ConvertFrom-SourceTable.ps1

<#PSScriptInfo
.VERSION 0.5.1
.GUID 0019a810-97ea-4f9a-8cd5-4babecdc916b
.AUTHOR iRon
.COMPANYNAME
.COPYRIGHT
.TAGS Read Input Convert Resource Table Format MarkDown
.LICENSE https://github.com/iRon7/ConvertFrom-SourceTable/LICENSE.txt
.PROJECTURI https://github.com/iRon7/ConvertFrom-SourceTable
.ICON https://raw.githubusercontent.com/iRon7/Join-Object/master/ConvertFrom-SourceTable.png
.EXTERNALMODULEDEPENDENCIES
.REQUIREDSCRIPTS
.EXTERNALSCRIPTDEPENDENCIES
.RELEASENOTES
.PRIVATEDATA
#>


<#
    .SYNOPSIS
        Converts a fixed column table to objects.
 
    .DESCRIPTION
        The [ConvertFrom-SourceTable] cmdlet creates objects from a fixed column
        source table possibly surrounded by horizontal and/or vertical rulers.
 
        **Definitions:**
 
        * The width of a source table column is outlined by the header width,
          the ruler width and the width of the data.
 
        * Column and Data alignment (none, left, right or justified) is defined
          by the existence of any (non-separator) character at the start or end
          of a column.
 
        * Column alignment (which is used for a default field alignment) is
          defined by the first and last character or space of the header and
          the ruler of the outlined column.
 
    .PARAMETER InputObject
        Specifies the source table strings to be converted to objects.
        Enter a variable that contains the source table strings or type a
        command or expression that gets the source table strings.
        You might also pipe the source table strings to [ConvertFrom-SourceTable].
 
        Note that streamed table rows are intermediately processed and
        released for the next cmdlet. In this mode, there is a higher
        possibility that floating tables or column data cannot be determined
        to be part of a specific column (as there is no overview of the table
        data that follows). To resolve this, provide all rows in once or use
        one of the following [-Header] and/or [-Ruler] parameters.
 
    .PARAMETER Header
        A string that defines the header line of an headless table or a multiple
        strings where each item represents the column name.
        In case the header contains a single string, it is used to define the
        (property) names, the size and alignment of the column, therefore it is
        key that the columns names are properly aligned with the rest of the
        column (including any table indents).
        If the header contains multiple strings, each string will be used to
        define the property names of each object. In this case, column alignment
        is based on the rest of the data and possible ruler.
 
        [!TIP]
        To skip a column, set the header name of the concerned column index to
        an empty string (or `$Null`).
 
    .PARAMETER Ruler
        A string that replaces any (horizontal) ruler in the input table which
        helps to define character columns in occasions where the table column
        margins are indefinable.
 
    .PARAMETER HorizontalDash
        This parameter (Alias `-HDash`) defines the horizontal ruler character.
        By default, each streamed table row (or a total raw table) will be
        searched for a ruler existing out of horizontal dash characters (`-`),
        spaces and possible vertical dashes. If the ruler is found, the prior
        line is presumed to be the header. If the ruler is not found within
        the first (two) streamed data lines, the first line is presumed the
        header line.
        If `-HorizontalDash` explicitly defined, all (streamed) lines will be
        searched for a matching ruler.
        If `-HorizontalDash` is set to `$Null`, the first data line is presumed
        the header line (unless the [-VerticalDash] parameter is set).
 
    .PARAMETER VerticalDash
        This parameter (Alias `-VDash`) defines the vertical ruler character.
        By default, each streamed table row (or a total raw table) will be
        searched for a header with vertical dash characters (`|`). If the
        header is not found within the first streamed data line, the first
        line is presumed the header line.
        If `-VerticalDash` explicitly defined, all (streamed) lines will be
        searched for a header with a vertical dash character.
        If `-VerticalDash` is set to `$Null`, the first data line is presumed
        the header line (unless the [-HorizontalDash] parameter is set).
 
