Select-String
Finds text in strings and files.
Syntax
Select-String
[-Pattern] <string[]>
[-Path] <string[]>
[-SimpleMatch]
[-CaseSensitive]
[-Quiet]
[-List]
[-Include <string[]>]
[-Exclude <string[]>]
[-NotMatch]
[-AllMatches]
[-Encoding <string>]
[-Context <Int32[]>]
[<CommonParameters>]
Select-String
[-Pattern] <string[]>
-InputObject <psobject>
[-SimpleMatch]
[-CaseSensitive]
[-Quiet]
[-List]
[-Include <string[]>]
[-Exclude <string[]>]
[-NotMatch]
[-AllMatches]
[-Encoding <string>]
[-Context <Int32[]>]
[<CommonParameters>]
Select-String
[-Pattern] <string[]>
-LiteralPath <string[]>
[-SimpleMatch]
[-CaseSensitive]
[-Quiet]
[-List]
[-Include <string[]>]
[-Exclude <string[]>]
[-NotMatch]
[-AllMatches]
[-Encoding <string>]
[-Context <Int32[]>]
[<CommonParameters>]
Description
The Select-String
cmdlet searches for text and text patterns in input strings and files. You can
use Select-String
similar to grep in UNIX or findstr.exe in Windows.
Select-String
is based on lines of text. By default, Select-String
finds the first match in each
line and, for each match, it displays the file name, line number, and all text in the line
containing the match. You can direct Select-String
to find multiple matches per line, display text
before and after the match, or display a Boolean value (True or False) that indicates whether a
match is found.
Select-String
uses regular expression matching, but it can also perform a match that searches the
input for the text that you specify.
Select-String
can display all the text matches or stop after the first match in each input file.
Select-String
can be used to display all text that doesn't match the specified pattern.
You can also specify that Select-String
should expect a particular character encoding, such as
when you're searching files of Unicode text. Select-String
uses the byte-order-mark (BOM) to
detect the encoding format of the file. If the file has no BOM, it assumes the encoding is UTF8.
Examples
Example 1: Find a case-sensitive match
This example does a case-sensitive match of the text that was sent down the pipeline to the
Select-String
cmdlet.
'Hello', 'HELLO' | Select-String -Pattern 'HELLO' -CaseSensitive -SimpleMatch
The text strings Hello and HELLO are sent down the pipeline to the Select-String
cmdlet.
Select-String
uses the Pattern parameter to specify HELLO. The CaseSensitive parameter
specifies that the case must match only the upper-case pattern. SimpleMatch is an optional
parameter and specifies that the string in the pattern isn't interpreted as a regular expression.
Select-String
displays HELLO in the PowerShell console.
Example 2: Find matches in text files
This command searches all files with the .txt
file name extension in the current directory. The
output displays the lines in those files that include the specified string.
Get-Alias | Out-File -FilePath .\Alias.txt
Get-Command | Out-File -FilePath .\Command.txt
Select-String -Path .\*.txt -Pattern 'Get'
Alias.txt:8:Alias cat -> Get-Content
Alias.txt:28:Alias dir -> Get-ChildItem
Alias.txt:43:Alias gal -> Get-Alias
Command.txt:966:Cmdlet Get-Acl
Command.txt:967:Cmdlet Get-Alias
In this example, Get-Alias
and Get-Command
are used with the Out-File
cmdlet to create two
text files in the current directory, Alias.txt and Command.txt.
Select-String
uses the Path parameter with the asterisk (*
) wildcard to search all files in
the current directory with the file name extension .txt
. The Pattern parameter specifies the
text to match Get-. Select-String
displays the output in the PowerShell console. The file name
and line number precede each line of content that contains a match for the Pattern parameter.
Example 3: Find a pattern match
In this example, multiple files are searched to find matches for the specified pattern. The pattern uses a regular expression quantifier. For more information, see about_Regular_Expressions.
Select-String -Path "$PSHOME\en-US\*.txt" -Pattern '\?'
