Case((IfL(Input,0.125)),0.652587890625,(Case((IfLE(Input,0.25)),0.69677734375,(Case((IfLE(Input,0.375)),0.72821044921875,(Case((IfLE(Input,0.5)),0.772537231445313,(Case((IfLE(Input,0.625)),0.816940307617188,(Case((IfLE(Input,0.75)),0.84832763671875,(Case((IfLE(Input,0.875)),0.883743286132813,(Case((IfLE(Input,1)),0.92449951171875,0.92449951171875)))))))))))))))
channel sampler time arpeg
0.176529+(IfG(Input,0.2))*0.19458+(IfG(Input,0.4))*0.20462+(IfG(Input,0.6))*0.210633+(IfG(Input,0.8))*0.124374+(IfG(Input,0.99))*0.088257
fruity delay stepy semitones
Int(Input*17)/16
bouton 50%
1-Input*0.5-0.5
1-Input*0.5
(sin(Input*(2*pi)))*0.5+0.5
(sin(Input*(8*pi)))*0.5+0.5
(sin(Input*(pi*2))*0.45+0.5)+(rand*0.1-0.05)
(sin(Input*(pi*2))*0.4+0.5)+(rand*0.2-0.1)
input*(sin(Input*(pi*9))*0.5+0.5)
input*(sin(Input*(pi*19))*0.5+0.5)
input*(sin(Input*(pi*17))*0.5+0.5)
input*(sin(Input*(pi*9)))*0.5+0.5
input*(sin(Input*(pi*19)))*0.5+0.5
1-(tension(Input,-20)*(sin(Input*(pi*17))*0.5+0.5))
1-(tension(Input,-200)*(sin(Input*(pi*29))*0.5+0.5))
(sin((tension(Input,-50))*(pi*2)))*0.5+0.5
(sin((tension(Input,-5000))*(pi*9)))*0.5+0.5
sin(Input*(pi*(Input)))
tension((cos(Input*(pi*2))*0.5+0.5),-9000)
tension((cos(Input*(pi*2))*0.5+0.5),+9000)
1-(rand*(Input>0.9))
1-(((1-Input-0.75)*(Input<0.25))+((max(0.25,Input)-0.25)*(Input<0.75))+((1-Input+0.25)*(Input>0.75)))*2
((Input+0.5)*(Input<0.5))+(max((Input-0.5),0))
(1-((Input<0.4)+(Input>0.6)))
(1-((Input<0.1)+(Input>0.9)))
round((sin(Input*(2*pi)))*0.5+0.5)
round((sin(Input*(8*pi)))*0.5+0.5)
round((sin((tension(Input,-20))*(pi*8)))*0.5+0.5)
round((sin((tension(Input,-2000))*(pi*16)))*0.5+0.5)
((1-(cos(Input*pi)))*(Input<0.501))+(((cos(Input*pi))+1)*(Input>0.499))
((((Input*2)-1)^2)*2)*0.5
(((((Input*2)-1)^3)*4)-(3*((Input*2)-1)))*0.5+0.5
(((((Input*2)-1)^4)*8)-((((Input*2)-1)^2)*8)+1)*0.5+0.5
(((((Input*2)-1)^5)*16)-((((Input*2)-1)^3)*20)+(((Input*2)-1)*5))*0.5+0.5
(((((Input*2)-1)^6)*32)-((((Input*2)-1)^4)*48)+((((Input*2)-1)^2)*18)-1)*0.5+0.5
(((((Input*2)-1)^7)*64)-((((Input*2)-1)^5)*112)+((((Input*2)-1)^3)*56)-(((Input*2)-1)*7))*0.5+0.5
(((((Input*2)-1)^8)*128)-((((Input*2)-1)^6)*256)+((((Input*2)-1)^4)*160)-((((Input*2)-1)^2)*32)+1)*0.5+0.5
(((((Input*2)-1)^9)*256)-((((Input*2)-1)^7)*576)+((((Input*2)-1)^5)*432)-((((Input*2)-1)^3)*120)+(((Input*2)-1)*9))*0.5+0.5
(((((Input*2)-1)^10)*512)-((((Input*2)-1)^8)*1280)+((((Input*2)-1)^6)*1120)-((((Input*2)-1)^4)*400)+((((Input*2)-1)^2)*50)-1)*0.5+0.5
log10(Input)*1+1
log10(Input)*0.58+1
Parabolic Gate1 : Sin(Input*31)
c'est bien simple avec cette formule, si vous remplacez 31 par d'autres chiffres ça multiplie ou divise le nombre de vagues
Parabolic Gate2 : Sin(Input*31/pi)
même chose que la précédente avec le symbole pi rajouté, ça multiplie et divise avec des plus grand écarts donc mettre des chiffres plus gros.