    .PARAMETER Junction
        The -Junction parameter (default: "+") defines the character used for
        the junction between the horizontal ruler and vertical ruler.
 
    .PARAMETER Anchor
        The -Anchor parameter (default: `:`) defines the character used for
        the alignment anchor. If used in the header row, it will be used to
        define the default alignment, meaning that justified (full width)
        values will be parsed.
 
    .PARAMETER Omit
        A string of characters to omit from the header and data. Each omitted
        character will be replaced with a space.
 
    .PARAMETER ParseRightAligned
        This parameter will cause any right aligned data to be parsed according
        to the following formatting and alignment rules:
 
        * Data that is left aligned will be parsed to the generic column type
          which is a string by default.
 
        * Data that is right aligned will be parsed.
 
        * Data that is justified (using the full column with) is following the
          the header alignment and parsed if the header is right aligned.
 
        * The default column type can be set by prefixing the column name with
          a standard (PowerShell) cast operator (a data type enclosed in
          square brackets, e.g.: `[Int]ID`)
 
        #### Caution
 
        Take reasonable precautions when using the `-ParseRightAligned` parameter
        in scripts. When using the `-ParseRightAligned` parameter to convert data
        from a table, verify that the data is safe to be parsed before running it.
 
    .EXAMPLE
        # Restore objects from a Format-Table output
 
        The following loads the file properties from general PowerShell output table:
 
            $Files = ConvertFrom-SourceTable '
            Mode LastWriteTime Length Name
            ---- ------------- ------ ----
            d----l 11/16/2018 8:30 PM Archive
            -a---l 5/22/2018 12:05 PM (726) Build-Expression.ps1
            -a---l 11/16/2018 7:38 PM 2143 CHANGELOG
            -a---l 11/17/2018 10:42 AM 14728 ConvertFrom-SourceTable.ps1
            -a---l 11/17/2018 11:04 AM 23909 ConvertFrom-SourceTable.Tests.ps1
            -a---l 8/4/2018 11:04 AM (6237) Import-SourceTable.ps1'
 
        > Note that it is generally not a good practice to use console output cmdlets
        > as e.g. [Format-Table] for anything else than displaying the results.
 
    .EXAMPLE
        # Convert from a markdown table
 
        The following command loads a list of employee objects from a markdown table:
 
            $Employees = ConvertFrom-SourceTable '
            | Department | Name | Country |
            | ----------- | ------- | ------- |
            | Sales | Aerts | Belgium |
            | Engineering | Bauer | Germany |
            | Sales | Cook | England |
            | Engineering | Duval | France |
            | Marketing | Evans | England |
            | Engineering | Fischer | Germany |'
 
    .EXAMPLE
        # Parse right aligned data
 
        In the following example each item in the (hexadecimal) `Value` column will be parsed
        to integer value and each item in the `RGB` column to an array with three values.
 
            $Colors = ConvertFrom-SourceTable -Parse '
            Name Value RGB
            ---- ----- ---
            Black 0x000000 0,0,0
            White 0xFFFFFF 255,255,255
            Red 0xFF0000 255,0,0
            Lime 0x00FF00 0,255,0
            Blue 0x0000FF 0,0,255
            Yellow 0xFFFF00 255,255,0
            Cyan 0x00FFFF 0,255,255
            Magenta 0xFF00FF 255,0,255
            Silver 0xC0C0C0 192,192,192
            Gray 0x808080 128,128,128
            Maroon 0x800000 128,0,0
            Olive 0x808000 128,128,0
            Green 0x008000 0,128,0
            Purple 0x800080 128,0,128
            Teal 0x008080 0,128,128
            Navy 0x000080 0,0,128'
 
            $Colors | Where {$_.Name -eq "Red"}
 
            Name Value RGB
            ---- ----- ---
            Red 16711680 {255, 0, 0}
 
    .EXAMPLE
        # Custom column types
 
        In the following example each item in the first column is casted to a `version` object
        and each item in the second column to a `DateTime` object.\
        Notice that the type name is used as a property name in case column name is omitted.
 
