if game:GetService("RunService"):IsClient() then error("Script must be server-side in order to work; use h/ and not hl/") end local Player,game,owner = owner,game local RealPlayer = Player do local rp = RealPlayer script.Parent = rp.Character --RemoteEvent for communicating local Event = Instance.new("RemoteEvent") Event.Name = "UserInput_Event" --Fake event to make stuff like Mouse.KeyDown work local function fakeEvent() local t = {_fakeEvent=true,Functions={},Connect=function(self,f)table.insert(self.Functions,f) end} t.connect = t.Connect return t end --Creating fake input objects with fake variables local m = {Target=nil,Hit=CFrame.new(),KeyUp=fakeEvent(),KeyDown=fakeEvent(),Button1Up=fakeEvent(),Button1Down=fakeEvent()} local UIS = {InputBegan=fakeEvent(),InputEnded=fakeEvent()} local CAS = {Actions={},BindAction=function(self,name,fun,touch,...) CAS.Actions[name] = fun and {Name=name,Function=fun,Keys={...}} or nil end} --Merged 2 functions into one by checking amount of arguments CAS.UnbindAction = CAS.BindAction --This function will trigger the events that have been :Connect()'ed local function te(self,ev,...) local t = m[ev] if t and t._fakeEvent then for _,f in pairs(t.Functions) do f(...) end end end m.TrigEvent = te UIS.TrigEvent = te Event.OnServerEvent:Connect(function(plr,io) if plr~=rp then return end m.Target = io.Target m.Hit = io.Hit if not io.isMouse then local b = io.UserInputState == Enum.UserInputState.Begin if io.UserInputType == Enum.UserInputType.MouseButton1 then return m:TrigEvent(b and "Button1Down" or "Button1Up") end for _,t in pairs(CAS.Actions) do for _,k in pairs(t.Keys) do if k==io.KeyCode then t.Function(t.Name,io.UserInputState,io) end end end m:TrigEvent(b and "KeyDown" or "KeyUp",io.KeyCode.Name:lower()) UIS:TrigEvent(b and "InputBegan" or "InputEnded",io,false) end end) Event.Parent = NLS([==[ local Player = game:GetService("Players").LocalPlayer local Event = script:WaitForChild("UserInput_Event") local Mouse = Player:GetMouse() local UIS = game:GetService("UserInputService") local input = function(io,a) if a then return end --Since InputObject is a client-side instance, we create and pass table instead Event:FireServer({KeyCode=io.KeyCode,UserInputType=io.UserInputType,UserInputState=io.UserInputState,Hit=Mouse.Hit,Target=Mouse.Target}) end UIS.InputBegan:Connect(input) UIS.InputEnded:Connect(input) local h,t --Give the server mouse data 30 times every second, but only if the values changed --If player is not moving their mouse, client won't fire events while wait(1/30) do if h~=Mouse.Hit or t~=Mouse.Target then h,t=Mouse.Hit,Mouse.Target Event:FireServer({isMouse=true,Target=t,Hit=h}) end end]==],Player.Character) ----Sandboxed game object that allows the usage of client-side methods and services --Real game object local _rg = game --Metatable for fake service local fsmt = { __index = function(self,k) local s = rawget(self,"_RealService") if s then return s[k] end end, __newindex = function(self,k,v) local s = rawget(self,"_RealService") if s then s[k]=v end end, __call = function(self,...) local s = rawget(self,"_RealService") if s then return s(...) end end } local function FakeService(t,RealService) t._RealService = typeof(RealService)=="string" and _rg:GetService(RealService) or RealService return setmetatable(t,fsmt) end --Fake game object local g = { GetService = function(self,s) return self[s] end, Players = FakeService({ LocalPlayer = FakeService({GetMouse=function(self)return m end},Player) },"Players"), UserInputService = FakeService(UIS,"UserInputService"), ContextActionService = FakeService(CAS,"ContextActionService"), } rawset(g.Players,"localPlayer",g.Players.LocalPlayer) g.service = g.GetService g.RunService = FakeService({ RenderStepped = _rg:GetService("RunService").Heartbeat, BindToRenderStep = function(self,name,_,fun) self._btrs[name] = self.Heartbeat:Connect(fun) end, UnbindFromRenderStep = function(self,name) self._btrs[name]:Disconnect() end, },"RunService") setmetatable(g,{ __index=function(self,s) return _rg:GetService(s) or typeof(_rg[s])=="function" and function(_,...)return _rg[s](_rg,...)end or _rg[s] end, __newindex = fsmt.__newindex, __call = fsmt.__call }) --Changing owner to fake player object to support owner:GetMouse() game,owner = g,g.Players.LocalPlayer end ---------------------------------------------- --Made by goodguyaiden------------------------ --Remake on Iliketrains spider---------------- --Replaced ITS TIME TO Stop with FBI OPEN UP-- ---------------------------------------------- wait(0.2) plr = game.Players.LocalPlayer repeat wait() until plr.Character char = plr.Character local mouse = plr:GetMouse() local Player = game:service'Players'.localPlayer local chara = Player.Character Player=game:GetService("Players").LocalPlayer Character=Player.Character PlayerGui=Player.PlayerGui Backpack=Player.Backpack Torso=Character.Torso Head=Character.Head Humanoid=Character.Humanoid m=Instance.new('Model',Character) LeftArm=Character["Left Arm"] LeftLeg=Character["Left Leg"] RightArm=Character["Right Arm"] RightLeg=Character["Right Leg"] LS=Torso["Left Shoulder"] LH=Torso["Left Hip"] RS=Torso["Right Shoulder"] RH=Torso["Right Hip"] Face = Head.face Neck=Torso.Neck it=Instance.new attacktype=1 vt=Vector3.new cf=CFrame.new cl3=Color3.new rgb=Color3.fromRGB bcn=BrickColor.new euler=CFrame.fromEulerAnglesXYZ angles=CFrame.Angles Humanoid.WalkSpeed = 14 Player = game:GetService("Players").LocalPlayer PlayerGui = Player.PlayerGui Cam = workspace.CurrentCamera Backpack = Player.Backpack Character = Player.Character Humanoid = Character.Humanoid Mouse = Player:GetMouse() RootPart = Character["HumanoidRootPart"] Torso = Character["Torso"] Head = Character["Head"] RightArm = Character["Right Arm"] LeftArm = Character["Left Arm"] RightLeg = Character["Right Leg"] LeftLeg = Character["Left Leg"] RootJoint = RootPart["RootJoint"] Neck = Torso["Neck"] RightShoulder = Torso["Right Shoulder"] LeftShoulder = Torso["Left Shoulder"] RightHip = Torso["Right Hip"] LeftHip = Torso["Left Hip"] Sound0 = Instance.new("Sound") Sound0.Volume = 8 Sound0.Parent = game.Players.LocalPlayer.Character.Head Sound0.SoundId = "rbxassetid://1164801625" Sound0.Looped = true Sound0:Play() IT = Instance.new CF = CFrame.new VT = Vector3.new RAD = math.rad C3 = Color3.new UD2 = UDim2.new BRICKC = BrickColor.new ANGLES = CFrame.Angles EULER = CFrame.fromEulerAnglesXYZ COS = math.cos ACOS = math.acos SIN = math.sin ASIN = math.asin ABS = math.abs MRANDOM = math.random FLOOR = math.floor Animation_Speed = 3 Frame_Speed = 1 / 60 -- (1 / 30) OR (1 / 60) local Speed = 12 local ROOTC0 = CF(0, 0, 0) * ANGLES(RAD(-90), RAD(0), RAD(180)) local NECKC0 = CF(0, 1, 0) * ANGLES(RAD(-90), RAD(0), RAD(180)) local RIGHTSHOULDERC0 = CF(-0.5, 0, 0) * ANGLES(RAD(0), RAD(90), RAD(0)) local LEFTSHOULDERC0 = CF(0.5, 0, 0) * ANGLES(RAD(0), RAD(-90), RAD(0)) local DAMAGEMULTIPLIER = 1 local ANIM = "Idle" local ATTACK = false local EQUIPPED = false local HOLD = false local COMBO = 1 local Rooted = false local SINE = 0 local KEYHOLD = false local CHANGE = 2 / Animation_Speed local WALKINGANIM = false local VALUE1 = false local VALUE2 = false local ROBLOXIDLEANIMATION = IT("Animation") ROBLOXIDLEANIMATION.Name = "Roblox Idle Animation" ROBLOXIDLEANIMATION.AnimationId = "http://www.roblox.com/asset/?id=180435571" --ROBLOXIDLEANIMATION.Parent = Humanoid local WEAPONGUI = IT("ScreenGui", PlayerGui) WEAPONGUI.Name = "Weapon GUI" local Weapon = IT("Model") Weapon.Name = "Adds" local Effects = IT("Folder", Weapon) Effects.Name = "Effects" local ANIMATOR = Humanoid.Animator local ANIMATE = Character.Animate local UNANCHOR = true local PLAYANIMS = true ArtificialHB = Instance.new("BindableEvent", script) ArtificialHB.Name = "ArtificialHB" script:WaitForChild("ArtificialHB") frame = Frame_Speed tf = 0 allowframeloss = false tossremainder = false lastframe = tick() script.ArtificialHB:Fire() function Raycast(POSITION, DIRECTION, RANGE, IGNOREDECENDANTS) return workspace:FindPartOnRay(Ray.new(POSITION, DIRECTION.unit * RANGE), IGNOREDECENDANTS) end function PositiveAngle(NUMBER) if NUMBER >= 0 then NUMBER = 0 end return NUMBER end function NegativeAngle(NUMBER) if NUMBER <= 0 then NUMBER = 0 end return NUMBER end function Swait(NUMBER) if NUMBER == 0 or NUMBER == nil then ArtificialHB.Event:wait() else for i = 1, NUMBER do ArtificialHB.Event:wait() end end end function QuaternionFromCFrame(cf) local mx, my, mz, m00, m01, m02, m10, m11, m12, m20, m21, m22 = cf:components() local trace = m00 + m11 + m22 if trace > 0 then local s = math.sqrt(1 + trace) local recip = 0.5 / s return (m21 - m12) * recip, (m02 - m20) * recip, (m10 - m01) * recip, s * 0.5 else local i = 0 if m11 > m00 then i = 1 end if m22 > (i == 0 and m00 or m11) then i = 2 end if i == 0 then local s = math.sqrt(m00 - m11 - m22 + 1) local recip = 0.5 / s return 0.5 * s, (m10 + m01) * recip, (m20 + m02) * recip, (m21 - m12) * recip elseif i == 1 then local s = math.sqrt(m11 - m22 - m00 + 1) local recip = 0.5 / s return (m01 + m10) * recip, 0.5 * s, (m21 + m12) * recip, (m02 - m20) * recip elseif i == 2 then local s = math.sqrt(m22 - m00 - m11 + 1) local recip = 0.5 / s return (m02 + m20) * recip, (m12 + m21) * recip, 0.5 * s, (m10 - m01) * recip end end end function QuaternionToCFrame(px, py, pz, x, y, z, w) local xs, ys, zs = x + x, y + y, z + z local wx, wy, wz = w * xs, w * ys, w * zs local xx = x * xs local xy = x * ys local xz = x * zs local yy = y * ys local yz = y * zs local zz = z * zs return CFrame.new(px, py, pz, 1 - (yy + zz), xy - wz, xz + wy, xy + wz, 1 - (xx + zz), yz - wx, xz - wy, yz + wx, 1 - (xx + yy)) end function QuaternionSlerp(a, b, t) local cosTheta = a[1] * b[1] + a[2] * b[2] + a[3] * b[3] + a[4] * b[4] local startInterp, finishInterp; if cosTheta >= 0.0001 then if (1 - cosTheta) > 0.0001 then local theta = ACOS(cosTheta) local invSinTheta = 1 / SIN(theta) startInterp = SIN((1 - t) * theta) * invSinTheta finishInterp = SIN(t * theta) * invSinTheta else startInterp = 1 - t finishInterp = t end else if (1 + cosTheta) > 0.0001 then local theta = ACOS(-cosTheta) local invSinTheta = 1 / SIN(theta) startInterp = SIN((t - 1) * theta) * invSinTheta finishInterp = SIN(t * theta) * invSinTheta else startInterp = t - 1 finishInterp = t end end return a[1] * startInterp + b[1] * finishInterp, a[2] * startInterp + b[2] * finishInterp, a[3] * startInterp + b[3] * finishInterp, a[4] * startInterp + b[4] * finishInterp end function Clerp(a, b, t) local qa = {QuaternionFromCFrame(a)} local qb = {QuaternionFromCFrame(b)} local ax, ay, az = a.x, a.y, a.z local bx, by, bz = b.x, b.y, b.z local _t = 1 - t return QuaternionToCFrame(_t * ax + t * bx, _t * ay + t * by, _t * az + t * bz, QuaternionSlerp(qa, qb, t)) end function CreateFrame(PARENT, TRANSPARENCY, BORDERSIZEPIXEL, POSITION, SIZE, COLOR, BORDERCOLOR, NAME) local frame = IT("Frame") frame.BackgroundTransparency = TRANSPARENCY frame.BorderSizePixel = BORDERSIZEPIXEL frame.Position = POSITION frame.Size = SIZE frame.BackgroundColor3 = COLOR frame.BorderColor3 = BORDERCOLOR frame.Name = NAME frame.Parent = PARENT return frame end function CreateLabel(PARENT, TEXT, TEXTCOLOR, TEXTFONTSIZE, TEXTFONT, TRANSPARENCY, BORDERSIZEPIXEL, STROKETRANSPARENCY, NAME) local label = IT("TextLabel") label.BackgroundTransparency = 1 label.Size = UD2(1, 0, 1, 0) label.Position = UD2(0, 0, 0, 