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# ASTDR DeRainbow function v1.58
1	-	# ASTDR DeRainbow function v1.58
1	+	# ASTDR DeRainbow function v1.59
2
3	-	function ASTDR(clip input, int "strength", int "tempsoftth", int "tempsoftrad", int "tempsoftsc", float "blstr", int "tht", int "FluxStv", int "dcn", bool "edgem", bool "fmc")
3	+	function ASTDR(clip input, float "strength", int "tempsoftth", int "tempsoftrad", int "tempsoftsc", float "blstr", int "tht", int "FluxStv", int "dcn", bool "edgem", bool "fmc")
4		{
5		fmc = default(fmc, false)
6	-	blstr = Default(blstr, 0.5)
6	+	sisfield = input.IsFieldBased()
7		fnomc = sisfield && !fmc
8		strn = Default(strength, 5)
9		blstr = Default(blstr, sisfield ? 0.1 : 0.5)
10		tht = Default(tht, 255)
11	-	FluxStv = Default(FluxStv, 75)
11	+
12		tschrrad = Default(tempsoftrad, 3)
13		tschrsc = Default(tempsoftsc, 3)
14	-	fnomc = input.IsFieldBased() && !fmc
14	+	FluxStv = Default(FluxStv, sisfield ? 50 : 75)
15		dcn = Default(dcn, 15)
16		edgem = default(edgem, input.IsFieldBased())
17
18		momask = input.tweak(sat=1.1).mt_motion(thc2=1,thc1=1,thy2=1,thy1=1,y=3,v=3,u=3,tht=tht)
19		momaskinv = momask.mt_expand(u=3, v=3).mt_inflate(u=3, v=3).Invert().Levels(0,2,255,0,255)
20
21	-	filtered_uv = inrainev.DeCross(ThresholdY=15, Noise=dcn, Margin=1).FluxSmoothST(FluxStv,FluxStv).Mergeluma(input)
21	+
22	-	filtered_uv = input.IsFieldBased() ? filtered_uv : filtered_uv.awarpsharp2(depth=4,chroma=6,cplace="MPEG2")
22	+	filtered_uv = inrainev.DeCross(ThresholdY=15, Noise=dcn, Margin=1).FluxSmoothST(FluxStv,sisfield ? FluxStv/2 : FluxStv).Mergeluma(input)
23	-	filtered_uv = filtered_uv.hqdn3d(ls=0,lt=0,cs=strn*3/5,ct=strn).temporalsoften(tschrrad,0,tschrth,tschrsc,2).blur(blstr).Mergeluma(input)
23	+	filtered_uv = sisfield ? filtered_uv : filtered_uv.awarpsharp2(depth=4,chroma=6,cplace="MPEG2")
24	-	filtered_uv = input.IsFieldBased() ? filtered_uv : filtered_uv.aWarpSharp2(depth=4,chroma=6,cplace="MPEG2")
24	+	filtered_uv = filtered_uv.hqdn3d(ls=0,lt=0,cs=sisfield ? strn1/5 : strn3/5,ct=strn).temporalsoften(tschrrad,0,tschrth,tschrsc,2).blur(blstr).Mergeluma(input)
25	-	filtered_uv = filtered_uv.fft3dfilter(sigma=1,sigma3=4,plane=3,degrid=1)
25	+	filtered_uv = sisfield ? filtered_uv : filtered_uv.aWarpSharp2(depth=4,chroma=6,cplace="MPEG2")
26		filtered_uv = filtered_uv.fft3dfilter(sigma=1,sigma3=sisfield ? 2 : 4,plane=3,degrid=1)
27
28		fnomc ? eval("""
29	-	filtered_uv = input.selectodd().DeCross(ThresholdY=15, Noise=dcn, Margin=1).FluxSmoothST(FluxStv,FluxStv).Mergeluma(input)
29	+
30		filtered_uv = input.selectodd().DeCross(ThresholdY=15, Noise=dcn, Margin=1).FluxSmoothST(FluxStv,sisfield ? FluxStv/2 : FluxStv).Mergeluma(input)
31	-	filtered_uv = filtered_uv.hqdn3d(ls=0,lt=0,cs=strn*3/5,ct=strn).temporalsoften(tschrrad,0,tschrth,tschrsc,2).blur(blstr).Mergeluma(input)
31	+
32		filtered_uv = filtered_uv.hqdn3d(ls=0,lt=0,cs=sisfield ? strn1/5 : strn3/5.0,ct=strn).temporalsoften(tschrrad,0,tschrth,tschrsc,2).blur(blstr).Mergeluma(input)
33	-	filtered_uv = filtered_uv.fft3dfilter(sigma=1,sigma3=4,plane=3,degrid=1)
33	+
34		filtered_uv = filtered_uv.fft3dfilter(sigma=1,sigma3=sisfield ? 2 : 4,plane=3,degrid=1)
35		filtered_uv = interleave(filtered_uve,filtered_uv)
36		""") : nop()
37
38		filtered = mt_merge(filtered_uv, input, momaskinv,y=2,u=3,v=3,luma=true)
39
40		mt_merge(input, filtered, momask.mt_expand(mode="both", y=1,u=3,v=3).mt_inflate(y=1,u=3,v=3),y=2,u=3,v=3)
41		edgem ? mt_merge(input, last, input.mt_edge("sobel", 4, 4, 4, 4).mt_expand().mt_inflate(),y=2,u=3,v=3,luma=true) : last
42		}
43	-	# ASTDRmc DeRainbow function v1.58
43	+
44		# ASTDRmc DeRainbow function v1.59
45	-	function ASTDRmc(clip input, int "strength", int "tempsoftth", int "tempsoftrad", int "tempsoftsc", float "blstr", int "tht", int "FluxStv", int "dcn", bool "edgem", int "thSAD", clip "prefil")
