internal/functions/find-fscpsmatch.ps1
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<# .SYNOPSIS Finds files using match patterns. .DESCRIPTION Determines the find root from a list of patterns. Performs the find and then applies the glob patterns. Supports interleaved exclude patterns. Unrooted patterns are rooted using defaultRoot, unless matchOptions.matchBase is specified and the pattern is a basename only. For matchBase cases, the defaultRoot is used as the find root. .PARAMETER DefaultRoot Default path to root unrooted patterns. Falls back to System.DefaultWorkingDirectory or current location. .PARAMETER Pattern Patterns to apply. Supports interleaved exclude patterns. .PARAMETER FindOptions When the FindOptions parameter is not specified, defaults to (New-FindOptions -FollowSymbolicLinksTrue). Following soft links is generally appropriate unless deleting files. .PARAMETER MatchOptions When the MatchOptions parameter is not specified, defaults to (New-MatchOptions -Dot -NoBrace -NoCase). .EXAMPLE PS C:\> Find-FSCPSMatch -DefaultRoot "c:\temp\PackagesLocalDirectory" -Pattern '*.*' -FindOptions FollowSymbolicLinksTrue This will return all files .NOTES This if refactored Find-VSTSMatch function #> function Find-FSCPSMatch { [Diagnostics.CodeAnalysis.SuppressMessageAttribute("PSUseSingularNouns", "")] [Diagnostics.CodeAnalysis.SuppressMessageAttribute("PSUseShouldProcessForStateChangingFunctions", "")] [Diagnostics.CodeAnalysis.SuppressMessageAttribute("PSPossibleIncorrectUsageOfAssignmentOperator", "")] [OutputType('System.Object[]')] [CmdletBinding()] param( [Parameter()] [string]$DefaultRoot, [Parameter()] [string[]]$Pattern, $FindOptions, $MatchOptions) begin{ Invoke-TimeSignal -Start $ErrorActionPreference = 'Stop' Write-PSFMessage -Level Verbose -Message "DefaultRoot: '$DefaultRoot'" ##===========================internal functions start==========================## function New-FindOptions { [CmdletBinding()] param( [switch]$FollowSpecifiedSymbolicLink, [switch]$FollowSymbolicLinks) return New-Object psobject -Property @{ FollowSpecifiedSymbolicLink = $FollowSpecifiedSymbolicLink.IsPresent FollowSymbolicLinks = $FollowSymbolicLinks.IsPresent } } function New-MatchOptions { [CmdletBinding()] param( [switch]$Dot, [switch]$FlipNegate, [switch]$MatchBase, [switch]$NoBrace, [switch]$NoCase, [switch]$NoComment, [switch]$NoExt, [switch]$NoGlobStar, [switch]$NoNegate, [switch]$NoNull) return New-Object psobject -Property @{ Dot = $Dot.IsPresent FlipNegate = $FlipNegate.IsPresent MatchBase = $MatchBase.IsPresent NoBrace = $NoBrace.IsPresent NoCase = $NoCase.IsPresent NoComment = $NoComment.IsPresent NoExt = $NoExt.IsPresent NoGlobStar = $NoGlobStar.IsPresent NoNegate = $NoNegate.IsPresent NoNull = $NoNull.IsPresent } } function ConvertTo-NormalizedSeparators { [CmdletBinding()] param([string]$Path) # Convert slashes. $Path = "$Path".Replace('/', '\') # Remove redundant slashes. $isUnc = $Path -match '^\\\\+[^\\]' $Path = $Path -replace '\\\\+', '\' if ($isUnc) { $Path = '\' + $Path } return $Path } function Get-FindInfoFromPattern { [CmdletBinding()] param( [Parameter(Mandatory = $true)] [string]$DefaultRoot, [Parameter(Mandatory = $true)] [string]$Pattern, [Parameter(Mandatory = $true)] $MatchOptions) if (!$MatchOptions.NoBrace) { throw "Get-FindInfoFromPattern expected MatchOptions.NoBrace to be true." } # For the sake of determining the find path, pretend NoCase=false. $MatchOptions = Copy-MatchOptions -Options $MatchOptions $MatchOptions.NoCase = $false # Check if basename only and MatchBase=true if ($MatchOptions.MatchBase -and !