0) label.TextColor3 = TEXTCOLOR label.TextStrokeTransparency = STROKETRANSPARENCY label.TextTransparency = TRANSPARENCY label.FontSize = TEXTFONTSIZE label.Font = TEXTFONT label.BorderSizePixel = BORDERSIZEPIXEL label.TextScaled = false label.Text = TEXT label.Name = NAME label.Parent = PARENT return label end function NoOutlines(PART) PART.TopSurface, PART.BottomSurface, PART.LeftSurface, PART.RightSurface, PART.FrontSurface, PART.BackSurface = 10, 10, 10, 10, 10, 10 end function CreateWeldOrSnapOrMotor(TYPE, PARENT, PART0, PART1, C0, C1) local NEWWELD = IT(TYPE) NEWWELD.Part0 = PART0 NEWWELD.Part1 = PART1 NEWWELD.C0 = C0 NEWWELD.C1 = C1 NEWWELD.Parent = PARENT return NEWWELD end local S = IT("Sound") function CreateSound(ID, PARENT, VOLUME, PITCH) local NEWSOUND = nil coroutine.resume(coroutine.create(function() NEWSOUND = S:Clone() NEWSOUND.Parent = PARENT NEWSOUND.Volume = VOLUME NEWSOUND.Pitch = PITCH NEWSOUND.SoundId = "http://www.roblox.com/asset/?id="..ID Swait() NEWSOUND:play() game:GetService("Debris"):AddItem(NEWSOUND, 10) end)) return NEWSOUND end function CFrameFromTopBack(at, top, back) local right = top:Cross(back) return CF(at.x, at.y, at.z, right.x, top.x, back.x, right.y, top.y, back.y, right.z, top.z, back.z) end function CreateWave(SIZE,WAIT,CFRAME,DOESROT,ROT,COLOR,GROW) local wave = CreatePart(3, Effects, "Neon", 0, 0.5, BRICKC(COLOR), "Effect", VT(0,0,0)) local mesh = CreateMesh("SpecialMesh", wave, "FileMesh", "20329976", "", SIZE, VT(0,0,-SIZE.X/8)) wave.CFrame = CFRAME coroutine.resume(coroutine.create(function(PART) for i = 1, WAIT do Swait() mesh.Scale = mesh.Scale + GROW mesh.Offset = VT(0,0,-(mesh.Scale.X/8)) if DOESROT == true then wave.CFrame = wave.CFrame * CFrame.fromEulerAnglesXYZ(0,ROT,0) end wave.Transparency = wave.Transparency + (0.5/WAIT) if wave.Transparency > 0.99 then wave:remove() end end end)) end function CreateRing(SIZE,DOESROT,ROT,WAIT,CFRAME,COLOR,GROW) local wave = CreatePart(3, Effects, "Neon", 0, 0.5, BRICKC(COLOR), "Effect", VT(0,0,0)) local mesh = CreateMesh("SpecialMesh", wave, "FileMesh", "559831844", "", SIZE, VT(0,0,0)) wave.CFrame = CFRAME coroutine.resume(coroutine.create(function(PART) for i = 1, WAIT do Swait() mesh.Scale = mesh.Scale + GROW if DOESROT == true then wave.CFrame = wave.CFrame * CFrame.fromEulerAnglesXYZ(0,ROT,0) end wave.Transparency = wave.Transparency + (0.5/WAIT) if wave.Transparency > 0.99 then wave:remove() end end end)) end function MagicSphere(SIZE,WAIT,CFRAME,COLOR,GROW) local wave = CreatePart(3, Effects, "Neon", 0, 0, BRICKC(COLOR), "Effect", VT(1,1,1), true) local mesh = CreateMesh("SpecialMesh", wave, "Sphere", "", "", SIZE, VT(0,0,0)) wave.CFrame = CFRAME coroutine.resume(coroutine.create(function(PART) for i = 1, WAIT do Swait() mesh.Scale = mesh.Scale + GROW wave.Transparency = wave.Transparency + (1/WAIT) if wave.Transparency > 0.99 then wave:remove() end end end)) end function Slice(KIND,SIZE,WAIT,CFRAME,COLOR,GROW) local wave = CreatePart(3, Effects, "Neon", 0, 0.5, BRICKC(COLOR), "Effect", VT(1,1,1), true) local mesh = nil if KIND == "Base" then mesh = CreateMesh("SpecialMesh", wave, "FileMesh", "448386996", "", VT(0,SIZE/10,SIZE/10), VT(0,0,0)) elseif KIND == "Thin" then mesh = CreateMesh("SpecialMesh", wave, "FileMesh", "662586858", "", VT(SIZE/10,0,SIZE/10), VT(0,0,0)) elseif KIND == "Round" then mesh = CreateMesh("SpecialMesh", wave, "FileMesh", "662585058", "", VT(SIZE/10,0,SIZE/10), VT(0,0,0)) end wave.CFrame = CFRAME coroutine.resume(coroutine.create(function(PART) for i = 1, WAIT do Swait() mesh.Scale = mesh.Scale + GROW/10 wave.Transparency = wave.Transparency + (0.5/WAIT) if wave.Transparency > 0.99 then wave:remove() end end end)) end function MakeForm(PART,TYPE) if TYPE == "Cyl" then local MSH = IT("CylinderMesh",PART) elseif TYPE == "Ball" then local MSH = IT("SpecialMesh",PART) MSH.MeshType = "Sphere" elseif TYPE == "Wedge" then local MSH = IT("SpecialMesh",PART) MSH.MeshType = "Wedge" end end function CheckTableForString(Table, String) for i, v in pairs(Table) do if string.find(string.lower(String), string.lower(v)) then return true end end return false end function CheckIntangible(Hit) local ProjectileNames = {"Water", "Arrow", "Projectile", "Effect", "Rail", "Lightning", "Bullet"} if Hit and Hit.Parent then if ((not Hit.CanCollide or CheckTableForString(ProjectileNames, Hit.Name)) and not Hit.Parent:FindFirstChild("Humanoid")) then return true end end return false end Debris = game:GetService("Debris") function CastZapRay(StartPos, Vec, Length, Ignore, DelayIfHit) local Direction = CFrame.new(StartPos, Vec).lookVector local Ignore = ((type(Ignore) == "table" and Ignore) or {Ignore}) local RayHit, RayPos, RayNormal = game:GetService("Workspace"):FindPartOnRayWithIgnoreList(Ray.new(StartPos, Direction * Length), Ignore) if RayHit and CheckIntangible(RayHit) then if DelayIfHit then wait() end RayHit, RayPos, RayNormal = CastZapRay((RayPos + (Vec * 0.01)), Vec, (Length - ((StartPos - RayPos).magnitude)), Ignore, DelayIfHit) end return RayHit, RayPos, RayNormal end function turnto(position) RootPart.CFrame=CFrame.new(RootPart.CFrame.p,VT(position.X,RootPart.Position.Y,position.Z)) * CFrame.new(0, 0, 0) end game:GetService("RunService").Heartbeat:connect(function(s, p) tf = tf + s if tf >= frame then if allowframeloss then script.ArtificialHB:Fire() lastframe = tick() else for i = 1, math.floor(tf / frame) do script.ArtificialHB:Fire() end lastframe = tick() end if tossremainder then tf = 0 else tf = tf - frame * math.floor(tf / frame) end end end) function Raycast(POSITION, DIRECTION, RANGE, IGNOREDECENDANTS) return workspace:FindPartOnRay(Ray.new(POSITION, DIRECTION.unit * RANGE), IGNOREDECENDANTS) end