View difference between Paste ID: CyKMWHaa and 71qtkUdx
SHOW: | | - or go back to the newest paste.
1
script.Parent = nil
2
3
function fly()
4
5
for i,v in pairs(script:GetChildren()) do
6
7
        pcall(function() v.Value = "" end)
8
9
        game:GetService("Debris"):AddItem(v,.1)
10
11
end)
12
13
function weld(p0,p1,c0,c1,par)
14
15
        local w = Instance.new("Weld",p0 or par)
16
17
        w.Part0 = p0
18
19
        w.Part1 = p1
20
21
        w.C0 = c0 or CFrame.new()
22
23
        w.C1 = c1 or CFrame.new()
24
25
        return w
26
27
end
28
29
local motors = {}
30
31
function motor(p0,p1,c0,c1,des,vel,par)
32
33
        local w = Instance.new("Motor6D",p0 or par)
34
35
        w.Part0 = p0
36
37
        w.Part1 = p1
38
39
        w.C0 = c0 or CFrame.new()
40
41
        w.C1 = c1 or CFrame.new()
42
43
        w.MaxVelocity = tonumber(vel) or .05
44
45
        w.DesiredAngle = tonumber(des) or 0
46
47
        return w
48
49
end
50
51
function lerp(a,b,c)
52
53
    return a+(b-a)*c
54
55
end
56
57
function clerp(c1,c2,al)
58
59
        local com1 = {c1.X,c1.Y,c1.Z,c1:toEulerAnglesXYZ()}
60
61
        local com2 = {c2.X,c2.Y,c2.Z,c2:toEulerAnglesXYZ()}
62
63
        for i,v in pairs(com1) do
64
65
                com1[i] = lerp(v,com2[i],al)
66
67
        end
68
69
        return CFrame.new(com1[1],com1[2],com1[3]) * CFrame.Angles(select(4,unpack(com1)))
70
71
end
72
73
function ccomplerp(c1,c2,al)
74
75
        local com1 = {c1:components()}
76
77
        local com2 = {c2:components()}
78
79
        for i,v in pairs(com1) do
80
81
                com1[i] = lerp(v,com2[i],al)
82
83
        end
84
85
        return CFrame.new(unpack(com1))
86
87
end
88
89
function tickwave(time,length,offset)
90
91
        return (math.abs((tick()+(offset or 0))%time-time/2)*2-time/2)/time/2*length
92
93
end
94
95
function invcol(c)
96
97
        c = c.Color
98
99
        return BrickColor.new(Color3.new(1-c.b,1-c.g,1-c.r))
100
101
end
102
103
local oc = oc or function(...) return ... end
104
105
local plr = game.Players.LocalPlayer
106
107
local char = plr.Character
108
109
local tor = char.Torso
110
111
local hum = char.Humanoid
112
113
hum.PlatformStand = false
114
115
pcall(function()
116
117
        char.Wings:Destroy()
118
119
end)
120
121
pcall(function()
122
123
        char.Angel:Destroy() -- hat
124
125
end)
126
127
local mod = Instance.new("Model",char)
128
129
mod.Name = "Wings"
130
131
local special = {
132
133
        --antiboomz0r = {"Really black","Institutional white",0,0,false,Color3.new(1,1,.95),Color3.new(1,1,.6)},
134
135
        antiboomz0r = {"New Yeller",nil,0.4,0.7,true,Color3.new(1,1,.95),Color3.new(1,1,.6)},
136
137
        --antiboomz0r = {"Cyan","Toothpaste",0,0,false,Color3.new(1,0,0),Color3.new(0,0,0)},
138
139
        taart = {"Royal purple",nil,.4,.4,true},
140
141
        mitta = {"Black",nil,0,0,false},
142
143
        penjuin3 = {"White",nil,0,0,false},
144
145
        thepc8110 = {"Black","Bright red",.5,0,false,Color3.new(1,0,0),Color3.new(0,0,0)},
146
147
        nonspeaker = {"Cyan","Toothpaste",0,0,false,Color3.new(1,0,0),Color3.new(0,0,0)},
148
149
        littleau999 = {"Reddish brown",1030,0,0,false},
150
151-
        SmokeDelsin = {"Really black","Really black",.2,0,true,Color3.new(0,0,0),Color3.new(0,0,0)},
151+
        unscripter = {"Really black","Really black",.2,0,true,Color3.new(0,0,0),Color3.new(0,0,0)},
152
153-
        SmokeDelsin = {"White","Really black",.2,0,false,Color3.new(0,0,0),Color3.new(0,0,0)},
153+
        oxcool1 = {"Really black","White",.2,0,false,Color3.new(0,0,0),Color3.new(0,0,0)},
154
155-
        SmokeDelsin = {"Really black",nil,0,0,tre},
155+
        SmokeDelsin = {"Really black",nil,0,0,false},
156
157
}
158
159-
local topcolor = char.Torso.BrickColor
159+
local topcolor = invcol(char.Torso.BrickColor)
160
161
local feacolor = char.Torso.BrickColor
162
163
local ptrans = 0
164
165
local pref = 0
166
167
local fire = false
168
169
local fmcol = Color3.new()
170
171
local fscol = Color3.new()
172
173
local spec = special[plr.Name:lower()]
174
175
if spec then
176
177
        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]
178
179
end
180
181
local part = Instance.new("Part")
182
183
part.FormFactor = "Custom"
184
185
part.Size = Vector3.new(.2,.2,.2)
186
187
part.TopSurface,part.BottomSurface = 0,0
188
189
part.CanCollide = false
190
191
part.BrickColor = topcolor
192
193
part.Transparency = ptrans
194
195
part.Reflectance = pref
196
197
local ef = Instance.new("Fire",fire and part or nil)
198
199
ef.Size = .15
200
201
ef.Color = fmcol or Color3.new()
202
203
ef.SecondaryColor = fscol or Color3.new()
204
205
part:BreakJoints()
206
207
208
function newpart()
209
210
        local clone = part:Clone()
211
212
        clone.Parent = mod
213
214
        clone:BreakJoints()
215
216
        return clone
217
218
end
219
220
local feath = newpart()
221
222
feath.BrickColor = feacolor
223
224
feath.Transparency = 0
225
226
Instance.new("SpecialMesh",feath).MeshType = "Sphere"
227
228
function newfeather()
229
230
        local clone = feath:Clone()
231
232
        clone.Parent = mod
233
234
        clone:BreakJoints()
235
236
        return clone
237
238
end
239
240
241
---------- RIGHT WING
242
243
local r1 = newpart()
244
245
r1.Size = Vector3.new(.3,1.5,.3)*1.2
246
247
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)
248
249
local r2 = newpart()
250
251
r2.Size = Vector3.new(.4,1.8,.4)*1.2
252
253
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)
254
255
local r3 = newpart()
256
257
r3.Size = Vector3.new(.3,2.2,.3)*1.2
258
259
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)
260
261
local r4 = newpart()
262
263
r4.Size = Vector3.new(.25,1.2,.25)*1.2
264
265
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)
266
267
local feather = newfeather()
268
269
feather.Mesh.Scale = Vector3.new(1,1,1)
270
271
feather.Size = Vector3.new(.4,3,.3)
272
273
weld(r4,feather,CFrame.new(-.1,-.3,0),CFrame.new(0,-1.5,0))
274
275
feather = newfeather()
276
277
feather.Mesh.Scale = Vector3.new(1,1,1)
278
279
feather.Size = Vector3.new(.4,2.3,.3)
280
281
weld(r4,feather,CFrame.new(.1,-.1,0) * CFrame.Angles(0,math.random()*.1,0),CFrame.new(0,-1.1,0))
282
283
feather = newfeather()
284
285
feather.Mesh.Scale = Vector3.new(1,1,1)
286
287
feather.Size = Vector3.new(.35,2.2,.25)
288
289
weld(r4,feather,CFrame.new(.1,-.3,0) * CFrame.Angles(0,math.random()*.1,math.rad(-10)),CFrame.new(0,-1.1,0))
290
291
local rf3 = {}
292
293
for i=0,7 do
294
295
        feather = newfeather()
296
297
        feather.Mesh.Scale = Vector3.new(1,1,1)
298
299
        feather.Size = Vector3.new(.45,2.2,.35)
300
301
        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)))
302
303
end
304
305
local rf2 = {}
306
307
for i=0,6 do
308
309
        feather = newfeather()
310
311
        feather.Mesh.Scale = Vector3.new(1,1,1)
312
313
        feather.Size = Vector3.new(.45,2.2-i*.08,.3)
314
315
