spav1an/spav1an.ps1
Jonatan Nilsson 669fd5e69d Finished implementing 0.9
Fully working version with almost all features except ETA
2021-09-30 08:59:00 +00:00

667 lines
No EOL
27 KiB
PowerShell

param (
[String] $EncoderPath = "aomenc-3.0.0-335.exe",
[String] $FFmpegPath = "ffmpeg.exe",
[String] $FFprobePath = "ffprobe.exe",
[Switch] $PrintCommands,
[int] $EncoderType = 1, # Encoder type. 1 = aomenc, 2 = SVT-AV1
[int] $Renderer = 1, # Frame type, 1 = ffmpeg native, 2 = avisynth
[int] $MinChunkSec = 10,
[int] $Threads = 0,
[int] $MaxKeyInt = 0, #
[String] $Framerate = "auto",
[String] $AnalyzeVidSize = "848x480",
[String] $AnalyzeVidEnc = "-hide_banner -loglevel error -stats -i {0} -map 0:0 -vf zscale={1}:f=spline36 -vcodec libx264 -preset veryfast -crf 40 -x264-params keyint={2}:min-keyint=5:scenecut=60 -y -pix_fmt yuv420p {3}",
[String] $AvisynthScript = "LSMASHVideoSource({0})",
[String] $EncoderOptions = "--cpu-used=8 --passes=1 --target-bitrate=1000 --rt",
[parameter(Position=0)] [String] $InputFile = ""
)
$ErrorActionPreference = "Stop"
Add-Type @"
using System;
public struct KeyFrameData {
public int start;
public int end;
public decimal startstamp;
public int length;
}
"@
Add-Type @"
using System;
public class ProjectChunkData {
public string filename;
public int index;
public int start;
public int end;
public decimal startstamp;
public bool finished;
public bool muxed;
public Object job;
}
"@
Add-Type @"
using System;
public class ProjectContext {
public string fileprefix;
public string fps;
public string countformat;
public string chunkformat;
public int chunkstotal;
public int nextchunkindex;
public int muxerinqueue;
public int muxerlastindex;
public int muxernextindex;
public Object muxerjob;
public DateTime started;
public DateTime finished;
public DateTime eta;
public int framestotal;
public int framesfinished;
}
"@
function Write-OurHelp {
Write-Host ""
Write-Host "S. Powershell variant of av1an"
Write-Host "Usage: .\spav1an.ps1 [options] INPUT_FILE"
Write-Host ""
Write-Host "Main options:"
Write-Host " -EncoderOptions <str> The encoding options for the encoder"
Write-Host " -EncoderType 1,2 Select which encoder type we are using: "
Write-Host " 1 = aomenc encoder"
Write-Host " 2 = SVT-AV1 encoder"
Write-Host " -Renderer 1,2 Select which frame renderer we are gonna be"
Write-Host " using for splitting the file:"
Write-Host " 1 = ffmpeg (uses -ss)"
Write-Host " 2 = avisynth"
Write-Host " -MinChunkSec 10 The minimum amount of seconds each chunk"
Write-Host " encode shouldbe at least."
Write-Host " -Threads 0 Total amount of workers to use. Default 0"
Write-Host " will use the total of logical processors"
Write-Host " -Framerate auto Frame rate of the video. Auto will use ffprobe"
Write-Host " to autodect. Otherwise you can specify it using"
Write-Host " rate/scale"
Write-Host " -MaxKeyInt 0 Maximum distance between each keyint. This is"
Write-Host " used to determine the maximum length of each segment."
Write-Host " A value of 0 means it defaults to 10 seconds."
Write-Host " -PrintCommands Print all ffmpeg/ffprobe commands run and arguments"
Write-Host ""
Write-Host "Analyze options:"
Write-Host "The analyze file will be used to generate scenecut changes as well as other"
Write-Host "keyframe data that will be used for splitting the video into chunks."
Write-Host " -AnalyzeVidSize widxhei The width and height of the analyze video"
Write-Host " Smaller size might be more innacurate but"
Write-Host " will be faster to encode"
Write-Host " -AnalyzeVidEnc <str> The encoding options for the analyze video."
