Sign Up, it ... Vore Consume These are the four techniques of eating in the world that were used Until, the voring nation attacked ]]) local char = plr.Character KrixYaz, EricThePianoGuy, and Defaultio have contributed the game (according to the description).. How to play: At the spawn, there is a big selection of random foods, animals and normal vehicles that the player can drive. First Models can be bought from the Library/Catalog, as stated above. Value = game:service("Players").LocalPlayer, if HitSound ~= nil and HitPitch ~= nil then, CFuncs.Sound.Create(HitSound, hit, 1, HitPitch), local block = hit.Parent:findFirstChild("Block"), ShowDamage((Part.CFrame * CFrame.new(0, 0, (Part.Size.Z / 2)).p + Vector3.new(0, 1.5, 0)), -Damage, 1.5, tors.BrickColor.Color), coroutine.resume(coroutine.create(function(HHumanoid), local angle = (hit.Position - (Property.Position + Vector3.new(0, 0, 0))).unit. TextStrokeColor3 = Color3.fromRGB(0,0,0), EffectPart.Parent = game:GetService("Workspace"), EffectPart.CFrame = CFrame.new(Pos) + Vector3.new(0, Percent, 0), function MagniDamage(Part, magni, mindam, maxdam, knock, Type), for _, c in pairs(workspace:children()) do, local targ = head.Position - Part.Position, if magni >= mag and c.Name ~= plr.Name then, Damage(head, head, mindam, maxdam, knock, Type, root, 0.1, "http://www.roblox.com/asset/?id=0", 1.2), Create = function(Parent, Material, Reflectance, Transparency, BColor, Name, Size). Desire and submission part 3. Dоwnlоаd gаmе hасk update. Sign Up, it unlocks many cool features! This Girl roblox update logs Tried To Eat Me Roblox Roleplay My Very First Video . maxTorque = Vector3.new(4e+005, 4e+005, 4e+005) * math.huge , coroutine.resume(coroutine.create(function(Part), game:GetService("Debris"):AddItem(BodPos, 3), game:GetService("Debris"):AddItem(BodGy, 3), game:GetService("Debris"):AddItem(debounce, Delay), function ShowDamage(Pos, Text, Time, Color), local Pos = (Pos or Vector3.new(0, 0, 0)), local Color = (Color or Color3.new(1, 0, 1)), local EffectPart = CFuncs.Part.Create(workspace, "SmoothPlastic", 0, 1, BrickColor.new(Color), "Effect", Vector3.new(0, 0, 0)), local BillboardGui = Create("BillboardGui"){. Players. 1 hour ago, Lua | a guest . toe vore is yummy. Sometimes, the title and thumbnail speaks for itself. Is there really much to be said? Jul 20th, 2015. Roblox Suicide Script. 1 hour ago, JSON | 45,084 . DMCA Report Free Download 0 downloads. View script for free. roblox vore. treasure roblox robux hack download link roblox pastebin. Roblox roblox rap codes 2017 Vore Youtube . Never . Search results for vore games. Latest commit f97ca36 Feb 2, 2018 History. CFrame.new(char.Torso.Position, Vector3.new(mouse.Hit.p.x, char.Torso.Position.y, mouse.Hit.p.z)), Vector3.new(mouse.Hit.p.x, mouse.Hit.p.y, mouse.Hit.p.z), Block = function(cf,partsize,meshstart,meshadd,matr,colour,spin,inverse,factor), local p = Instance.new("Part",EffectModel), p.CFrame = p.CFrame * CFrame.Angles(math.random(-50,50),math.random(-50,50),math.random(-50,50)), Sphere = function(cf,partsize,meshstart,meshadd,matr,colour,inverse,factor), Cylinder = function(cf,partsize,meshstart,meshadd,matr,colour,inverse,factor), Wave = function(cf,meshstart,meshadd,colour,spin,inverse,factor), p.CFrame = p.CFrame * CFrame.Angles(0,math.rad(spin),0), Ring = function(cf,meshstart,meshadd,colour,inverse,factor), Meshed = function(cf,meshstart,meshadd,colour,meshid,textid,spin,inverse,factor), Explode = function(cf,partsize,meshstart,meshadd,matr,colour,move,inverse,factor), p.CFrame = cf * CFrame.Angles(math.rad(math.random(-360,360)),math.rad(math.random(-360,360)),math.rad(math.random(-360,360))), p.CFrame = p.CFrame * CFrame.new(0,move,0), NSound.SoundId = "http://www.roblox.com/asset/?id="..ID, game:GetService("Debris"):AddItem(NSound, 10), intensity = intensity - 0.05 * Intensity / Length, rotM = rotM - 5.0E-4 * Intensity / Length, hum.CameraOffset = Vector3.new(Rad(Mrandom(-intensity, intensity)), Rad(Mrandom(-intensity, intensity)), Rad(Mrandom(-intensity, intensity))), cam.CFrame = cam.CFrame * CF(Rad(Mrandom(-intensity, intensity)), Rad(Mrandom(-intensity, intensity)), Rad(Mrandom(-intensity, intensity))) * Euler(Rad(Mrandom(-intensity, intensity)) * rotM, Rad(Mrandom(-intensity, intensity)) * rotM, Rad(Mrandom(-intensity, intensity)) * rotM), NewInstance = function(instance,parent,properties), game:GetService("RunService"):BindToRenderStep("HOT", 0, function(), if hum.Health > 0.1 and hum.Health < 1.0E298 then, ----------------------------------------------------------------------------------, rootj.C0 = RootCF * CF(0 * Player_Size, 0 * Player_Size, 0 * Player_Size) * angles(Rad(0), Rad(0), Rad(0)), rootj.C1 = RootCF * CF(0 * Player_Size, 0 * Player_Size, 0 * Player_Size) * angles(Rad(0), Rad(0), Rad(0)), neck.C0 = necko * CF(0 * Player_Size, 0 * Player_Size, 0 + ((1 * Player_Size) - 1)) * angles(Rad(0), Rad(0), Rad(0)), neck.C1 = CF(0 * Player_Size, -0.5 * Player_Size, 0 * Player_Size) * angles(Rad(-90), Rad(0), Rad(180)), RW.C0 = CF(1.5 * Player_Size, 0.5 * Player_Size, 0 * Player_Size) * angles(Rad(0), Rad(0), Rad(0)) --* RIGHTSHOULDERC0, LW.C0 = CF(-1.5 * Player_Size, 0.5 * Player_Size, 0 * Player_Size) * angles(Rad(0), Rad(0), Rad(0)) --* LEFTSHOULDERC0, RH.C0 = CF(1 * Player_Size, -1 * Player_Size, 0 * Player_Size) * angles(Rad(0), Rad(90), Rad(0)) * angles(Rad(0), Rad(0), Rad(0)), LH.C0 = CF(-1 * Player_Size, -1 * Player_Size, 0 * Player_Size) * angles(Rad(0), Rad(-90), Rad(0)) * angles(Rad(0), Rad(0), Rad(0)), RH.C1 = CF(0.5 * Player_Size, 1 * Player_Size, 0 * Player_Size) * angles(Rad(0), Rad(90), Rad(0)) * angles(Rad(0), Rad(0), Rad(0)), LH.C1 = CF(-0.5 * Player_Size, 1 * Player_Size, 0 * Player_Size) * angles(Rad(0), Rad(-90), Rad(0)) * angles(Rad(0), Rad(0), Rad(0)), local FF = Instance.new("ForceField",char), RHe.BrickColor = BrickColor.new("Really black"), PMesh.TextureId = "rbxassetid://342435650", RWeld.C0 = CF(-1.2, -0.5, 0) * angles(Rad(90), Rad(0), Rad(90)), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.1 + 0.1* Player_Size * Cos(sine / 20)) * angles(Rad(0), Rad(0), Rad(0)), 0.1), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(0 - 5 * Sin(sine / 20)), Rad(0), Rad(0)), 0.1), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(-10), Rad(0)) * angles(Rad(0), Rad(0), Rad(5)), 0.1), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(10), Rad(0)) * angles(Rad(0), Rad(0), Rad(-5)), 0.1), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(0 + 5 * Sin(sine / 20)), Rad(10 + 5 * Sin(sine / 20))), 0.1), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(0 - 5 * Sin(sine / 20)), Rad(-10 - 5 * Sin(sine / 20))), 0.1), function HitboxFunction(Pose, lifetime, siz1, siz2, siz3, Radie, Min, Max, kb, atype), local Hitboxpart = Instance.new("Part", EffectModel), Hitboxpart.Size = Vector3.new(siz1, siz2, siz3), game:GetService("Debris"):AddItem(Hitboxpart, lifetime), MagniDamage(Hitboxpart, Radie, Min, Max, kb, atype), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.1 + 0.1* Player_Size * Cos(sine / 20)) * angles(Rad(0), Rad(0), Rad(-45)), 0.2), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(0 - 5 * Sin(sine / 20)), Rad(0), Rad(45)), 0.2), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(-45), Rad(0)) * angles(Rad(0), Rad(0), Rad(15)), 