            $ChangeLog = ConvertFrom-SourceTable -Parse '
            [Version] [DateTime]Date Author Comments
            --------- -------------- ------ --------
            0.0.10 2018-05-03 Ronald Bode First design
            0.0.20 2018-05-09 Ronald Bode Pester ready version
            0.0.21 2018-05-09 Ronald Bode removed support for String[] types
            0.0.22 2018-05-24 Ronald Bode Better "right aligned" definition
            0.0.23 2018-05-25 Ronald Bode Resolved single column bug
            0.0.24 2018-05-26 Ronald Bode Treating markdown table input as an option
            0.0.25 2018-05-27 Ronald Bode Resolved error due to blank top lines'
 
    .LINK
        https://github.com/iRon7/ConvertFrom-SourceTable
#>

[CmdletBinding()][OutputType([Object[]])] param(
    [Parameter(ValueFromPipeLine = $True)] [String[]]$InputObject,
    [String[]]$Header,
    [string]$Ruler,
    [Alias("HDash")] [char]$HorizontalDash = '-',
    [Alias("VDash")] [char]$VerticalDash = '|',
    [char]$Junction = '+',
    [char]$Anchor = ':',
    [string]$Omit,
    [switch]$ParseRightAligned,
    [ValidateScript({ Throw [System.Management.Automation.ValidationMetadataException]'The -Literal parameter is depreciated and enabled by default, use -ParseRightAligned to disable.' })][switch]$Literal
)
begin {
    enum Alignment{ None; Left; Right; Justified }
    enum Mask{ All = 8; Header = 4; Ruler = 2; Data = 1 }
    $Auto = !$PSBoundParameters.ContainsKey('HorizontalDash') -and !$PSBoundParameters.ContainsKey('VerticalDash')
    $HRx = if ($HorizontalDash) { '\x{0:X2}' -f [int]$HorizontalDash }
    $VRx = if ($VerticalDash) { '\x{0:X2}' -f [int]$VerticalDash }
    $JNx = if ($Junction) { '\x{0:X2}' -f [int]$Junction }
    $ANx = if ($Anchor) { '\x{0:X2}' -f [int]$Anchor }
    $RulerPattern = if ($VRx) { "^[$HRx$VRx$JNx$ANx\s]*$HRx[$HRx$VRx$JNx$ANx\s]*$" } elseif ($HRx) { "^[$HRx\s]*$HRx[$HRx\s]*$" } else { '\A(?!x)x' }
    if (!$PSBoundParameters.ContainsKey('Ruler') -and $HRx) { Remove-Variable 'Ruler'; $Ruler = $Null }
    if (!$Ruler -and !$HRx -and !$VRx) { $Ruler = '' }
    if ($Ruler) { $Ruler = $Ruler -split '[\r\n]+' | Where-Object { $_.Trim() } | Select-Object -First 1 }
    $HeaderLine = if ($Header -is [Array] -and $Header.Count -gt 1) { '' } elseif ($Header) { $Header }
    $TopLine = if ($HeaderLine) { '' }
    $LastLine,$OuterLeftColumn,$OuterRightColumn,$Mask = $Null
    $RowIndex = 0; $Padding = 0; $Columns = [System.Collections.Generic.List[HashTable]]::new()
    $Property = [System.Collections.Specialized.OrderedDictionary]::new()             # Include support from PSv2
    function Null { $Null }; function True { $True }; function False { $False };        # Wrappers
    function Debug-Column {
        if ($VRx) { Write-Debug $Mask }
        else { Write-Debug (($Mask | ForEach-Object { if ($_) { '{0:x}' -f $_ } else { ' ' } }) -join '') }
        $CharArray = (' ' * ($Columns[-1].End + 1)).ToCharArray()
        for ($i = 0; $i -lt $Columns.Count; $i++) { $Column = $Columns[$i]
            for ($c = $Column.Start + $Padding; $c -le $Column.End - $Padding; $c++) { $CharArray[$c] = '-' }
            $CharArray[($Column.Start + $Column.End) / 2] = "$i"[-1]
            if ($Column.Alignment -band [Alignment]::Left) { $CharArray[$Column.Start + $Padding] = ':' }
            if ($Column.Alignment -band [Alignment]::Right) { $CharArray[$Column.End - $Padding] = ':' }
        }
        Write-Debug ($CharArray -join '')
    }
    function Mask ([string]$Line,[byte]$Or = [Mask]::Data) {
        $Init = [Mask]::All * ($Null -eq $Mask)
        if ($Init) { ([ref]$Mask).Value = [System.Collections.Generic.List[Byte]]::new() }
        for ($i = 0; $i -lt ([math]::Max($Mask.Count,$Line.Length)); $i++) {
            if ($i -ge $Mask.Count) { ([ref]$Mask).Value.Add($Init) }
            $Mask[$i] = if ($i -lt $Line.Length -and $Line[$i] -match '\S') { $Mask[$i] -bor $Or } else { $Mask[$i] -band (0xFF -bxor [Mask]::All) }
        }
    }
    function Slice ([string]$String,[int]$Start,[int]$End = [int]::MaxValue) {
        if ($Start -lt 0) { $End += $Start; $Start = 0 }
        if ($End -ge 0 -and $Start -lt $String.Length) {
            if ($End -lt $String.Length) { $String.Substring($Start,$End - $Start + 1) } else { $String.Substring($Start) }
        } else { $Null }
    }
    function TypeName ([string]$TypeName) {
        if ($ParseRightAligned) {
            $Null = $TypeName.Trim() -match '(\[(.*)\])?\s*(.*)'
            $Matches[2]
            if ($Matches[3]) { $Matches[3] } else { $Matches[2] }
        } else {
            $Null,$TypeName.Trim()
        }
    }
    function ErrorRecord ($Line,$Start,$End,$Message) {
        $Exception = New-Object System.InvalidOperationException "
$Message
+ $($Line -Replace '[\s]', ' ')
+ $(' ' * $Start)$('~' * ($End - $Start + 1))
"