Write-Host " By default this is x264 veryfast crf 40"
}
<#
-------------------------------------------------------------------
--------------- Verify all the parameters look okay --------------
-------------------------------------------------------------------
#>
function Assert-OurParameters {
try {
Start-ThreadJob -ScriptBlock {} | Out-Null
} catch {
Write-Host "ThreadJob was not found, automatically installing for scope local user"
Install-Module -Name ThreadJob -Scope CurrentUser
Write-Host "Install complete"
}
try {
Invoke-NativeCommand -FilePath 'cmd' -ArgumentList ('/c', 'echo test') | Receive-RawPipeline | Out-Null
} catch {
Write-Host "Use-RawPipeline was not found, automatically installing for scope local user"
Install-Module -Name Use-RawPipeline -Scope CurrentUser
Write-Host "Install complete"
}
try {
Invoke-NativeCommand -FilePath $FFprobePath -ArgumentList ('-loglevel', 'quiet', '-version') | Receive-RawPipeline | Out-Null
} catch {
Write-Error ("Error, unable to run or find $FFprobePath, make sure path or program exists. Error: " + $_.Exception.Message)
exit 1
}
try {
Invoke-NativeCommand -FilePath $FFmpegPath -ArgumentList ('-loglevel', 'quiet', '-version') | Receive-RawPipeline | Out-Null
} catch {
Write-Error ("Error, unable to run or find $FFmpegPath, make sure path or program exists. Error: " + $_.Exception.Message)
exit 1
}
try {
Invoke-NativeCommand -FilePath $EncoderPath -ArgumentList ('--help') | Receive-RawPipeline | Out-Null
} catch {
Write-Error ("Error, unable to run or find $EncoderPath, make sure path or program exists. Error: " + $_.Exception.Message)
exit 1
}
$writehelp = $false
if ($inputfile -eq "") {
Write-Host "Error: Inputfile is missing"
Write-Host ""
$writehelp = $true
}
if ($InputFile -notmatch '[^.]+\..+') {
Write-Host "Error: Inputfile must have an extension"
Write-Host ""
$writehelp = $true
}
if ($Framerate -notmatch '\d+/\d+' -and $Framerate -ne 'auto') {
Write-Host "Error: -Framerate has to be in a format of <rate>/<scale> or auto"
Write-Host " Example: -Framerate 24000/1001"
Write-Host " Example: -Framerate 25/1"
Write-Host " Example: -Framerate auto"
Write-Host ""
$writehelp = $true
}
if ($AnalyzeVidSize -notmatch '\d+x\d+') {
Write-Host "Error: -AnalyzeVideoSize has to be in a format of <width>x<height>"
Write-Host " Example: -AnalyzeVideoSize 1280x720"
Write-Host " Example: -AnalyzeVideoSize 848x480"
Write-Host ""
$writehelp = $true
}
if ($EncoderType -ne 1 -and $EncoderType -ne 2) {
Write-Host "Error: Unknown encoder type of $EncoderType."
Write-Host "Only values of 1 and 2 are supported yet."
Write-Host ""
$writehelp = $true
}
if ($Renderer -ne 1 -and $Renderer -ne 2) {
Write-Host "Error: Unknown renderer type of $Renderer."
Write-Host "Only values of 1 and 2 are supported yet."
Write-Host ""
$writehelp = $true
}
if ($MaxKeyInt -lt 0) {
Write-Host "Error: MaxKeyInt must be larger than or equal to 0."
Write-Host ""
$writehelp = $true
}
if ($writehelp) {
Write-OurHelp
exit
}
}
# Helper function to replace identifiers with the replaced string. This allows us to do a simple
# arguments.split(' ') without having to worry about it accidentally splitting a filename in half as
# we give the filename a random text string that we later replace inside the split array with the correct path.
function Rename-ArrayIdentifiers([String[]] $InputArr, [String] $Identifier1, [String] $ReplaceWith1, [String] $Identifier2, [String] $ReplaceWith2) {
for ($i = 0; $i -le $InputArr.Length; $i++) {
if ($InputArr[$i] -match $Identifier1) {
$InputArr[$i] = $InputArr[$i] -replace $Identifier1, $ReplaceWith1
} elseif ($Identifier2 -and $InputArr[$i] -match $Identifier2) {
$InputArr[$i] = $InputArr[$i] -replace $Identifier2, $ReplaceWith2
}
}
return $InputArr
}
<#
-------------------------------------------------------------------
------- Create our project files --------
-------------------------------------------------------------------
#>
function Write-ProjectFile {
# identifier for text replacement 1
$identifier1 = '2Nhd6VgWZr69B4kzAStydVGCcVugprCpJR'
# identifier for text replacement 2
$identifier2 = 'jh2Acz3nR3XjKrzqPiE3ZBANYYRtEHeqr4'
Write-Host "Project file was not found. Creating a project file."