0.2), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(10), Rad(0)) * angles(Rad(0), Rad(0), Rad(-15)), 0.2), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(180), Rad(0 + 5 * Sin(sine / 20)), Rad(25 + 5 * Sin(sine / 20))), 0.2), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(-20), Rad(0 - 5 * Sin(sine / 20)), Rad(-10 - 5 * Sin(sine / 20))), 0.2), HitboxFunction(ra.CFrame, 0.01, 1, 1, 1, 7, 6, 9, 3, "Normal"), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.1 + 0.1* Player_Size * Cos(sine / 20)) * angles(Rad(20), Rad(0), Rad(45)), 0.3), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(20 - 5 * Sin(sine / 20)), Rad(0), Rad(-45)), 0.3), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(20), Rad(-10), Rad(0)) * angles(Rad(0), Rad(0), Rad(15)), 0.3), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(-20), Rad(45), Rad(0)) * angles(Rad(0), Rad(0), Rad(-15)), 0.3), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(85), Rad(0 + 5 * Sin(sine / 20)), Rad(45 + 5 * Sin(sine / 20))), 0.3), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(-45), Rad(0 - 5 * Sin(sine / 20)), Rad(-25 - 5 * Sin(sine / 20))), 0.3), local Munch = Cso("1575472350", hed, 5, 1), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.2 + 0.1* Player_Size * Cos(sine / 20)) * angles(Rad(-20), Rad(0), Rad(0)), 0.3), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(-35 - 5 * Sin(sine / 20)), Rad(0), Rad(0)), 0.3), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(-20), Rad(-10), Rad(0)) * angles(Rad(0), Rad(0), Rad(5)), 0.3), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(-20), Rad(10), Rad(0)) * angles(Rad(0), Rad(0), Rad(-5)), 0.3), RW.C0 = clerp(RW.C0, CF(1* Player_Size, 0.1 + 0.1 * Sin(sine / 20)* Player_Size, -0.6* Player_Size) * angles(Rad(160), Rad(0), Rad(-35)), 0.1), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(-20), Rad(0 - 5 * Sin(sine / 20)), Rad(-10 - 5 * Sin(sine / 20))), 0.3), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(0), Rad(0), Rad(0 - 255.45 * i)), 0.15), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(10), Rad(30 + 5 * Sin(sine / 20)), Rad(45 + 5 * Sin(sine / 20))), 0.1), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(10), Rad(-30 - 5 * Sin(sine / 20)), Rad(-45 - 5 * Sin(sine / 20))), 0.1), elseif Chips == "howitfeelstochew5gum" then, rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.2 * Player_Size) * angles(Rad(-20), Rad(0), Rad(0)), 0.3), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(-35), Rad(0), Rad(0)), 0.3), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.9 * Player_Size, 0* Player_Size) * angles(Rad(-20), Rad(-10), Rad(0)) * angles(Rad(0), Rad(0), Rad(5)), 0.3), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.9 * Player_Size, 0* Player_Size) * angles(Rad(-20), Rad(10), Rad(0)) * angles(Rad(0), Rad(0), Rad(-5)), 0.3), RW.C0 = clerp(RW.C0, CF(1* Player_Size, 0.1* Player_Size, -0.6* Player_Size) * angles(Rad(160), Rad(0), Rad(-35)), 0.1), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5* Player_Size, 0* Player_Size) * angles(Rad(-20), Rad(0), Rad(-10)), 0.3), local WALKSPEEDVALUE = 6 / (hum.WalkSpeed / 16), root.Velocity = root.CFrame.lookVector * 75, rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.3 - 0.65 * Cos(sine / ( WALKSPEEDVALUE / 2 ))) * angles(Rad(-25), Rad(0), Rad(0 - 1.75 * Cos(sine / ( WALKSPEEDVALUE / 2))) + root.RotVelocity.Y / 75), 0.1), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(-20 + 5 * Sin(sine / (WALKSPEEDVALUE / 2))), Rad(0), Rad(0) + root.RotVelocity.Y / 13), 0.1), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.8 - 0.5 * Cos(sine / WALKSPEEDVALUE) / 2* Player_Size, 0.6 * Cos(sine / WALKSPEEDVALUE) / 2* Player_Size) * angles(Rad(-15 - 95 * Cos(sine / WALKSPEEDVALUE)) - root.RotVelocity.Y / 75 + -Sin(sine / WALKSPEEDVALUE) / 2.5, Rad(0 - 10 * Cos(sine / WALKSPEEDVALUE)), Rad(0)) * angles(Rad(0 + 2 * Cos(sine / WALKSPEEDVALUE)), Rad(0), Rad(0)), 0.3), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.8 + 0.5 * Cos(sine / WALKSPEEDVALUE) / 2* Player_Size, -0.6 * Cos(sine / WALKSPEEDVALUE) / 2* Player_Size) * angles(Rad(-15 + 95 * Cos(sine / WALKSPEEDVALUE)) + root.RotVelocity.Y / -75 + Sin(sine / WALKSPEEDVALUE) / 2.5, Rad(0 - 10 * Cos(sine / WALKSPEEDVALUE)), Rad(0)) * angles(Rad(0 - 2 * Cos(sine / WALKSPEEDVALUE)), Rad(0), Rad(0)), 0.3), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.1 * Sin(sine / WALKSPEEDVALUE)* Player_Size, 0* Player_Size) * angles(Rad(215), Rad(0), Rad(45)), 0.1), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.1 * Sin(sine / WALKSPEEDVALUE)* Player_Size, 0* Player_Size) * angles(Rad(215), Rad(0), Rad(-45)), 0.1), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(20 - 5 * Sin(sine / 20)), Rad(0), Rad(0)), 0.1), local Senses = Cso("605297168", hed, 6, 1), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.1 + 0.1* Player_Size * Cos(sine / 20)) * angles(Rad(0), Rad(0), Rad(20)), 0.2), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(0 - 5 * Sin(sine / 20)), Rad(0), Rad(-20)), 0.2), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(-10), Rad(0)) * angles(Rad(0), Rad(0), Rad(5)), 0.2), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(10), Rad(0)) * angles(Rad(0), Rad(0), Rad(-5)), 0.2), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(0 + 5 * Sin(sine / 20)), Rad(10 + 5 * Sin(sine / 20))), 0.2), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(0), Rad(-90)), 0.2), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.1 + 0.1* Player_Size) * angles(Rad(-30), Rad(0), Rad(0)), 0.5), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(0), Rad(0), Rad(0)), 0.5), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.9* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(-10), Rad(0)) * angles(Rad(0), Rad(0), Rad(5)), 0.5), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.9* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(10), Rad(0)) * angles(Rad(0), Rad(0), Rad(-5)), 0.5), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(0), Rad(10)), 0.5), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(0), Rad(-90)), 0.5), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -2.7 + 0.1* Player_Size) * angles(Rad(90), Rad(0), Rad(0)), 0.5), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0 + 1 * i * Player_Size, -0.1 + 0.1* Player_Size * Cos(sine / 20)) * angles(Rad(-20), Rad(0), Rad(0)), 0.1), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(47), Rad(-10), Rad(0)) * angles(Rad(0), Rad(0), Rad(5)), 0.1), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(65), Rad(10), Rad(0)) * angles(Rad(0), Rad(0), Rad(-5)), 0.1), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(75), Rad(0 + 5 * Sin(sine / 20)), Rad(10 + 5 * Sin(sine / 20))), 0.1), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(143), Rad(0 - 5 * Sin(sine / 20)), Rad(-10 - 5 * Sin(sine / 20))), 0.1), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 4500 * Player_Size, -0.1 + 0.1* Player_Size * Cos(sine / 20)) * angles(Rad(-20), Rad(0), Rad(0)), 0.15), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(156), Rad(0 - 5 * Sin(sine / 20)), Rad(-10 - 5 * Sin(sine / 20))), 0.1), local Woodlenny = Cso("1764642350", hed, 6, 1), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.1 + 0.1* Player_Size * Cos(sine / 5)) * angles(Rad(20), Rad(0), Rad(5)), 0.2), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(20), Rad(0), Rad(-5 - 15 * Sin(sine / 20))), 0.2), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 5)* Player_Size, 0* Player_Size) * angles(Rad(20), Rad(-10), Rad(0)) * angles(Rad(0), Rad(0), Rad(5)), 0.2), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 5)* Player_Size, 0* Player_Size) * angles(Rad(20), Rad(10), Rad(0)) * angles(Rad(0), Rad(0), Rad(-5)), 0.2), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 5)* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(0), Rad(10)), 0.2), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 5)* Player_Size, 0* Player_Size) * angles(Rad(20), Rad(0), Rad(-10)), 0.2), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -2.7 + 0.1* Player_Size) * angles(Rad(-90), Rad(0), Rad(0)), 0.5), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(0), Rad(90)), 0.5), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -2.4 + 0.1* Player_Size) * angles(Rad(-90), Rad(0), Rad(0)), 0.5), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(0), Rad(75)), 0.5), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5* Player_Size, 0* Player_Size) * angles(Rad(0), Rad(0), Rad(-75)), 0.5), PMesh.TextureId = "rbxassetid://206977326", PMesh.TextureId = "rbxassetid://342436716", PMesh.TextureId = "rbxassetid://341999291", PMesh.TextureId = "rbxassetid://341999245", local torvel = (root.Velocity * Vector3.new(1, 0, 1)).magnitude, hitfloor, posfloor = rayCast(root.Position, CFrame.new(root.Position, root.Position - Vector3.new(0, 1, 0)).lookVector, 4* Player_Size, char), if equipped == true or equipped == false then, local Walking = (math.abs(root.Velocity.x) > 1 or math.abs(root.Velocity.z) > 1), local State = (hum.PlatformStand and 'Paralyzed' or hum.Sit and 'Sit' or Landed and 'Land' or not hitfloor and root.Velocity.y < -1 and "Fall" or not hitfloor and root.Velocity.y > 1 and "Jump" or hitfloor and Walking and "Walk" or hitfloor and "Idle"), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.1 + 0.1 * Cos(sine / 20)* Player_Size) * angles(Rad(-16), Rad(0), Rad(0)), 0.1), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(10 - 2.5 * Sin(sine / 30)), Rad(0), Rad(0)), 0.3), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -.2 - 0.1 * Cos(sine / 20), -.3* Player_Size) * angles(Rad(0), Rad(-10), Rad(0)) * angles(Rad(-2.5), Rad(0), Rad(0)), 0.1), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -.9 - 0.1 * Cos(sine / 20), -.5* Player_Size) * angles(Rad(0), Rad(10), Rad(0)) * angles(Rad(-2.5), Rad(0), Rad(0)), 0.1), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.02 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(25), Rad(-.6), Rad(13 + 4.5 * Sin(sine / 20))), 0.1), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.02 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(25), Rad(-.6), Rad(-13 - 4.5 * Sin(sine / 20))), 0.1), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.1 + 0.1 * Cos(sine / 20)* Player_Size) * angles(Rad(25), Rad(0), Rad(0)), 0.1), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -1 - 0.1 * Cos(sine / 20)* Player_Size, -.3* Player_Size) * angles(Rad(0), Rad(-10), Rad(0)) * angles(Rad(25), Rad(0), Rad(0)), 0.1), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -.8 - 0.1 * Cos(sine / 20)* Player_Size, -.3* Player_Size) * angles(Rad(0), Rad(10), Rad(0)) * angles(Rad(25), Rad(0), Rad(0)), 0.1), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.02 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(165), Rad(-.6), Rad(45 + 4.5 * Sin(sine / 20))), 