(Test-Rooted -Path $Pattern) -and ($Pattern -replace '\\', '/').IndexOf('/') -lt 0) { return New-Object psobject -Property @{ AdjustedPattern = $Pattern FindPath = $DefaultRoot StatOnly = $false } } # The technique applied by this function is to use the information on the Minimatch object determine # the findPath. Minimatch breaks the pattern into path segments, and exposes information about which # segments are literal vs patterns. # # Note, the technique currently imposes a limitation for drive-relative paths with a glob in the # first segment, e.g. C:hello*/world. It's feasible to overcome this limitation, but is left unsolved # for now. $minimatchObj = New-Object Minimatch.Minimatcher($Pattern, (ConvertTo-MinimatchOptions -Options $MatchOptions)) # The "set" field is a two-dimensional enumerable of parsed path segment info. The outer enumerable should only # contain one item, otherwise something went wrong. Brace expansion can result in multiple items in the outer # enumerable, but that should be turned off by the time this function is reached. # # Note, "set" is a private field in the .NET implementation but is documented as a feature in the nodejs # implementation. The .NET implementation is a port and is by a different author. $setFieldInfo = $minimatchObj.GetType().GetField('set', 'Instance,NonPublic') [object[]]$set = $setFieldInfo.GetValue($minimatchObj) if ($set.Count -ne 1) { throw "Get-FindInfoFromPattern expected Minimatch.Minimatcher(...).set.Count to be 1. Actual: '$($set.Count)'" } [string[]]$literalSegments = @( ) [object[]]$parsedSegments = $set[0] foreach ($parsedSegment in $parsedSegments) { if ($parsedSegment.GetType().Name -eq 'LiteralItem') { # The item is a LiteralItem when the original input for the path segment does not contain any # unescaped glob characters. $literalSegments += $parsedSegment.Source; continue } break; } # Join the literal segments back together. Minimatch converts '\' to '/' on Windows, then squashes # consequetive slashes, and finally splits on slash. This means that UNC format is lost, but can # be detected from the original pattern. $joinedSegments = [string]::Join('/', $literalSegments) if ($joinedSegments -and ($Pattern -replace '\\', '/').StartsWith('//')) { $joinedSegments = '/' + $joinedSegments # restore UNC format } # Determine the find path. $findPath = '' if ((Test-Rooted -Path $Pattern)) { # The pattern is rooted. $findPath = $joinedSegments } elseif ($joinedSegments) { # The pattern is not rooted, and literal segements were found. $findPath = [System.IO.Path]::Combine($DefaultRoot, $joinedSegments) } else { # The pattern is not rooted, and no literal segements were found. $findPath = $DefaultRoot } # Clean up the path. if ($findPath) { $findPath = [System.IO.Path]::GetDirectoryName(([System.IO.Path]::Combine($findPath, '_'))) # Hack to remove unnecessary trailing slash. $findPath = ConvertTo-NormalizedSeparators -Path $findPath } return New-Object psobject -Property @{ AdjustedPattern = Get-RootedPattern -DefaultRoot $DefaultRoot -Pattern $Pattern FindPath = $findPath StatOnly = $literalSegments.Count -eq $parsedSegments.Count } } function Get-FindResult { [CmdletBinding()] param( [Parameter(Mandatory = $true)] [string]$Path, [Parameter(Mandatory = $true)] $Options) if (!(Test-Path -LiteralPath $Path)) { Write-PSFMessage -Level Verbose -Message 'Path not found.' return } $Path = ConvertTo-NormalizedSeparators -Path $Path # Push the first item. [System.Collections.Stack]$stack = New-Object System.Collections.Stack $stack.Push((Get-Item -LiteralPath $Path)) $count = 0 while ($stack.Count) { # Pop the next item and yield the result. $item = $stack.Pop() $count++ $item.FullName # Traverse. if (($item.Attributes -band 0x00000010) -eq 0x00000010) { # Directory if (($item.Attributes -band 0x00000400) -ne 0x00000400 -or # ReparsePoint $Options.FollowSymbolicLinks -or ($count -eq 1 -and $Options.FollowSpecifiedSymbolicLink)) { $childItems = @( Get-ChildItem -Path "$($Item.FullName)/*" -Force ) [System.Array]::Reverse($childItems) foreach ($childItem in $childItems) { $stack.Push($childItem) } } } } } function Get-RootedPattern { [OutputType('System.String')] [CmdletBinding()] param( [Parameter(Mandatory = $true)] [string]$DefaultRoot, [Parameter(Mandatory = $true)] [string]$Pattern) if ((Test-Rooted -Path $Pattern)) { return $Pattern } # Normalize root. $DefaultRoot = ConvertTo-NormalizedSeparators -Path $DefaultRoot # Escape special glob characters. $DefaultRoot = $DefaultRoot -replace '(\[)(?