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- if animation.Value == 2 then
- rootj.C0 = clerp(rootj.C0, RootCF * CF(0, 0, 1.3 + 0.6 * Cos(sine / 20)) * angles(Rad(0), Rad(0), Rad(25)), 0.15)
- tors.Neck.C0 = clerp(tors.Neck.C0, necko * angles(Rad(20 - 2.5 * Sin(sine / 20)), Rad(20), Rad(-15)), 0.3)
- RH.C0 = clerp(RH.C0, CF(1, -0.5 - 0.1 * Cos(sine / 20), -.4 + 0.025 * Cos(sine / 20)) * RHCF * angles(Rad(-4.5 + 3 * Sin(sine / 20)), Rad(0), Rad(10 + 3 * Sin(sine / 20))), 0.15)
- LH.C0 = clerp(LH.C0, CF(-1, -0.9 - 0.1 * Cos(sine / 20), 0.025 * Cos(sine / 20)) * LHCF * angles(Rad(-6.5 + 3 * Sin(sine / 20)), Rad(0), Rad(-10 + 3 * Sin(sine / 20))), 0.15)
- RW.C0 = clerp(RW.C0, CF(1.5, 0.5 + 0.05 * Sin(sine / 20), 0.025 * Cos(sine / 20)) * angles(Rad(0), Rad(-10 * Cos(sine / 20)), Rad(65 - 2.5 * Sin(sine / 20))), 0.1)
- LW.C0 = clerp(LW.C0, CF(-1.5, 0.5 + 0.05 * Sin(sine / 20), 0.025 * Cos(sine / 20)) * angles(Rad(0), Rad(10 * Cos(sine / 20)), Rad(-15 + 2.5 * Sin(sine / 20))), 0.1)
- necko = CF(0, 1, 0, -1, -0, -0, 0, 0, 1, 0, 1, 0)
- RSH, LSH = nil, nil
- RW = Instance.new("Weld")
- LW = Instance.new("Weld")
- RH = tors["Right Hip"]
- LH = tors["Left Hip"]
- RSH = tors["Right Shoulder"]
- LSH = tors["Left Shoulder"]
- RSH.Parent = nil
- LSH.Parent = nil
- RW.Name = "RW"
- RW.Part0 = tors
- RW.C0 = CF(1.5, 0.5, 0)
- RW.C1 = CF(0, 0.5, 0)
- RW.Part1 = ra
- RW.Parent = tors
- LW.Name = "LW"
- LW.Part0 = tors
- LW.C0 = CF(-1.5, 0.5, 0)
- LW.C1 = CF(0, 0.5, 0)
- LW.Part1 = la
- LW.Parent = tors
- elseif ModeOfGlitch == "ad" then
- local snap = math.random(1,32)
- rootj.C0 = clerp(rootj.C0, RootCF * CF(0, 0, 1 + 0.1 * Cos(sine / 20)) * angles(Rad(-2 + 2 * Cos(sine / 10)), Rad(1 + -43 * Sin(sine / 10)), Rad(0)), 0.15)
- tors.Neck.C0 = clerp(tors.Neck.C0, necko * angles(Rad(0), Rad(0), Rad(1 + -43 * Sin(sine / 8))), 0.3)
- RH.C0 = clerp(RH.C0, CF(1, -0.9 - 0.8 * Cos(sine / 10), 0.025 * Cos(sine / 10)) * RHCF * angles(Rad(-9.5), Rad(-20), Rad(0)), 0.15)
- LH.C0 = clerp(LH.C0, CF(-1, -0.9 + 0.8 * Cos(sine / 10), 0.025 * Cos(sine / 10)) * LHCF * angles(Rad(-6.5), Rad(20), Rad(0)), 0.15)
- RW.C0 = clerp(RW.C0, CF(1.5 * Player_Size, 0.5 + 0.02 * Sin(sine / 10)* Player_Size, 0* Player_Size) * angles(Rad(20), Rad(50), Rad(23 + 150 * Sin(sine / 8))), 0.1)
- LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.02 * Sin(sine / 10)* Player_Size, 0* Player_Size) * angles(Rad(20), Rad(-50), Rad(-23 + 150 * Sin(sine / 8))), 0.1)
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