        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)))
316
317
end
318
319
local rf1 = {}
320
321
for i=0,6 do
322
323
        feather = newfeather()
324
325
        feather.Mesh.Scale = Vector3.new(1,1,1)
326
327
        feather.Size = Vector3.new(.37,1.65-i*.06,.25)
328
329
        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)))
330
331
end
332
333
---------- LEFT WING
334
335
local l1 = newpart()
336
337
l1.Size = Vector3.new(.3,1.5,.3)*1.2
338
339
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)
340
341
local l2 = newpart()
342
343
l2.Size = Vector3.new(.4,1.8,.4)*1.2
344
345
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)
346
347
local l3 = newpart()
348
349
l3.Size = Vector3.new(.3,2.2,.3)*1.2
350
351
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)
352
353
local l4 = newpart()
354
355
l4.Size = Vector3.new(.25,1.2,.25)*1.2
356
357
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)
358
359
local feather = newfeather()
360
361
feather.Mesh.Scale = Vector3.new(1,1,1)
362
363
feather.Size = Vector3.new(.4,3,.3)
364
365
weld(l4,feather,CFrame.new(-.1,-.3,0),CFrame.new(0,-1.5,0))
366
367
feather = newfeather()
368
369
feather.Mesh.Scale = Vector3.new(1,1,1)
370
371
feather.Size = Vector3.new(.4,2.3,.3)
372
373
weld(l4,feather,CFrame.new(.1,-.1,0) * CFrame.Angles(0,math.random()*.1,0),CFrame.new(0,-1.1,0))
374
375
feather = newfeather()
376
377
feather.Mesh.Scale = Vector3.new(1,1,1)
378
379
feather.Size = Vector3.new(.35,2.2,.25)
380
381
weld(l4,feather,CFrame.new(.1,-.3,0) * CFrame.Angles(0,math.random()*.1,math.rad(-10)),CFrame.new(0,-1.1,0))
382
383
local lf3 = {}
384
385
for i=0,7 do
386
387
        feather = newfeather()
388
389
        feather.Mesh.Scale = Vector3.new(1,1,1)
390
391
        feather.Size = Vector3.new(.45,2.2,.35)
392
393
        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)))
394
395
end
396
397
local lf2 = {}
398
399
for i=0,6 do
400
401
        feather = newfeather()
402
403
        feather.Mesh.Scale = Vector3.new(1,1,1)
404
405
        feather.Size = Vector3.new(.45,2.2-i*.08,.3)
406
407
        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)))
408
409
end
410
411
local lf1 = {}
412
413
for i=0,6 do
414
415
        feather = newfeather()
416
417
        feather.Mesh.Scale = Vector3.new(1,1,1)
418
419
        feather.Size = Vector3.new(.37,1.65-i*.06,.25)
420
421
        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)))
422
423
end
424
425
local rwing = {rm1,rm2,rm3,rm4}
426
427
local lwing = {lm1,lm2,lm3,lm4}
428
429
local oc0 = {}
430
431
for i,v in pairs(rwing) do
432
433
        oc0[v] = v.C0
434
435
end
436
437
for i,v in pairs(lwing) do
438
439
        oc0[v] = v.C0
440
441
end
442
443
function gotResized()
444
445
        if lastsize then
446
447
                if tor.Size == lastsize then return end -- This shouldn't happen?
448
449
                local scaleVec = tor.Size/lastsize
450
451
                for i,v in pairs(oc0) do
452
453
                        oc0[i] = v-v.p+scaleVec*v.p
454
455
                end
456
457
                lastsize = tor.Size
458
459
        end
460
461
        lastsize = tor.Size
462
463
end
464
465
tor.Changed:connect(function(p)
466
467
        if p == "Size" then
468
469
                gotResized()
470
471
        end
472
473
end)
474
475
gotResized()
476
477
local idle = {0,0.5,-.2,0; .05,.05,.1,.05; -.6,-1.5,.1,0;}--0,.3,0,0
478
479
local outlow = {-.7,-.2,1.8,0; .3,.05,.1,.05; .2,0,0,0}
480
481
local outhigh = {.5,-.2,1.8,0; .3,.05,.1,.05; .2,0,0,0}
482
483
local veryhigh = {.9,-.3,1.9,0; .3,.05,.1,.05; .2,0,0,0}
484
485
local flap1 = {-.3,.3,1.1,-.2; .3,.05,.1,.05; .2,-.6,0,0}
486
487
local divebomb = {0,.2,.4,-.7; .3,.05,.1,.05; 0,-.5,-.6,0}
488
489
490
function setwings(tab,time)
491
492
        time = time or 10
493
494
        for i=1,4 do
495
496
                rwing[i].DesiredAngle = tab[i]
497
498
                lwing[i].DesiredAngle = tab[i]
499
500
                rwing[i].MaxVelocity = math.abs(tab[i]-rwing[i].CurrentAngle)/time
501
502
                lwing[i].MaxVelocity = math.abs(tab[i]-lwing[i].CurrentAngle)/time
503
504
                local rcf = oc0[rwing[i]] * (tab[12+i] or CFrame.new())
505
506
                local lcf = oc0[lwing[i]] * (tab[12+i] or CFrame.new())
507
508
        end
509
510
        for i,v in pairs(rf1) do
511
512
                v.DesiredAngle = tab[9]
513
514
                v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time
515
516
        end
517
518
        for i,v in pairs(lf1) do
519
520
                v.DesiredAngle = tab[9]
521
522
                v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time
523
524
        end
525
526
        for i,v in pairs(rf2) do
527
528
                v.DesiredAngle = tab[10]
529
530
                v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time
531
532
        end
533
534
        for i,v in pairs(lf2) do
535
536
                v.DesiredAngle = tab[10]
537
538
                v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time
539
540
        end
541
542
        for i,v in pairs(rf3) do
543
544
                v.DesiredAngle = tab[11]
545
546
                v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time
547
548
        end
549
550
        for i,v in pairs(lf3) do
551
552
                v.DesiredAngle = tab[11]
553
554
                v.MaxVelocity = math.abs(v.DesiredAngle-v.CurrentAngle)/time
555
556
        end
557
558
end
559
560
setwings(outhigh,1)
561
562
flying = false
563
564
moving = false
565
566
for i,v in pairs(tor:GetChildren()) do
567
568
        if v.ClassName:lower():match("body") then
569
570
                v:Destroy()
571
572
        end
573
574
end
575
576
local ctor = tor:Clone()
577
578
ctor:ClearAllChildren()
579
580
ctor.Name = "cTorso"
581
582
ctor.Transparency = 1
583
584
ctor.CanCollide = false
585
586
ctor.FormFactor = "Custom"
587
588
ctor.Size = Vector3.new(.2,.2,.2)
589
590
ctor.Parent = mod
591
592
weld(tor,ctor)
593
594
local bg = Instance.new("BodyGyro",ctor)
595
596
bg.maxTorque = Vector3.new()
597
598
bg.P = 15000
599
600
bg.D = 1000
601
602
local bv = Instance.new("BodyVelocity",ctor)
603
604
bv.maxForce = Vector3.new()
605
606
bv.P = 15000
607
608
vel = Vector3.new()
609
610
cf = CFrame.new()
611
612
flspd = 0
613
614
615
keysdown = {}
616
617
keypressed = {}
618
619
ktime = {}
620
621
descendtimer = 0
622
623
jumptime = tick()
624
625
hum.Jumping:connect(function()
626
627
        jumptime = tick()
628
629
end)
630
631
cam = workspace.CurrentCamera
632
633
kd = plr:GetMouse().KeyDown:connect(oc(function(key) 
634
635
        keysdown[key] = true 
636
637
        keypressed[key] = true 
638
639
        if key == "q" then 
640
641
                descendtimer = tick() 
642
643
        elseif key == " " and not hum.Jump then 
644
645
                jumptime = tick()
646
647