$analyzefilename = $workproject + '_analyze.mkv'
# Check if framerate is auto and grab it from the source file
if ($Framerate -eq 'auto') {
Write-Host "Framerate is auto, checking framerate from source"
$fpsPropeArgs = "-v error -select_streams v -of default=noprint_wrappers=1:nokey=1 -show_entries stream=r_frame_rate $identifier1".Split(' ')
$fpsPropeArgs = Rename-ArrayIdentifiers $fpsPropeArgs $identifier1 $InputFile
if ($PrintCommands) { Write-Host "[Running] $FFprobePath $fpsPropeArgs" }
$Framerate = Invoke-NativeCommand -FilePath $FFprobePath -ArgumentList $fpsPropeArgs | Receive-RawPipeline
Write-Host "Framerate is: $Framerate"
}
# Split the framerate (rate/scale) to their respective values and calculate
# the max keyint from that
$FramerateSplit = $Framerate.Split('/')
$fps = [convert]::ToDouble($FramerateSplit[0]) / [convert]::ToDouble($FramerateSplit[1])
if ($MaxKeyInt -lt 1) {
$MaxKeyInt = [int][Math]::Ceiling($fps * 10)
}
# Split the video size string of 'widthXheight'
$splitsize = $AnalyzeVidSize.Split('x')
$vfsize = "w=" + $splitsize[0] + ":h=" + $splitsize[1]
# Create our command line
# Reason to use identifier isntead of using filename directly is cause we
# wanna split by space to get array argument list and that might split
# the file pathname.
$AnalyzeVidEnc = $AnalyzeVidEnc -f $identifier1, $vfsize, $MaxKeyInt, $identifier2
$analyzeffmpegSplitted = Rename-ArrayIdentifiers $AnalyzeVidEnc.Split(' ') $identifier1 $InputFile $identifier2 $analyzefilename
Write-Host "Creating $analyzefilename to generate keyframe split data from"
# Create our analyze file
# Reason we use Invoke-NativeCommand is "ffmpeg.exe" if located in the same
# folder as script will make the Invoke-Expression fail as it requires .\ in
# front of it. Invoke-NativeCommand allows us to specify filepath and it will
# run regardless
if ($PrintCommands) { Write-Host "[Running] $FFmpegPath $analyzeffmpegSplitted" }
Invoke-NativeCommand -FilePath $FFmpegPath -ArgumentList $analyzeffmpegSplitted | Receive-RawPipeline
Write-Host "Reading keyframe data from $analyzefilename"
# Start probing and analyzing our analyze file
$analyzePropeArgs = "-loglevel error -hide_banner -show_entries packet=pts_time,flags -select_streams v:0 -of csv=print_section=0 $identifier1".Split(' ')
$analyzePropeArgs = Rename-ArrayIdentifiers $analyzePropeArgs $identifier1 $analyzefilename
if ($PrintCommands) { Write-Host "[Running] $FFprobePath $analyzePropeArgs" }
$videodata = Invoke-NativeCommand -FilePath $FFprobePath -ArgumentList $analyzePropeArgs | Receive-RawPipeline
# Invoke-Expression ".\$FFprobePath -hide_banner -show_entries packet=pts_time,flags -select_streams v:0 -of csv=print_section=0 $analyzefilename > $analyzekeyframefilename"
# Write-Host ""
$project = New-Object 'System.Collections.Generic.List[KeyFrameData]'
$keyframes = New-Object 'System.Collections.Generic.List[KeyFrameData]'
# Parse the output of the ffprobe. The results is a csv containing "<timestamp>:<flags>"
# What we are looking for is flags of "K" at the start meaning keyframe. Since the csv
# contains each frame information, we can use the line index as an identifier for the frame number.
for ($i = 0; $i -lt $videodata.Length; $i++) {
$split = $videodata[$i].Split(',')
# Check if the flag starts with 'K' which means it's a keyframe and add it to our list
if ($split.Count -gt 1 -and $split[1][0] -eq 'K') {
$keyframes.Add((New-Object KeyFrameData -Property @{
start = $i;
startstamp = [convert]::ToDecimal($split[0]) }))
}
}
# If there are too few frames, the user might as well just encode directly
if ($keyframes.Count -lt 2) {
Write-Host "Too few keyframes found, exiting"
