about_Operators
Short description
Describes the operators that are supported by PowerShell.
Long description
An operator is a language element that you can use in a command or expression. PowerShell supports several types of operators to help you manipulate values.
Arithmetic Operators
Use arithmetic operators (+
, -
, *
, /
, %
) to calculate values in a
command or expression. With these operators, you can add, subtract, multiply,
or divide values, and calculate the remainder (modulus) of a division
operation.
The addition operator concatenates elements. The multiplication operator
returns the specified number of copies of each element. You can use arithmetic
operators on any .NET type that implements them, such as: Int
, String
,
DateTime
, Hashtable
, and Arrays.
Bitwise operators (-band
, -bor
, -bxor
, -bnot
, -shl
, -shr
)
manipulate the bit patterns in values.
For more information, see about_Arithmetic_Operators.
Assignment Operators
Use assignment operators (=
, +=
, -=
, *=
, /=
, %=
) to assign, change,
or append values to variables. You can combine arithmetic operators with
assignment to assign the result of the arithmetic operation to a variable.
For more information, see about_Assignment_Operators.
Comparison Operators
Use comparison operators (-eq
, -ne
, -gt
, -lt
, -le
, -ge
) to compare
values and test conditions. For example, you can compare two string values to
determine whether they're equal.
The comparison operators also include operators that find or replace patterns
in text. The (-match
, -notmatch
, -replace
) operators use regular
expressions, and (-like
, -notlike
) use wildcards *
.
Containment comparison operators determine whether a test value appears in a
reference set (-in
, -notin
, -contains
, -notcontains
).
Type comparison operators (-is
, -isnot
) determine whether an object is of a
given type.
For more information, see about_Comparison_Operators.
Logical Operators
Use logical operators (-and
, -or
, -xor
, -not
, !
) to connect
conditional statements into a single complex conditional. For example, you can
use a logical -and
operator to create an object filter with two different
conditions.
For more information, see about_Logical_Operators.
Redirection Operators
Use redirection operators (>
, >>
, 2>
, 2>>
, and 2>&1
) to send the
output of a command or expression to a text file. The redirection operators
work like the Out-File
cmdlet (without parameters) but they also let you
redirect error output to specified files. You can also use the Tee-Object
cmdlet to redirect output.
For more information, see about_Redirection
Split and Join Operators
The -split
and -join
operators divide and combine substrings. The -split
operator splits a string into substrings. The -join
operator concatenates
multiple strings into a single string.
For more information, see about_Split and about_Join.
Type Operators
Use the type operators (-is
, -isnot
, -as
) to find or change the .NET type
of an object.
For more information, see about_Type_Operators.
Unary Operators
Use the unary ++
and --
operators to increment or decrement values and
-
for negation. For example, to increment the variable $a
from 9
to
10
, you type $a++
.
For more information, see about_Arithmetic_Operators.
Special Operators
Special operators have specific use-cases that don't fit into any other operator group. For example, special operators allow you to run commands, change a value's data type, or retrieve elements from an array.
Grouping operator ( )
As in other languages, (...)
serves to override operator precedence in
expressions. For example: (1 + 2) / 3
However, in PowerShell, there are additional behaviors.
Grouping result expressions
(...)
allows you to let output from a command participate in an expression.
For example:
PS> (Get-Item *.txt).Count -gt 10
True
Note
Wrapping a command in parentheses causes the automatic variable $?
to be
set to $true
, even when the enclosed command itself set $?
to $false
.
For example, (Get-Item /Nosuch); $?
unexpectedly yields True. For
more information about $?
, see about_Automatic_Variables.
Piping grouped expressions
When used as the first segment of a pipeline, wrapping a command or expression in parentheses invariably causes enumeration of the expression result. If the parentheses wrap a command, it's run to completion with all output collected in memory before the results are sent through the pipeline.
For example, the outputs for these statements are different:
PS> ConvertFrom-Json '["a", "b"]' | ForEach-Object { "The value is '$_'" }
The value is 'a b'
PS> (ConvertFrom-Json '["a", "b"]') | ForEach-Object { "The value is '$_'" }
The value is 'a'
The value is 'b'
Grouping an expression before piping also ensures that subsequent object-by-object processing can't interfere with the enumeration the command uses to produce its output.
For example, piping the output from Get-ChildItem
to Rename-Item
can have
unexpected effects where an item is renamed, then discovered again and renamed
a second time.
Grouping assignment statements
Ungrouped assignment statements don't output values. When grouping an assignment statement, the value of the assigned variable is passed through and can be used in larger expressions. For example:
PS> ($var = 1 + 2)
3
PS> ($var = 1 + 2) -eq 3
True
Wrapping the statement in parentheses turns it into an expression that outputs
the value of $var
.
This behavior applies to all the assignment operators, including compound
operators like +=
, and the increment (++
) and decrement (--
) operators.
However, the order of operation for increment and decrement depends on their
position.