        elseif (key == "a" or key == "d") and ktime[key] and tick()-ktime[key] < .3 and math.abs(reqrotx) < .3 then
648
649
                reqrotx = key == "a" and math.pi*2 or -math.pi*2
650
651
        end
652
653
        ktime[key] = tick() 
654
655
end))
656
657
ku = plr:GetMouse().KeyUp:connect(function(key) 
658
659
        keysdown[key] = false 
660
661
        if key == " " then 
662
663
                descendtimer = tick() 
664
665
        end 
666
667
end)
668
669
function mid(a,b,c)
670
671
        return math.max(a,math.min(b,c or -a))
672
673
end
674
675
function bn(a)
676
677
        return a and 1 or 0
678
679
end
680
681
function gm(tar)
682
683
        local m = 0
684
685
        for i,v in pairs(tar:GetChildren()) do
686
687
                if v:IsA("BasePart") then
688
689
                        m = m + v:GetMass()
690
691
                end
692
693
                        m = m + gm(v)
694
695
        end
696
697
        return m
698
699
end
700
701
reqrotx = 0
702
703
local grav = 196.2
704
705
local con
706
707
con = game:GetService("RunService").Stepped:connect(oc(function()
708
709
        --[[if not mod:IsDescendantOf(workspace) then
710
711
                pcall(function() kd:disconnect() end)
712
713
                pcall(function() ku:disconnect() end)
714
715
                bg:Destroy()
716
717
                bv:Destroy()
718
719
                con:disconnect()
720
721
                script:Destroy()
722
723
                return
724
725
        end]]
726
727
        local obvel = tor.CFrame:vectorToObjectSpace(tor.Velocity)
728
729
        local sspd, uspd,fspd = obvel.X,obvel.Y,obvel.Z
730
731
        if flying then
732
733
                local lfldir = fldir
734
735
                fldir = cam.CoordinateFrame:vectorToWorldSpace(Vector3.new(bn(keysdown.d)-bn(keysdown.a),0,bn(keysdown.s)-bn(keysdown.w))).unit
736
737
                local lmoving = moving
738
739
                moving = fldir.magnitude > .1
740
741
                if lmoving and not moving then
742
743
                        idledir = lfldir*Vector3.new(1,0,1)
744
745
                        descendtimer = tick()
746
747
                end
748
749
                local dbomb = fldir.Y < -.6 or (moving and keysdown["1"])
750
751
                if moving and keysdown["0"] and lmoving then
752
753
                        fldir = (Vector3.new(lfldir.X,math.min(fldir.Y,lfldir.Y+.01)-.1,lfldir.Z)+(fldir*Vector3.new(1,0,1))*.05).unit
754
755
                end
756
757
                local down = tor.CFrame:vectorToWorldSpace(Vector3.new(0,-1,0))
758
759
                local descending = (not moving and keysdown["q"] and not keysdown[" "])
760
761
                cf = ccomplerp(cf,CFrame.new(tor.Position,tor.Position+(not moving and idledir or fldir)),keysdown["0"] and .02 or .07)
762
763
                local gdown = not dbomb and cf.lookVector.Y < -.2 and tor.Velocity.unit.Y < .05
764
765
                hum.PlatformStand = true
766
767
                bg.maxTorque = Vector3.new(1,1,1)*9e5
768
769
                local rotvel = CFrame.new(Vector3.new(),tor.Velocity):toObjectSpace(CFrame.new(Vector3.new(),fldir)).lookVector
770
771
                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)
772
773
                reqrotx = reqrotx - reqrotx/10
774
775
                bv.maxForce = Vector3.new(1,1,1)*9e4*.5
776
777
                local anioff =(bn(keysdown[" "])-bn(keysdown["q"]))/2
778
779
                local ani = tickwave(1.5-anioff,1)
780
781
                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) 
782
783
                vel = moving and cf.lookVector*flspd or Vector3.new()
784
785
                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))
786
787
                setwings(moving and (gdown and outlow or dbomb and divebomb) or (descending and veryhigh or flap1),15)
788
789
                for i=1,4 do
790
791
                        --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)
792
793
                        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)
794
795
                        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)
796
797
                end
798
799
                local hit,ray = workspace:FindPartOnRayWithIgnoreList(Ray.new(tor.Position,Vector3.new(0,-3.5+math.min(0,bv.velocity.y)/30,0)),{char})
800
801
                if hit and down.Y < -.85 and tick()-flystart > 1 then
802
803
                        flying = false
804
805
                        hum.PlatformStand = false
806
807
                        tor.Velocity = Vector3.new()
808
809
                end
810
811
        else
812
813
                bg.maxTorque = Vector3.new()
814
815
                bv.maxForce = Vector3.new()
816
817
                local ani = tickwave(walking and .8 or 4.5,1)
818
819
                setwings(idle,10)
820
821
                local x,y,z = fspd/160,uspd/700,sspd/900
822
823
                for i=1,4 do
824
825
                        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)
826
827
                        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)
828
829
                end
830
831
                if keypressed[" "] and not flying and (tick()-jumptime > .05 and (tick()-jumptime < 3 or hum.Jump)) then
832
833
                        vel = Vector3.new(0,50,0)
834
835
                        bv.velocity = vel
836
837
                        idledir = cam.CoordinateFrame.lookVector*Vector3.new(1,0,1)
838
839
                        cf = tor.CFrame * CFrame.Angles(-.01,0,0)
840
841
                        tor.CFrame = cf
842
843
                        bg.cframe = cf
844
845
                        flystart = tick()
846
847
                        flying = true
848
849
                end
850
851
        end
852
853
        keypressed = {}
854
855
end))
856
857
858
859
end fly()
860
861
local plr = game:service'Players'.LocalPlayer
862
local m = plr:GetMouse()
863
local char = plr.Character
864
local runservice = game:service'RunService'
865
local modelScale = 1/5
866
867
868
pcall(function() local a = script.Parent.FaerieScript if a ~= script then a:Destroy() end end)
869
pcall(function() local a = char.Animate if a ~= script then a.Disabled = true a:Destroy() end end)
870
script.Name = "FaerieScript"
871
872
function weld(a,b,c,d)
873
        local w = Instance.new("Weld",a)
874
        w.Part0 = a
875
        w.Part1 = b
876
        w.C0 = c or CFrame.new()
877
        w.C1 = d or CFrame.new()
878
        return w
879
end
880
881
function lerp(a,b,c)
882
    return a+(b-a)*c
883
end
884
885
do  -- Ignore my clerp stuff stolen from stravvy
886
        local function QuaternionFromCFrame(cf) 
887
                local mx, my, mz, m00, m01, m02, m10, m11, m12, m20, m21, m22 = cf:components() 
888
                local trace = m00 + m11 + m22 
889
                if trace > 0 then 
890
                        local s = math.sqrt(1 + trace) 
891
