def do_filter():
"""Vapoursynth filtering"""
src = JPBD.src_cut
src = depth(src, 32)
out = src
full_range = core.resize.Bicubic(out, range_in=0, range=1, dither_type='error_diffusion')
out = full_range
radius = 3
y, u, v = split(out)
y_m = core.resize.Point(y, 960, 1080, src_left=-1)
y_m = core.resize.Bicubic(y_m, 960, 540)
def demangle(clip):
return vdf.nnedi3_upscale(clip, pscrn=0, correct_shift=False).resize.Spline16(src_left=0.5+0.25, src_top=.5)
y_m, u, v = map(demangle, (y_m, u, v))
y_fixup = core.std.MakeDiff(y, y_m)
yu, yv = Regress(y_m, u, v, radius=radius)
u_fixup = ReconstructMulti(y_fixup, yu, radius=radius)
u_r = core.std.MergeDiff(u, u_fixup)
v_fixup = ReconstructMulti(y_fixup, yv, radius=radius)
v_r = core.std.MergeDiff(v, v_fixup)
out = join([y, u_r, v_r])
out = depth(out, 16)
dehalo = gf.MaskedDHA(out, rx=1.25, ry=1.25, darkstr=0.10, brightstr=1.0, maskpull=46, maskpush=148)
out = dehalo
upscale = atf.eedi3Scale(out, 2160, pscrn=0)
out = upscale
dehalo = gf.MaskedDHA(out, rx=1.15, ry=1.15, darkstr=0.10, brightstr=1.0, maskpull=46, maskpush=148)
out = dehalo
deband_mask = lvf.denoise.detail_mask(out, brz_a=2000, brz_b=1000)
deband = dbs.f3kpf(out, 28, 48, 48)
deband = core.std.MaskedMerge(deband, out, deband_mask)
out = deband
grain = core.grain.Add(out, 1)
out = grain
return out.std.AssumeFPS(fpsnum=1, fpsden=1)
def do_filter():
"""Vapoursynth filtering"""
src = JPBD.src_cut
src = depth(src, 16)
denoise = CoolDegrain(src, tr=1, thsad=24, blksize=8, overlap=4, plane=4)
out = denoise
radius = 2
clip_in = depth(out, 32)
y, u, v = split(clip_in)
y_m = core.resize.Bicubic(y,
960,
540,
src_left=-.5,
filter_param_a=1 / 3,
filter_param_b=1 / 3)
def demangle(clip):
return core.resize.Bicubic(clip, 1920, 1080, src_left=.5)
y_m, u, v = map(demangle, (y_m, u, v))
y_fixup = core.std.MakeDiff(y, y_m)
yu, yv = Regress(y_m, u, v, radius=radius)
u_fixup = ReconstructMulti(y_fixup, yu, radius=radius)
u_r = core.std.MergeDiff(u, u_fixup)
v_fixup = ReconstructMulti(y_fixup, yv, radius=radius)
v_r = core.std.MergeDiff(v, v_fixup)
scaled = depth(join([y, u_r, v_r]), 16)
out = scaled
deband_mask = lvf.denoise.detail_mask(out, brz_a=2000, brz_b=1000)
deband = dbs.f3kpf(out, 17, 24, 24)
deband = core.std.MaskedMerge(deband, out, deband_mask)
out = deband
grain = kgf.adaptive_grain(out, 0.2, luma_scaling=14)
out = grain
return depth(out, 10)
def do_filter():
"""Vapoursynth filtering"""
src = JPBD.src_cut
# Variables
opstart, opend = 2111, 4268
edstart, edend = 31650, 33809
full_zone = [(18727, 18774), (31590, 31649), (33990, src.num_frames - 1)
] # eyecatch, episode name and next episode
shabc_zone = [(edstart + 15, edstart + 1215),
(edstart + 1882, edstart + 2126)]
h = 720
w = get_w(h)
# Bicubic sharp parts don't have bad edges
edges_a = core.edgefixer.ContinuityFixer(src, *[[2, 1, 1]] * 4)
edges_b = awf.bbmod(src, left=6, thresh=32, blur=200)
edges = lvf.rfs(edges_a, edges_b, [(edstart + 1275, edstart + 1757)])
edges = lvf.rfs(edges, src, [(opstart, opend)] + full_zone)
out = depth(edges, 32)
# Denoise
ref = hvf.SMDegrain(depth(get_y(out), 16), thSAD=450)
denoise = hybrid_denoise(out, 0.35, 1.4, dict(a=2, d=1),
dict(ref=depth(ref, 32)))
out = denoise
# denoise = out
# Descale
luma = get_y(out)
lineart = vdf.edge_detect(luma, 'FDOG', 0.055,
(1, 1)).std.Median().std.BoxBlur(0, 1, 1, 1, 1)
descale_a = core.descale.Despline36(luma, w,
h).std.SetFrameProp('descaleKernel',
data='spline36')
descale_b = core.descale.Debicubic(luma, w, h, 0, 1).std.SetFrameProp(
'descaleKernel', data='sharp_bicubic')
descale = lvf.rfs(descale_a, descale_b, shabc_zone)