exit 1
}
# Start grouping keyframes. This is our helper object we will be using to count
# up our keyframes together until we get close to the max key int.
$start = New-Object KeyFrameData -Property @{
start = $keyframes[0].start;
startstamp = $keyframes[0].startstamp;
end = 0;
}
# Loop over each keyframe
for ($i = 1; $i -lt $keyframes.Count; $i++) {
# Continue going through keyframes until we've collected enough that
# we go over our $MaxKeyInt. Some videos have a loooooot of keyframes
# and for our encoder, we would rather group all those up together than
# have it process a bunch of sub one-second segments
$length = ($keyframes[$i].start - 1) - $start.start
if ($length -gt $MaxKeyInt) {
# Since we went over the $MaxKeyInt we wanna mark the end on the keyframe
# before this one that overflowed. However we make sure that we don't end
# up with a 0 frame segment
if ($keyframes[$i - 1].start - 1 -gt $start.start) {
# We have enough keyframes to batch up into a single segment. So grab
# the one keyframe before this one and continue on from that one.
$start.end = $keyframes[$i - 1].start - 1
$start.length = $start.end - $start.start
# Make the next segment start with the previous keyframe that didn't overflow
# our $MaxKeyInt threshold.
$next = $keyframes[$i - 1]
# In case that segment was shorter than half of $MaxKeyInt, we would rather
# make it longer and include the keyframe that made it overflow. What can happen
# is that a $MaxKeyInt of 240 and keyframe length of 20 and 210, we would rather
# the segment be total of both, 230, over the $MaxKeyInt than to have it create a
# tiny 20 frame segment for example.
if ($start.end - $start.start -lt $MaxKeyInt / 2) {
$start.end = $keyframes[$i].start - 1
$start.length = $start.end - $start.start
$next = $keyframes[$i]
}
# Add the segment to our project and start from the next keyframe.
$project.Add($start)
$start = New-Object KeyFrameData -Property @{
start = $next.start;
startstamp = $next.startstamp;
end = 0;
}
}
}
}
# Wrap up the last segment and add it to our project.
$start.end = $videodata.Length - 1
$start.length = $start.end - $start.start
$project.Add($start)
$projectoutput = '{'
$projectoutput += "`n `"fps`":`"" + $Framerate + "`","
$projectoutput += "`n `"chunks`": ["
$projectoutput += "`n [" + $project[0].start + ", " + $project[0].end + ", " + $project[0].startstamp + ", " + $project[0].length + "]"
for ($i = 1; $i -lt $project.Count; $i++) {
$projectoutput += ",`n [" + $project[$i].start + ", " + $project[$i].end + ", " + $project[$i].startstamp + ", " + $project[$i].length + "]"
}
$projectoutput += "`n ]"
$projectoutput += "`n}"
Set-Content -Path $projectfile $projectoutput
# Cleanup temp files
Remove-Item $analyzefilename
}
<#
-------------------------------------------------------------------
----------------------- Our encoding worker -----------------------
-------------------------------------------------------------------
#>
# Start-ProcessJobItem $context $project[$context.nextchunkindex]
function Start-ProcessJobItem([ProjectContext] $context, [ProjectChunkData] $projectitem) {
if ($Renderer -eq 2) {
$trimcontent = $AvisynthScript -f ('"' + $InputFile + '"')
$trimcontent += "`nTrim(" + $projectitem.start + ", " + $projectitem.end + ")"