                        local recip = 0.5/s 
892
                        return (m21-m12)*recip, (m02-m20)*recip, (m10-m01)*recip, s*0.5 
893
                else 
894
                        local i = 0 
895
                        if m11 > m00 then
896
                                i = 1 
897
                        end 
898
                        if m22 > (i == 0 and m00 or m11) then 
899
                                i = 2 
900
                        end 
901
                        if i == 0 then 
902
                                local s = math.sqrt(m00-m11-m22+1) 
903
                                local recip = 0.5/s 
904
                                return 0.5*s, (m10+m01)*recip, (m20+m02)*recip, (m21-m12)*recip 
905
                        elseif i == 1 then 
906
                                local s = math.sqrt(m11-m22-m00+1) 
907
                                local recip = 0.5/s 
908
                                return (m01+m10)*recip, 0.5*s, (m21+m12)*recip, (m02-m20)*recip 
909
                        elseif i == 2 then 
910
                                local s = math.sqrt(m22-m00-m11+1) 
911
                                local recip = 0.5/s return (m02+m20)*recip, (m12+m21)*recip, 0.5*s, (m10-m01)*recip 
912
                        end 
913
                end 
914
        end   
915
        local function QuaternionToCFrame(px, py, pz, x, y, z, w) 
916
                local xs, ys, zs = x + x, y + y, z + z 
917
                local wx, wy, wz = w*xs, w*ys, w*zs 
918
                local xx = x*xs 
919
                local xy = x*ys 
920
                local xz = x*zs 
921
                local yy = y*ys 
922
                local yz = y*zs 
923
                local zz = z*zs 
924
                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)) 
925
                end   
926
        local function QuaternionSlerp(a, b, t) 
927
                local cosTheta = a[1]*b[1] + a[2]*b[2] + a[3]*b[3] + a[4]*b[4] 
928
                local startInterp, finishInterp; 
929
                if cosTheta >= 0.0001 then 
930
                        if (1 - cosTheta) > 0.0001 then 
931
                                local theta = math.acos(cosTheta) 
932
                                local invSinTheta = 1/math.sin(theta) 
933
                                startInterp = math.sin((1-t)*theta)*invSinTheta 
934
                                finishInterp = math.sin(t*theta)*invSinTheta  
935
                        else 
936
                                startInterp = 1-t 
937
                                finishInterp = t 
938
                        end 
939
                else 
940
                        if (1+cosTheta) > 0.0001 then 
941
                                local theta = math.acos(-cosTheta) 
942
                                local invSinTheta = 1/math.sin(theta) 
943
                                startInterp = math.sin((t-1)*theta)*invSinTheta 
944
                                finishInterp = math.sin(t*theta)*invSinTheta 
945
                        else 
946
                                startInterp = t-1 
947
                                finishInterp = t 
948
                        end 
949
                end 
950
                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 
951
        end  
952
        function clerp(a,b,t) 
953
                local qa = {QuaternionFromCFrame(a)}
954
                local qb = {QuaternionFromCFrame(b)} 
955
                local ax, ay, az = a.x, a.y, a.z 
956
                local bx, by, bz = b.x, b.y, b.z  
957
                local _t = 1-t 
958
                return QuaternionToCFrame(_t*ax + t*bx, _t*ay + t*by, _t*az + t*bz,QuaternionSlerp(qa, qb, t)) 
959
        end 
960
end
961
962
963
Instance.new("Hat",char)
964
local root = char.HumanoidRootPart
965
local tw = root.RootJoint
966
local tor = char.Torso
967
local hd = char.Head
968
local hum = char.Humanoid
969
hum.Health = 40
970
hum.MaxHealth = 40
971
hum.WalkSpeed = 12
972
local rl,ll = char["Right Leg"],char["Left Leg"]
973
local ra,la = char["Right Arm"],char["Left Arm"]
974
975
local c0 = {
976
        rs = CFrame.new(1,.5,0),
977
        ls = CFrame.new(-1,.5,0),
978
        rh = CFrame.new(.5,-1,0),
979
        lh = CFrame.new(-.5,-1,0),
980
        nk = CFrame.new(0,1,0),
981
        tw = CFrame.new(0,0,0)*CFrame.Angles(0,0,0),
982
}
983
local c1 = {
984
        rs = CFrame.new(-.5,.5,0),
985
        ls = CFrame.new(.5,.5,0),
986
        rh = CFrame.new(0,1,0),
987
        lh = CFrame.new(0,1,0),
988
        nk = CFrame.new(0,-.5,0),
989
        tw = CFrame.new(0,0,0)*CFrame.Angles(0,0,0)
990
}
991
992
local rs = tor["Right Shoulder"]
993
local ls = tor["Left Shoulder"]
994
local rh = tor["Right Hip"]
995
local lh = tor["Left Hip"]
996
local nk = tor["Neck"]
997
for i,v in pairs(tor:GetChildren()) do
998
        if v:IsA("Motor6D") then
999
                v.DesiredAngle = 0
1000
                v.MaxVelocity = 0
1001
                v.CurrentAngle = 0
1002
        end
1003
end
1004
1005
1006
1007
1008
pcall(function() tor.roblox:Destroy() end)
1009
1010
pcall(function() char.Faerie:Destroy() end)
1011
local model = Instance.new("Model",char)
1012
model.Name = "Faerie"
1013
1014
local BasePart = Instance.new("Part")
1015
BasePart.CanCollide = false
1016
BasePart.Anchored = false
1017
BasePart.FormFactor = "Custom"
1018
BasePart.Locked = true
1019
BasePart.Size = Vector3.new()
1020
BasePart.TopSurface,BasePart.BottomSurface,BasePart.LeftSurface,BasePart.RightSurface,BasePart.FrontSurface,BasePart.BackSurface = 10,10,10,10,10,10
1021
BasePart:BreakJoints()
1022
1023
function NP(par)
1024
    local p = BasePart:Clone()
1025
    p.Parent = par or model
1026
    return p
1027
end
1028
1029
1030
for i,v in pairs(char:GetChildren()) do
1031
        if v:IsA("BasePart") then
1032
                v.Material = "SmoothPlastic"
1033
                v.TopSurface,v.BottomSurface,v.FrontSurface,v.BackSurface,v.LeftSurface,v.RightSurface = 10,10,10,10,10,10
1034
        end
1035
end
1036
1037
do
1038
        if modelScale ~= 1 then
1039
                for i,v in pairs(c0) do
1040
                        c0[i] = (v-v.p) + v.p*modelScale
1041
                end
1042
                for i,v in pairs(c1) do
1043
                        c1[i] = (v-v.p) + v.p*modelScale
1044
                end
1045
                local Joints = {}
1046
            local gtJoints,gtParts;
1047
1048
            local function gtCFrame(cf)
1049
                return (cf-cf.p) + cf.p * modelScale
1050
            end
1051
1052
            function gtJoints(p)
1053
                for i,v in pairs(p:GetChildren()) do
1054
                    if v:IsA("JointInstance") then
1055
                        table.insert(Joints,{v,v.Part0,v.Part1})
1056
                        v.Part0 = nil
1057
                        v.Part1 = nil
1058
                        v.C0 = (v.C0-(v.C0.p)) + (v.C0.p * modelScale) 