        New-Object Management.Automation.ErrorRecord $Exception,
        $_.Exception.ErrorRecord.FullyQualifiedErrorId,
        $_.Exception.ErrorRecord.CategoryInfo.Category,
        $_.Exception.ErrorRecord.TargetObject
    }
}
process {
    $Lines = $InputObject -split '[\r\n]+'
    if ($Omit) {
        $Lines = @(
            foreach ($Line in $Lines) {
                    foreach ($Char in [Char[]]$Omit) { $Line = $Line.Replace($Char,' ') }
                    $Line
            }
        )
    }
    $NextIndex,$DataIndex = $Null
    if (!$Columns) {
        for ($Index = 0; $Index -lt $Lines.Length; $Index++) {
            $Line = $Lines[$Index]
            if ($Line.Trim()) {
                if ($Null -ne $HeaderLine) {
                    if ($Null -ne $Ruler) {
                        if ($Line -notmatch $RulerPattern) { $DataIndex = $Index }
                    } else {
                        if ($Line -match $RulerPattern) { $Ruler = $Line }
                        else {
                            $Ruler = ''
                            $DataIndex = $Index
                        }
                    }
                } else {
                    if ($Null -ne $Ruler) {
                        if ($LastLine -and (!$VRx -or $Ruler -notmatch $VRx -or $LastLine -match $VRx) -and $Line -notmatch $RulerPattern) {
                            $HeaderLine = $LastLine
                            $DataIndex = $Index
                        }
                    } else {
                        if (!$RulerPattern) {
                            $HeaderLine = $Line
                        } elseif ($LastLine -and (!$VRx -or $Line -notmatch $VRx -or $LastLine -match $VRx) -and $Line -match $RulerPattern) {
                            $HeaderLine = $LastLine
                            if (!$Ruler) { $Ruler = $Line }
                        }
                    }
                }
                if ($Line -notmatch $RulerPattern) {
                    if ($VRx -and $Line -match $VRx -and $TopLine -notmatch $VRx) { $TopLine = $Line; $NextIndex = $Null }
                    elseif ($Null -eq $TopLine) { $TopLine = $Line }
                    elseif ($Null -eq $NextIndex) { $NextIndex = $Index }
                    $LastLine = $Line
                }
                if ($DataIndex) { break }
            }
        }
        if (($Auto -or ($VRx -and $TopLine -match $VRx)) -and $Null -ne $NextIndex) {
            if ($Null -eq $HeaderLine) {
                $HeaderLine = $TopLine
                if ($Null -eq $Ruler) { $Ruler = '' }
                $DataIndex = $NextIndex
            } elseif ($Null -eq $Ruler) {
                $Ruler = ''
                $DataIndex = $NextIndex
            }
        }
        if ($Null -ne $DataIndex) {
            $HeaderLine = $HeaderLine.TrimEnd()
            if ($TopLine -notmatch $VRx) {
                $VRx = ''
                if ($Ruler -notmatch $ANx) { $ANx = '' }
            }
            if ($VRx) {
                $Index = 0; $Start = 0; $Length = $Null; $Padding = [int]::MaxValue
                if ($Ruler) {
                    $Start = $Ruler.Length - $Ruler.TrimStart().Length
                    if ($Ruler.Length -gt $HeaderLine.Length) { $HeaderLine += ' ' * ($Ruler.Length - $HeaderLine.Length) }
                }
                $Mask = '?' * $Start
                foreach ($Column in ($HeaderLine.Substring($Start) -split $VRx)) {
                    if ($Null -ne $Length) { $Mask += '?' * $Length + $VerticalDash }
                    $Length = $Column.Length
                    $Type,$Name = if (@($Header).Count -le 1) { TypeName $Column.Trim() }