C:\Program Files\PowerShell\6\en-US\default.help.txt:27: beginning at https://go.microsoft.com/fwlink/?LinkID=108518.
C:\Program Files\PowerShell\6\en-US\default.help.txt:50: or go to: https://go.microsoft.com/fwlink/?LinkID=210614
The Select-String
cmdlet uses two parameters, Path and Pattern. The Path parameter
uses the variable $PSHOME
that specifies the PowerShell directory. The remainder of the path
includes the subdirectory en-US and specifies each *.txt
file in the directory. The
Pattern parameter specifies to match a question mark (?
) in each file. A backslash (\
) is
used as an escape character and is necessary because the question mark (?
) is a regular expression
quantifier. Select-String
displays the output in the PowerShell console. The file name and line
number precede each line of content that contains a match for the Pattern parameter.
Example 4: Use Select-String in a function
This example creates a function to search for a pattern in the PowerShell help files. For this example, the function only exists in the PowerShell session. When the PowerShell session is closed, the function is deleted. For more information, see about_Functions.
PS> Function Search-Help
>> {
>> $PSHelp = "$PSHOME\en-US\*.txt"
>> Select-String -Path $PSHelp -Pattern 'About_'
>> }
PS>
PS> Search-Help
C:\Windows\System32\WindowsPowerShell\v1.0\en-US\about_ActivityCommonParameters.help.txt:2: about_ActivityCommonParameters
C:\Windows\System32\WindowsPowerShell\v1.0\en-US\about_ActivityCommonParameters.help.txt:31: see about_WorkflowCommonParameters.
C:\Windows\System32\WindowsPowerShell\v1.0\en-US\about_ActivityCommonParameters.help.txt:33: about_CommonParameters.
The function is created on the PowerShell command line. The Function
command uses the name
Search-Help. Press Enter to begin adding statements to the function. From the >>
prompt,
add each statement and press Enter as shown in the example. After the closing bracket is added,
you're returned to a PowerShell prompt.
The function contains two commands. The $PSHelp
variable stores the path to the PowerShell help
files. $PSHOME
is the PowerShell installation directory with the subdirectory en-US that
specifies each *.txt
file in the directory.
The Select-String
command in the function uses the Path and Pattern parameters. The
Path parameter uses the $PSHelp
variable to get the path. The Pattern parameter uses the
string About_ as the search criteria.
To run the function, type Search-Help
. The function's Select-String
command displays the output
in the PowerShell console.
Example 5: Search for a string in a Windows event log
This example searches for a string in a Windows event log. The variable $_
represents the current
object in the pipeline. For more information, see about_Automatic_Variables.
$Events = Get-WinEvent -LogName Application -MaxEvents 50
$Events | Select-String -InputObject {$_.message} -Pattern 'Failed'
The Get-WinEvent
cmdlet uses the LogName parameter to specify the Application log. The
MaxEvents parameter gets the 50 most recent events from the log. The log content is stored in
the variable named $Events
.
The $Events
variable is sent down the pipeline to the Select-String
cmdlet. Select-String
uses
the InputObject parameter. The $_
variable represents the current object and message
is a
property of the event. The Pattern parameter species the string Failed and searches for
matches in $_.message
. Select-String
displays the output in the PowerShell console.
Example 6: Find a string in subdirectories
This example searches a directory and all of its subdirectories for a specific text string.
Get-ChildItem -Path C:\Windows\System32\*.txt -Recurse | Select-String -Pattern 'Microsoft' -CaseSensitive
Get-ChildItem
uses the Path parameter to specify C:\Windows\System32*.txt. The
Recurse parameter includes the subdirectories. The objects are sent down the pipeline to
Select-String
.
Select-String
uses the Pattern parameter and specifies the string Microsoft. The
CaseSensitive parameter is used to match the exact case of the string. Select-String
displays
the output in the PowerShell console.
Note
Dependent upon your permissions, you might see Access denied messages in the output.