=[^\/]+\])', '[[]' # Escape '[' when ']' follows within the path segment $DefaultRoot = $DefaultRoot.Replace('?', '[?]') # Escape '?' $DefaultRoot = $DefaultRoot.Replace('*', '[*]') # Escape '*' $DefaultRoot = $DefaultRoot -replace '\+\(', '[+](' # Escape '+(' $DefaultRoot = $DefaultRoot -replace '@\(', '[@](' # Escape '@(' $DefaultRoot = $DefaultRoot -replace '!\(', '[!](' # Escape '!(' if ($DefaultRoot -like '[A-Z]:') { # e.g. C: return "$DefaultRoot$Pattern" } # Ensure root ends with a separator. if (!$DefaultRoot.EndsWith('\')) { $DefaultRoot = "$DefaultRoot\" } return "$DefaultRoot$Pattern" } function Test-Rooted { [OutputType('System.Boolean')] [CmdletBinding()] param( [Parameter(Mandatory = $true)] [string]$Path) $Path = ConvertTo-NormalizedSeparators -Path $Path return $Path.StartsWith('\') -or # e.g. \ or \hello or \\hello $Path -like '[A-Z]:*' # e.g. C: or C:\hello } function Copy-MatchOptions { [CmdletBinding()] param($Options) return New-Object psobject -Property @{ Dot = $Options.Dot -eq $true FlipNegate = $Options.FlipNegate -eq $true MatchBase = $Options.MatchBase -eq $true NoBrace = $Options.NoBrace -eq $true NoCase = $Options.NoCase -eq $true NoComment = $Options.NoComment -eq $true NoExt = $Options.NoExt -eq $true NoGlobStar = $Options.NoGlobStar -eq $true NoNegate = $Options.NoNegate -eq $true NoNull = $Options.NoNull -eq $true } } function ConvertTo-MinimatchOptions { [CmdletBinding()] param($Options) $opt = New-Object Minimatch.Options $opt.AllowWindowsPaths = $true $opt.Dot = $Options.Dot -eq $true $opt.FlipNegate = $Options.FlipNegate -eq $true $opt.MatchBase = $Options.MatchBase -eq $true $opt.NoBrace = $Options.NoBrace -eq $true $opt.NoCase = $Options.NoCase -eq $true $opt.NoComment = $Options.NoComment -eq $true $opt.NoExt = $Options.NoExt -eq $true $opt.NoGlobStar = $Options.NoGlobStar -eq $true $opt.NoNegate = $Options.NoNegate -eq $true $opt.NoNull = $Options.NoNull -eq $true return $opt } function Get-LocString { [OutputType('System.String')] [CmdletBinding()] param( [Parameter(Mandatory = $true, Position = 1)] [string]$Key, [Parameter(Position = 2)] [object[]]$ArgumentList = @( )) # Due to the dynamically typed nature of PowerShell, a single null argument passed # to an array parameter is interpreted as a null array. if ([object]::ReferenceEquals($null, $ArgumentList)) { $ArgumentList = @( $null ) } # Lookup the format string. $format = '' if (!($format = $script:resourceStrings[$Key])) { # Warn the key was not found. Prevent recursion if the lookup key is the # "string resource key not found" lookup key. $resourceNotFoundKey = 'PSLIB_StringResourceKeyNotFound0' if ($key -ne $resourceNotFoundKey) { Write-PSFMessage -Level Warning -Message (Get-LocString -Key $resourceNotFoundKey -ArgumentList $Key) } # Fallback to just the key itself if there aren't any arguments to format. if (!$ArgumentList.Count) { return $key } # Otherwise fallback to the key followed by the arguments. $OFS = " " return "$key $ArgumentList" } # Return the string if there aren't any arguments to format. if (!$ArgumentList.Count) { return $format } try { [string]::Format($format, $ArgumentList) } catch { Write-PSFMessage -Level Warning -Message (Get-LocString -Key 'PSLIB_StringFormatFailed') $OFS = " " "$format $ArgumentList" } } function ConvertFrom-LongFormPath { [OutputType('System.String')] [CmdletBinding()] param([string]$Path) if ($Path) { if ($Path.StartsWith('\\?