                    elseif ($Index -lt @($Header).Count) { TypeName $Header[$Index] }
                    # if ($Name) {
                        $End = $Start + $Length - 1
                        if ($Type -or $Name) {
                            $Padding = [math]::Min($Padding,$Column.Length - $Column.TrimStart().Length)
                            if ($Ruler -or $End -lt $HeaderLine.Length - 1) { $Padding = [math]::Min($Padding,$Column.Length - $Column.TrimEnd().Length) }
                            $Property.Add($Name, $Null)
                        }
                        $Columns.Add(@{ Index = $Index; Name = $Column; Type = $Null; Start = $Start; End = $End })
                    # }
                    $Index++; $Start += $Column.Length + 1
                }
                $Mask += '*'
                foreach ($Column in $Columns) {
                    if (-not $Column.Type -and -not $Column.Name) { continue }
                    $Anchored = $Ruler -and $ANx -and $Ruler -match $ANx
                    if (!$Ruler) {
                        if ($Column.Start -eq 0) {
                            $Column.Start = [math]::Max($HeaderLine.Length - $HeaderLine.TrimStart().Length - $Padding,0)
                            $OuterLeftColumn = $Column
                        } elseif ($Column.End -eq $HeaderLine.Length - 1) {
                            $Column.End = $HeaderLine.TrimEnd().Length + $Padding
                            $OuterRightColumn = $Column
                        }
                    }
                    $Column.Type,$Column.Name = TypeName $Column.Name.Trim()
                    if ($Anchored) {
                        $Column.Alignment = [Alignment]::None
                        if ($Ruler[$Column.Start] -match $ANx) { $Column.Alignment = $Column.Alignment -bor [Alignment]::Left }
                        if ($Ruler[$Column.End] -match $ANx) { $Column.Alignment = $Column.Alignment -bor [Alignment]::Right }
                    } else {
                        $Column.Alignment = [Alignment]::Justified
                        if ($HeaderLine[$Column.Start + $Padding] -notmatch '\S') { $Column.Alignment = $Column.Alignment -band -bnot [Alignment]::Left }
                        if ($Column.End - $Padding -ge $HeaderLine.Length -or $HeaderLine[$Column.End - $Padding] -notmatch '\S') { $Column.Alignment = $Column.Alignment -band -bnot [Alignment]::Right }
                    }
                }
            } else {
                Mask $HeaderLine ([Mask]::Header)
                if ($Ruler) { Mask $Ruler ([Mask]::Ruler) }
                $Lines | Select-Object -Skip $DataIndex | Where-Object { $_.Trim() } | ForEach-Object { Mask $_ }
                if (!$Ruler -and $HRx) {                    # Connect (ruler-less) single spaced headers where either column is empty
                    $InWord = $False; $WordMask = 0
                    for ($i = 0; $i -le $Mask.Count; $i++) {
                        if ($i -lt $Mask.Count) { $WordMask = $WordMask -bor $Mask[$i] }
                        $Masked = $i -lt $Mask.Count -and $Mask[$i]
                        if ($Masked -and !$InWord) { $InWord = $True; $Start = $i }
                        elseif (!$Masked -and $InWord) {
                            $InWord = $False; $End = $i - 1
                            if ([Mask]::Header -eq $WordMask -band 7) { # only header
                                if ($Start -ge 2 -and $Mask[$Start - 2] -band [Mask]::Header) { $Mask[$Start - 1] = [Mask]::Header }
                                elseif (($End + 2) -lt $Mask.Count -and $Mask[$End + 2] -band [Mask]::Header) { $Mask[$End + 1] = [Mask]::Header }
                            }