1059
                        v.C1 = (v.C1-(v.C1.p)) + (v.C1.p * modelScale) 
1060
                    end
1061
                    gtJoints(v)
1062
                end 
1063
            end
1064
1065
            function gtParts(p)
1066
                for i,v in pairs(p:GetChildren()) do
1067
                    if v:IsA("BasePart") then
1068
                        pcall(function() v.FormFactor = "Custom" end)
1069
                        local oldz = v.Size
1070
                        local cf = tor.CFrame:toObjectSpace(v.CFrame)
1071
                        v.Size = v.Size * modelScale
1072
                        v.CFrame = tor.CFrame * gtCFrame(cf)
1073
                        local mesh = nil
1074
                        for i,t in pairs(v:GetChildren()) do 
1075
                            if t:IsA("DataModelMesh") then 
1076
                                mesh = t 
1077
                            end 
1078
                        end
1079
                        if mesh == nil and v:IsA("Part") and v.Shape == Enum.PartType.Ball then 
1080
                            mesh = Instance.new("SpecialMesh",v) 
1081
                            mesh.MeshType = Enum.MeshType.Sphere 
1082
                        end
1083
                        if mesh == nil and ((v:IsA("Part") and v.Shape == Enum.PartType.Block) or v:IsA("Seat") or v:IsA("VehicleSeat")) then 
1084
                            mesh = Instance.new("BlockMesh",v) 
1085
                        end
1086
                        if mesh ~= nil then
1087
                                if mesh:IsA("SpecialMesh") and mesh.MeshType == Enum.MeshType.FileMesh then
1088
                                        mesh.Scale = mesh.Scale * modelScale
1089
                                else
1090
                                    mesh.Scale = mesh.Scale*(oldz*modelScale)/v.Size
1091
                            end
1092
                        end
1093
                    end
1094
                    gtParts(v)
1095
                end 
1096
            end
1097
            gtJoints(char)
1098
            gtParts(char)
1099
            for i,v in pairs(Joints) do
1100
                v[1].Part0 = v[2]
1101
                v[1].Part1 = v[3]
1102
            end
1103
        end
1104
end
1105
rs.C0,rs.C1 = c0.rs,c1.rs
1106
ls.C0,ls.C1 = c0.ls,c1.ls
1107
rh.C0,rh.C1 = c0.rh,c1.rh
1108
lh.C0,lh.C1 = c0.lh,c1.lh
1109
nk.C0,nk.C1 = c0.nk,c1.nk
1110
tw.C0,tw.C1 = c0.tw,c1.tw
1111
1112
local w10,w20 = w1.C0,w2.C0
1113
1114
local pl = tor:FindFirstChild("FairyLight") or Instance.new("PointLight",tor)
1115
pl.Name = "FairyLight"
1116
pl.Shadows = false
1117
pl.Range = 8
1118
pl.Brightness = 10
1119
1120
local sparkles = tor:FindFirstChild("FairySparkles") or Instance.new("Sparkles",tor)
1121
sparkles.Name = "FairySparkles"
1122
1123
1124
local outfit = 0
1125
local outfitparts = {ra,la,rl,ll,tor}
1126
local outfits = {
1127
        {{106705109},{106705077},{106703301},{106703213},{106705037}}
1128
}
1129
1130
1131
local mycolor = ll.BrickColor.Color
1132
local mycolor2 = mycolor
1133
1134
function setOutfit()
1135
        local of = outfits[outfit]
1136
        if of then
1137
                for i,v in pairs(outfitparts) do
1138
                        local mesh = v:FindFirstChild("outfitMesh")
1139
                        local meshdata = outfits[outfit][i]
1140
                        if not mesh then
1141
                                mesh = Instance.new("SpecialMesh",v)
1142
                                mesh.Name = "outfitMesh"
1143
                                mesh.TextureId = "rbxassetid://9854798"
1144
                        end
1145
                        mesh.Scale =(meshdata[2] or Vector3.new(1,1,1)) * modelScale
1146
                        mesh.MeshId = "rbxassetid://"..meshdata[1]
1147
                        mesh.VertexColor = Vector3.new(mycolor2.r,mycolor2.g,mycolor2.b)
1148
                end
1149
        else
1150
                for i,v in pairs(outfitparts) do
1151
                        pcall(function() v.outfitMesh:Destroy() end)
1152
                end
1153
        end
1154
end
1155
setOutfit()
1156
1157
local senabled = true
1158
local lenabled = true
1159
function changeColor()
1160
        for i,v in pairs(char:GetChildren()) do
1161
                if v:IsA("BasePart") then
1162
                        v.BrickColor = BrickColor.new(mycolor)
1163
                end
1164
        end
1165
        local mc1 = Vector3.new(mycolor.r,mycolor.g,mycolor.b)
1166
        local mc2 = Vector3.new(mycolor2.r,mycolor2.g,mycolor2.b)
1167
        w1m.VertexColor,w2m.VertexColor,hm.VertexColor = mc1,mc1,mc2
1168
        for i,v in pairs(outfitparts) do
1169
                local mesh = v:FindFirstChild("outfitMesh")
1170
                if mesh then
1171
                        mesh.VertexColor = mc2
1172
                end
1173
        end
1174
        pl.Color = mycolor
1175
        sparkles.SparkleColor = mycolor
1176
end
1177
changeColor()
1178
1179
do
1180
        pcall(function() plr.PlayerGui.fairyColoring:Destroy() end)
1181
        local scr = Instance.new("ScreenGui",plr.PlayerGui)
1182
        scr.Name = "fairyColoring"
1183
        local fr = Instance.new("Frame",scr)
1184
        fr.Size = UDim2.new(0,-150,0,-65)
1185
        fr.BackgroundColor3 = Color3.new(1,1,1)
1186
        fr.BorderColor3 = Color3.new(.05,.05,.05)
1187
        fr.BackgroundTransparency = .8
1188
        fr.Position = UDim2.new(1,0,1,scr.Parent:FindFirstChild("PandaHelpNotify") and -20 or 0)
1189
        fr.ZIndex = 9
1190
        local am = 75
1191
        local rval,gval,bval = mycolor.r,mycolor.g,mycolor.b
1192
        local r = Instance.new("TextButton",fr)
1193
        r.BackgroundTransparency = 1
1194
        r.Size = UDim2.new(0,75,0,15)
1195
        r.Position = UDim2.new(0,5,0,5)
1196
        r.TextColor3 = Color3.new(1,1,1)
1197
        r.TextStrokeTransparency = .4
1198
        for i=1,am do
1199
                local t = Instance.new("ImageLabel",r)
1200
                t.BorderSizePixel = 0
1201
                t.Size = UDim2.new(1/am,0,1,0)
1202
                t.Position = UDim2.new((i-1)/am,0,0,0)
1203
                t.Name = i
1204
                t.ZIndex = 10
1205
        end
1206
        local rb = Instance.new("ImageLabel",r)
1207
        rb.ZIndex = 10
1208
        rb.Size = UDim2.new(0,2,1,-2)
1209
        rb.BackgroundColor3 = Color3.new(0,0,0)
1210
        rb.BackgroundTransparency = .5
1211
        rb.BorderColor3 = Color3.new(.4,.4,.4)
1212
        rb.Name = "b"
1213
        local g = r:Clone()
1214
        g.Parent = fr
1215
        g.Position = UDim2.new(0,5,0,25)
1216
        local b = r:Clone()
1217
        b.Parent = fr
1218
        b.Position = UDim2.new(0,5,0,45)
1219
        r.ZIndex,g.ZIndex,b.ZIndex = 10,10,10
1220
        local prev = Instance.new("TextButton",fr)
1221
        prev.Size = UDim2.new(0,55,0,45)
1222