PS> $i = 0
PS> (++$i) # prefix
1
PS> $i = 0
PS> ($i++) # postfix
0
PS> $i
1
In the prefix case, the value of $i
is incremented before being output. In
the postfix case, the value of $i
is incremented after being output.
You can also use this technique In the context of a conditional statement, such
as the if
statement.
if ($textFiles = Get-ChildItem *.txt) {
$textFiles.Count
}
In this example, if no files match, the Get-ChildItem
command returns nothing
and assigns nothing to $textFiles
, which is considered $false
in a boolean
context. If one or more FileInfo objects are assigned to $textFiles
, the
conditional evaluates to $true
. You can work with the value of $textFiles
in the body of the if
statement.
Note
While this technique is convenient and concise, it can lead to confusion
between the assignment operator (=
) and the equality-comparison operator
(-eq
).
Subexpression operator $( )
Returns the result of one or more statements. For a single result, returns a scalar. For multiple results, returns an array. Use this when you want to use an expression within another expression. For example, to embed the results of command in a string expression.
PS> "Today is $(Get-Date)"
Today is 12/02/2019 13:15:20
PS> "Folder list: $((dir c:\ -dir).Name -join ', ')"
Folder list: Program Files, Program Files (x86), Users, Windows
Array subexpression operator @( )
Returns the result of one or more statements as an array. The result is always an array of 0 or more objects.
PS> $list = @(Get-Process | Select-Object -First 10; Get-Service | Select-Object -First 10 )
PS> $list.GetType()
IsPublic IsSerial Name BaseType
-------- -------- ---- --------
True True Object[] System.Array
PS> $list.Count
20
PS> $list = @(Get-Service | Where-Object Status -eq Starting )
PS> $list.GetType()
IsPublic IsSerial Name BaseType
-------- -------- ---- --------
True True Object[] System.Array
PS> $list.Count
0
Hash table literal syntax @{}
Similar to the array subexpression, this syntax is used to declare a hash table. For more information, see about_Hash_Tables.
Call operator &
Runs a command, script, or script block. The call operator, also known as the invocation operator, lets you run commands that are stored in variables and represented by strings or script blocks. The call operator executes in a child scope. For more about scopes, see about_Scopes. You can use this to build strings containing the command, parameters, and arguments you need, and then invoke the string as if it were a command. The strings that you create must follow the same parsing rules as a command that you type at the command line. For more information, see about_Parsing.
This example stores a command in a string and executes it using the call operator.
PS> $c = "get-executionpolicy"
PS> $c
get-executionpolicy
PS> & $c
AllSigned
The call operator doesn't parse strings. This means that you can't use command parameters within a string when you use the call operator.
PS> $c = "Get-Service -Name Spooler"
PS> $c
Get-Service -Name Spooler
PS> & $c
& : The term 'Get-Service -Name Spooler' is not recognized as the name of a
cmdlet, function, script file, or operable program. Check the spelling of
the name, or if a path was included, verify that the path is correct and
try again.
At line:1 char:2
+ & $c
+ ~~
+ CategoryInfo : ObjectNotFound: (Get-Service -Name Spooler:String) [], CommandNotFoundException
+ FullyQualifiedErrorId : CommandNotFoundException
The Invoke-Expression cmdlet can execute code that causes parsing errors when using the call operator.
PS> & "1+1"
&: The term '1+1' is not recognized as a name of a cmdlet, function, script
file, or executable program. Check the spelling of the name, or if a path was
included, verify that the path is correct and try again.
At line:1 char:2
+ & "1+1"
+ ~~~~~
+ CategoryInfo : ObjectNotFound: (1+1:String) [], CommandNotFoundException
+ FullyQualifiedErrorId : CommandNotFoundException
PS> Invoke-Expression "1+1"
2
You can execute a script using its filename. A script file must have a .ps1
file extension to be executable. Files that have spaces in their path must be
enclosed in quotes. If you try to execute the quoted path, PowerShell displays
the contents of the quoted string instead of running the script. The call
operator allows you to execute the contents of the string containing the
filename.
PS C:\Scripts> Get-ChildItem
Directory: C:\Scripts
Mode LastWriteTime Length Name
---- ------------- ------ ----
-a---- 8/28/2018 1:36 PM 58 script name with spaces.ps1
PS C:\Scripts> ".\script name with spaces.ps1"
.\script name with spaces.ps1
PS C:\Scripts> & ".\script name with spaces.ps1"
Hello World!
For more about script blocks, see about_Script_Blocks.
Cast operator [ ]
Converts or limits objects to the specified type. If the objects can't be converted, PowerShell generates an error.
[DateTime] '2/20/88' - [DateTime] '1/20/88' -eq [TimeSpan] '31'
A cast can also be performed when a variable is assigned to using cast notation.
Comma operator ,
As a binary operator, the comma creates an array or appends to the array being created. In expression mode, as a unary operator, the comma creates an array with just one member. Place the comma before the member.