function PositiveAngle(NUMBER) if NUMBER >= 0 then NUMBER = 0 end return NUMBER end function NegativeAngle(NUMBER) if NUMBER <= 0 then NUMBER = 0 end return NUMBER end function Swait(NUMBER) if NUMBER == 0 or NUMBER == nil then ArtificialHB.Event:wait() else for i = 1, NUMBER do ArtificialHB.Event:wait() end end end function CreateMesh(MESH, PARENT, MESHTYPE, MESHID, TEXTUREID, SCALE, OFFSET) local NEWMESH = IT(MESH) if MESH == "SpecialMesh" then NEWMESH.MeshType = MESHTYPE if MESHID ~= "nil" and MESHID ~= "" then NEWMESH.MeshId = "http://www.roblox.com/asset/?id="..MESHID end if TEXTUREID ~= "nil" and TEXTUREID ~= "" then NEWMESH.TextureId = "http://www.roblox.com/asset/?id="..TEXTUREID end end NEWMESH.Offset = OFFSET or VT(0, 0, 0) NEWMESH.Scale = SCALE NEWMESH.Parent = PARENT return NEWMESH end function CreatePart(FORMFACTOR, PARENT, MATERIAL, REFLECTANCE, TRANSPARENCY, BRICKCOLOR, NAME, SIZE, ANCHOR) local NEWPART = IT("Part") NEWPART.formFactor = FORMFACTOR NEWPART.Reflectance = REFLECTANCE NEWPART.Transparency = TRANSPARENCY NEWPART.CanCollide = false NEWPART.Locked = true NEWPART.Anchored = true if ANCHOR == false then NEWPART.Anchored = false end NEWPART.BrickColor = BRICKC(tostring(BRICKCOLOR)) NEWPART.Name = NAME NEWPART.Size = SIZE NEWPART.Position = Torso.Position NEWPART.Material = MATERIAL NEWPART:BreakJoints() NEWPART.Parent = PARENT return NEWPART end local function weldBetween(a, b) local weldd = Instance.new("ManualWeld") weldd.Part0 = a weldd.Part1 = b weldd.C0 = CFrame.new() weldd.C1 = b.CFrame:inverse() * a.CFrame weldd.Parent = a return weldd end function QuaternionFromCFrame(cf) local mx, my, mz, m00, m01, m02, m10, m11, m12, m20, m21, m22 = cf:components() local trace = m00 + m11 + m22 if trace > 0 then local s = math.sqrt(1 + trace) local recip = 0.5 / s return (m21 - m12) * recip, (m02 - m20) * recip, (m10 - m01) * recip, s * 0.5 else local i = 0 if m11 > m00 then i = 1 end if m22 > (i == 0 and m00 or m11) then i = 2 end if i == 0 then local s = math.sqrt(m00 - m11 - m22 + 1) local recip = 0.5 / s return 0.5 * s, (m10 + m01) * recip, (m20 + m02) * recip, (m21 - m12) * recip elseif i == 1 then local s = math.sqrt(m11 - m22 - m00 + 1) local recip = 0.5 / s return (m01 + m10) * recip, 0.5 * s, (m21 + m12) * recip, (m02 - m20) * recip elseif i == 2 then local s = math.sqrt(m22 - m00 - m11 + 1) local recip = 0.5 / s return (m02 + m20) * recip, (m12 + m21) * recip, 0.5 * s, (m10 - m01) * recip end end end function QuaternionToCFrame(px, py, pz, x, y, z, w) local xs, ys, zs = x + x, y + y, z + z local wx, wy, wz = w * xs, w * ys, w * zs local xx = x * xs local xy = x * ys local xz = x * zs local yy = y * ys local yz = y * zs local zz = z * zs return CFrame.new(px, py, pz, 1 - (yy + zz), xy - wz, xz + wy, xy + wz, 1 - (xx + zz), yz - wx, xz - wy, yz + wx, 1 - (xx + yy)) end function QuaternionSlerp(a, b, t) local cosTheta = a[1] * b[1] + a[2] * b[2] + a[3] * b[3] + a[4] * b[4] local startInterp, finishInterp; if cosTheta >= 0.0001 then if (1 - cosTheta) > 0.0001 then local theta = ACOS(cosTheta) local invSinTheta = 1 / SIN(theta) startInterp = SIN((1 - t) * theta) * invSinTheta finishInterp = SIN(t * theta) * invSinTheta else startInterp = 1 - t finishInterp = t end else if (1 + cosTheta) > 0.0001 then local theta = ACOS(-cosTheta) local invSinTheta = 1 / SIN(theta) startInterp = SIN((t - 1) * theta) * invSinTheta finishInterp = SIN(t * theta) * invSinTheta else startInterp = t - 1 finishInterp = t end end return a[1] * startInterp + b[1] * finishInterp, a[2] * startInterp + b[2] * finishInterp, a[3] * startInterp + b[3] * finishInterp, a[4] * startInterp + b[4] * finishInterp end function Clerp(a, b, t) local qa = {QuaternionFromCFrame(a)} local qb = {QuaternionFromCFrame(b)} local ax, ay, az = a.x, a.y, a.z local bx, by, bz = b.x, b.y, b.z local _t = 1 - t return QuaternionToCFrame(_t * ax + t * bx, _t * ay + t * by, _t * az + t * bz, QuaternionSlerp(qa, qb, t)) end function CreateFrame(PARENT, TRANSPARENCY, BORDERSIZEPIXEL, POSITION, SIZE, COLOR, BORDERCOLOR, NAME) local frame = IT("Frame") frame.BackgroundTransparency = TRANSPARENCY frame.BorderSizePixel = BORDERSIZEPIXEL frame.Position = POSITION frame.Size = SIZE frame.BackgroundColor3 = COLOR frame.BorderColor3 = BORDERCOLOR frame.Name = NAME frame.Parent = PARENT return frame end function CreateLabel(PARENT, TEXT, TEXTCOLOR, TEXTFONTSIZE, TEXTFONT, TRANSPARENCY, BORDERSIZEPIXEL, STROKETRANSPARENCY, NAME) local label = IT("TextLabel") label.BackgroundTransparency = 1 label.Size = UD2(1, 0, 1, 0) label.Position = UD2(0, 0, 0, 0) label.TextColor3 = TEXTCOLOR label.TextStrokeTransparency = STROKETRANSPARENCY label.TextTransparency = TRANSPARENCY label.FontSize = TEXTFONTSIZE label.Font = TEXTFONT label.BorderSizePixel = BORDERSIZEPIXEL label.TextScaled = false label.Text = TEXT label.Name = NAME label.Parent = PARENT return label end function NoOutlines(PART) PART.TopSurface, PART.BottomSurface, PART.LeftSurface, PART.RightSurface, PART.FrontSurface, PART.BackSurface = 10, 10, 10, 10, 10, 10 end function CreateWeldOrSnapOrMotor(TYPE, PARENT, PART0, PART1, C0, C1) local NEWWELD = IT(TYPE) NEWWELD.Part0 = PART0 NEWWELD.Part1 = PART1 NEWWELD.C0 = C0 NEWWELD.C1 = C1 NEWWELD.Parent = PARENT return NEWWELD end local S = IT("Sound") function CreateSound(ID, PARENT, VOLUME, PITCH, DOESLOOP) local NEWSOUND = nil coroutine.resume(coroutine.create(function() NEWSOUND = S:Clone() NEWSOUND.Parent = PARENT NEWSOUND.Volume = VOLUME NEWSOUND.Pitch = PITCH NEWSOUND.SoundId = "http://www.roblox.com/asset/?id="..ID NEWSOUND:play() if DOESLOOP == true then NEWSOUND.Looped = true else repeat wait(1) until NEWSOUND.Playing == false