Ah sorry I'm working on some issues witht interlaced encoding handling in the dev versions atm. :/
Crash was probably caused by the Vapoursynth script:
Will look into it.
Cu Selur
Ps.: does the audio delay handling work if you use video passthrough?
Pps.: please zip/compress the HybridDebugOutput files before uploading them in the future.
Crash was probably caused by the Vapoursynth script:
# Imports
import os
import sys
import ctypes
# Loading Support Files
Dllref = ctypes.windll.LoadLibrary("C:/Program Files/Hybrid/64bit/vsfilters/Support/libfftw3f-3.dll")
import vapoursynth as vs
# getting Vapoursynth core
core = vs.core
# Import scripts folder
scriptPath = 'C:/Program Files/Hybrid/64bit/vsscripts'
sys.path.insert(0, os.path.abspath(scriptPath))
# Loading Plugins
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/Support/VsResizer->Selector.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/Support/DCTFilter.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/DeblockFilter/Deblock/Deblock.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/GrainFilter/AddGrain/AddGrain.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/DenoiseFilter/NEO_FFT3DFilter/neo-fft3d.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/DenoiseFilter/DFTTest/DFTTest.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/Support/EEDI3.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/ResizeFilter/nnedi3/vsznedi3.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/Support/libmvtools.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/Support/temporalsoften.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/Support/scenechange.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/Support/fmtconv.dll")
core.std.LoadPlugin(path="C:/Program Files/Hybrid/64bit/vsfilters/SourceFilter/LSmashSource/vslsmashsource.dll")
# Import scripts
import havsfunc
# source: 'E:\amarec(20210928-1250)-01.avi'
# current color space: YUV422P8, bit depth: 8, resolution: 720x480, fps: 29.97, color matrix: 470bg, yuv luminance scale: limited, scanorder: top field first
# Loading E:\amarec(20210928-1250)-01.avi using LWLibavSource
clip = core.lsmas.LWLibavSource(source="E:/amarec(20210928-1250)-01.avi", format="YUV422P8", cache=0, prefer_hw=0)
# making sure input color matrix is set as 470bg
clip = core.resize.Bicubic(clip, matrix_in_s="470bg",range_s="limited")
# making sure frame rate is set to 29.970
clip = core.std.AssumeFPS(clip=clip, fpsnum=30000, fpsden=1001)
# Setting color range to TV (limited) range.
clip = core.std.SetFrameProp(clip=clip, prop="_ColorRange", intval=1)
# setting field order to what QTGMC should assume (top field first)
clip = core.std.SetFrameProp(clip=clip, prop="_FieldBased", intval=2)
# Deinterlacing using QTGMC
clip = havsfunc.QTGMC(Input=clip, Preset="Slower", TFF=True) # new fps: 29.97
# make sure content is preceived as frame based
clip = core.std.SetFieldBased(clip, 0)
clip = clip[::2]
# DEBUG: VsQTGMC changed scanorder to: progressive
# applying deblocking using DeBlock QED
clip = havsfunc.Deblock_QED(clip, quant1=26, quant2=28)
# rainbow removal using LUTDeRainbow
clip = havsfunc.LUTDeRainbow(input=clip,cthresh=20,ythresh=20)
# denoising using Neo-FFT3D
clip = core.neo_fft3d.FFT3D(clip=clip, sigma=3.00, bw=16, bh=16, sharpen=0.35)
clip = core.fmtc.resample(clip=clip, kernel="spline16", w=960, h=720, interlaced=False, interlacedd=False)
# converting progressive to interlaced for 'progressive to interlaced'
clip = core.std.DoubleWeave(clip, tff=True)
clip = core.std.SelectEvery(clip , 2, 0)
clip = core.std.SetFrameProp(clip=clip, prop="_FieldBased", intval=2)
# DEBUG: progressiveToInterlaced changed scanorder to: top field first
# adjusting output color from: YUV422P16 to YUV420P8 for x264Model
clip = core.resize.Bicubic(clip=clip, format=vs.YUV420P8, range_s="limited")
# reinterlacing for output
# set output frame rate to 29.970fps
clip = core.std.AssumeFPS(clip=clip, fpsnum=30000, fpsden=1001)
# Output
clip.set_output()
Cu Selur
Ps.: does the audio delay handling work if you use video passthrough?
Pps.: please zip/compress the HybridDebugOutput files before uploading them in the future.
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Dev versions are in the 'experimental'-folder of my GoogleDrive, which is linked on the download page.
Dev versions are in the 'experimental'-folder of my GoogleDrive, which is linked on the download page.