\UNC')) { # E.g. \\?\UNC\server\share -> \\server\share return $Path.Substring(1, '\?\UNC'.Length) } elseif ($Path.StartsWith('\\?\')) { # E.g. \\?\C:\directory -> C:\directory return $Path.Substring('\\?\'.Length) } } return $Path } function ConvertTo-LongFormPath { [OutputType('System.String')] [CmdletBinding()] param( [Parameter(Mandatory = $true)] [string]$Path) [string]$longFormPath = Get-FullNormalizedPath -Path $Path if ($longFormPath -and !$longFormPath.StartsWith('\\?')) { if ($longFormPath.StartsWith('\\')) { # E.g. \\server\share -> \\?\UNC\server\share return "\\?\UNC$($longFormPath.Substring(1))" } else { # E.g. C:\directory -> \\?\C:\directory return "\\?\$longFormPath" } } return $longFormPath } function Get-DirectoryChildItem { [CmdletBinding()] param( [string]$Path, [ValidateNotNullOrEmpty()] [Parameter()] [string]$Filter = "*", [switch]$Force, [VstsTaskSdk.FS.FindFlags]$Flags = [VstsTaskSdk.FS.FindFlags]::LargeFetch, [VstsTaskSdk.FS.FindInfoLevel]$InfoLevel = [VstsTaskSdk.FS.FindInfoLevel]::Basic, [switch]$Recurse) $stackOfDirectoryQueues = New-Object System.Collections.Stack while ($true) { $directoryQueue = New-Object System.Collections.Queue $fileQueue = New-Object System.Collections.Queue $findData = New-Object VstsTaskSdk.FS.FindData $longFormPath = (ConvertTo-LongFormPath $Path) $handle = $null try { $handle = [VstsTaskSdk.FS.NativeMethods]::FindFirstFileEx( [System.IO.Path]::Combine($longFormPath, $Filter), $InfoLevel, $findData, [VstsTaskSdk.FS.FindSearchOps]::NameMatch, [System.IntPtr]::Zero, $Flags) if (!$handle.IsInvalid) { while ($true) { if ($findData.fileName -notin '.', '..') { $attributes = [VstsTaskSdk.FS.Attributes]$findData.fileAttributes # If the item is hidden, check if $Force is specified. if ($Force -or !$attributes.HasFlag([VstsTaskSdk.FS.Attributes]::Hidden)) { # Create the item. $item = New-Object -TypeName psobject -Property @{ 'Attributes' = $attributes 'FullName' = (ConvertFrom-LongFormPath -Path ([System.IO.Path]::Combine($Path, $findData.fileName))) 'Name' = $findData.fileName } # Output directories immediately. if ($item.Attributes.HasFlag([VstsTaskSdk.FS.Attributes]::Directory)) { $item # Append to the directory queue if recursive and default filter. if ($Recurse -and $Filter -eq '*') { $directoryQueue.Enqueue($item) } } else { # Hold the files until all directories have been output. $fileQueue.Enqueue($item) } } } if (!([VstsTaskSdk.FS.NativeMethods]::FindNextFile($handle, $findData))) { break } if ($handle.IsInvalid) { throw (New-Object -TypeName System.ComponentModel.Win32Exception -ArgumentList @( [System.Runtime.InteropServices.Marshal]::GetLastWin32Error() Get-LocString -Key PSLIB_EnumeratingSubdirectoriesFailedForPath0 -ArgumentList $Path )) } } } } finally { if ($null -ne $handle) { $handle.Dispose() } } # If recursive and non-default filter, queue child directories. if ($Recurse -and $Filter -ne '*') { $findData = New-Object VstsTaskSdk.FS.FindData $handle = $null try { $handle = [VstsTaskSdk.FS.NativeMethods]::FindFirstFileEx( [System.IO.Path]::Combine($longFormPath, '*'), [VstsTaskSdk.FS.FindInfoLevel]::Basic, $findData, [VstsTaskSdk.FS.FindSearchOps]::NameMatch, [System.IntPtr]::Zero, $Flags) if (!$handle.IsInvalid) { while ($true) { if ($findData.fileName -notin '.', '..') { $attributes = [VstsTaskSdk.FS.Attributes]$findData.fileAttributes # If the item is hidden, check if $Force is specified. if ($Force -or !$attributes.HasFlag([VstsTaskSdk.FS.Attributes]::Hidden)) { # Collect directories only. if ($attributes.HasFlag([VstsTaskSdk.FS.Attributes]::Directory)) { # Create the item. $item = New-Object -TypeName psobject -Property @{ 'Attributes' = $attributes 'FullName' = (ConvertFrom-LongFormPath -Path ([System.IO.Path]::Combine($Path, $findData.fileName))) 'Name' = $findData.fileName } $directoryQueue.Enqueue($item) } } } if (!