                            $WordMask = 0
                        }
                    }
                }
                $InWord = $False; $Index = 0; $Start,$Left = $Null
                for ($i = 0; $i -le $Mask.Count; $i++) {
                    $Masked = $i -lt $Mask.Count -and $Mask[$i]
                    if ($Masked -and !$InWord) { $InWord = $True; $Start = $i; $WordMask = 0 }
                    elseif ($InWord) {
                        if ($i -lt $Mask.Count) {$WordMask = $WordMask -bor $Mask[$i]}
                        if (!$Masked) {
                            $InWord = $False; $End = $i - 1
                            if ($i -lt $Mask.Count) {$WordMask = $WordMask -bor $Mask[$i]}
                            $Type,$Name = if (@($Header).Count -le 1) { TypeName "$(Slice -String $HeaderLine -Start $Start -End $End)".Trim() }
                            elseif ($Index -lt @($Header).Count) { TypeName $Header[$Index] }
                            if ($HeaderLine -and -not $Name) { continue }
                            if ($Name -and $Columns.Where{ $_.Name -eq $Name }) { Write-Warning "Duplicate column name: $Name." }
                            if ($Type) {
                                $Type = try { [type]$Type } catch {
                                    Write-Error -ErrorRecord (ErrorRecord -Line $HeaderLine -Start $Start -End $End -Message (
                                            "Unknown type {0} in header at column '{1}'" -f $Type,$Name
                                        ))
                                }
                            }
                            $Column = @{
                                Index = $Index
                                Name = $Name
                                Type = $Type
                                Start = $Start
                                End = $End
                                Alignment = $Null
                                Left = $Left
                                Right = $Null
                                Mask = $WordMask
                            }
                            $Columns.Add($Column)
                            if ($Left) { $Left.Right = $Column }
                            $Left = $Column
                            if ($Name) { $Property.Add($Name, $Null) }
                            $Index++
                        }
                    }
                }
            }
            $RulerPattern = if ($Ruler) { '^' + ($Ruler -replace "[^$HRx]","[$VRx$JNx$ANx\s]" -replace "[$HRx]","[$HRx]") } else { '\A(?!x)x' }
        }
    }
    if ($Columns) {
        if ($VRx) {
            foreach ($Line in ($Lines | Where-Object { $_ -like $Mask })) {
                if ($OuterLeftColumn) {
                    $Start = [math]::Max($Line.Length - $Line.TrimStart().Length - $Padding,0)
                    if ($Start -lt $OuterLeftColumn.Start) {
                        $OuterLeftColumn.Start = $Start
                        $OuterLeftColumn.Alignment = $Column.Alignment -band -bnot [Alignment]::Left
                    }
                } elseif ($OuterRightColumn) {
                    $End = $Line.TrimEnd().Length + $Padding
                    if ($End -gt $OuterRightColumn.End) {
                        $OuterRightColumn.End = $End
                        $OuterRightColumn.Alignment = $Column.Alignment -band -bnot [Alignment]::Right
                    }
                }
            }
        } else {
            $HeadMask = if ($Ruler) { [Mask]::Header -bor [Mask]::Ruler } else { [Mask]::Header }
            $Lines | Select-Object -Skip (0 + $DataIndex) | Where-Object { $_.Trim() } | ForEach-Object { Mask $_ }