Example 7: Find strings that do not match a pattern
This example shows how to exclude lines of data that don't match a pattern.
Get-Command | Out-File -FilePath .\Command.txt
Select-String -Path .\Command.txt -Pattern 'Get', 'Set' -NotMatch
The Get-Command
cmdlet sends objects down the pipeline to the Out-File
to create the
Command.txt file in the current directory. Select-String
uses the Path parameter to
specify the Command.txt file. The Pattern parameter specifies Get and Set as the
search pattern. The NotMatch parameter excludes Get and Set from the results.
Select-String
displays the output in the PowerShell console that doesn't include Get or
Set.
Example 8: Find lines before and after a match
This example shows how to get the lines before and after the matched pattern.
Get-Command | Out-File -FilePath .\Command.txt
Select-String -Path .\Command.txt -Pattern 'Get-Computer' -Context 2, 3
Command.txt:1186:Cmdlet Get-CmsMessage 3.0.0.0 Microsoft.PowerShell.Security
Command.txt:1187:Cmdlet Get-Command 3.0.0.0 Microsoft.PowerShell.Core
> Command.txt:1188:Cmdlet Get-ComputerInfo 3.1.0.0 Microsoft.PowerShell.Management
> Command.txt:1189:Cmdlet Get-ComputerRestorePoint 3.1.0.0 Microsoft.PowerShell.Management
Command.txt:1190:Cmdlet Get-Content 3.1.0.0 Microsoft.PowerShell.Management
Command.txt:1191:Cmdlet Get-ControlPanelItem 3.1.0.0 Microsoft.PowerShell.Management
Command.txt:1192:Cmdlet Get-Counter 3.0.0.0 Microsoft.PowerShell.Diagnostics
The Get-Command
cmdlet sends objects down the pipeline to the Out-File
to create the
Command.txt file in the current directory. Select-String
uses the Path parameter to
specify the Command.txt file. The Pattern parameter specifies Get-Computer as the search
pattern. The Context parameter uses two values, before and after, and marks pattern matches in
the output with an angle bracket (>
). The Context parameter outputs the two lines before the
first pattern match and three lines after the last pattern match.
Example 9: Find all pattern matches
This example shows how the AllMatches parameter finds each pattern match in a line of text. By
default, Select-String
only finds the first occurrence of a pattern in a line of text. This
example uses object properties that are found with the Get-Member
cmdlet.
PS> $A = Get-ChildItem -Path "$PSHOME\en-US\*.txt" | Select-String -Pattern 'PowerShell'
PS> $A
C:\Windows\System32\WindowsPowerShell\v1.0\en-US\about_ActivityCommonParameters.help.txt:5: Describes the parameters that Windows PowerShell
C:\Windows\System32\WindowsPowerShell\v1.0\en-US\about_ActivityCommonParameters.help.txt:9: Windows PowerShell Workflow adds the activity common
PS> $A.Matches
Groups : {0}
Success : True
Name : 0
Captures : {0}
Index : 4
Length : 10
Value : PowerShell
PS> $A.Matches.Length
2073
PS> $B = Get-ChildItem -Path "$PSHOME\en-US\*.txt" | Select-String -Pattern 'PowerShell' -AllMatches
PS> $B.Matches.Length
2200
The Get-ChildItem
cmdlet uses the Path parameter. The Path parameter uses the variable
$PSHOME
that specifies the PowerShell directory. The remainder of the path includes the
subdirectory en-US and specifies each *.txt
file in the directory. The Get-ChildItem
objects
are stored in the $A
variable. The $A
variable is sent down the pipeline to the Select-String
cmdlet. Select-String
uses the Pattern parameter to search each file for the string
PowerShell.
From the PowerShell command line, the $A
variable contents are displayed. There's a line that
contains two occurrences of the string PowerShell.
The $A.Matches
property lists the first occurrence of the pattern PowerShell on each line.
The $A.Matches.Length
property counts the first occurrence of the pattern PowerShell on each
line.