        prev.Position = UDim2.new(0,90,0,5)
1223
        prev.ZIndex = 10
1224
        prev.BorderColor3 = Color3.new(.2,.2,.2)
1225
        prev.TextColor3 = Color3.new(1,1,1)
1226
        prev.TextStrokeTransparency = .4
1227
        prev.TextYAlignment = "Bottom"
1228
        prev.FontSize = "Size8"
1229
        prev.TextWrapped = true
1230
        local res = Instance.new("TextButton",fr)
1231
        res.Size = UDim2.new(0,55,0,9)
1232
        res.Position = UDim2.new(0,90,0,51)
1233
        res.ZIndex = 10
1234
        res.BorderColor3 = Color3.new(.2,.2,.2)
1235
        res.BackgroundColor3 = Color3.new(.5,0,0)
1236
        res.TextColor3 = Color3.new(1,1,1)
1237
        res.Text = "reset"
1238
        res.FontSize = "Size8"
1239
        local mode = 0
1240
        local function update(set)
1241
                r.b.Position = UDim2.new(rval,-1,0,1)
1242
                g.b.Position = UDim2.new(gval,-1,0,1)
1243
                b.b.Position = UDim2.new(bval,-1,0,1)
1244
                local col = Color3.new(rval,gval,bval)
1245
                prev.BackgroundColor3 = mode == 1 and mycolor2 or mycolor
1246
                prev.Text = ""
1247
                r.Text = math.floor(rval*255+.5)
1248
                g.Text = math.floor(gval*255+.5)
1249
                b.Text = math.floor(bval*255+.5)
1250
                for i,v in pairs(r:GetChildren()) do
1251
                        local n = tonumber(v.Name)
1252
                        if n then
1253
                                local sc = n/am
1254
                                v.BackgroundColor3 = Color3.new(sc,gval,bval)
1255
                        end
1256
                end
1257
                for i,v in pairs(g:GetChildren()) do
1258
                        local n = tonumber(v.Name)
1259
                        if n then
1260
                                local sc = n/am
1261
                                v.BackgroundColor3 = Color3.new(rval,sc,bval)
1262
                        end
1263
                end
1264
                for i,v in pairs(b:GetChildren()) do
1265
                        local n = tonumber(v.Name)
1266
                        if n then
1267
                                local sc = n/am
1268
                                v.BackgroundColor3 = Color3.new(rval,gval,sc)
1269
                        end
1270
                end
1271
                if set ~= false then
1272
                        if mode == 0 then
1273
                                mycolor = col
1274
                        end
1275
                        if mode == 1 then
1276
                                mycolor2 = col
1277
                        end
1278
                        changeColor()
1279
                end
1280
        end
1281
        update()
1282
        local rd,gd,bd = false,false,false
1283
        r.MouseButton1Down:connect(function(x,y) rd = true rval = (x-r.AbsolutePosition.X)/r.AbsoluteSize.X update()  end)
1284
        r.MouseButton1Up:connect(function() rd = false end)
1285
        r.MouseLeave:connect(function() rd = false end)
1286
        r.MouseMoved:connect(function(x,y) if not rd then return end rval = (x-r.AbsolutePosition.X)/r.AbsoluteSize.X update() end)
1287
        g.MouseButton1Down:connect(function(x,y) gd = true gval = (x-g.AbsolutePosition.X)/g.AbsoluteSize.X update() end)
1288
        g.MouseButton1Up:connect(function() gd = false end)
1289
        g.MouseLeave:connect(function() gd = false end)
1290
        g.MouseMoved:connect(function(x,y) if not gd then return end gval = (x-g.AbsolutePosition.X)/g.AbsoluteSize.X update() end)
1291
        b.MouseButton1Down:connect(function(x,y) bd = true bval = (x-b.AbsolutePosition.X)/b.AbsoluteSize.X update() end)
1292
        b.MouseButton1Up:connect(function() bd = false end)
1293
        b.MouseLeave:connect(function() bd = false end)
1294
        b.MouseMoved:connect(function(x,y) if not bd then return end bval = (x-b.AbsolutePosition.X)/b.AbsoluteSize.X update() end)
1295
        res.MouseButton1Click:connect(function()
1296
                rval,gval,bval = themeColor.Color.r,themeColor.Color.g,themeColor.Color.b
1297
                update()
1298
        end)
1299
1300
        local modebtn = Instance.new("TextButton",fr)
1301
        modebtn.Position = UDim2.new(1,-150,0,-15)
1302
        modebtn.Size = UDim2.new(0,49,0,14)
1303
        modebtn.BackgroundColor3 = Color3.new(1,1,0)
1304
        modebtn.BackgroundTransparency = .6
1305
        modebtn.TextScaled = true
1306
        modebtn.Font = 4
1307
        modebtn.TextColor3 = Color3.new(1,1,1)
1308
        modebtn.TextStrokeTransparency = .7
1309
        modebtn.Text = "Body"
1310
        modebtn.MouseButton1Click:connect(function()
1311
                mode = (mode+1)%2
1312
                local col = mode == 1 and mycolor2 or mycolor
1313
                rval,gval,bval = col.r,col.g,col.b
1314
                modebtn.Text = mode == 0 and "Body" or "Clothes"
1315
                update(false)
1316
        end)
1317
1318
        local outfitbtn = Instance.new("TextButton",fr)
1319
        outfitbtn.Position = UDim2.new(1,-150,0,-30)
1320
        outfitbtn.Size = UDim2.new(0,49,0,14)
1321
        outfitbtn.BackgroundColor3 = Color3.new(1,1,0)
1322
        outfitbtn.BackgroundTransparency = .6
1323
        outfitbtn.TextScaled = true
1324
        outfitbtn.Font = 4
1325
        outfitbtn.TextColor3 = Color3.new(1,1,1)
1326
        outfitbtn.TextStrokeTransparency = .7
1327
        outfitbtn.Text = "Outfit"
1328
        outfitbtn.MouseButton1Click:connect(function()
1329
                outfit = (outfit+1)%(#outfits+1)
1330
                setOutfit()
1331
        end)
1332
1333
        local sparklebtn = Instance.new("TextButton",fr)
1334
        sparklebtn.Position = UDim2.new(1,-100,0,-15)
1335
        sparklebtn.Size = UDim2.new(0,100,0,14)
1336
        sparklebtn.BackgroundColor3 = Color3.new(0,1,0)
1337
        sparklebtn.BackgroundTransparency = .6
1338
        sparklebtn.TextScaled = true
1339
        sparklebtn.Font = 4
1340
        sparklebtn.TextColor3 = Color3.new(1,1,1)
1341
        sparklebtn.TextStrokeTransparency = .7
1342
        sparklebtn.Text = "Sparkles"
1343
        sparklebtn.MouseButton1Click:connect(function()
1344
                senabled = not senabled
1345
                sparklebtn.BackgroundColor3 = senabled and Color3.new(0,1,0) or Color3.new(1,0,0)
1346
        end)
1347
        local lightbtn = Instance.new("TextButton",fr)
1348
        lightbtn.Position = UDim2.new(1,-100,0,-30)
1349
        lightbtn.Size = UDim2.new(0,100,0,14)
1350
        lightbtn.BackgroundColor3 = Color3.new(0,1,0)
1351
        lightbtn.BackgroundTransparency = .6
1352
        lightbtn.TextScaled = true
1353
        lightbtn.Font = 4
1354
        lightbtn.TextColor3 = Color3.new(1,1,1)
1355
        lightbtn.TextStrokeTransparency = .7
1356
        lightbtn.Text = "Light"
1357
        lightbtn.MouseButton1Click:connect(function()
1358