([VstsTaskSdk.FS.NativeMethods]::FindNextFile($handle, $findData))) { break } if ($handle.IsInvalid) { throw (New-Object -TypeName System.ComponentModel.Win32Exception -ArgumentList @( [System.Runtime.InteropServices.Marshal]::GetLastWin32Error() Get-LocString -Key PSLIB_EnumeratingSubdirectoriesFailedForPath0 -ArgumentList $Path )) } } } } finally { if ($null -ne $handle) { $handle.Dispose() } } } # Output the files. $fileQueue # Push the directory queue onto the stack if any directories were found. if ($directoryQueue.Count) { $stackOfDirectoryQueues.Push($directoryQueue) } # Break out of the loop if no more directory queues to process. if (!$stackOfDirectoryQueues.Count) { break } # Get the next path. $directoryQueue = $stackOfDirectoryQueues.Peek() $Path = $directoryQueue.Dequeue().FullName # Pop the directory queue if it's empty. if (!$directoryQueue.Count) { $null = $stackOfDirectoryQueues.Pop() } } } function Get-FullNormalizedPath { [OutputType('System.String')] [CmdletBinding()] param( [Parameter(Mandatory = $true)] [string]$Path) [string]$outPath = $Path [uint32]$bufferSize = [VstsTaskSdk.FS.NativeMethods]::GetFullPathName($Path, 0, $null, $null) [int]$lastWin32Error = [System.Runtime.InteropServices.Marshal]::GetLastWin32Error() if ($bufferSize -gt 0) { $absolutePath = New-Object System.Text.StringBuilder([int]$bufferSize) [uint32]$length = [VstsTaskSdk.FS.NativeMethods]::GetFullPathName($Path, $bufferSize, $absolutePath, $null) $lastWin32Error = [System.Runtime.InteropServices.Marshal]::GetLastWin32Error() if ($length -gt 0) { $outPath = $absolutePath.ToString() } else { throw (New-Object -TypeName System.ComponentModel.Win32Exception -ArgumentList @( $lastWin32Error Get-LocString -Key PSLIB_PathLengthNotReturnedFor0 -ArgumentList $Path )) } } else { throw (New-Object -TypeName System.ComponentModel.Win32Exception -ArgumentList @( $lastWin32Error Get-LocString -Key PSLIB_PathLengthNotReturnedFor0 -ArgumentList $Path )) } if ($outPath.EndsWith('\') -and !$outPath.EndsWith(':\')) { $outPath = $outPath.TrimEnd('\') } $outPath } ##===========================internal functions end============================## } process { try { if (!$FindOptions) { $FindOptions = New-FindOptions -FollowSpecifiedSymbolicLink -FollowSymbolicLinks } if (!$MatchOptions) { $MatchOptions = New-MatchOptions -Dot -NoBrace -NoCase } $miscFolder = (Join-Path $script:ModuleRoot "\internal\misc") [string]$code = Get-Content "$miscFolder\Minimatch.cs" -Raw Add-Type -TypeDefinition $code -Language CSharp # Normalize slashes for root dir. $DefaultRoot = ConvertTo-NormalizedSeparators -Path $DefaultRoot $results = @{ } $originalMatchOptions = $MatchOptions foreach ($pat in $Pattern) { Write-PSFMessage -Level Verbose -Message "Pattern: '$pat'" # Trim and skip empty. $pat = "$pat".Trim() if (!$pat) { Write-PSFMessage -Level Verbose -Message 'Skipping empty pattern.' continue } # Clone match options. $MatchOptions = Copy-MatchOptions -Options $originalMatchOptions # Skip comments. if (!$MatchOptions.NoComment -and $pat.StartsWith('#')) { Write-PSFMessage -Level Verbose -Message 'Skipping comment.' continue } # Set NoComment. Brace expansion could result in a leading '#'. $MatchOptions.NoComment = $true # Determine whether pattern is include or exclude. $negateCount = 0 if (!$MatchOptions.NoNegate) { while ($negateCount -lt $pat.Length -and $pat[$negateCount] -eq '!') { $negateCount++ } $pat = $pat.Substring($negateCount) # trim leading '!' if ($negateCount) { Write-PSFMessage -Level Verbose -Message "Trimmed leading '!'. Pattern: '$pat'" } } $isIncludePattern = $negateCount -eq 0 -or ($negateCount % 2 -eq 0 -and !$MatchOptions.FlipNegate) -or ($negateCount % 2 -eq 1 -and $MatchOptions.FlipNegate) # Set NoNegate. Brace expansion could result in a leading '!'