$chunkavs = $context.fileprefix + '_' + $projectitem.start + '-' + $projectitem.end + '.avs'
Set-Content -Path $chunkavs $trimcontent
$ffmpegreadchunkparameters = @('-hide_banner', '-loglevel', 'warning', '-i', $chunkavs, '-map', '0:0', '-strict', '-1', '-f', 'yuv4mpegpipe', '-')
} elseif ($Renderer -eq 1) {
$sshours = [Math]::Floor($projectitem.startstamp / 3600)
$ssminutes = [Math]::Floor(($projectitem.startstamp % 3600) / 60)
$ssseconds = $projectitem.startstamp % 60
$ssstart = "{0:00}:{1:00}:{2:00.000}" -f $sshours, $ssminutes, $ssseconds
$ffmpegreadchunkparameters = @('-hide_banner', '-loglevel', 'warning', '-ss', $ssstart, '-i', $InputFile, '-map', '0:0', '-vframes', ($projectitem.end - $projectitem.start + 1), '-strict', '-1', '-f', 'yuv4mpegpipe', '-')
}
$identifier1 = '5BdMoB52CQyrNYEof3gARsbLgsTjZCdqF9'
$encoderparameters = ($EncoderOptions + " --limit={1} --fps={2} -o {0} -") -f $identifier1, ($projectitem.end - $projectitem.start + 1), $context.fps
$encoderargs = Rename-ArrayIdentifiers $encoderparameters.Split(' ') $identifier1 $projectitem.filename
# Write-Host ("Encoding chunk " + ($chunkformat -f $projectitem.index, $project.Count) + " " + $projectitem.start + ' - ' + $projectitem.end + ' (' + ($projectitem.end - $projectitem.start + 1) + ')')
if ($PrintCommands) { Write-Host "[Running] $FFmpegPath $ffmpegreadchunkparameters | $EncoderPath $encoderargs" }
$job = Start-ThreadJob -ArgumentList @($FFmpegPath, $ffmpegreadchunkparameters, $EncoderPath, $encoderargs, $i) -ScriptBlock {
$lecommand = $args[0] + ' ' + $args[1] + ' | ' + $args[2] + ' ' + $args[3]
cmd.exe /C $lecommand
if ($lastExitCode -gt 0) {
throw
}
}
$projectitem.job = $job
}
function Watch-JobsUntilFinishes([ProjectContext] $context, [System.Collections.Generic.List[ProjectChunkData]] $activeworkers) {
$framechunk = '0' * $context.framestotal.ToString().Length
$workerFinished = $false
while ($workerFinished -ne $true) {
if ($context.muxerjob.State -eq 'Failed') {
Write-Host "------------------------------"
Write-Host "Error encoding segment ${$context.muxerjob.Name}:"
$context.muxerjob.Error | Write-Host
$context.muxerjob.Output | Write-Host
throw "Error during muxing"
}
$consolewidth = [Math]::Max($Host.UI.RawUI.WindowSize.Width, 0)
[Console]::SetCursorPosition(0, [Math]::Max($Host.UI.RawUI.CursorPosition.Y - $activeworkers.Count - 2, 0))
for ($x = 0; $x -lt $activeworkers.Count; $x++) {
if ($null -eq $activeworkers[$x].job) {
Write-Host (("{0,-" + [Math]::Max($Host.UI.RawUI.WindowSize.Width - 1, 0) + "}") -f ("Worker {0} done" -f ($x + 1)))
continue
}
if ($activeworkers[$x].job.State -eq 'Failed') {
Write-Host "------------------------------"
Write-Host "Error encoding segment ${$activeworkers[0].index}:"
$activeworkers[$x].job.Error | Write-Host
throw "Error encoding segment"
}
if ($activeworkers[$x].job.State -eq 'Completed') {
if ($null -ne $activeworkers[$x].job) {
$activeworkers[$x].job = $null
$activeworkers[$x].finished = $true
$activeworkers[$x].muxed = $false
$context.framesfinished += ($activeworkers[$x].end - $activeworkers[$x].start) + 1
$context.finished = Get-Date
$context.muxerinqueue++
}
$workerFinished = $true
$currentprogress = 'Completed'
} else {
$currentprogress = ($activeworkers[$x].job.Error | Select-Object -Last 1)
}
if ($null -eq $currentprogress) {
$currentprogress = 'Starting...'