            if (!$RowIndex) {
                for ($c = $Columns.Count - 1; $c -ge 0; $c --) {
                    $Column = $Columns[$c]
                    $MaskStart = $Mask[$Column.Start]; $MaskEnd = $Mask[$Column.End]
                    $HeadStart = $MaskStart -band $HeadMask; $HeadEnd = $MaskEnd -band $HeadMask
                    $AllStart = $MaskStart -band [Mask]::All; $AllEnd = $MaskEnd -band [Mask]::All
                    $IsLeftAligned = ($HeadStart -eq $HeadMask -and $HeadEnd -ne $HeadMask) -or ($AllStart -and !$AllEnd)
                    $IsRightAligned = ($HeadStart -ne $HeadMask -and $HeadEnd -eq $HeadMask) -or (!$AllStart -and $AllEnd)
                    if ($IsLeftAligned) { $Column.Alignment = $Column.Alignment -bor [Alignment]::Left }
                    if ($IsRightAligned) { $Column.Alignment = $Column.Alignment -bor [Alignment]::Right }
                }
                if ($DebugPreference -ne 'SilentlyContinue' -and !$RowIndex) { Write-Debug ($HeaderLine -replace '\s',' '); Debug-Column }
            }

            foreach ($Column in $Columns) {                         # Include any consecutive characters at te right
                $MaxEnd = if ($Column.Right) { $Column.Right.Start - 2 } else { $Mask.Count - 1 }
                for ($i = $Column.End + 1; $i -le $MaxEnd; $i++) {
                    if ($Mask[$i]) {
                        $Column.End = $i
                        $Column.Alignment = $Column.Alignment -band -bnot [Alignment]::Right
                    } else { break }
                }
            }

