the assignment operator (=) to specify a new value for the element. For example, to change the value of the second item in the $a array (index position 1) to 10, type:

$a[1] = 10

You can also use the SetValue method of an array to change a value. The following example changes the second value (index position 1) of the $a array to 500:

$a.SetValue(500,1)

You can use the += operator to add an element to an array. The following example shows how to add an element to the $a array.

$a = @(0..4)
$a += 5

Note

When you use the += operator, PowerShell actually creates a new array with the values of the original array and the added value. This might cause performance issues if the operation is repeated several times or the size of the array is too big.

It is not easy to delete elements from an array, but you can create a new array that contains only selected elements of an existing array. For example, to create the $t array with all the elements in the $a array except for the value at index position 2, type:

$t = $a[0,1 + 3..($a.length - 1)]

To combine two arrays into a single array, use the plus operator (+). The following example creates two arrays, combines them, and then displays the resulting combined array.

$x = 1,3
$y = 5,9
$z = $x + $y

As a result, the $z array contains 1, 3, 5, and 9.

To delete an array, assign a value of $null to the array. The following command deletes the array in the $a variable.

$a = $null

You can also use the Remove-Item cmdlet, but assigning a value of $null is faster, especially for large arrays.

Arrays of zero or one

Beginning in Windows PowerShell 3.0, a collection of zero or one object has the Count and Length property. Also, you can index into an array of one object. This feature helps you to avoid scripting errors that occur when a command that expects a collection gets fewer than two items.

The following examples demonstrate this feature.

Zero objects

$a = $null
$a.Count
$a.Length
0
0

One object

$a = 4
$a.Count
$a.Length
$a[0]
$a[-1]
1
1
4
4

See also