IntelliTect.Common.psm1
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if((Get-Command Join-Path).Version -lt '6.0') { # An alternative approach is to trap the error but this causes a code analysis warning that can't be # turned of with a block. # try { # Microsoft.PowerShell.Management\Join-Path 'first' 'second' 'third' -ErrorAction ignore # } # catch [System.Management.Automation.ParameterBindingException] { Function Join-Path { switch ($args.Count) { 0 { Join-Path @args '' } 1 { $args[0] | Write-Output } 2 { Microsoft.PowerShell.Management\Join-Path @args } default { $result = $args[0] $args | Select-Object -Skip 1 | ForEach-Object{ $result = Join-Path $result $_ } Write-Output $result } } } } Function Add-PathToEnvironmentVariable { [CmdletBinding(SupportsShouldProcess)] param( [string]$Path, [string]$EnvironmentVariableName = "Path", [EnvironmentVariableTarget]$Scope = [EnvironmentVariableTarget]::User ) if ( ! (([Environment]::GetEnvironmentVariable($EnvironmentVariableName, $Scope) -split ';') -contains $Path) ) { if ($PSCmdlet.ShouldProcess("Add '$Path' to '`$env:$EnvironmentVariableName'.")) { $CurrentValue = [Environment]::GetEnvironmentVariable($EnvironmentVariableName, $Scope) [Environment]::SetEnvironmentVariable($EnvironmentVariableName, "$Path;$CurrentValue", $Scope) Set-Item "env:$EnvironmentVariableName"="$Path;$CurrentValue" } } } <# .SYNOPSIS Invokes $PSCmdlet.ShouldProcess .PARAMETER ContinueMessage Textual description of the action to be performed. This is what will be displayed to the user for ActionPreference.Continue. .PARAMETER InquireMessage Textual query of whether the action should be performed, usually in the form of a question. This is what will be displayed to the user for ActionPreference.Inquire. .PARAMETER Caption Caption of the window which may be displayed if the user is prompted whether or not to perform the action. (Caption may be displayed by some hosts, but not all.) .PARAMETER ShouldProcessReason Indicates the reason(s) why ShouldProcess returned what it returned. Only the reasons enumerated in System.Management.Automation.ShouldProcessReason are returned. .PARAMETER script The script executed if the $PSCmdlet.ShouldProcess returns true. #> Function Invoke-ShouldProcess { [CmdletBinding(SupportsShouldProcess)] param( [string]$ContinueMessage, [string]$InquireMessage, [string]$Caption, [ScriptBlock]$Script ) if ($PSCmdlet.ShouldProcess($ContinueMessage, $InquireMessage, $Caption)) { Write-Debug 'Executing script...' Invoke-Command $Script Write-Debug 'Finished executing script.' } } Set-Alias ShouldProcess Invoke-ShouldProcess <# TODO: Create Set-Alias Wrapper that allows the passing of parameters #> #See http://blogs.technet.com/b/heyscriptingguy/archive/2013/03/25/learn-about-using-powershell-value-binding-by-property-name.aspx Function ConvertFrom-Hashtable { [CmdletBinding()] param( [parameter(Mandatory, Position = 1, ValueFromPipeline)] [Hashtable] $Hashtable ) begin { } process { $r = new-object System.Management.Automation.PSObject $Hashtable.Keys | ForEach-Object { $key = $_ $value = $Hashtable[$key] $r | Add-Member -MemberType NoteProperty -Name $key -Value $value -Force } $r } end { } } #TODO: Outputs ane extra NewLine: $definition = (get-command edit-file).Definition ; $definition | hl name #TODO: Select only the 10 lines around the item found #TODO: Consider renaming $pattern as it indicates the wild card characters (*) are already embedded. Function Highlight([string]$pattern, [Int32]$Context = 10, [Parameter(ValueFromPipeline = $true)][string[]]$item) { PROCESS { $items = $item.Split([Environment]::NewLine) foreach ($line in $items) { if ( $line -like "*$pattern*") { write-host $line -foregroundcolor Yellow } else { write-host $line -foregroundcolor white } } } } set-alias HL highlight function Initialize-Array { [CmdletBinding()] [OutputType('System.Array')] [System.Array]$args | Write-Output } Function Add-DisposeScript { [CmdletBinding()] param( [ValidateNotNull()][Parameter(Mandatory, ValueFromPipeline)][object[]]$InputObject, [ValidateNotNull()][Parameter(Mandatory)][ScriptBlock]$DisposeScript ) $InputObject | Add-Member -MemberType NoteProperty -Name IsDisposed -Value $false # Set the IsDisposed property to true when Dispose() is called. [ScriptBlock]$DisposeScript = [scriptblock]::Create( "$DisposeScript; `n`$this.IsDisposed = `$true; " ) $InputObject | Add-Member -MemberType ScriptMethod -Name Dispose -Value $DisposeScript } <# .SYNOPSIS Registers to invoke the $InputObject's Dispose() method once the $ScriptBlock execution completes. .DESCRIPTION Provides equivalent functionality to C#'using statment, invoking Dispose after executing the $ScriptBlock specified. .PARAMETER inputObject The object on which to find and invoke the Dispose method. .PARAMETER ScriptBlock The ScriptBlock to execute before calling the $InputObject's dispose method. .EXAMPLE Register-AutoDispose (Get-TempFile) { Get-ChildItem } Calls the return from Get-TempFile's Dispose() method upon completion of Get-ChildItem. .EXAMPLE .EXAMPLE Register-AutoDispose (Get-TempFile) { param($tempFile) Write-Output $tempFile } Calls the return from Get-TempFile's Dispose() method upon completion of Write-Output $inputObject. In this case, because the $ScriptBlock accepts a parameter, the parameter will be initialized with the value of $inputObject .NOTES If a $ScriptBlock takes a parameter, the parameter value will be set to the value of $InputObject. #> Function Register-AutoDispose { [CmdletBinding(SupportsShouldProcess)] param( [ValidateScript( {$_.PSobject.Members.Name -contains "Dispose"})] [ValidateNotNull()][Parameter(Position = 0, Mandatory, ValueFromPipeline)] [Object[]]$InputObject, [Parameter(Position = 1, Mandatory)] [ScriptBlock]$ScriptBlock ) BEGIN { } PROCESS { try { Invoke-Command -ScriptBlock $ScriptBlock -ArgumentList $InputObject } finally { $InputObject | ForEach-Object { try { $_.Dispose() } catch { Write-Error $_ } } } } } Set-Alias Using Register-AutoDispose Function Script:Get-FileSystemTempItem { [CmdletBinding()] [OutputType('System.IO.FileSystemInfo')] param ( [Parameter(ValueFromPipelineByPropertyName)] [string[]]${Path} = [System.IO.Path]::GetTempPath(), [Parameter(ValueFromPipeline, ValueFromPipelineByPropertyName)] [AllowNull()][AllowEmptyString()][string[]]${Name}, [ValidateSet('File', 'Directory')][string]$ItemType = 'File' ) PROCESS { $path | ForEach-Object { [string]$fullName = $null # If the directory doesn't exist then Resolve-Path will report an error. $eachPath = Resolve-Path $_ -ErrorAction Stop if ((!$Name) -or ([string]::IsNullOrEmpty($Name))) { $fullName = Get-FileSystemTempItemPath $_ } else { $fullName = $Name | ForEach-Object { if ([string]::IsNullOrEmpty($_)) { do { $eachFullName = Join-Path $eachPath ([System.IO.Path]::GetRandomFileName()) } while (Test-Path $eachFullName) Write-Output $eachFullName } else { Write-Output (Join-Path $eachPath $_) } } } $fullName | ForEach-Object { # If we fail to create the item (for example the name was specified and the the file already exists) # then we stop further execution. $file = New-Item $_ -ItemType $ItemType -ErrorAction Stop $file | Add-DisposeScript -DisposeScript { Remove-Item $this.FullName -Force -Recurse } # Recurse is allowed on both files and directories Write-Output $file } } } } Function Get-TempDirectory { [CmdletBinding()] [OutputType('System.IO.DirectoryInfo')] param ( [Parameter(ValueFromPipelineByPropertyName)] [string[]]${Path} = [System.IO.Path]::GetTempPath(), [Parameter(ValueFromPipeline, ValueFromPipelineByPropertyName)] [AllowNull()][AllowEmptyString()][string[]]${Name} ) Get-FileSystemTempItem -Path $Path -Name $Name -ItemType Directory } Function Get-TempFile { [CmdletBinding()] [OutputType('System.IO.FileInfo')] param ( [Parameter(ValueFromPipelineByPropertyName)] [string[]]${Path} = [System.IO.Path]::GetTempPath(), [Parameter(ValueFromPipeline, ValueFromPipelineByPropertyName)] [AllowNull()][AllowEmptyString()][string[]]${Name} ) Get-FileSystemTempItem -Path $Path -Name $Name -ItemType File } <# .SYNOPSIS Gets the name of a temporary file or directory that does not exist. .PARAMETER Path An optional path to the parent directory. If no path is specified, the directory defaults to the operating system temporaray directory (System.IO.Path]::GetTempPath()) #> Function Get-FileSystemTempItemPath { [CmdletBinding()] [OutputType([String])] param ( [Parameter(ValueFromPipeLine, ValueFromPipelineByPropertyName)] [string[]]${Path} = [System.IO.Path]::GetTempPath() ) $path | ForEach-Object { [string]$eachName = $null [string]$tempItemPath = $null do { $eachName = [System.IO.Path]::GetRandomFileName() $tempItemPath = Join-Path $_ $eachName } while (Test-Path $tempItemPath) Write-Output $tempItemPath } } Set-Alias -Name Get-TempItemPath -Value Get-FileSystemTempItemPath Function ConvertTo-Lines { [CmdLetBinding()] param( [Parameter(Position = 1, Mandatory, ValueFromPipeline)] [string]$inputObject, [string]$deliminator = [Environment]::NewLine ) $inputObject -split [Environment]::NewLine } Filter Test-Command { [CmdletBinding()] param( [Parameter(Mandatory, ValueFromPipeline)][string[]]$command ) $command | Foreach-Object { Write-Output ([bool](get-command $_ -ErrorAction Ignore)) } } <# .SYNOPSIS Test is a property of the specified name exists on the object. .DESCRIPTION Given an input object, check to see whether a property of the specified name exists. .PARAMETER InputObject The input object on which to look for the property. .PARAMETER Name The name of the property to look for. #> Function Test-Property { [CmdLetBinding()] param( [Parameter(ValueFromPipeline, Mandatory)] $InputObject, [Parameter(Mandatory)][string[]]$Name ) # TODO: Add support for hashtable name checks as well # TODO: Add support so you don't need to specifically provide the parameter name for -Name. $Name | ForEach-Object { $_ -in $InputObject.PSobject.Properties.Name | Write-Output } } #[Diagnostics.CodeAnalysis.SuppressMessageAttribute("PSUseSingularNouns", "")] Function Test-VariableExists { [CmdletBinding()] param([Parameter(Mandatory, ValueFromPipeline)][string[]]$name) $name | ForEach-Object { Test-Path Variable:\$_ } } Function Get-IsWindowsPlatform { [OutputType([bool])] [CmdletBinding()]param() return (('PSEdition' -in $PSVersionTable.Keys) ` -and ($PSVersionTable.PSEdition -eq 'Desktop') ` -and ($PSVersionTable.Clrversion.Major -ge 4)) } Function Set-IsWindowsVariable { [CmdletBinding(SupportsShouldProcess)]param() if (-not (Test-VariableExists "IsWindows")) { Invoke-ShouldProcess -ContinueMessage 'Seting global:IsWindows variable' -InquireMessage 'Set global:IsWindows variable?' ` -Caption 'Set global:IsWindows variable' { Set-Variable -Name "IsWindows" -Value ` (('PSEdition' -in $PSVersionTable.Keys) ` -and ($PSVersionTable.PSEdition -eq 'Desktop') ` -and ($PSVersionTable.Clrversion.Major -ge 4)) -Scope global } } } Set-IsWindowsVariable <# .SYNOPSIS Wait for the condition to be true on all inputObject items. .DESCRIPTION Given a set inputObjects, iterate over each of them until they all meet the condition specified or the timeout expires. .PARAMETER InputObject The object on which to check the condition. .PARAMETER Condition A predicate that takes the input object and returns true or false regarding whether the condition is met. .PARAMETER TimeSpan A timeout specified as a TimeSpan. Note that TotalMilliseconds on the timeot must be more than 0 or else the parameter will fail validation. .PARAMETER TimeoutInMilliseconds The timeout specified in milliseconds. .EXAMPLE PS>1..1000 | Wait-ForCondition -TimeSpan (New-TimeSpan -Seconds 1) -Condition { ((Get-Random -Minimum 1 -Maximum 11)%2) -eq 0 } Attempt to generated even numbers 1000 times using Get-Random but timeout. .NOTES General notes #> Function Wait-ForCondition { [CmdletBinding(DefaultParametersetname='TimeoutInMilliseconds')] param( [Parameter(Mandatory,ValueFromPipeline)][object[]]$InputObject, [Parameter(Mandatory)][ScriptBlock]$Condition, [ValidateScript({$_.TotalMilliseconds -ne 0})][Parameter(ParameterSetName = "TimeSpan")][TimeSpan]$TimeSpan, [ValidateScript({$_ -ge 0})][Parameter(ParameterSetName = "TimeoutInMilliseconds")][long]$TimeoutInMilliseconds=0 ) BEGIN { $items=@() if ($PSBoundParameters.ContainsKey('TimeSpan')) { $TimeoutInMilliseconds = $TimeSpan.TotalMilliseconds } [System.Diagnostics.Stopwatch]$stopwatch = [System.Diagnostics.Stopwatch]::StartNew() } PROCESS { # Accumulate the response output from Start-Stuff here $items += $InputObject } END { # Iterate over all the items, waiting for them to complete here $moreItems = @($items) [int]$iterationCount = 0 while ($moreItems -and ($moreItems.Count -gt 0)) { $iterationCount++ Write-Progress "Checking condition on remaining $($moreItems.Count) items for the $iterationCount time" $moreItems = $moreItems | ForEach-Object { if(($TimeoutInMilliseconds -gt 0) -and ($stopwatch.ElapsedMilliseconds -gt $TimeoutInMilliseconds)) { throw [TimeoutException]::new("Execution time exceeded $TimeoutInMilliseconds milliseconds.") } Write-Output $_ } | Group-Object $condition | ` Where-Object -Property Name -eq -Value 'False' | Select-Object -ExpandProperty Group } $items | Write-Output Write-Debug "Number of times the list was polled for a true condition was $iterationCount" } } |