0.1), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.02 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(165), Rad(-.6), Rad(-45 - 4.5 * Sin(sine / 20))), 0.1), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -1 + 0.1 * Cos(sine / 20)* Player_Size) * angles(Rad(10), Rad(0), Rad(0)), 0.15), neck.C0 = clerp(neck.C0, necko* CF(0, 0, 0 + ((1* Player_Size) - 1)) * angles(Rad(35 - 2.5 * Sin(sine / 30)), Rad(0), Rad(0)), 0.3), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, 0.1 - 0.1 * Cos(sine / 20)* Player_Size, -.3* Player_Size) * angles(Rad(0), Rad(-10), Rad(0)) * angles(Rad(-3.5), Rad(0), Rad(5)), 0.15), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, 0.1 - 0.1 * Cos(sine / 20)* Player_Size, -.3* Player_Size) * angles(Rad(0), Rad(10), Rad(0)) * angles(Rad(-3.5), Rad(0), Rad(-5)), 0.15), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.02 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(65), Rad(0), Rad(25 + 4.5 * Sin(sine / 20))), 0.1), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.02 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(55), Rad(0), Rad(-25 - 4.5 * Sin(sine / 20))), 0.1), rootj.C0 = clerp(rootj.C0, RootCF * CF(0* Player_Size, 0* Player_Size, -0.1 + 0.1* Player_Size * Cos(sine / 20)) * angles(Rad(0 - 5 * Sin(sine / 20)), Rad(0), Rad(0)), 0.1), rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0 - 5 * Sin(sine / 20)), Rad(-10), Rad(0)) * angles(Rad(0), Rad(0), Rad(5)), 0.1), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.9 - 0.1 * Cos(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0 - 5 * Sin(sine / 20)), Rad(10), Rad(0)) * angles(Rad(0), Rad(0), Rad(-5)), 0.1), RW.C0 = clerp(RW.C0, CF(1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0 + 15 * Sin(sine / 20)), Rad(0 + 5 * Sin(sine / 20)), Rad(10 + 5 * Sin(sine / 20))), 0.1), LW.C0 = clerp(LW.C0, CF(-1.5* Player_Size, 0.5 + 0.1 * Sin(sine / 20)* Player_Size, 0* Player_Size) * angles(Rad(0 + 15 * Sin(sine / 20)), Rad(0 - 5 * Sin(sine / 20)), Rad(-10 - 5 * Sin(sine / 20))), 0.1), elseif attack == true and movelegs == true then, rl.Weld.C0 = clerp(rl.Weld.C0, CF(0.5* Player_Size, -0.8 - 0.5 * Cos(sine / WALKSPEEDVALUE) / 2* Player_Size, 0.6 * Cos(sine / WALKSPEEDVALUE) / 2* Player_Size) * angles(Rad(-10 - 25 * Cos(sine / WALKSPEEDVALUE)) - root.RotVelocity.Y / 75 + -Sin(sine / WALKSPEEDVALUE) / 2.5, Rad(0 - 10 * Cos(sine / WALKSPEEDVALUE)), Rad(0)) * angles(Rad(0 + 2 * Cos(sine / WALKSPEEDVALUE)), Rad(0), Rad(0)), 0.3), ll.Weld.C0 = clerp(ll.Weld.C0, CF(-0.5* Player_Size, -0.8 + 0.5 * Cos(sine / WALKSPEEDVALUE) / 2* Player_Size, -0.6 * Cos(sine / WALKSPEEDVALUE) / 2* Player_Size) * angles(Rad(-10 + 25 * Cos(sine / WALKSPEEDVALUE)) + root.RotVelocity.Y / -75 + Sin(sine / WALKSPEEDVALUE) / 2.5, Rad(0 - 10 * Cos(sine / WALKSPEEDVALUE)), Rad(0)) * angles(Rad(0 - 2 * Cos(sine / WALKSPEEDVALUE)), Rad(0), Rad(0)), 0.3), Thing[1].CFrame = Thing[1].CFrame * CFrame.fromEulerAnglesXYZ(math.random(-50, 50), math.random(-50, 50), math.random(-50, 50)), Mesh.Scale = Mesh.Scale + Vector3.new(Thing[4], Thing[5], Thing[6]), Thing[1].Transparency = Thing[1].Transparency + Thing[3], Thing[1].CFrame = Thing[1].CFrame + Vector3.new(0, 0, 0), Thing[1].CFrame = Thing[1].CFrame * CFrame.fromEulerAnglesXYZ(math.random(-50, 50), math.random(-50, 50), math.random(-50, 50)) + Vector3.new(0, 0.15, 0), Thing[1].CFrame = Thing[1].CFrame * Vector3.new(0, 0.5, 0), Mesh.Scale = Mesh.Scale + Vector3.new(Thing[7], Thing[8], Thing[9]), Thing[4] = Thing[4] * CFrame.new(0, Thing[7], 0), Thing[1].CFrame = Thing[4] * CFrame.fromEulerAnglesXYZ(Thing[6], 0, 0), C# |

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