Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm still learning powershell, and so far I haven't found an answer on this website, despite a few searches. With Powershell being built on top of the .NET framework, can I write my own custom class using Powershell?

I'm not talking about instantiating .NET classes... that part is plain enough. I want to write my own custom classes using powershell scripts. Possible? So far my research leads me to say that this isn't possible. But I want to confirm with the guru's first...

share|improve this question
add comment

2 Answers

up vote 19 down vote accepted

Take a look at Add-Type cmdlet. It lets you write C# and other code in PowerShell. For example (from the above link),

C:\PS>$source = @"
public class BasicTest
{
    public static int Add(int a, int b)
    {
        return (a + b);
    }

    public int Multiply(int a, int b)
    {
        return (a * b);
    }
}
"@

C:\PS> Add-Type -TypeDefinition $source

C:\PS> [BasicTest]::Add(4, 3)

C:\PS> $basicTestObject = New-Object BasicTest 
C:\PS> $basicTestObject.Multiply(5, 2)
share|improve this answer
1  
Sorry, guess I misunderstood. I thought that you wanted the functionality of classes but done completely in PS. Yes if you want to write a .net class and use it in PS then Add-Type is the way to go. I have updated my answer to match the example here but purely in PS just in case someone is looking for it. The only difference is that I made the multiply function private and included the supersecret function as an interface to multiply. –  EBGreen Jul 27 '11 at 19:29
add comment

I suspect that the solution that you are looking for is Powershell Modules. They perform the roles that classes typically perform in other languages. They give you a very simple yet structured way to reuse your code.

Here is how to get the functionality of classes in PS using modules. At the command line you could do this:

New-Module -ScriptBlock {function add($a,$b){return $a + $b}; function multiply($a,$b){return $a * $b}; function supersecret($a,$b){return multiply $a $b}; export-modulemember -function add, supersecret}

Then you would be able to:

PS C:\> add 2 4
6
PS C:\> multiply 2 4
The term 'multiply' 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 inc
luded, verify that the path is correct and try again.
At line:1 char:9
+ multiply <<<<  2 4
    + CategoryInfo          : ObjectNotFound: (multiply:String) [], CommandNotFoundException
    + FullyQualifiedErrorId : CommandNotFoundException

PS C:\> supersecret 2 4
8

As you can see multiply is private within the module. More traditionally you would inatantiate an object that is an instance of the module. That is done via the -AsCustomObject parameter:

$m = New-Module -ScriptBlock {function add($a,$b){return $a + $b}; function multiply($a,$b){return $a * $b}; function supersecret($a,$b){return multiply $a $b}; export-modulemember -function add, supersecret} -AsCustomObject

Then you could:

PS C:\> $m.add(2,4)
6
PS C:\> $m.multiply(2,4)
Method invocation failed because [System.Management.Automation.PSCustomObject] doesn't contain a method named 'multiply'.
At line:1 char:12
+ $m.multiply <<<< (2,4)
    + CategoryInfo          : InvalidOperation: (multiply:String) [], RuntimeException
    + FullyQualifiedErrorId : MethodNotFound

PS C:\> $m.supersecret(2,4)

8

This all demonstrates the use of Dynamic modules meaning nothing is stored to disk for reuse. It is fine for very simple functionality. If you want to actually be able to read the code and reuse it in future sessions or scripts however you would want to store it in a .psm1 file then store that file in a folder with the same name (minus the extension) as the file. Then you can import the module into your session at the command line or into another script.

As an example of this, let's say I took this code:

function Add{
    param(
            $a,
            $b
         )
    return $a + $b
}
function Multiply{
    param(
            $a,
            $b
         )
    return $a + $b
}
function SuperSecret{
    param(
            $a,
            $b
         )
    return Multiply $a $b
}
Export-ModuleMember -Function Add, SuperSecret

And saved it to a file called TestModule.psm1 in the folder: C:\Windows\System32\WindowsPowerShell\v1.0\Modules\TestModule

The Modules folder in the Powershell install folder is a magic folder and any modules stored there are visible to the Import-Module cmdlet without having to specify a path. Now if we run Get-Module -List at the command line we see:

ModuleType Name                      ExportedCommands
---------- ----                      ----------------
Script     DotNet                    {}
Manifest   FileSystem                {Get-FreeDiskSpace, New-Zip, Resolve-ShortcutFile, Mount-SpecialFolder...}
Manifest   IsePack                   {Push-CurrentFileLocation, Select-CurrentTextAsVariable, ConvertTo-Short...
Manifest   PowerShellPack            {New-ByteAnimationUsingKeyFrames, New-TiffBitmapEncoder, New-Viewbox, Ne...
Manifest   PSCodeGen                 {New-Enum, New-ScriptCmdlet, New-PInvoke}
Manifest   PSImageTools              {Add-CropFilter, Add-RotateFlipFilter, Add-OverlayFilter, Set-ImageFilte...
Manifest   PSRss                     {Read-Article, New-Feed, Remove-Article, Remove-Feed...}
Manifest   PSSystemTools             {Test-32Bit, Get-USB, Get-OSVersion, Get-MultiTouchMaximum...}
Manifest   PSUserTools               {Start-ProcessAsAdministrator, Get-CurrentUser, Test-IsAdministrator, Ge...
Manifest   TaskScheduler             {Remove-Task, Get-ScheduledTask, Stop-Task, Add-TaskTrigger...}
Manifest   WPK                       {Get-DependencyProperty, New-ModelVisual3D, New-DiscreteVector3DKeyFrame...
Manifest   AppLocker                 {}
Manifest   BitsTransfer              {}
Manifest   PSDiagnostics             {}
Script     **TestModule**                {}
Manifest   TroubleshootingPack       {}
Manifest   Citrix.XenApp.Commands... {}

We can see that our module is ready to import. We can import it into the session and use it in the raw using:

Import-Module TestModule

Or once again we can instantiate an object:

$m = Import-Module TestModule -AsCustomObject
share|improve this answer
    
ok, let me follow your link and check it out –  C Johnson Jul 27 '11 at 17:43
    
So it looks like the answer is no. Even in modules I don't see any documentation about writing custom classes. I guess I have to use C# for writing custom classes. –  C Johnson Jul 27 '11 at 17:51
    
I guess I don't understand what you mean by classes? What do you want the class to do? –  EBGreen Jul 27 '11 at 17:52
6  
From the link: "Modules can be used to package and distribute a cohesive library of functions for doing common tasks. Typically, the names of these functions share one or more nouns that reflect the common task that they are used for. These functions can also be similar to .NET Framework classes in that they can have public and private members." –  EBGreen Jul 27 '11 at 18:05
2  
+1 Fantastic explanation /intro to modules –  makerofthings7 Sep 25 '11 at 5:03
show 1 more comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.