--bird wings Gifted by harrypotterfan249, Local Script! --Jump Two Time --Down Press Q script.Parent = nil function fly() for i,v in pairs(script:GetChildren()) do pcall(function() v.Value = "" end) game:GetService("Debris"):AddItem(v,.1) end function weld(p0,p1,c0,c1,par) local w = Instance.new("Weld",p0 or par) w.Part0 = p0 w.Part1 = p1 w.C0 = c0 or CFrame.new() w.C1 = c1 or CFrame.new() return w end local motors = {} function motor(p0,p1,c0,c1,des,vel,par) local w = Instance.new("Motor6D",p0 or par) w.Part0 = p0 w.Part1 = p1 w.C0 = c0 or CFrame.new() w.C1 = c1 or CFrame.new() w.MaxVelocity = tonumber(vel) or .05 w.DesiredAngle = tonumber(des) or 0 return w end function lerp(a,b,c) return a+(b-a)*c end function clerp(c1,c2,al) local com1 = {c1.X,c1.Y,c1.Z,c1:toEulerAnglesXYZ()} local com2 = {c2.X,c2.Y,c2.Z,c2:toEulerAnglesXYZ()} for i,v in pairs(com1) do com1[i] = lerp(v,com2[i],al) end return CFrame.new(com1[1],com1[2],com1[3]) * CFrame.Angles(select(4,unpack(com1))) end function ccomplerp(c1,c2,al) local com1 = {c1:components()} local com2 = {c2:components()} for i,v in pairs(com1) do com1[i] = lerp(v,com2[i],al) end return CFrame.new(unpack(com1)) end function tickwave(time,length,offset) return (math.abs((tick()+(offset or 0))%time-time/2)*2-time/2)/time/2*length end function invcol(c) c = c.Color return BrickColor.new(Color3.new(1-c.b,1-c.g,1-c.r)) end local oc = oc or function(...) return ... end local plr = game.Players.LocalPlayer local char = plr.Character local tor = char.Torso local hum = char.Humanoid hum.PlatformStand = false pcall(function() char.Wings:Destroy() end) pcall(function() char.Angel:Destroy() -- hat end) local mod = Instance.new("Model",char) mod.Name = "Wings" local special = { --antiboomz0r = {"Really black","Institutional white",0,0,false,Color3.new(1,1,.95),Color3.new(1,1,.6)}, antiboomz0r = {"New Yeller",nil,0.4,0.7,true,Color3.new(1,1,.95),Color3.new(1,1,.6)}, --antiboomz0r = {"Cyan","Toothpaste",0,0,false,Color3.new(1,0,0),Color3.new(0,0,0)}, taart = {"Royal purple",nil,.4,.4,true}, mitta = {"Black",nil,0,0,false}, penjuin3 = {"White",nil,0,0,false}, thepc8110 = {"Black","Bright red",.5,0,false,Color3.new(1,0,0),Color3.new(0,0,0)}, nonspeaker = {"Cyan","Toothpaste",0,0,false,Color3.new(1,0,0),Color3.new(0,0,0)}, littleau999 = {"Reddish brown",1030,0,0,false}, unscripter = {"Really black","Really black",.2,0,true,Color3.new(0,0,0),Color3.new(0,0,0)}, oxcool1 = {"Really black","White",.2,0,false,Color3.new(0,0,0),Color3.new(0,0,0)}, krodmiss = {"Really black",nil,0,0,false}, } local topcolor = invcol(char.Torso.BrickColor) local feacolor = char.Torso.BrickColor local ptrans = 0 local pref = 0 local fire = false local fmcol = Color3.new() local fscol = Color3.new() local spec = special[plr.Name:lower()] if spec then topcolor,feacolor,ptrans,pref,fire,fmcol,fscol = spec[1] and BrickColor.new(spec[1]) or topcolor,spec[2] and BrickColor.new(spec[2]) or feacolor,spec[3],spec[4],spec[5],spec[6],spec[7] end local part = Instance.new("Part") part.FormFactor = "Custom" part.Size = Vector3.new(.2,.2,.2) part.TopSurface,part.BottomSurface = 0,0 part.CanCollide = false part.BrickColor = topcolor part.Transparency = ptrans part.Reflectance = pref local ef = Instance.new("Fire",fire and part or nil) ef.Size = .15 ef.Color = fmcol or Color3.new() ef.SecondaryColor = fscol or Color3.new() part:BreakJoints() function newpart() local clone = part:Clone() clone.Parent = mod clone:BreakJoints() return clone end local feath = newpart() feath.BrickColor = feacolor feath.Transparency = 0 Instance.new("SpecialMesh",feath).MeshType = "Sphere" function newfeather() local clone = feath:Clone() clone.Parent = mod clone:BreakJoints() return clone end ---------- RIGHT WING local r1 = newpart() r1.Size = Vector3.new(.3,1.5,.3)*1.2 local rm1 = motor(tor,r1,CFrame.new(.35,.6,.4) * CFrame.Angles(0,0,math.rad(-60)) * CFrame.Angles(math.rad(30),math.rad(-25),0),CFrame.new(0,-.8,0),.1) local r2 = newpart() r2.Size = Vector3.new(.4,1.8,.4)*1.2 local rm2 = motor(r1,r2,CFrame.new(0,.75,0) * CFrame.Angles(0,0,math.rad(50)) * CFrame.Angles(math.rad(-30),math.rad(15),0),CFrame.new(0,-.9,0),.1) local r3 = newpart() r3.Size = Vector3.new(.3,2.2,.3)*1.2 local rm3 = motor(r2,r3,CFrame.new(.1,.9,0) * CFrame.Angles(0,0,math.rad(-140)) * CFrame.Angles(math.rad(-3),0,0),CFrame.new(0,-1.1,0),.1) local r4 = newpart() r4.Size = Vector3.new(.25,1.2,.25)*1.2 local rm4 = motor(r3,r4,CFrame.new(0,1.1,0) * CFrame.Angles(0,0,math.rad(-10)) * CFrame.Angles(math.rad(-3),0,0),CFrame.new(0,-.6,0),.1) local feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.4,3,.3) weld(r4,feather,CFrame.new(-.1,-.3,0),CFrame.new(0,-1.5,0)) feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.4,2.3,.3) weld(r4,feather,CFrame.new(.1,-.1,0) * CFrame.Angles(0,math.random()*.1,0),CFrame.new(0,-1.1,0)) feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.35,2.2,.25) weld(r4,feather,CFrame.new(.1,-.3,0) * CFrame.Angles(0,math.random()*.1,math.rad(-10)),CFrame.new(0,-1.1,0)) local rf3 = {} for i=0,7 do feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.45,2.2,.35) table.insert(rf3,motor(r3,feather,CFrame.new(.05,1-i*.285,0) * CFrame.Angles(0,math.random()*.1,math.rad(-25-i*2)),CFrame.new(0,-feather.Size.Y/2,0))) end local rf2 = {} for i=0,6 do feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.45,2.2-i*.08,.3) table.insert(rf2,motor(r2,feather,CFrame.new(.05,.75-i*.26,0) * CFrame.Angles(0,math.random()*.1,math.rad(-75-i*4)),CFrame.new(0,-feather.Size.Y/2,0))) end local rf1 = {} for i=0,6 do feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.37,1.65-i*.06,.25) table.insert(rf1,motor(r1,feather,CFrame.new(.05,.63-i*.21,0) * CFrame.Angles(0,math.random()*.05,math.rad(-75)),CFrame.new(0,-feather.Size.Y/2,0))) end ---------- LEFT WING local l1 = newpart() l1.Size = Vector3.new(.3,1.5,.3)*1.2 local lm1 = motor(tor,l1,CFrame.new(-.35,.6,.4) * CFrame.Angles(0,0,math.rad(60)) * CFrame.Angles(math.rad(30),math.rad(25),0) * CFrame.Angles(0,-math.pi,0),CFrame.new(0,-.8,0) ,.1) local l2 = newpart() l2.Size = Vector3.new(.4,1.8,.4)*1.2 local lm2 = motor(l1,l2,CFrame.new(0,.75,0) * CFrame.Angles(0,0,math.rad(50)) * CFrame.Angles(math.rad(30),math.rad(-15),0),CFrame.new(0,-.9,0),.1) local l3 = newpart() l3.Size = Vector3.new(.3,2.2,.3)*1.2 local lm3 = motor(l2,l3,CFrame.new(.1,.9,0) * CFrame.Angles(0,0,math.rad(-140)) * CFrame.Angles(math.rad(3),0,0),CFrame.new(0,-1.1,0),.1) local l4 = newpart() l4.Size = Vector3.new(.25,1.2,.25)*1.2 local lm4 = motor(l3,l4,CFrame.new(0,1.1,0) * CFrame.Angles(0,0,math.rad(-10)) * CFrame.Angles(math.rad(3),0,0),CFrame.new(0,-.6,0),.1) local feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.4,3,.3) weld(l4,feather,CFrame.new(-.1,-.3,0),CFrame.new(0,-1.5,0)) feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.4,2.3,.3) weld(l4,feather,CFrame.new(.1,-.1,0) * CFrame.Angles(0,math.random()*.1,0),CFrame.new(0,-1.1,0)) feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.35,2.2,.25) weld(l4,feather,CFrame.new(.1,-.3,0) * CFrame.Angles(0,math.random()*.1,math.rad(-10)),CFrame.new(0,-1.1,0)) local lf3 = {} for i=0,7 do feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.45,2.2,.35) table.insert(lf3,motor(l3,feather,CFrame.new(.05,1-i*.285,0) * CFrame.Angles(0,math.random()*.1,math.rad(-25-i*2)),CFrame.new(0,-feather.Size.Y/2,0))) end local lf2 = {} for i=0,6 do feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.45,2.2-i*.08,.3) table.insert(lf2,motor(l2,feather,CFrame.new(.05,.75-i*.26,0) * CFrame.Angles(0,math.random()*.1,math.rad(-75-i*4)),CFrame.new(0,-feather.Size.Y/2,0))) end local lf1 = {} for i=0,6 do feather = newfeather() feather.Mesh.Scale = Vector3.new(1,1,1) feather.Size = Vector3.new(.37,1.65-i*.06,.25) table.insert(lf1,motor(l1,feather,CFrame.new(.05,.63-i*.21,0) * CFrame.Angles(0,math.random()*.05,math.rad(-75)),CFrame.new(0,-feather.Size.Y/2,0))) end local rwing = {rm1,rm2,rm3,rm4} local lwing = {lm1,lm2,lm3,lm4} local oc0 = {} for i,v in pairs(rwing) do oc0[v] = v.C0 end for i,v in pairs(lwing) do oc0[v] = v.C0 end function gotResized() if lastsize then if tor.Size == lastsize then return end -- This shouldn't happen? local scaleVec = tor.Size/lastsize for i,v in pairs(oc0) do oc0[i] = v-v.p+scaleVec*v.p end lastsize = tor.Size end lastsize = tor.Size end tor.Changed:connect(function(p) if p == "Size" then gotResized() end end) gotResized() local idle = {0,0.5,-.2,0; .05,.05,.1,.05; -.6,-1.5,.1,0;}--0,.3,0,0 local outlow = {-.7,-.2,1.8,0; .3,.05,.1,.05; .2,0,0,0} local outhigh = {.5,-.2,1.8,0; .3,.05,.1,.05; .2,0,0,0} local veryhigh = {.9,-.3,1.9,0; .3,.05,.1,.05; .2,0,0,0} local flap1 = {-.3,.3,1.1,-.2; .3,.05,.1,.05; .2,-.6,0,0} local divebomb = {0,.2,.4,-.7; .3,.05,.1,.05; 0,-.5,-.6,0} function setwings(tab,time) time = time or 10 for i=1,4 do rwing[i].DesiredAngle = tab[i] lwing[i].DesiredAngle = tab[i] rwing[i].MaxVelocity = math.abs(tab[i]-rwing[i].CurrentAngle)/time lwing[i].MaxVelocity = math.abs(tab[i]-lwing[i].CurrentAngle)/time local rcf = oc0[rwing[i]] * (tab[12+i] or CFrame.new()) local lcf = oc0[lwing[i]] * (tab[12+i] or CFrame.new()) end for i,v in pairs(rf1) do v.DesiredAngle = tab[9] v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time end for i,v in pairs(lf1) do v.DesiredAngle = tab[9] v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time end for i,v in pairs(rf2) do v.DesiredAngle = tab[10] v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time end for i,v in pairs(lf2) do v.DesiredAngle = tab[10] v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time end for i,v in pairs(rf3) do v.DesiredAngle = tab[11] v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time end for i,v in pairs(lf3) do v.DesiredAngle = tab[11] v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time end end setwings(outhigh,1) flying = false moving = false for i,v in pairs(tor:GetChildren()) do if v.ClassName:lower():match("body") then v:Destroy() end end local ctor = tor:Clone() ctor:ClearAllChildren() ctor.Name = "cTorso" ctor.Transparency = 1 ctor.CanCollide = false ctor.FormFactor = "Custom" ctor.Size = Vector3.new(.2,.2,.2) ctor.Parent = mod weld(tor,ctor) local bg = Instance.new("BodyGyro",ctor) bg.maxTorque = Vector3.new() bg.P = 15000 bg.D = 1000 local bv = Instance.new("BodyVelocity",ctor) bv.maxForce = Vector3.new() bv.P = 15000 vel = Vector3.new() cf = CFrame.new() flspd = 0 keysdown = {} keypressed = {} ktime = {} descendtimer = 0 jumptime = tick() hum.Jumping:connect(function() jumptime = tick() end) cam = workspace.CurrentCamera kd = plr:GetMouse().KeyDown:connect(oc(function(key) keysdown[key] = true keypressed[key] = true if key == "q" then descendtimer = tick() elseif key == " " and not hum.Jump then jumptime = tick() elseif (key == "a" or key == "d") and ktime[key] and tick()-ktime[key] < .3 and math.abs(reqrotx) < .3 then reqrotx = key == "a" and math.pi*2 or -math.pi*2 end ktime[key] = tick() end)) ku = plr:GetMouse().KeyUp:connect(function(key) keysdown[key] = false if key == " " then descendtimer = tick() end end) function mid(a,b,c) return math.max(a,math.min(b,c or -a)) end function bn(a) return a and 1 or 0 end function gm(tar) local m = 0 for i,v in pairs(tar:GetChildren()) do if v:IsA("BasePart") then m = m + v:GetMass() end m = m + gm(v) end return m end reqrotx = 0 local grav = 196.2 local con con = game:GetService("RunService").Stepped:connect(oc(function() --[[if not mod:IsDescendantOf(workspace) then pcall(function() kd:disconnect() end) pcall(function() ku:disconnect() end) bg:Destroy() bv:Destroy() con:disconnect() script:Destroy() return end]] local obvel = tor.CFrame:vectorToObjectSpace(tor.Velocity) local sspd, uspd,fspd = obvel.X,obvel.Y,obvel.Z if flying then local lfldir = fldir fldir = cam.CoordinateFrame:vectorToWorldSpace(Vector3.new(bn(keysdown.d)-bn(keysdown.a),0,bn(keysdown.s)-bn(keysdown.w))).unit local lmoving = moving moving = fldir.magnitude > .1 if lmoving and not moving then idledir = lfldir*Vector3.new(1,0,1) descendtimer = tick() end local dbomb = fldir.Y < -.6 or (moving and keysdown["1"]) if moving and keysdown["0"] and lmoving then fldir = (Vector3.new(lfldir.X,math.min(fldir.Y,lfldir.Y+.01)-.1,lfldir.Z)+(fldir*Vector3.new(1,0,1))*.05).unit