. $MatchOptions.NoNegate = $true $MatchOptions.FlipNegate = $false # Trim and skip empty. $pat = "$pat".Trim() if (!$pat) { Write-PSFMessage -Level Verbose -Message 'Skipping empty pattern.' continue } # Expand braces - required to accurately interpret findPath. $expanded = $null $preExpanded = $pat if ($MatchOptions.NoBrace) { $expanded = @( $pat ) } else { # Convert slashes on Windows before calling braceExpand(). Unfortunately this means braces cannot # be escaped on Windows, this limitation is consistent with current limitations of minimatch (3.0.3). Write-PSFMessage -Level Verbose -Message "Expanding braces." $convertedPattern = $pat -replace '\\', '/' $expanded = [Minimatch.Minimatcher]::BraceExpand( $convertedPattern, (ConvertTo-MinimatchOptions -Options $MatchOptions)) } # Set NoBrace. $MatchOptions.NoBrace = $true foreach ($pat in $expanded) { if ($pat -ne $preExpanded) { Write-PSFMessage -Level Verbose -Message "Pattern: '$pat'" } # Trim and skip empty. $pat = "$pat".Trim() if (!$pat) { Write-PSFMessage -Level Verbose -Message "Skipping empty pattern." continue } if ($isIncludePattern) { # Determine the findPath. $findInfo = Get-FindInfoFromPattern -DefaultRoot $DefaultRoot -Pattern $pat -MatchOptions $MatchOptions $findPath = $findInfo.FindPath Write-PSFMessage -Level Verbose -Message "FindPath: '$findPath'" if (!$findPath) { Write-PSFMessage -Level Verbose -Message "Skipping empty path." continue } # Perform the find. Write-PSFMessage -Level Verbose -Message "StatOnly: '$($findInfo.StatOnly)'" [string[]]$findResults = @( ) if ($findInfo.StatOnly) { # Simply stat the path - all path segments were used to build the path. if ((Test-Path -LiteralPath $findPath)) { $findResults += $findPath } } else { $findResults = Get-FindResult -Path $findPath -Options $FindOptions } Write-PSFMessage -Level Verbose -Message "Found $($findResults.Count) paths." # Apply the pattern. Write-PSFMessage -Level Verbose -Message "Applying include pattern." if ($findInfo.AdjustedPattern -ne $pat) { Write-PSFMessage -Level Verbose -Message "AdjustedPattern: '$($findInfo.AdjustedPattern)'" $pat = $findInfo.AdjustedPattern } $matchResults = [Minimatch.Minimatcher]::Filter( $findResults, $pat, (ConvertTo-MinimatchOptions -Options $MatchOptions)) # Union the results. $matchCount = 0 foreach ($matchResult in $matchResults) { $matchCount++ $results[$matchResult.ToUpperInvariant()] = $matchResult } Write-PSFMessage -Level Verbose -Message "$matchCount matches" } else { # Check if basename only and MatchBase=true. if ($MatchOptions.MatchBase -and !(Test-Rooted -Path $pat) -and ($pat -replace '\\', '/').IndexOf('/') -lt 0) { # Do not root the pattern. Write-PSFMessage -Level Verbose -Message "MatchBase and basename only." } else { # Root the exclude pattern. $pat = Get-RootedPattern -DefaultRoot $DefaultRoot -Pattern $pat Write-PSFMessage -Level Verbose -Message "After Get-RootedPattern, pattern: '$pat'" } # Apply the pattern. Write-PSFMessage -Level Verbose -Message 'Applying exclude pattern.' $matchResults = [Minimatch.Minimatcher]::Filter( [string[]]$results.Values, $pat, (ConvertTo-MinimatchOptions -Options $MatchOptions)) # Subtract the results. $matchCount = 0 foreach ($matchResult in $matchResults) { $matchCount++ $results.Remove($matchResult.ToUpperInvariant()) } Write-PSFMessage -Level Verbose -Message "$matchCount matches" } } } $finalResult = @( $results.Values | Sort-Object ) Write-PSFMessage -Level Verbose -Message "$($finalResult.Count) final results" return $finalResult } catch { Write-PSFMessage -Level Host -Message "Something went wrong while finding-matches" -Exception $PSItem.Exception Stop-PSFFunction -Message "Stopping because of errors" -EnableException $true return } finally{ } } END { Invoke-TimeSignal -End } } |