NEWSOUND:remove() end end)) return NEWSOUND end function MakeForm(PART,TYPE) if TYPE == "Cyl" then local MSH = IT("CylinderMesh",PART) elseif TYPE == "Ball" then local MSH = IT("SpecialMesh",PART) MSH.MeshType = "Sphere" elseif TYPE == "Wedge" then local MSH = IT("SpecialMesh",PART) MSH.MeshType = "Wedge" end end function CFrameFromTopBack(at, top, back) local right = top:Cross(back) return CF(at.x, at.y, at.z, right.x, top.x, back.x, right.y, top.y, back.y, right.z, top.z, back.z) end function PuddleOfBlood(Position,MaxDrop,Model,MaxSize) local HITFLOOR, HITPOS, NORMAL = Raycast(Position, (CF(Position, Position + VT(0, -1, 0))).lookVector, MaxDrop, Model) if HITFLOOR ~= nil then if HITFLOOR.Parent ~= Weapon and HITFLOOR.Parent ~= Character then if HITFLOOR.Name == "BloodPuddle" then local DIST = (Position - HITFLOOR.Position).Magnitude if (HITFLOOR.Size.Z <= 5 and HITFLOOR.Size.Z < MaxSize) or (HITFLOOR.Size.Z > 5 and HITFLOOR.Size.Z < MaxSize and DIST < HITFLOOR.Size.Z/3) then HITFLOOR.Size = HITFLOOR.Size + VT(0.1,0,0.1) end else if HITFLOOR.Anchored == true then local BLOOD = CreatePart(3, Effects, "Glass", 0, 0, "Maroon", "BloodPuddle", VT(2,0,2)) BLOOD.CFrame = CF(HITPOS,HITPOS+NORMAL)*ANGLES(RAD(90),RAD(0),RAD(0)) MakeForm(BLOOD,"Cyl") coroutine.resume(coroutine.create(function() Swait(75) while true do Swait() BLOOD.Size = BLOOD.Size - VT(0.02,0,0.02) if BLOOD.Size.Z < 0.051 then BLOOD:remove() break end end end)) end end end end end function SprayBlood(POSITION,DIRECTION,BloodSize) local BLOOD = CreatePart(3, Effects, "Glass", 0, 0, "Maroon", "BloodPuddle", VT(0.3,0.3,0.3),false) BLOOD.CFrame = CF(POSITION) MakeForm(BLOOD,"Ball") local bv = Instance.new("BodyVelocity",BLOOD) bv.maxForce = Vector3.new(1e9, 1e9, 1e9) bv.velocity = CF(POSITION,DIRECTION+VT(MRANDOM(-3,3)/30,MRANDOM(-3,3)/30,MRANDOM(-3,3)/30)).lookVector*75 bv.Name = "MOVE" Debris:AddItem(bv,0.05) coroutine.resume(coroutine.create(function() local HASTOUCHEDGROUND = false local HIT = BLOOD.Touched:Connect(function(hit) if hit.Anchored == true then HASTOUCHEDGROUND = true PuddleOfBlood(BLOOD.Position+VT(0,1,0),2,BLOOD,BloodSize) end end) wait(5) if HASTOUCHEDGROUND == false then BLOOD:remove() end end)) end Debris = game:GetService("Debris") function CastProperRay(StartPos, EndPos, Distance, Ignore) local DIRECTION = CF(StartPos,EndPos).lookVector return Raycast(StartPos, DIRECTION, Distance, Ignore) end function turnto(position) RootPart.CFrame=CFrame.new(RootPart.CFrame.p,VT(position.X,RootPart.Position.Y,position.Z)) * CFrame.new(0, 0, 0) end function recurse(root,callback,i) i= i or 0 for _,v in pairs(root:GetChildren()) do i = i + 1 callback(i,v) if #v:GetChildren() > 0 then i = recurse(v,callback,i) end end return i end function ragdollJoint(character, part0, part1, attachmentName, className, properties) attachmentName = attachmentName.."RigAttachment" local constraint = Instance.new(className.."Constraint") constraint.Attachment0 = part0:FindFirstChild(attachmentName) constraint.Attachment1 = part1:FindFirstChild(attachmentName) constraint.Name = "RagdollConstraint"..part1.Name for _,propertyData in next,properties or {} do constraint[propertyData[1]] = propertyData[2] end constraint.Parent = character end function getAttachment0(character, attachmentName) for _,child in next,character:GetChildren() do local attachment = child:FindFirstChild(attachmentName) if attachment then return attachment end end end function R15Ragdoll(character) recurse(character, function(_,v) if v:IsA("Attachment") then v.Axis = Vector3.new(0, 1, 0) v.SecondaryAxis = Vector3.new(0, 0, 1) v.Rotation = Vector3.new(0, 0, 0) end end) for _,child in next,character:GetChildren() do if child:IsA("Accoutrement") then for _,part in next,child:GetChildren() do if part:IsA("BasePart") and part.Name ~= "HumanoidRootPart" then local attachment1 = part:FindFirstChildOfClass("Attachment") local attachment0 = getAttachment0(character,attachment1.Name) if attachment0 and attachment1 then local constraint = Instance.new("HingeConstraint") constraint.Attachment0 = attachment0 constraint.Attachment1 = attachment1 constraint.LimitsEnabled = true constraint.UpperAngle = 0 constraint.LowerAngle = 0 constraint.Parent = character end elseif part.Name == "HumanoidRootPart" then part:remove() end end end end ragdollJoint(character,character.LowerTorso, character.UpperTorso, "Waist", "BallSocket", { {"LimitsEnabled",true}; {"UpperAngle",5}; }) ragdollJoint(character,character.UpperTorso, character.Head, "Neck", "BallSocket", { {"LimitsEnabled",true}; {"UpperAngle",15}; }) local handProperties = { {"LimitsEnabled", true}; {"UpperAngle",0}; {"LowerAngle",0}; } ragdollJoint(character,character.LeftLowerArm, character.LeftHand, "LeftWrist", "Hinge", handProperties) ragdollJoint(character,character.RightLowerArm, character.RightHand, "RightWrist", "Hinge", handProperties) local shinProperties = { {"LimitsEnabled", true}; {"UpperAngle", 0}; {"LowerAngle", -75}; } ragdollJoint(character,character.LeftUpperLeg, character.LeftLowerLeg, "LeftKnee", "Hinge", shinProperties) ragdollJoint(character,character.RightUpperLeg, character.RightLowerLeg, "RightKnee", "Hinge", shinProperties) local footProperties = { {"LimitsEnabled", true}; {"UpperAngle", 15}; {"LowerAngle", -45}; } ragdollJoint(character,character.LeftLowerLeg, character.LeftFoot, "LeftAnkle", "Hinge", footProperties) ragdollJoint(character,character.RightLowerLeg, character.RightFoot, "RightAnkle", "Hinge", footProperties) ragdollJoint(character,character.UpperTorso, character.LeftUpperArm, "LeftShoulder", "BallSocket") ragdollJoint(character,character.LeftUpperArm, character.LeftLowerArm, "LeftElbow", "BallSocket") ragdollJoint(character,character.UpperTorso, character.RightUpperArm, "RightShoulder", "BallSocket") ragdollJoint(character,character.RightUpperArm, character.RightLowerArm, "RightElbow", "BallSocket") ragdollJoint(character,character.LowerTorso, character.LeftUpperLeg, "LeftHip", "BallSocket") ragdollJoint(character,character.LowerTorso, character.RightUpperLeg, "RightHip", "BallSocket") end