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Is it possible to color only certain words (not complete lines) for a powershell output using format-table. For example, this script scans a folder recursively for a string and then output the result with format-table.

dir -r -i *.* | Select-String $args[0] |
format-table -Property @{label="Line #"; Expression={$_.LineNumber}; width=6},
Path, Line -wrap

It would be nice to be able to format the word we are searching for with a specific color, so that you can see exactly where it was found on the line.

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3 Answers 3

up vote 9 down vote accepted

You could pipe the table into Out-String, then write the string in parts using Write-Host with the -NoNewLine switch.

Something like this:

filter ColorWord {
    param(
        [string] $word,
        [string] $color
    )
    $line = $_
    $index = $line.IndexOf($word, [System.StringComparison]::InvariantCultureIgnoreCase)
    while($index -ge 0){
        Write-Host $line.Substring(0,$index) -NoNewline
        Write-Host $line.Substring($index, $word.Length) -NoNewline -ForegroundColor $color
        $used = $word.Length + $index
        $remain = $line.Length - $used
        $line = $line.Substring($used, $remain)
        $index = $line.IndexOf($word, [System.StringComparison]::InvariantCultureIgnoreCase)
    }
    Write-Host $line
}

Get-Process| Format-Table| Out-String| ColorWord -word 1 -color magenta
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2  
Works great! Modified this line: $index = $line.IndexOf($word) to $index = $line.IndexOf($word, [System.StringComparison]::InvariantCultureIgnoreCase) –  EtienneT Sep 9 '11 at 19:11
    
Good point on the ignore case. I've updated the answer with the modification. –  Rynant Sep 9 '11 at 19:18

I like Rynant's approach. Here is an alternate implementation, using -split instead of IndexOf:

filter ColorWord( [string]$word, [ConsoleColor]$color ) {
    $later = $false
    $_ -split [regex]::Escape( $word ) | foreach {
      if( $later ) { Write-Host "$word" -NoNewline -ForegroundColor $color }
      else { $later = $true }
      Write-Host $_ -NoNewline
    }
    Write-Host
}

Split includes empty strings if the line starts or ends with the given word, hence the extra "if not first" logic.


Edit: Following Rynant's comment, here's another implementation that supports both simple and regex patterns:

filter ColorPattern( [string]$Pattern, [ConsoleColor]$Color, [switch]$SimpleMatch ) {
  if( $SimpleMatch ) { $Pattern = [regex]::Escape( $Pattern ) }

  $split = $_ -split $Pattern
  $found = [regex]::Matches( $_, $Pattern, 'IgnoreCase' )
  for( $i = 0; $i -lt $split.Count; ++$i ) {
    Write-Host $split[$i] -NoNewline
    Write-Host $found[$i] -NoNewline -ForegroundColor $Color
  }

  Write-Host
}

The output from the following examples shows the difference:

PS> '\d00\d!' | ColorPattern '\d' 'Magenta' -Simple
\d00\d!

PS> '\d00\d!' | ColorPattern '\d' 'Magenta'
\d00\d!

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Just beware that you need to escape regex characters. E.g. 'Ke$ha - Tik Tok.mp3'| ColorWords 'ke\$ha' red. Alternatively, $_ -split [regex]::Escape($word) could be used in the filter. Unless you want to match with regex, which could be nice. –  Rynant Sep 10 '11 at 1:40
    
@Rynant Thanks for pointing that out! Updated with new version. –  Emperor XLII Sep 11 '11 at 0:16
#$VerbosePreference = 'continue'
$VerbosePreference = 'silent'

filter ColorPattern {
    param ([object]$colors, [switch]$SimpleMatch)
    [string]$line = $_

    $collection = New-Object 'System.Collections.Generic.SortedDictionary[int, pscustomobject]'
    $RegexOptions = [Text.RegularExpressions.RegexOptions]::IgnoreCase.value__ + [Text.RegularExpressions.RegexOptions]::Singleline.value__

    if ($SimpleMatch){
        $patternMatches = $colors.keys | % {[regex]::Escape($_)}
        $reference = 'Value'
    } else {
        $patternMatches = $colors.keys
        $reference = 'Pattern'
    }

    # detect RegEx matches and add to collection object
    Write-Verbose "'$line'"

    $measureparsing_match = (Measure-Command {
        foreach ($pattern in $patternMatches){
            Write-Verbose "regex pattern: $pattern"
            foreach ($match in ([regex]::Matches($line, $pattern, $RegexOptions))){ # lazy matching
                Write-Verbose "`tmatch index: $($match.Index) length: $($match.length)"