end local down = tor.CFrame:vectorToWorldSpace(Vector3.new(0,-1,0)) local descending = (not moving and keysdown["q"] and not keysdown[" "]) cf = ccomplerp(cf,CFrame.new(tor.Position,tor.Position+(not moving and idledir or fldir)),keysdown["0"] and .02 or .07) local gdown = not dbomb and cf.lookVector.Y < -.2 and tor.Velocity.unit.Y < .05 hum.PlatformStand = true bg.maxTorque = Vector3.new(1,1,1)*9e5 local rotvel = CFrame.new(Vector3.new(),tor.Velocity):toObjectSpace(CFrame.new(Vector3.new(),fldir)).lookVector bg.cframe = cf * CFrame.Angles(not moving and -.1 or -math.pi/2+.2,moving and mid(-2.5,rotvel.X/1.5) + reqrotx or 0,0) reqrotx = reqrotx - reqrotx/10 bv.maxForce = Vector3.new(1,1,1)*9e4*.5 local anioff =(bn(keysdown[" "])-bn(keysdown["q"]))/2 local ani = tickwave(1.5-anioff,1) bv.velocity = bv.velocity:Lerp(Vector3.new(0,bn(not moving)*-ani*15+(descending and math.min(20,tick()-descendtimer)*-8 or bn(keysdown[" "])-bn(keysdown["q"]))*15,0)+vel,.6) vel = moving and cf.lookVector*flspd or Vector3.new() flspd = math.min(120,lerp(flspd,moving and (fldir.Y<0 and flspd+(-fldir.Y)*grav/60 or math.max(50,flspd-fldir.Y*grav/300)) or 60,.4)) setwings(moving and (gdown and outlow or dbomb and divebomb) or (descending and veryhigh or flap1),15) for i=1,4 do --CFrame.Angles(-.5+bn(i==3)*2.4+bn(i==4)*.5,.1+bn(i==2)*.5-bn(i==3)*1.1,bn(i==3)*.1) rwing[i].C0 = clerp(rwing[i].C0,oc0[rwing[i]] * (gdown and CFrame.new() or dbomb and CFrame.Angles(-.5+bn(i==3)*.4+bn(i==4)*.5,.1+bn(i==2)*.5-bn(i==3)*1.1,bn(i==3)*.1) or descending and CFrame.Angles(.3,0,0) or CFrame.Angles((i*.1+1.5)*ani,ani*-.5,1*ani)),descending and .8 or .2) lwing[i].C0 = clerp(lwing[i].C0,oc0[lwing[i]] * (gdown and CFrame.new() or dbomb and CFrame.Angles(-(-.5+bn(i==3)*.4+bn(i==4)*.5),-(.1+bn(i==2)*.5-bn(i==3)*1.1),bn(i==3)*.1) or descending and CFrame.Angles(-.3,0,0) or CFrame.Angles(-(i*.1+1.5)*ani,ani*.5,1*ani)),descending and .8 or .2) end local hit,ray = workspace:FindPartOnRayWithIgnoreList(Ray.new(tor.Position,Vector3.new(0,-3.5+math.min(0,bv.velocity.y)/30,0)),{char}) if hit and down.Y < -.85 and tick()-flystart > 1 then flying = false hum.PlatformStand = false tor.Velocity = Vector3.new() end else bg.maxTorque = Vector3.new() bv.maxForce = Vector3.new() local ani = tickwave(walking and .8 or 4.5,1) setwings(idle,10) local x,y,z = fspd/160,uspd/700,sspd/900 for i=1,4 do rwing[i].C0 = clerp(rwing[i].C0,oc0[rwing[i]] * CFrame.Angles(ani*.1 + -mid(-.1,x),0 + -mid(-.1,y) + bn(i==2)*.6,ani*.02 + -mid(-.1,z)),.2) lwing[i].C0 = clerp(lwing[i].C0,oc0[lwing[i]] * CFrame.Angles(ani*-.05 + mid(-.1,x),0 + mid(-.1,y) + -bn(i==2)*.6,ani*.02 + mid(-.1,z)),.2) end if keypressed[" "] and not flying and (tick()-jumptime > .05 and (tick()-jumptime < 3 or hum.Jump)) then vel = Vector3.new(0,50,0) bv.velocity = vel idledir = cam.CoordinateFrame.lookVector*Vector3.new(1,0,1) cf = tor.CFrame * CFrame.Angles(-.01,0,0) tor.CFrame = cf bg.cframe = cf flystart = tick() flying = true end end keypressed = {} end)) end fly() --Bird Wings By Rosemarijohn2