                lenabled = not lenabled
1359
                lightbtn.BackgroundColor3 = lenabled and Color3.new(0,1,0) or Color3.new(1,0,0)
1360
        end)
1361
end
1362
1363
1364
local gyro = root:FindFirstChild("RootGyro") or Instance.new("BodyGyro",root)
1365
gyro.maxTorque = Vector3.new()
1366
gyro.Name = "RootGyro"
1367
1368
local vel = root:FindFirstChild("RootVel") or Instance.new("BodyVelocity",root)
1369
vel.maxForce = Vector3.new()
1370
vel.Name = "RootVel"
1371
vel.P = 4000
1372
1373
local flying = false
1374
local state = "idle"
1375
local kd = {}
1376
local humspd = 0
1377
local flyspeed = 0
1378
local flystop = 0
1379
local sitting = false
1380
local holding = false
1381
1382
m.KeyDown:connect(function(k)
1383
        local now = tick()
1384
        kd[k] = now
1385
        if k == " " and not flying then
1386
                pcall(function() sitting:Destroy() end)
1387
                sitting = nil
1388
                state = "fly"
1389
                flying = true
1390
                flydir = (root.CFrame.lookVector*Vector3.new(1,0,1)).unit
1391
        elseif k == " " and state == "fly" then
1392
                flying = false
1393
                state = "idle"
1394
                flystop = tick()
1395
        elseif k == "x" and m.Target and (root.Position-m.Hit.p).magnitude < 20*modelScale then
1396
                local tar = m.Target
1397
                local cf = tar.CFrame:toObjectSpace(m.Hit)
1398
                local siz = tar.Size/2
1399
                local cfr
1400
                local rx,ry,rz = 0,0,0
1401
                local lv = tar.CFrame:vectorToObjectSpace(root.CFrame.lookVector)
1402
                if math.abs(cf.Y-siz.Y) < .03 then
1403
                        cfr = CFrame.new(cf.p + Vector3.new(0,3*modelScale,0)) * CFrame.Angles(0,math.atan2(-lv.X,-lv.Z),0)
1404
                elseif math.abs(-cf.Y-siz.Y) < .03 then
1405
                        cfr = CFrame.new(cf.p - Vector3.new(0,3*modelScale,0)) * CFrame.Angles(0,math.atan2(-lv.X,-lv.Z),math.pi)
1406
                elseif math.abs(cf.X-siz.X) < .03 then
1407
                        cfr = CFrame.new(cf.p + Vector3.new(3*modelScale,0,0)) * CFrame.Angles(0,0,-math.pi/2) * CFrame.Angles(0,math.atan2(-lv.X,-lv.Z),0)
1408
                elseif math.abs(-cf.X-siz.X) < .03 then
1409
                        cfr = CFrame.new(cf.p - Vector3.new(3*modelScale,0,0)) * CFrame.Angles(0,0,math.pi/2) * CFrame.Angles(0,math.atan2(-lv.X,-lv.Z),0)
1410
                elseif math.abs(cf.Z-siz.Z) < .03 then
1411
                        cfr = CFrame.new(cf.p + Vector3.new(0,0,3*modelScale)) * CFrame.Angles(math.pi/2,0,0) * CFrame.Angles(0,math.atan2(-lv.X,-lv.Z),0)
1412
                elseif math.abs(-cf.Z-siz.Z) < .03 then
1413
                        cfr = CFrame.new(cf.p - Vector3.new(0,0,3*modelScale)) * CFrame.Angles(-math.pi/2,0,0) * CFrame.Angles(0,math.atan2(-lv.X,-lv.Z),0)
1414
                end
1415
                if cfr then
1416
                        pcall(function() sitting:Destroy() end)
1417
                        flying = false
1418
                        state = "sit"
1419
                        if m.Target.Anchored then
1420
                                sitting = {tar = tar, cf = cfr}
1421
                        else
1422
                                sitting = weld(tar,root,cfr)
1423
                        end
1424
                end
1425
        end
1426
end)
1427
m.KeyUp:connect(function(k)
1428
        kd[k] = nil
1429
end)
1430
1431
hum.Running:connect(function(spd)
1432
        if state ~= "idle" and state ~= "walk" and state ~= "inair" then return end
1433
        humspd = spd
1434
        state = flying and "fly" or (spd < 1 and "idle" or "walk")
1435
end)
1436
hum.Climbing:connect(function(spd)
1437
        if state ~= "idle" and state ~= "walk" and state ~= "inair" then return end
1438
        humspd = spd
1439
        state = flying and "fly" or (spd < 1 and "idle" or "walk")
1440
end)
1441
hum.Seated:connect(function(a)
1442
        state = a and "sit" or humspd > 0 and "idle" or "walk"
1443
end)
1444
1445
hum.Changed:connect(function()
1446
        if hum.Jump then
1447
                hum.Jump = false
1448
        end
1449
end)
1450
1451
hum.FreeFalling:connect(function()
1452
        if state ~= "idle" and state ~= "walk" and state ~= "inair" then return end
1453
        state = math.abs(tor.Velocity.Y) > 1 and "inair" or state
1454
end)
1455
1456
hum.FallingDown:connect(function(a)
1457
        if not a then return end
1458
        state = "inair"
1459
end)
1460
1461
1462
1463
while true do
1464
        runservice.RenderStepped:wait()
1465
        local cam = workspace.CurrentCamera
1466
        local alpha = .2
1467
        sparkles.Enabled = senabled and flying and tor.Velocity.magnitude > 3
1468
        pl.Enabled = lenabled
1469
        if state ~= "fly" then
1470
                if type(sitting) == "table" then
1471
                        gyro.maxTorque = Vector3.new(1,1,1)*4e6
1472
                        vel.maxForce = Vector3.new(1,1,1)*4e5
1473
                        gyro.cframe = sitting.tar.CFrame * sitting.cf
1474
                        vel.velocity = (gyro.cframe.p-root.Position)*10
1475
                else
1476
                        gyro.maxTorque,vel.maxForce = Vector3.new(),Vector3.new()
1477
                end
1478
        end
1479
        if sitting then
1480
                state = "sit"
1481
        end
1482
        tw.MaxVelocity,rh.MaxVelocity,lh.MaxVelocity,rs.MaxVelocity,ls.MaxVelocity,nk.MaxVelocity = 0,0,0,0,0,0
1483
        tw.CurrentAngle,rh.CurrentAngle,lh.CurrentAngle,rs.CurrentAngle,ls.CurrentAngle,nk.CurrentAngle = 0,0,0,0,0,0
1484
1485
        local hasRobe = outfit == 1
1486
1487
        if state == "idle" then
1488
                hum.PlatformStand = false
1489
                local breathing = math.sin(tick()*2)
1490
                local tilt = .02 + breathing*.03
1491
                w1.C0 = clerp(w1.C0,w10*CFrame.Angles(0,-.01+breathing*.01,0),alpha)
1492
                w2.C0 = clerp(w2.C0,w20*CFrame.Angles(0,.01-breathing*.01,0),alpha)
1493
1494
                tw.C0 = clerp(tw.C0,c0.tw*CFrame.Angles(tilt,0,0),alpha)
1495
                rh.C0 = clerp(rh.C0,c0.rh*CFrame.Angles(-tilt,hasRobe and 0 or -.1,hasRobe and 0 or .06),alpha)
1496
                lh.C0 = clerp(lh.C0,c0.lh*CFrame.Angles(-tilt,hasRobe and 0 or .1,hasRobe and 0 or -.06),alpha)
1497
                rs.C0 = clerp(rs.C0,c0.rs*CFrame.Angles(-tilt,0,.1),alpha)
1498
                ls.C0 = clerp(ls.C0,c0.ls*CFrame.Angles(-tilt,0,-.1),alpha)
1499
                nk.C0 = clerp(nk.C0,c0.nk*CFrame.Angles(-tilt+breathing*.05-.03,0,0),alpha)
1500
        elseif state == "inair" then
1501
                hum.PlatformStand = false
1502
                local wings = math.sin(tick()*80)
1503
                w1.C0 = clerp(w1.C0,w10*CFrame.Angles(0,-.15+wings*.3,0),.6)
1504