45	+
46		function ASTDRmc(clip input, float "strength", int "tempsoftth", int "tempsoftrad", int "tempsoftsc", float "blstr", int "tht", int "FluxStv", int "dcn", bool "edgem", int "thSAD", clip "prefil")
47		{
48
49		tht = Default(tht, 255)
50		tschrrad = Default(tempsoftrad, 3).min(5)
51		thSAD = Default(thSAD, tht)
52
53		sisfield = input.IsFieldBased()
54		derbmask = sisfield ? nop() : (VersionNumber() < 2.60) ? input.tedgemask(threshY=2,u=0,v=0).mt_inflate() : input.TEMmod(threshY=2,chroma=0).mt_inflate()
55
56		prefil = defined(prefil) ? prefil : input.Blur(1.5)
57		ieven = sisfield ? input.selecteven().mc4ASTDRmc(tschrrad,prefil.selecteven(),thSAD) : nop()
58		iodd = sisfield ? input.selectodd().mc4ASTDRmc(tschrrad,prefil.selectodd(),thSAD) : nop()
59		mcclip = sisfield ? nop() : input.mc4ASTDRmc(tschrrad,prefil,thSAD)
60
61		astev = sisfield ? ieven.ASTDR(strength=strength,tempsoftth=tempsoftth,tempsoftrad=tempsoftrad,tempsoftsc=tempsoftsc,blstr=blstr,tht=tht,FluxStv=FluxStv,dcn=dcn,edgem=edgem,fmc=true).selectevery(tschrrad * 2 + 1, tschrrad) : nop()
62		astod = sisfield ? iodd.ASTDR(strength=strength,tempsoftth=tempsoftth,tempsoftrad=tempsoftrad,tempsoftsc=tempsoftsc,blstr=blstr,tht=tht,FluxStv=FluxStv,dcn=dcn,edgem=edgem,fmc=true).selectevery(tschrrad * 2 + 1, tschrrad) : nop()
63		ASTDRclip = !sisfield ? mcclip.ASTDR(strength=strength,tempsoftth=tempsoftth,tempsoftrad=tempsoftrad,tempsoftsc=tempsoftsc,blstr=blstr,tht=tht,FluxStv=FluxStv,dcn=dcn,edgem=edgem) : interleave(astev,astod)
64
65	-	#sisfield ? getparity(input) ? AssumeTFF() : AssumeBFF() : last
65	+
66		}
67
68		function mc4ASTDRmc(clip input, int "tschrrad", clip "prefil", int "thSAD")
69		{
70		masuper = prefil.MSuper()
71		mcsuper = input.MSuper(levels=1)
72
73		b5v = tschrrad > 4 ? MAnalyse(masuper, delta=5, truemotion = true, isb = true, chroma=false) : nop()
74		b4v = tschrrad > 3 ? MAnalyse(masuper, delta=4, truemotion = true, isb = true, chroma=false) : nop()
75		b3v = tschrrad > 2 ? MAnalyse(masuper, delta=3, truemotion = true, isb = true, chroma=false) : nop()
76		b2v = tschrrad > 1 ? MAnalyse(masuper, delta=2, truemotion = true, isb = true, chroma=false) : nop()
77		b1v = MAnalyse(masuper, delta=1, truemotion = true, isb = true, chroma=false)
78		f1v = MAnalyse(masuper, delta=1, truemotion = true, isb = false, chroma=false)
79		f2v = tschrrad > 1 ? MAnalyse(masuper, delta=2, truemotion = true, isb = false, chroma=false) : nop()
80		f3v = tschrrad > 2 ? MAnalyse(masuper, delta=3, truemotion = true, isb = false, chroma=false) : nop()
81		f4v = tschrrad > 3 ? MAnalyse(masuper, delta=4, truemotion = true, isb = false, chroma=false) : nop()
82		f5v = tschrrad > 4 ? MAnalyse(masuper, delta=5, truemotion = true, isb = false, chroma=false) : nop()
83
84		f5c = tschrrad > 4 ? input.MCompensate(mcsuper, f5v, thSAD=thSAD) : nop()
85		f4c = tschrrad > 3 ? input.MCompensate(mcsuper, f4v, thSAD=thSAD) : nop()
86		f3c = tschrrad > 2 ? input.MCompensate(mcsuper, f3v, thSAD=thSAD) : nop()
87		f2c = tschrrad > 1 ? input.MCompensate(mcsuper, f2v, thSAD=thSAD) : nop()
88		f1c = input.MCompensate(mcsuper, f1v)
89		b1c = input.MCompensate(mcsuper, b1v)
90		b2c = tschrrad > 1 ? input.MCompensate(mcsuper, b2v, thSAD=thSAD) : nop()
91		b3c = tschrrad > 2 ? input.MCompensate(mcsuper, b3v, thSAD=thSAD) : nop()
92		b4c = tschrrad > 3 ? input.MCompensate(mcsuper, b4v, thSAD=thSAD) : nop()
93		b5c = tschrrad > 4 ? input.MCompensate(mcsuper, b5v, thSAD=thSAD) : nop()
94
95		tschrrad == 5 ? interleave(f5c,f4c,f3c,f2c,f1c,input,b1c,b2c,b3c,b4c,b5c) : \
96		tschrrad == 4 ? interleave(f4c,f3c,f2c,f1c,input,b1c,b2c,b3c,b4c) : \
97		tschrrad == 3 ? interleave(f3c,f2c,f1c,input,b1c,b2c,b3c) : \
98		tschrrad == 2 ? interleave(f2c,f1c,input,b1c,b2c) : \
99		interleave(f1c,input,b1c)
100		}