$myArray = 1,2,3
$SingleArray = ,1
Write-Output (,1)
Since Write-Output
expects an argument, you must put the expression in
parentheses.
Dot sourcing operator .
Runs a script in the current scope so that any functions, aliases, and
variables that the script creates are added to the current scope, overriding
existing ones. Parameters declared by the script become variables. Parameters
for which no value has been given become variables with no value. However, the
automatic variable $args
is preserved.
. c:\scripts\sample.ps1 1 2 -Also:3
Note
The dot sourcing operator is followed by a space. Use the space to
distinguish the dot from the dot (.
) symbol that represents the current
directory.
In the following example, the Sample.ps1 script in the current directory is run in the current scope.
. .\sample.ps1
Format operator -f
Provide access to the .NET composite formatting feature. A composite format string consists of fixed text intermixed with indexed placeholders, called format items. These format items correspond to the objects in the list.
Each format item takes the following form and consists of the following components:
{index[,alignment][:formatString]}
The matching braces ({
and }
) are required.
The formatting operation yields a result string that consists of the original fixed text intermixed with the string representation of the objects in the list. For more information, see Composite Formatting.
Enter the composite format string on the left side of the operator and the objects to be formatted on the right side of the operator.
"{0} {1,-10} {2:N}" -f 1,"hello",[math]::pi
1 hello 3.14
You can zero-pad a numeric value with the "0" custom specifier. The
number of zeroes following the :
indicates the maximum width to pad the
formatted string to.
"{0:00} {1:000} {2:000000}" -f 7, 24, 365
07 024 000365
If you need to keep the curly braces ({}
) in the formatted string, you can
escape them by doubling the curly braces.
"{0} vs. {{0}}" -f 'foo'
foo vs. {0}
Index operator [ ]
Selects objects from indexed collections, such as arrays and hash tables. Array
indexes are zero-based, so the first object is indexed as [0]
. You can also
use negative indexes to get the last values. Hash tables are indexed by key
value.
Given a list of indices, the index operator returns a list of members corresponding to those indices.
PS> $a = 1, 2, 3
PS> $a[0]
1
PS> $a[-1]
3
PS> $a[2, 1, 0]
3
2
1
(Get-HotFix | Sort-Object installedOn)[-1]
$h = @{key="value"; name="PowerShell"; version="2.0"}
$h["name"]
PowerShell
$x = [xml]"<doc><intro>Once upon a time...</intro></doc>"
$x["doc"]
intro
-----
Once upon a time...
When an object isn't an indexed collection, using the index operator to access
the first element returns the object itself. Index values beyond the first
element return $null
.
PS> (2)[0]
2
PS> (2)[-1]
2
PS> (2)[1] -eq $null
True
PS> (2)[0,0] -eq $null
True
Pipeline operator |
Sends ("pipes") the output of the command that precedes it to the command that follows it. When the output includes more than one object (a "collection"), the pipeline operator sends the objects one at a time.
Get-Process | Get-Member
Get-Service | Where-Object {$_.StartType -eq 'Automatic'}
Range operator ..
The range operator can be used to represent an array of sequential integers. The values joined by the range operator define the start and end values of the range.
1..10
$max = 10
foreach ($a in 1..$max) {Write-Host $a}
You can also create ranges in reverse order.
10..1
5..-5 | ForEach-Object {Write-Output $_}
The start and end values of the range can be any pair of expressions that
evaluate to an integer or a character. The endpoints of the range must be
convertible to signed 32-bit integers ([int32]
). Larger values cause an
error. Also, if the range is captured in an array, the size of resulting array
is limited to 268435448
(or 256mb - 8
). This is maximum size of an array in
.NET Framework.
For example, you could use the members of an enumeration for your start and end values.
PS> enum Food {
Apple
Banana = 3
Kiwi = 10
}
PS> [Food]::Apple..[Food]::Kiwi
0
1
2
3
4
5
6
7
8
9
10
Important
The resulting range isn't limited to the values of the enumeration. Instead it represents the range of values between the two values provided. You can't use the range operator to reliably represent the members of an enumeration.
Member-access operator .
Accesses the properties and methods of an object. The member name may be an expression.
$myProcess.peakWorkingSet
(Get-Process PowerShell).kill()
'OS', 'Platform' | Foreach-Object { $PSVersionTable. $_ }
Starting PowerShell 3.0, when you use the operator on a list collection object that doesn't have the member, PowerShell automatically enumerates the items in that collection and uses the operator on each of them. For more information, see about_Member-Access_Enumeration.
Static member operator ::
Calls the static properties and methods of a .NET class. To find the static
properties and methods of an object, use the Static parameter of the
Get-Member
cmdlet. The member name may be an expression.
[datetime]::Now
'MinValue', 'MaxValue' | Foreach-Object { [int]:: $_ }
See also
PowerShell