                w2.C0 = clerp(w2.C0,w20*CFrame.Angles(0,.15-wings*.3,0),.6)
1505
                local alpha = .15
1506
                local tilt = .05
1507
                local wavey = math.sin(tick()*3)
1508
                tw.C0 = clerp(tw.C0,c0.tw*CFrame.Angles(tilt,0,0),alpha)
1509
                rh.C0 = clerp(rh.C0,c0.rh*CFrame.Angles(-tilt+wavey*.1,0,hasRobe and 0 or .02),alpha)
1510
                lh.C0 = clerp(lh.C0,c0.lh*CFrame.Angles(-tilt-wavey*.1,0,hasRobe and 0 or -.02),alpha)
1511
                rs.C0 = clerp(rs.C0,c0.rs*CFrame.Angles(-tilt-wavey*.07,0,.01),alpha)
1512
                ls.C0 = clerp(ls.C0,c0.ls*CFrame.Angles(-tilt+wavey*.07,0,-.01),alpha)
1513
                nk.C0 = clerp(nk.C0,c0.nk*CFrame.Angles(-tilt+.2,0,0),alpha)
1514
        elseif state == "walk" then
1515
                hum.PlatformStand = false
1516
                local walking = math.sin(tick()*25) 
1517
                local breathing = math.sin(tick()*2)
1518
                local tilt = -.03-breathing*.02+walking*.01
1519
                alpha = .6
1520
                w1.C0 = clerp(w1.C0,w10*CFrame.Angles(0,-.05+breathing*.01+walking*.05,0),alpha)
1521
                w2.C0 = clerp(w2.C0,w20*CFrame.Angles(0,.05-breathing*.01+walking*.05,0),alpha)
1522
1523
                tw.C0 = clerp(tw.C0,c0.tw*CFrame.Angles(tilt,-walking*.08,0),alpha)
1524
                rh.C0 = clerp(rh.C0,c0.rh*CFrame.Angles(-tilt+walking*.3,0,hasRobe and 0 or .02),alpha)
1525
                lh.C0 = clerp(lh.C0,c0.lh*CFrame.Angles(-tilt-walking*.3,0,hasRobe and 0 or -.02),alpha)
1526
                rs.C0 = clerp(rs.C0,c0.rs*CFrame.Angles(-tilt+.05-walking*.25,0,.01),alpha)
1527
                ls.C0 = clerp(ls.C0,c0.ls*CFrame.Angles(-tilt+.05+walking*.25,0,-.01),alpha)
1528
                nk.C0 = clerp(nk.C0,c0.nk*CFrame.Angles(-tilt+breathing*.04,walking*.07,0),alpha)
1529
        elseif state == "sit" then
1530
                hum.Sit = false
1531
                hum.PlatformStand = true
1532
                local breathing = math.sin(tick()*2)
1533
                local upvec = root.CFrame:vectorToWorldSpace(Vector3.new(0,1,0))
1534
                if upvec.Y > .4 then
1535
                        local tilt = -.55+breathing*.015
1536
                        w1.C0 = clerp(w1.C0,w10*CFrame.Angles(0,-.01+breathing*.01,0),alpha)
1537
                        w2.C0 = clerp(w2.C0,w20*CFrame.Angles(0,.01-breathing*.01,0),alpha)
1538
                        tw.C0 = clerp(tw.C0,c0.tw*CFrame.Angles(tilt,0,0)+Vector3.new(0,-1.7,0)*modelScale,alpha)
1539
                        rh.C0 = clerp(rh.C0,c0.rh*CFrame.Angles(-tilt+1.57,0,hasRobe and 0 or .6),alpha)
1540
                        lh.C0 = clerp(lh.C0,c0.lh*CFrame.Angles(-tilt+1.57,0,hasRobe and 0 or -.6),alpha)
1541
                        rs.C0 = clerp(rs.C0,c0.rs*CFrame.Angles(-tilt+.3,0,-.1)*CFrame.Angles(hasRobe and .3 or 0,hasRobe and .2 or 0,hasRobe and -.2 or 0)+(hasRobe and 0 or 1)*Vector3.new(-.85,-.25,-.25)*modelScale,alpha)
1542
                        ls.C0 = clerp(ls.C0,c0.ls*CFrame.Angles(-tilt+.3,0,.1)*CFrame.Angles(hasRobe and .3 or 0,hasRobe and -.2 or 0,hasRobe and .2 or 0)+(hasRobe and 0 or 1)*Vector3.new(.85,-.25,-.25)*modelScale,alpha)
1543
                        nk.C0 = clerp(nk.C0,c0.nk*CFrame.Angles(-tilt+breathing*.04-.03,0,math.sin(tick()*4)*.06),alpha)
1544
                else -- wallhug
1545
                        local breathing = math.sin(tick()*5)
1546
                        local tilt = -1.55+breathing*.015
1547
                        w1.C0 = clerp(w1.C0,w10*CFrame.Angles(0,-.01+breathing*.01,0),alpha)
1548
                        w2.C0 = clerp(w2.C0,w20*CFrame.Angles(0,.01-breathing*.01,0),alpha)
1549
                        tw.C0 = clerp(tw.C0,c0.tw*CFrame.Angles(tilt,0,0)+Vector3.new(0,-2.5,0)*modelScale,alpha)
1550
                        rh.C0 = clerp(rh.C0,c0.rh*CFrame.Angles(.2,0,hasRobe and 0 or .5)+Vector3.new(0,hasRobe and 0 or .2,0)*modelScale,alpha)
1551
                        lh.C0 = clerp(lh.C0,c0.lh*CFrame.Angles(.2,0,hasRobe and 0 or -.5)+Vector3.new(0,hasRobe and 0 or .2,0)*modelScale,alpha)
1552
                        rs.C0 = clerp(rs.C0,c0.rs*CFrame.Angles(2.9,0,.8)+Vector3.new(-.2,.4,0)*modelScale,alpha)
1553
                        ls.C0 = clerp(ls.C0,c0.ls*CFrame.Angles(2.9,0,-.8)+Vector3.new(.2,.4,0)*modelScale,alpha)
1554
                        nk.C0 = clerp(nk.C0,c0.nk*CFrame.Angles(breathing*.04+.7,0,0),alpha)
1555
                end
1556
        elseif state == "fly" then
1557
                hum.PlatformStand = true
1558
                gyro.maxTorque = Vector3.new(1,1,1)*4e6
1559
                vel.maxForce = Vector3.new(1,1,1)*4e5
1560
1561
                local velocity = Vector3.new((kd.d and 1 or 0)+(kd.a and -1 or 0),0,(kd.s and 1 or 0)+(kd.w and -1 or 0))
1562
                velocity = cam.CoordinateFrame:vectorToWorldSpace(velocity)
1563
                local maxspeed = 40-(velocity.magnitude > 0 and velocity.unit.Y*20 or 0)
1564
                if velocity.magnitude > 0 then
1565
                        flyspeed = lerp(flyspeed,maxspeed,.1)
1566
                        flydir = flydir:Lerp(velocity.unit,.4).unit
1567
                        hoverheight = nil
1568
                else
1569
                        flyspeed = lerp(flyspeed,0,.3)
1570
                        flydir = (flydir*Vector3.new(1,0,1)).unit
1571
                        hoverheight = hoverheight or root.Position.Y
1572
                end
1573
                vel.velocity = flydir.unit * flyspeed
1574
                if hoverheight then
1575
                        vel.velocity = vel.velocity + Vector3.new(0,hoverheight-root.Position.Y,0)
1576
                end
1577
                gyro.cframe = CFrame.new(Vector3.new(),flydir*Vector3.new(1,0,1))
1578
1579
                rl.CanCollide,ll.CanCollide = true,true
1580
1581
                local wings = math.sin(tick()*80)
1582
                w1.C0 = clerp(w1.C0,w10*CFrame.Angles(0,-.15+wings*.3,0),.6)
1583
                w2.C0 = clerp(w2.C0,w20*CFrame.Angles(0,.15-wings*.3,0),.6)
1584
                local alpha = .15
1585
                local flytilt = (flyspeed/maxspeed)
1586
                local tilt = flytilt*-1.4 + math.asin(gyro.cframe:vectorToObjectSpace(flydir).unit.Y)
1587
                local wavey = math.sin(tick()*6)
1588
                tw.C0 = clerp(tw.C0,c0.tw*CFrame.Angles(tilt,0,0),alpha)
1589
                rh.C0 = clerp(rh.C0,c0.rh*CFrame.Angles(wavey*.1,hasRobe and 0 or -.08,hasRobe and 0 or .1),alpha)
1590
                lh.C0 = clerp(lh.C0,c0.lh*CFrame.Angles(-wavey*.1,hasRobe and 0 or .08,hasRobe and 0 or -.1),alpha)
1591
                rs.C0 = clerp(rs.C0,c0.rs*CFrame.Angles(-wavey*.15,-.08,.1),alpha)
1592
                ls.C0 = clerp(ls.C0,c0.ls*CFrame.Angles(wavey*.15,.08,-.1),alpha)
1593
                nk.C0 = clerp(nk.C0,c0.nk*CFrame.Angles(-tilt*.8,0,0),alpha)
1594
        end
1595
end