The $B
variable uses the same Get-ChildItem
and Select-String
cmdlets, but adds the
AllMatches parameter. AllMatches finds each occurrence of the pattern PowerShell on each
line. The objects stored in the $A
and $B
variables are identical.
The $B.Matches.Length
property increases because for each line, every occurrence of the pattern
PowerShell is counted.
Parameters
-AllMatches
Indicates that the cmdlet searches for more than one match in each line of text. Without this
parameter, Select-String
finds only the first match in each line of text.
When Select-String
finds more than one match in a line of text, it still emits only one
MatchInfo object for the line, but the Matches property of the object contains all of the
matches.
Type: | SwitchParameter |
Position: | Named |
Default value: | False |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-CaseSensitive
Indicates that the cmdlet matches are case-sensitive. By default, matches aren't case-sensitive.
Type: | SwitchParameter |
Position: | Named |
Default value: | False |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-Context
Captures the specified number of lines before and after the line that matches the pattern.
If you enter one number as the value of this parameter, that number determines the number of lines
captured before and after the match. If you enter two numbers as the value, the first number
determines the number of lines before the match and the second number determines the number of lines
after the match. For example, -Context 2,3
.
In the default display, lines with a match are indicated by a right angle bracket (>
) (ASCII 62)
in the first column of the display. Unmarked lines are the context.
The Context parameter doesn't change the number of objects generated by Select-String
.
Select-String
generates one MatchInfo
object for each match. The context is stored as an array of strings in the Context property of
the object.
When the output of a Select-String
command is sent down the pipeline to another Select-String
command, the receiving command searches only the text in the matched line. The matched line is the
value of the Line property of the MatchInfo object, not the text in the context lines. As a
result, the Context parameter isn't valid on the receiving Select-String
command.
When the context includes a match, the MatchInfo object for each match includes all the context lines, but the overlapping lines appear only once in the display.
Type: | Int32[] |
Position: | Named |
Default value: | None |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-Encoding
Specifies the type of encoding for the target file. The default value is Default.
The acceptable values for this parameter are as follows:
- ASCII Uses ASCII (7-bit) character set.
- BigEndianUnicode Uses UTF-16 with the big-endian byte order.
- Default Uses the encoding that corresponds to the system's active code page (usually ANSI).
- OEM Uses the encoding that corresponds to the system's current OEM code page.
- Unicode Uses UTF-16 with the little-endian byte order.
- UTF7 Uses UTF-7.
- UTF8 Uses UTF-8.
- UTF32 Uses UTF-32 with the little-endian byte order.
Type: | String |
Accepted values: | ASCII, BigEndianUnicode, Default, OEM, Unicode, UTF7, UTF8, UTF32 |
Position: | Named |
Default value: | Default |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-Exclude
Exclude the specified items. The value of this parameter qualifies the Path parameter. Enter a
path element or pattern, such as *.txt
. Wildcards are permitted.
Type: | String[] |
Position: | Named |
Default value: | None |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | True |
-Include
Includes the specified items. The value of this parameter qualifies the Path parameter. Enter a
path element or pattern, such as *.txt
. Wildcards are permitted.
Type: | String[] |
Position: | Named |
Default value: | None |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | True |
-InputObject
Specifies the text to be searched. Enter a variable that contains the text, or type a command or expression that gets the text.
Using the InputObject parameter isn't the same as sending strings down the pipeline to
Select-String
.
When you pipe more than one string to the Select-String
cmdlet, it searches for the specified text
in each string and returns each string that contains the search text.
When you use the InputObject parameter to submit a collection of strings, Select-String
treats
the collection as a single combined string. Select-String
returns the strings as a unit if it
finds the search text in any string.
Type: | PSObject |
Position: | Named |
Default value: | None |
Required: | True |
Accept pipeline input: | True |
Accept wildcard characters: | False |
-List
Only the first instance of matching text is returned from each input file. This is the most efficient way to retrieve a list files that have contents matching the regular expression.