} else {
$currentprogress = $currentprogress.ToString()
$indexOfEta = $currentprogress.IndexOf('[ETA')
if ($indexOfEta -gt 0) {
$currentprogress = $currentprogress.Substring(0, $indexOfEta)
}
}
$prefix = $context.chunkformat -f $activeworkers[$x].index, $context.chunkstotal
Write-Host (("{0,-" + [Math]::Max($Host.UI.RawUI.WindowSize.Width - 1, 0) + "}") -f "$prefix $currentprogress")
}
$now = Get-Date
$howisitgoing = ("{0:" + $framechunk + "}/{1:" + $framechunk + "}") -f $context.framesfinished, $context.framestotal
$howisitgoing += " [{0,-30}]" -f ('#' * [Math]::Floor(($context.framesfinished/$context.framestotal) * 30))
$howisitgoing += (" Muxed {0:" + $context.countformat + "}/{1:" + $context.countformat + "}") -f $context.muxernextindex, $context.chunkstotal
if ($context.muxerjob.State -ne 'Completed') {
$lastmessage = $context.muxerjob.Output | Select-Object -Last 1
if ($lastmessage) {
$howisitgoing += " Muxing " + $lastmessage
}
}
if ($howisitgoing.Length -gt ($consolewidth - 1)) {
$howisitgoing = $howisitgoing.Substring(0, $consolewidth - 1)
}
Write-Host (("{0,-" + $consolewidth + "}") -f " ")
Write-Host (("{0,-" + $consolewidth + "}") -f $howisitgoing)
if ($workerFinished) { break }
if ($context.muxerjob.State -eq 'Completed' -and $context.muxernextindex -ge $project.Count) {
break
}
Start-Sleep 1
}
return $finishedForMuxing
}
function Start-Muxing([ProjectContext] $context, [System.Collections.Generic.List[ProjectChunkData]] $project) {
[System.Collections.ArrayList]$segmentstomux = @()
$lastmuxed = $null
if ($context.muxernextindex -gt 0) {
$segmentstomux.Add((("{0}({1:" + $context.countformat + "}).webm") -f $context.fileprefix, $context.muxernextindex)) | Out-Null
$lastmuxed = $segmentstomux[0]
}
for ($i = $context.muxernextindex; $i -lt $project.Count; $i++) {
if ($project[$i].finished -and $project[$i].muxed -eq $false ) {
$context.muxerinqueue--
$context.muxernextindex++
$project[$i].muxed = $true
$segmentstomux.Add($project[$i].filename) | Out-Null
} else {
break
}
}
$targetfile = ("{0}({1:" + $context.countformat + "}).webm") -f $context.fileprefix, $context.muxernextindex
$context.muxerjob = Start-ThreadJob -ArgumentList @($targetfile, $segmentstomux, $lastmuxed) -ScriptBlock {
cmd.exe /C ("mkvmerge.exe -w --flush-on-close -o `"" + $args[0] + "`" [ " + $args[1] + " ]")
if ($lastExitCode -gt 0) {
throw
}
if ($args[2]) {
Remove-Item -Force $args[2]
}
for ($x = 0; $x -lt $args[1].Count; $x++) {
Remove-Item -Force $args[1][$x]
}
}
}
function Start-OurEncoding {
if ($Threads -lt 1) {
$Threads = (Get-CimInstance Win32_ComputerSystem).NumberOfLogicalProcessors
}
Write-Host "Read our project file"
$context = New-Object 'ProjectContext'
$context.fileprefix = $workproject + '_output'
$projectraw = Get-Content -Path $projectfile | ConvertFrom-Json
$project = New-Object 'System.Collections.Generic.List[ProjectChunkData]'
# Create a format string so we can display a nice zero-padded number of the amount
# of segments left, example: [180-320]
# $countFormat = '0' * $project.Count.ToString().Length
$context.countformat = '0' * $projectraw.chunks.Count.ToString().Length
$context.chunkformat = "[{0:${$context.countformat}}/{1:$('0' * $projectraw.chunks.Count.ToString().Length)}]"