                $currentset = ($match.Index)..($match.Index + $match.length - 1)
                Write-Verbose "`tcurrent set: $currentset"

                if (-not [bool]$collection.Count){
                    Write-Verbose "`t`tindex: $($match.Index) value: $($match.value) (inital add)"
                    [void]$collection.Add($match.Index, [PSCustomObject]@{Length = $match.Length; Value = $match.Value; Pattern = $pattern; Range = $currentset})
                } else {
                    (,$collection.Values) | % {
                        $currentRange = $_.range
                        $intersect = Compare-Object -PassThru $currentset $currentRange -IncludeEqual -ExcludeDifferent
                        if ($intersect){
                            Write-Verbose "`t`tintersect: $([string]($intersect | % {[string]::Concat($_)})) (skipped)"

                            $nonintersect = Compare-Object -PassThru $currentset $intersect
                            Write-Verbose "`t`tnonintersect: $([string]($nonintersect | % {[string]::Concat($_)}))"

                            $nonintersect | % {
                                if ($currentRange -notcontains $_){
                                    Write-Verbose "`t`tindex: $_ value: $($line[$_]) (adding intersect-fallout)"
                                    [void]$collection.Add($_, [PSCustomObject]@{Length = $_.Length; Value = $line[$_]; Pattern = $pattern; Range = $currentset})
                                } else {
                                    Write-Verbose "`t`t`tindex: $_ value: $($line[$_]) (skipped intersect-fallout)"
                                }
                            }
                        } else {
                            Write-Verbose "`t`tindex: $($match.index) value: $($match.value) (adding nonintersect)"
                            [void]$collection.Add($match.Index, [PSCustomObject]@{Length = $match.Length; Value = $match.Value; Pattern = $pattern; Range = $currentset})
                        }
                    } # end values
                } #end if
            } # end matching
        } # end pattern
    }).TotalMilliseconds

    $measureparsing_nonmatch = (Measure-Command {
        if ([bool]$collection.count){ # if there are no matches, skip!
            Compare-Object -PassThru `
            -ReferenceObject (
                $collection.Keys | % { # all matched keys and their lengths
                    $word = $collection.item($_)
                    $currentlength = ($word.value).length
                    ($_..($_ + ($currentlength - 1)))
                }) `
            -DifferenceObject (0..($line.Length - 1)) | # entire line
                % {[void]$collection.Add($_, [PSCustomObject]@{Length = $_.length; Value = $line[$_]})} # add non matches to collection
        }
    }).TotalMilliseconds

    Write-Verbose "match: $measureparsing_match ms. VS nonmatch: $measureparsing_nonmatch ms."

    $collection.keys | % {
        $word = $collection.item($_)
        if ($word.pattern){
            if ($colors.ContainsKey($word.$reference)){
                $color = @{
                    ForegroundColor = $colors[$word.$reference].ForegroundColor;
                    BackgroundColor = $colors[$word.$reference].BackgroundColor
                }
                if ($word.value){
                    Write-Host -NoNewline $([string]::Concat($word.value)) @color
                }
            }
        } else {
            Write-Host -NoNewline $([string]::Concat($word.value))
        }
    }
    Write-Host # needed for line feed
}

$Patterns = [ordered]@{
    # higher in list takes precendence
    'stopped' = @{ForegroundColor = 'Red'; BackgroundColor='DarkRed'}
    'running' = @{ForegroundColor = 'Green'; BackgroundColor='DarkGreen'}
    'paused' = @{ForegroundColor = 'Yellow'; BackgroundColor='DarkYellow'}
    0 = @{ForegroundColor = 'White'; BackgroundColor='Gray'}
    '\d+' = @{ForegroundColor = 'Gray'; BackgroundColor='Black'}
    '\.' = @{ForegroundColor = 'Magenta'; BackgroundColor='DarkMagenta'}
    '(a|e|i|o|u)' = @{ForegroundColor = 'Yellow'; BackgroundColor='DarkYellow'}
    '\w+' = @{ForegroundColor = 'Cyan'; BackgroundColor='DarkCyan'}

}

# strongly typed collection.. we could probably do this better..
$colorCollection = New-Object 'system.collections.generic.dictionary[string, hashtable]'([StringComparer]::OrdinalIgnoreCase) # Ordinal
$Patterns.GetEnumerator() | % {[void]$colorCollection.Add($_.Name, $_.Value)}

Get-Service | Out-String -Stream | ColorPattern -colors $colorCollection
#Get-Service | Out-String -Stream | ColorPattern -colors $colorCollection -SimpleMatch

Kind of late to the reply, but I've updated this with multiple regex support, as well as simple matching. This was tested under Powershell v4.0.

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