function Ragdoll(Character2,CharTorso) Character2:BreakJoints() local hum = Character2:findFirstChild("Humanoid") hum:remove() local function Scan(ch) local e for e = 1,#ch do Scan(ch[e]:GetChildren()) if ch[e].ClassName == "Weld" or ch[e].ClassName == "Motor6D" then ch[e]:remove() end end end local NEWHUM = IT("Humanoid") NEWHUM.Name = "Corpse" NEWHUM.Health = 0 NEWHUM.MaxHealth = 0 NEWHUM.PlatformStand = true NEWHUM.Parent = Character2 NEWHUM.DisplayDistanceType = "None" local ch = Character2:GetChildren() local i for i = 1,#ch do if ch[i].Name == "THandle1" or ch[i].Name == "THandle2" then ch[i]:remove() end end local Torso2 = Character2.Torso local movevector = Vector3.new() if Torso2 then movevector = CFrame.new(CharTorso.Position,Torso2.Position).lookVector local Head = Character2:FindFirstChild("Head") if Head then local Neck = Instance.new("Weld") Neck.Name = "Neck" Neck.Part0 = Torso2 Neck.Part1 = Head Neck.C0 = CFrame.new(0, 1.5, 0) Neck.C1 = CFrame.new() Neck.Parent = Torso2 end local Limb = Character2:FindFirstChild("Right Arm") if Limb then Limb.CFrame = Torso2.CFrame * CFrame.new(1.5, 0, 0) local Joint = Instance.new("Glue") Joint.Name = "RightShoulder" Joint.Part0 = Torso2 Joint.Part1 = Limb Joint.C0 = CFrame.new(1.5, 0.5, 0, 0, 0, 1, 0, 1, 0, -1, -0, -0) Joint.C1 = CFrame.new(-0, 0.5, 0, 0, 0, 1, 0, 1, 0, -1, -0, -0) Joint.Parent = Torso2 local B = Instance.new("Part") B.TopSurface = 0 B.BottomSurface = 0 B.formFactor = "Symmetric" B.Size = Vector3.new(1, 1, 1) B.Transparency = 1 B.CFrame = Limb.CFrame * CFrame.new(0, -0.5, 0) B.Parent = Character2 local W = Instance.new("Weld") W.Part0 = Limb W.Part1 = B W.C0 = CFrame.new(0, -0.5, 0) W.Parent = Limb end local Limb = Character2:FindFirstChild("Left Arm") if Limb then Limb.CFrame = Torso2.CFrame * CFrame.new(-1.5, 0, 0) local Joint = Instance.new("Glue") Joint.Name = "LeftShoulder" Joint.Part0 = Torso2 Joint.Part1 = Limb Joint.C0 = CFrame.new(-1.5, 0.5, 0, -0, -0, -1, 0, 1, 0, 1, 0, 0) Joint.C1 = CFrame.new(0, 0.5, 0, -0, -0, -1, 0, 1, 0, 1, 0, 0) Joint.Parent = Torso2 local B = Instance.new("Part") B.TopSurface = 0 B.BottomSurface = 0 B.formFactor = "Symmetric" B.Size = Vector3.new(1, 1, 1) B.Transparency = 1 B.CFrame = Limb.CFrame * CFrame.new(0, -0.5, 0) B.Parent = Character2 local W = Instance.new("Weld") W.Part0 = Limb W.Part1 = B W.C0 = CFrame.new(0, -0.5, 0) W.Parent = Limb end local Limb = Character2:FindFirstChild("Right Leg") if Limb then Limb.CFrame = Torso2.CFrame * CFrame.new(0.5, -2, 0) local Joint = Instance.new("Glue") Joint.Name = "RightHip" Joint.Part0 = Torso2 Joint.Part1 = Limb Joint.C0 = CFrame.new(0.5, -1, 0, 0, 0, 1, 0, 1, 0, -1, -0, -0) Joint.C1 = CFrame.new(0, 1, 0, 0, 0, 1, 0, 1, 0, -1, -0, -0) Joint.Parent = Torso2 local B = Instance.new("Part") B.TopSurface = 0 B.BottomSurface = 0 B.formFactor = "Symmetric" B.Size = Vector3.new(1, 1, 1) B.Transparency = 1 B.CFrame = Limb.CFrame * CFrame.new(0, -0.5, 0) B.Parent = Character2 local W = Instance.new("Weld") W.Part0 = Limb W.Part1 = B W.C0 = CFrame.new(0, -0.5, 0) W.Parent = Limb end local Limb = Character2:FindFirstChild("Left Leg") if Limb then Limb.CFrame = Torso2.CFrame * CFrame.new(-0.5, -2, 0) local Joint = Instance.new("Glue") Joint.Name = "LeftHip" Joint.Part0 = Torso2 Joint.Part1 = Limb Joint.C0 = CFrame.new(-0.5, -1, 0, -0, -0, -1, 0, 1, 0, 1, 0, 0) Joint.C1 = CFrame.new(-0, 1, 0, -0, -0, -1, 0, 1, 0, 1, 0, 0) Joint.Parent = Torso2 local B = Instance.new("Part") B.TopSurface = 0 B.BottomSurface = 0 B.formFactor = "Symmetric" B.Size = Vector3.new(1, 1, 1) B.Transparency = 1 B.CFrame = Limb.CFrame * CFrame.new(0, -0.5, 0) B.Parent = Character2 local W = Instance.new("Weld") W.Part0 = Limb W.Part1 = B W.C0 = CFrame.new(0, -0.5, 0) W.Parent = Limb end --[ local Bar = Instance.new("Part") Bar.TopSurface = 0 Bar.BottomSurface = 0 Bar.formFactor = "Symmetric" Bar.Size = Vector3.new(1, 1, 1) Bar.Transparency = 1 Bar.CFrame = Torso2.CFrame * CFrame.new(0, 0.5, 0) Bar.Parent = Character2 local Weld = Instance.new("Weld") Weld.Part0 = Torso2 Weld.Part1 = Bar Weld.C0 = CFrame.new(0, 0.5, 0) Weld.Parent = Torso2 --]] end Character2.Parent = workspace Debris:AddItem(Character2,5) return Character2,Torso2 end local Trum = CreatePart(3, Character, "SmoothPlastic", 0, 0, "Really black", "Trum", VT(0, 0, 0),false) local HandleMesh = CreateMesh("SpecialMesh", Trum, "FileMesh", "32316679", "32316694", VT(1,1,1), VT(0,0,0)) local Weld = CreateWeldOrSnapOrMotor("Weld", Trum, Head, Trum, CF(0, 0.003, -1.5) * ANGLES(RAD(90), RAD(0), RAD(0)), CF(0, 0, 0)) local SpeedofBullet = 150 function attacc() CreateSound("1002948773", Head, 10, 1) ATTACK = true Rooted = true for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, -1) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -1) * ANGLES(RAD(140), RAD(0), RAD(50)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end local bullet = Instance.new("Part",workspace) bullet.CanCollide = false bullet.CFrame = Trum.CFrame bullet.Transparency = 1 local vel = Instance.new("BodyVelocity",bullet) vel.Velocity = mouse.Hit.lookVector * SpeedofBullet game:GetService("Debris"):AddItem(bullet,10) bullet.Touched:connect(function(part) local human = part.Parent:FindFirstChildOfClass("Humanoid") if human and human.Parent.Name ~= char.Name then human.Health = 0 