By default, Select-String
returns a MatchInfo object for each match it finds.
Type: | SwitchParameter |
Position: | Named |
Default value: | False |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-LiteralPath
Specifies the path to the files to be searched. The value of the LiteralPath parameter is used exactly as it's typed. No characters are interpreted as wildcards. If the path includes escape characters, enclose it in single quotation marks. Single quotation marks tell PowerShell not to interpret any characters as escape sequences. For more information, see about_Quoting_Rules.
Type: | String[] |
Aliases: | PSPath |
Position: | Named |
Default value: | None |
Required: | True |
Accept pipeline input: | True |
Accept wildcard characters: | False |
-NotMatch
The NotMatch parameter finds text that doesn't match the specified pattern.
Type: | SwitchParameter |
Position: | Named |
Default value: | False |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-Path
Specifies the path to the files to search. Wildcards are permitted. The default location is the local directory.
Specify files in the directory, such as log1.txt
, *.doc
, or *.*
. If you specify only a
directory, the command fails.
Type: | String[] |
Position: | 1 |
Default value: | Local directory |
Required: | True |
Accept pipeline input: | True |
Accept wildcard characters: | True |
-Pattern
Specifies the text to find on each line. Type a string or regular expression. If you type a string, use the SimpleMatch parameter.
To learn about regular expressions, see about_Regular_Expressions.
Type: | String[] |
Position: | 0 |
Default value: | None |
Required: | True |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-Quiet
Indicates that the cmdlet returns a Boolean value (True or False), instead of a MatchInfo object. The value is True if the pattern is found; otherwise the value is False.
Type: | SwitchParameter |
Position: | Named |
Default value: | False |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-SimpleMatch
Indicates that the cmdlet uses a simple match rather than a regular expression match. In a simple
match, Select-String
searches the input for the text in the Pattern parameter. It doesn't
interpret the value of the Pattern parameter as a regular expression statement.
Type: | SwitchParameter |
Position: | Named |
Default value: | False |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
Inputs
You can pipe any object that has a ToString method to Select-String
.
Outputs
Microsoft.PowerShell.Commands.MatchInfo or System.Boolean
By default, the output is a set of MatchInfo objects with one for each match found. If you use the Quiet parameter, the output is a Boolean value indicating whether the pattern was found.
Notes
Select-String
is similar to grep in UNIX or findstr.exe in Windows.
The sls alias for the Select-String
cmdlet was introduced in PowerShell 3.0.
Note
According to Approved Verbs for PowerShell Commands,
the official alias prefix for Select-*
cmdlets is sc
, not sl
. Therefore, the proper alias
for Select-String
should be scs
, not sls
. This is an exception to this rule.
To use Select-String
, type the text that you want to find as the value of the Pattern
parameter. To specify the text to be searched, use the following criteria:
- Type the text in a quoted string, and then pipe it to
Select-String
. - Store a text string in a variable, and then specify the variable as the value of the InputObject parameter.
- If the text is stored in files, use the Path parameter to specify the path to the files.
By default, Select-String
interprets the value of the Pattern parameter as a regular
expression. (For more information, see about_Regular_Expressions.
You can use the SimpleMatch parameter to override the regular expression matching. The
SimpleMatch parameter finds instances of the value of the Pattern parameter in the input.
The default output of Select-String
is a MatchInfo object, which includes detailed information
about the matches. The information in the object is useful when you're searching for text in files,
because MatchInfo objects have properties such as Filename and Line. When the input
isn't from the file, the value of these parameters is InputStream.
If you don't need the information in the MatchInfo object, use the Quiet parameter. The Quiet parameter returns a Boolean value (True or False) to indicate whether it found a match, instead of a MatchInfo object.
When matching phrases, Select-String
uses the current culture that is set for the system. To find
the current culture, use the Get-Culture cmdlet.
To find the properties of a MatchInfo object, type the following command:
Select-String -Path test.txt -Pattern 'test' | Get-Member | Format-List -Property *