# Parse through the entire project file and add all the data to our encoding
# segment array.
for ($i = 0; $i -lt $projectraw.chunks.Count; $i++) {
$project.Add((New-Object ProjectChunkData -Property @{
index = $i + 1;
start = $projectraw.chunks[$i][0];
end = $projectraw.chunks[$i][1];
startstamp = $projectraw.chunks[$i][2];
finished = $false;
muxed = $false;
job = $null;
filename = ("{0}_{1:${$context.countformat}}.ivf" -f $context.fileprefix, ($i + 1));
}))
}
$context.framestotal = $project[$project.Count - 1].end + 1
$context.fps = $projectraw.fps
$context.nextchunkindex = 0
$context.muxernextindex = 0
$context.muxerinqueue = 0
$context.chunkstotal = $project.Count
$context.muxerjob = Start-ThreadJob -ScriptBlock {}
$activeworkers = New-Object 'System.Collections.Generic.List[ProjectChunkData]'
for ($i = 0; $i -lt $Threads; $i++) {
$activeworkers.Add([ProjectChunkData]@{})
}
Write-Host "Checking for existing files"
$removed = 0
$files = Get-ChildItem -Path './'
for ($i = 0; $i -lt $files.Count; $i++) {
if ($files[$i].Name.StartsWith($context.fileprefix + '_')) {
$removed++
Remove-Item -Force $files[$i]
} elseif ($files[$i].Name.StartsWith($context.fileprefix + '(')) {
try {
$mymatches = $files[$i].Name | Select-String -Pattern '\((\d+)\)'
$checkmuxerprevious = [int]$mymatches.Matches[0].Groups[1].Value
if ($context.muxernextindex -eq 0 -or $checkmuxerprevious -lt $context.muxernextindex) {
$context.muxernextindex = [int]$mymatches.Matches[0].Groups[1].Value
$context.nextchunkindex = $context.muxernextindex
Write-Host ("Continuing from previous session from {0}" -f $context.muxernextindex)
} else {
Write-Host ("Removing {0} as we found existing smaller index to continue from of {1}" -f $files[$i].Name, $context.muxernextindex)
$removed++
Remove-Item -Force $files[$i].Name
}
} catch {
throw ("Unable to continue from previous run, unable to read " + $files[$i].Name)
}
}
}
if ($removed -gt 0) {
Write-Host ("Removed {0} existing files" -f $removed)
}
for ($i = 0; $i -lt $context.nextchunkindex; $i++) {
$context.framesfinished += ($project[$i].end - $project[$i].start) + 1
}
Write-Host "Starting our chunk encoder with maximum $Threads workers"
for ($x = 0; $x -lt $activeworkers.Count; $x++) {
Write-Host "Warming up worker $x"
}
Write-Host ""
Write-Host ""
# repeat until done
while ($true) {
# If we still have some unproccessed segments left
if ($context.nextchunkindex -lt $project.Count) {
for ($x = 0; $x -lt $activeworkers.Count; $x++) {
if ($null -ne $activeworkers[$x].job) { continue }
Start-ProcessJobItem $context $project[$context.nextchunkindex]
$activeworkers[$x] = $project[$context.nextchunkindex]
$context.nextchunkindex++
}
}
# Mux if appropriate
if ($context.muxerinqueue -ge $activeworkers.Count -and $context.muxerjob.State -eq 'Completed') {
Start-Muxing $context $project
}
# print progress until an item finishes
Watch-JobsUntilFinishes $context $activeworkers
if ($context.muxerjob.State -eq 'Completed' -and $context.muxernextindex -ge $project.Count) {
break
}
}
Move-Item (("{0}({1:" + $context.countformat + "}).webm") -f $context.fileprefix, $context.muxernextindex) ("{0}_finished.webm" -f $context.fileprefix)
Write-Host "Finished"
}
try {
Assert-OurParameters
$workproject = [io.path]::GetFileNameWithoutExtension($InputFile)
$projectfile = $workproject + '_spav1an.json'
if (!(Test-Path $projectfile)) {
Write-ProjectFile
}
Start-OurEncoding
}
catch {
Write-Host ""
Write-Host "FATAL EXCEPTION OCCURED:"
Write-Host ""
Write-Host $_
Write-Host $_.ScriptStackTrace
}
# .\ffmpeg.exe -hide_banner -i gi_joe_720p_275.webm -map 0:0 -vf "zscale=w=1280:h=720:f=spline36" -pix_fmt yuv420p -strict -1 -f yuv4mpegpipe - | .\aomenc-3.0.0-335.exe --cpu-used=6 --cq-level=20 --bit-depth=8 -o gi_joe_test.webm -
# ./ffprobe.exe -hide_banner -show_entries packet=pts_time,flags -select_streams v:0 -of csv=print_section=0 gi_joe_720p_275.webm > test2.txt
# .\ffmpeg.exe -i gi_joe_720p_275.webm -vf "zscale=w=848:h=480:f=spline36" -map 0:0 -vcodec libx264 -preset veryfast -crf 30 -x264-params keyint=240:min-keyint=5:scenecut=10 -y -pix_fmt yuv420p gi_joe_720p_275_x264.mp4