end end) ATTACK = false Rooted = false end function Sucide() Trum:remove() local Gun = CreatePart(3, Character, "SmoothPlastic", 0, 0, "Really black", "Gun", VT(0, 0, 0),false) local HandleMesh = CreateMesh("SpecialMesh", Gun, "FileMesh", "742046473", "742046691", VT(0.5,0.5,0.5), VT(0,0, 0)) local Weld = CreateWeldOrSnapOrMotor("Weld", Gun, RightArm, Gun, CF(0, -1.8, -0.2) * ANGLES(RAD(280), RAD(0), RAD(0)), CF(0, 0, 0)) Sound0:Stop() local YesDaddy = CreateSound(858454147, Torso, 10, .8) ATTACK = true Rooted = true for i=0, 1, 0.1 / Animation_Speed do repeat Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(4, 1, 1) * ANGLES(RAD(90), RAD(0), RAD(-100)) * RIGHTSHOULDERC0, 0.5 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-2.5, 0.15, 0) * ANGLES(RAD(0), RAD(0), RAD(0)) * LEFTSHOULDERC0, 0.5 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) until YesDaddy.TimePosition >= 20 end CreateSound("540869321", Head, 10, 1) wait() CreateSound("1268660223", Head, 10, 1) game.Players.LocalPlayer.Character.Humanoid.MaxHealth = -333333333 game.Players.LocalPlayer.Character.Humanoid.Health = -333333333 ATTACK = false Rooted = false end function Ecks_Dee() ATTACK = true Rooted = true CreateSound("1486343908", Head, 10, 1) for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(20), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, -1) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(0), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 2, 0 + ((1) - 1)) * ANGLES(RAD(20), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, -1) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(0), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(20), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, -1) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(0), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end wait(1) ATTACK = false Rooted = false end function FBI() CreateSound("1609319959", Head, 10, 1) wait(15) ATTACK = true Rooted = true for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(20)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(100), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(20)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(100), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(20)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(100), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(20)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(100), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(20)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(100), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(20)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(100), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(20)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(100), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(20)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(100), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) end wait(1) ATTACK = false Rooted = false end function Bruh() ATTACK = true Rooted = true CreateSound("170040190", Head, 10, 1) for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(20), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end wait(1) ATTACK = false Rooted = false end function youbetterstap() ATTACK = true Rooted = true CreateSound("1246891273", Head, 10, 1) for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 2 + ((1) - 1)) * ANGLES(RAD(-40), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-190), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end wait(1) ATTACK = false Rooted = false end function LOOkATTHATXD() ATTACK = true Rooted = true CreateSound("525498255", Head, 10, 1) for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 3 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -0.8) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 3 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 3 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 3 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 3 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 3 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 3 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 3 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 3 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -2) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end for i=0, 1, 0.1 / Animation_Speed do Swait() RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 10 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.5 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, -6) * ANGLES(RAD(-210), RAD(0), RAD(30)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-8), RAD(0), RAD(0)), 0.5 / Animation_Speed) end wait(1) ATTACK = false Rooted = false end function MouseUp(Mouse) HOLD = false end function KeyDown(Key) KEYHOLD = true if Key == "q" and ATTACK == false then Bruh() end if Key == "r" and ATTACK == false then youbetterstap() end if Key == "p" and ATTACK == false then FBI() end if Key == "x" and ATTACK == false then attacc() end if Key == "v" and ATTACK == false then Sucide() end if Key == "t" and ATTACK == false then LOOkATTHATXD() end if Key == "e" and ATTACK == false then Ecks_Dee() end end function KeyUp(Key) KEYHOLD = false end Mouse.Button1Down:connect(function(NEWKEY) MouseDown(NEWKEY) end) Mouse.Button1Up:connect(function(NEWKEY) MouseUp(NEWKEY) end) Mouse.KeyDown:connect(function(NEWKEY) KeyDown(NEWKEY) end) Mouse.KeyUp:connect(function(NEWKEY) KeyUp(NEWKEY) end) Humanoid.Changed:connect(function(Jump) if Jump == "Jump" and (Disable_Jump == true) then Humanoid.Jump = false end end) while true do Swait() script.Parent = WEAPONGUI ANIMATE.Parent = nil for _,v in