            foreach ($Column in $Columns) {                         # Include any consecutive characters at te left
                $MinStart = if ($Column.Left) { $Column.Left.End + 2 } else { 0 }
                for ($i = $Column.Start - 1; $i -ge $MinStart; $i --) {
                    if ($Mask[$i]) {
                        $Column.Start = $i
                        $Column.Alignment = $Column.Alignment -band -bnot [Alignment]::Left
                    } else { break }
                }
            }

            foreach ($Column in $Columns) {                         # Include any floating characters at the right
                if ($Column.Alignment -ne [Alignment]::Right) {     # unless the column is right aligned
                    $MaxEnd = if ($Column.Right) { $Column.Right.Start - 2 } else { $Mask.Count - 1 }
                    for ($i = $Column.End + 1; $i -le $MaxEnd; $i++) {
                        if ($Mask[$i]) {
                            $Column.End = $i
                            $Column.Alignment = $Column.Alignment -band -bnot [Alignment]::Right
                        }
                    }
                }
            }

            foreach ($Column in $Columns) {                         # Include any floating characters at the left
                if ($Column.Alignment -ne [Alignment]::Left) {      # unless the column is left aligned
                    $MinStart = if ($Column.Left) { $Column.Left.End + 2 } else { 0 }
                    for ($i = $Column.Start - 1; $i -ge $MinStart; $i --) {
                        if ($Mask[$i]) {
                            $Column.Start = $i
                            $Column.Alignment = $Column.Alignment -band -bnot [Alignment]::Left
                        }
                    }
                }
            }

            foreach ($Column in $Columns) {                         # Include any leftover floating characters at the right
                if ($Column.Alignment -ne [Alignment]::Right) {     # where the column is right aligned
                    $MaxEnd = if ($Column.Right) { $Column.Right.Start - 2 } else { $Mask.Count - 1 }
                    for ($i = $Column.End + 1; $i -le $MaxEnd; $i++) {
                        if ($Mask[$i]) {
                            $Column.End = $i
                            $Column.Alignment = $Column.Alignment -band -bnot [Alignment]::Right
                        }
                    }
                }
            }
        }
        if ($DebugPreference -ne 'SilentlyContinue' -and !$RowIndex) { Write-Debug ($HeaderLine -replace '\s',' '); Debug-Column }
        foreach ($Line in ($Lines | Select-Object -Skip ([int]$DataIndex))) {
            if ($Line.Trim() -and ($Line -notmatch $RulerPattern)) {
                $RowIndex++
                if ($DebugPreference -ne 'SilentlyContinue') { Write-Debug ($Line -replace '\s',' ') }
                $Fields = if ($VRx -and $Line -notlike $Mask) { $Line -split $VRx }
                foreach ($Column in $Columns) {
                    if (-not $Column.Type -and -not $Column.Name) { continue }
                    $Property[$Column.Name] = if ($Fields) {
                        $Fields[$Column.Index].Trim()
                    } else {
                        $Field = Slice -String $Line -Start $Column.Start -End $Column.End
                        if ($Field -is [string]) {
                            $Tail = $Field.TrimStart()
                            $Value = $Tail.TrimEnd()
                            if ($ParseRightAligned -and $Value -gt '') {
                                $IsLeftAligned = $Field.Length - $Tail.Length -eq $Padding
                                $IsRightAligned = $Tail.Length - $Value.Length -eq $Padding
                                $Alignment = if ($IsLeftAligned -ne $IsRightAligned) {
                                    if ($IsLeftAligned) { [Alignment]::Left } else { [Alignment]::Right }
                                } else { $Column.Alignment }
                                if ($Alignment -eq [Alignment]::Right) {
                                    try { & ([scriptblock]::Create($Value)) }
                                    catch { $Value
                                        Write-Error -ErrorRecord (ErrorRecord -Line $Line -Start $Column.Start -End $Column.End -Message (
                                                "The expression '{0}' in row {1} at column '{2}' can't be parsed." -f $Value,$RowIndex,$Column.Name
                                            ))
                                    }
                                } elseif ($Column.Type) {
                                    try { & ([scriptblock]::Create("[$($Column.Type)]`$Value")) }
                                    catch { $Value
                                        Write-Error -ErrorRecord (ErrorRecord -Line $Line -Start $Column.Start -End $Column.End -Message (
                                                "The value '{0}' in row {1} at column '{2}' can't be converted to type {1}." -f $Value,$RowIndex,$Column.Name,$Column.Type
                                            ))
                                    }
                                } else { $Value }
                            } else { $Value }
                        } else { '' }
                    }
                }
                [PSCustomObject]$Property
            }
        }
        if ($DebugPreference -ne 'SilentlyContinue' -and $RowIndex) { Debug-Column }
    }
}