# Chroma reconstruction
# y_m is the assumed mangled luma.
# Descale 1080p -> Bad conversion in 422 720p -> Regular 1080p 420
radius = 2
y, u, v = descale, plane(out, 1), plane(out, 2)
y_m = core.resize.Point(y, 640, 720,
src_left=-1).resize.Bicubic(960,
540,
filter_param_a=1 / 3,
filter_param_b=1 / 3)
# 0.25 for 444 and 0.25 for right shifting
y_m, u, v = [
c.resize.Bicubic(w,
h,
src_left=0.25 + 0.25,
filter_param_a=0,
filter_param_b=.5) for c in [y_m, u, v]
]
y_fixup = core.std.MakeDiff(y, y_m)
yu, yv = Regress(y_m, u, v, radius=radius, eps=1e-7)
u_fixup = ReconstructMulti(y_fixup, yu, radius=radius)
u_r = core.std.MergeDiff(u, u_fixup)
v_fixup = ReconstructMulti(y_fixup, yv, radius=radius)
v_r = core.std.MergeDiff(v, v_fixup)
# -0.5 * 720/1080 = -1/3
# -1/3 for the right shift
# https://forum.doom9.org/showthread.php?p=1802716#post1802716
u_r, v_r = [
c.resize.Bicubic(960,
540,
src_left=-1 / 3,
filter_param_a=-.5,
filter_param_b=.25) for c in [u_r, v_r]
]
upscale = vdf.fsrcnnx_upscale(
descale,
height=h * 2,
shader_file=r'shaders\FSRCNNX_x2_56-16-4-1.glsl',
upscaler_smooth=eedi3_upscale,
profile='zastin')
antialias = sraa_eedi3(upscale,
3,
alpha=0.2,
beta=0.4,
gamma=40,
nrad=3,
mdis=20)
downscale = muvf.SSIM_downsample(antialias,
src.width,
src.height,
filter_param_a=0,
filter_param_b=0)
downscale = core.std.MaskedMerge(luma, downscale, lineart)
merged_a = join([downscale, u_r, v_r])
merged_b = vdf.merge_chroma(downscale, denoise)
merged = lvf.rfs(merged_a, merged_b, shabc_zone)
out = depth(merged, 16)
warp = xvs.WarpFixChromaBlend(out, 80, 2, depth=8)
out = warp
dering = gf.MaskedDHA(out,
rx=1.25,
ry=1.25,
darkstr=0.05,
brightstr=1.0,
maskpull=48,
maskpush=140)
out = dering
qtgmc = hvf.QTGMC(out, Preset="Slower", InputType=1, ProgSADMask=2.0)
qtgmc = vdf.fade_filter(out, out, qtgmc, edstart + 1522,
edstart + 1522 + 24)
qtgmc = lvf.rfs(out, qtgmc, [(edstart + 1522 + 25, edstart + 1757)])
out = qtgmc
out = lvf.rfs(out, depth(denoise, 16), [(opstart, opend)])
detail_dark_mask = detail_dark_mask_func(get_y(out),
brz_a=8000,
brz_b=6000)
detail_light_mask = lvf.denoise.detail_mask(out, brz_a=2500, brz_b=1200)
detail_mask = core.std.Expr([detail_dark_mask, detail_light_mask],
'x y +').std.Median()
detail_mask_grow = iterate(detail_mask, core.std.Maximum, 2)
detail_mask_grow = iterate(detail_mask_grow, core.std.Inflate,
2).std.BoxBlur(0, 1, 1, 1, 1)
detail_mask = core.std.Expr([get_y(out), detail_mask_grow, detail_mask],
f'x {32<<8} < y z ?')
deband = dumb3kdb(out, 22, 30)
deband = core.std.MaskedMerge(deband, out, detail_mask)
out = deband
ref = get_y(out).std.PlaneStats()
adgmask_a = core.adg.Mask(ref, 30)
adgmask_b = core.adg.Mask(ref, 12)
stgrain = sizedgrn(out, 0.1, 0.05, 1.05, sharp=80)
stgrain = core.std.MaskedMerge(out, stgrain, adgmask_b)
stgrain = core.std.MaskedMerge(out, stgrain, adgmask_a.std.Invert())
dygrain = sizedgrn(out, 0.2, 0.05, 1.15, sharp=80, static=False)
dygrain = core.std.MaskedMerge(out, dygrain, adgmask_a)
grain = core.std.MergeDiff(dygrain, out.std.MakeDiff(stgrain))
out = grain
ref = depth(edges, 16)
credit = out
rescale_mask = vdf.diff_rescale_mask(ref, h, b=0, c=1, mthr=40, sw=0, sh=0)
rescale_mask = vdf.region_mask(rescale_mask, *[10] * 4)
rescale_mask = hvf.mt_expand_multi(rescale_mask,
mode='ellipse',
sw=4,
sh=4).std.BoxBlur(0, 1, 1, 1, 1)
credit = lvf.rfs(credit, ref, full_zone)
credit = lvf.rfs(credit, core.std.MaskedMerge(credit, ref, rescale_mask),
[(edstart, edend)])
out = credit
return depth(out, 10).std.Limiter(16 << 2, [235 << 2, 240 << 2])