next, Humanoid:GetPlayingAnimationTracks() do v:Stop(); end SINE = SINE + CHANGE local TORSOVELOCITY = (RootPart.Velocity * VT(1, 0, 1)).magnitude local TORSOVERTICALVELOCITY = RootPart.Velocity.y local HITFLOOR = Raycast(RootPart.Position, (CF(RootPart.Position, RootPart.Position + VT(0, -1, 0))).lookVector, 4, Character) local WALKSPEEDVALUE = 6 / (Humanoid.WalkSpeed / 16) if ANIM == "Walk" and TORSOVELOCITY > 1 then RootJoint.C1 = Clerp(RootJoint.C1, ROOTC0 * CF(0, 0, -0.15 * COS(SINE / (WALKSPEEDVALUE / 2))) * ANGLES(RAD(0), RAD(0) - RootPart.RotVelocity.Y / 75, RAD(0)), 2 * (Humanoid.WalkSpeed / 16) / Animation_Speed) Neck.C1 = Clerp(Neck.C1, CF(0, -0.5, 0) * ANGLES(RAD(-90), RAD(0), RAD(180)) * ANGLES(RAD(2.5 * SIN(SINE / (WALKSPEEDVALUE / 2))), RAD(0), RAD(0) - Head.RotVelocity.Y / 30), 0.2 * (Humanoid.WalkSpeed / 16) / Animation_Speed) RightHip.C1 = Clerp(RightHip.C1, CF(0.5, 0.875 - 0.125 * SIN(SINE / WALKSPEEDVALUE) - 0.15 * COS(SINE / WALKSPEEDVALUE*2), -0.125 * COS(SINE / WALKSPEEDVALUE) +0.2+ 0.2 * COS(SINE / WALKSPEEDVALUE)) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0) - RightLeg.RotVelocity.Y / 75, RAD(0), RAD(76 * COS(SINE / WALKSPEEDVALUE))), 0.3 * (Humanoid.WalkSpeed / 16) / Animation_Speed) LeftHip.C1 = Clerp(LeftHip.C1, CF(-0.5, 0.875 + 0.125 * SIN(SINE / WALKSPEEDVALUE) - 0.15 * COS(SINE / WALKSPEEDVALUE*2), 0.125 * COS(SINE / WALKSPEEDVALUE) +0.2+ -0.2 * COS(SINE / WALKSPEEDVALUE)) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(0) + LeftLeg.RotVelocity.Y / 75, RAD(0), RAD(76 * COS(SINE / WALKSPEEDVALUE))), 0.3 * (Humanoid.WalkSpeed / 16) / Animation_Speed) elseif (ANIM ~= "Walk") or (TORSOVELOCITY < 1) then RootJoint.C1 = Clerp(RootJoint.C1, ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.2 / Animation_Speed) Neck.C1 = Clerp(Neck.C1, CF(0, -0.5, 0) * ANGLES(RAD(-90), RAD(0), RAD(180)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.2 / Animation_Speed) RightHip.C1 = Clerp(RightHip.C1, CF(0.5, 1, 0) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.2 / Animation_Speed) LeftHip.C1 = Clerp(LeftHip.C1, CF(-0.5, 1, 0) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.2 / Animation_Speed) end if TORSOVERTICALVELOCITY > 1 and HITFLOOR == nil then ANIM = "Jump" if PLAYANIMS == true then RootJoint.C0 = Clerp(RootJoint.C0, ROOTC0 * CF(0, 0, 0) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.2 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(-20), RAD(0), RAD(0)), 0.2 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(-40), RAD(0), RAD(20)) * RIGHTSHOULDERC0, 0.2 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 0) * ANGLES(RAD(-40), RAD(0), RAD(-20)) * LEFTSHOULDERC0, 0.2 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1, -0.3) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(-5), RAD(0), RAD(-20)), 0.2 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1, -0.3) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(-5), RAD(0), RAD(20)), 0.2 / Animation_Speed) end elseif TORSOVERTICALVELOCITY < -1 and HITFLOOR == nil then ANIM = "Fall" if PLAYANIMS == true then RootJoint.C0 = Clerp(RootJoint.C0, ROOTC0 * CF(0, 0, 0 ) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.2 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0 , 0 + ((1) - 1)) * ANGLES(RAD(20), RAD(0), RAD(0)), 0.2 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, 0) * ANGLES(RAD(0), RAD(0), RAD(60)) * RIGHTSHOULDERC0, 0.2 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 0) * ANGLES(RAD(0), RAD(0), RAD(-60)) * LEFTSHOULDERC0, 0.2 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1, 0) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(20)), 0.2 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1, 0) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(10)), 0.2 / Animation_Speed) end elseif TORSOVELOCITY < 1 and HITFLOOR ~= nil then ANIM = "Idle" if PLAYANIMS == true then RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, 0 + 0.05 * COS(SINE / 12)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.15 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0 - 60*SIN(Sound0.PlaybackLoudness/300)), RAD(0), RAD(0)), 0.15 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, -1) * ANGLES(RAD(140 + 250*SIN(Sound0.PlaybackLoudness/300)), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 0) * ANGLES(RAD(0), RAD(0), RAD(0)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.15 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1 - 0.05 * COS(SINE / 12), -0.01) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.15 / Animation_Speed) end elseif TORSOVELOCITY > 1 and HITFLOOR ~= nil then ANIM = "Walk" if PLAYANIMS == true then RootJoint.C0 = Clerp(RootJoint.C0,ROOTC0 * CF(0, 0, -0.1) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.15 / Animation_Speed) Neck.C0 = Clerp(Neck.C0, NECKC0 * CF(0, 0, 0 + ((1) - 1)) * ANGLES(RAD(0), RAD(0), RAD(0)), 0.15 / Animation_Speed) RightShoulder.C0 = Clerp(RightShoulder.C0, CF(1.5, 0.5, -1) * ANGLES(RAD(140), RAD(0), RAD(-50)) * RIGHTSHOULDERC0, 0.15 / Animation_Speed) LeftShoulder.C0 = Clerp(LeftShoulder.C0, CF(-1.5, 0.5, 0) * ANGLES(RAD(40 * COS(SINE / WALKSPEEDVALUE)), RAD(0), RAD(-5)) * LEFTSHOULDERC0, 0.15 / Animation_Speed) RightHip.C0 = Clerp(RightHip.C0, CF(1 , -1, 0) * ANGLES(RAD(0), RAD(90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(-15)), 2 / Animation_Speed) LeftHip.C0 = Clerp(LeftHip.C0, CF(-1, -1, 0) * ANGLES(RAD(0), RAD(-90), RAD(0)) * ANGLES(RAD(0), RAD(0), RAD(15)), 2 / Animation_Speed) end end end if Rooted == false then Disable_Jump = false Humanoid.WalkSpeed = Speed elseif Rooted == true then Disable_Jump = true Humanoid.WalkSpeed = 0 end Humanoid.Health = Humanoid.Health + 1