EZOut

1.9.9

Format-Heatmap.ps1

                                function Format-Heatmap {

    <#

    .SYNOPSIS

        Formats a value as a heatmap

    .DESCRIPTION

        Returns the color used to generate a heatmap for a given value.

    #>

    [Management.Automation.Cmdlet("Format", "Object")]

    [ValidateScript({return $true})]

    param(

    # The value that will be heatmapped.

    [Parameter(ValueFromPipeline)]    

    $InputObject,

    # The Heatmap maximum, by default 1gb

    [Parameter(Mandatory)]    

    $HeatMapMax = 1gb,

    # The Heatmap middle value, by default 512mb

    $HeatMapMiddle = 512mb,

    # The Heatmap minimum value, by default 0

    $HeatMapMin = 0,

    # The color for cool.

    # To pass a Hex color as an int, simply replace # with 0x

    # (e.g. 0x00ff00 for green instead of '#00ff00') 

    [int]

    $HeatMapCool =0x05dd00,

    # The color for hot.

    # To pass a Hex color as an int, simply replace # with 0x

    # (e.g. 0xff0000 for red instead of '#ff0000') 

    [int]

    $HeatMapHot = 0xef1100

    )

    process {

        # Separate out the segments of the color,

        $coolRedPart = [byte](($HeatMapCool -band 0xff0000) -shr 16) # by bitmasking and then shifting right until it's bytes

        $coolGreenPart = [byte](($HeatMapCool -band 0x00ff00) -shr 8)

        $coolBluePart = [byte]($HeatMapCool -band 0x0000ff)

        $hotRedPart = [byte](($HeatMapHot  -band 0xff0000) -shr 16)

        $hotGreenPart = [byte](($HeatMapHot -band 0x00ff00) -shr 8)

        $hotBluePart = [byte]($HeatMapHot -band 0x0000ff)

        "#{0:x2}{1:x2}{2:x2}" -f @(

        if ($InputObject -le $HeatMapMin) 

        {

            $coolRedPart, $coolGreenPart, $coolBluePart

        }

        elseif ($InputObject -ge $HeatMapMax) 

        {

            $hotRedPart, $hotGreenPart, $hotBluePart

        } else {

            if ($InputObject -le $HeatMapMiddle) 

            {

                $d = 1 - ([double]$InputObject / ($HeatMapMiddle - $HeatMapMin))

                [Byte][Math]::Min(255, $hotRedPart * $d + $coolRedPart)

                [Byte][Math]::Min(255, $hotGreenPart * $d + $coolGreenPart)            

                [Byte][Math]::Min(255, $hotBluePart * $d + $coolBluePart)

            } else

            {

                $d = 1 - ([double]$InputObject / ($HeatMapMax - $HeatMapMiddle))

                [Byte][Math]::Min(255, $coolRedPart * $d + $hotRedPart)

                [Byte][Math]::Min(255, $coolGreenPart * $d + $hotGreenPart)            

                [Byte][Math]::Min(255, $coolBluePart * $d + $hotBluePart)

            }

        })

    }

}