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- --BetMultiplier_v2
- -- Function to set proper 2x bet multiplier based on balance.
- -- This is not a complete script. This is just a routine that will continuously reset your bet multiplier for
- -- a 2x game. It's range is from 2.25 to 3.00 in 0.01 increments.
- tmulti = 2.25
- bmulti = 2.25
- base = 0.00000001
- runCnt = 0
- runMax = 10000
- maxroll = 0
- tmaxroll = 0
- bethigh = true
- chance = 49.50
- nextbet = base
- mcnt = 75
- -- Initialize bray[75]
- bray = {}
- for n = 0, mcnt do
- bray[n] = bmulti + (0.01 * n) -- Array of bmulti values
- end
- -- End initilization
- function dobet()
- -- Process stop
- runCnt = runCnt + 1
- if (runCnt > runMax) then
- print("Process Complete!")
- stop()
- end
- -- End Process stop
- -- Start process to determine current bet multiplier
- if ((math.fmod(runCnt, 50) == 0) or (runCnt == 0)) then
- tmulti = 2.25
- for n = 0, mcnt do
- bmulti = bray[n]
- -- Funtion to set maxroll
- -- Based on balance and multiplier.
- m = bmulti
- b = base
- car1 = 0
- car2 = 0
- if ((balance > (b * m^0)) and (balance < (b + (b * m^1)))) then
- maxroll = 1
- else
- car1 = (b + (b * m^1))
- car2 = car1 + (b * m^2)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 2
- else
- car1 = car2
- car2 = car1 + (b * m^3)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 3
- else
- car1 = car2
- car2 = car1 + (b * m^4)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 4
- else
- car1 = car2
- car2 = car1 + (b * m^5)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 5
- else
- car1 = car2
- car2 = car2 + (b * m^6)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 6
- else
- car1 = car2
- car2 = car1 + (b * m^7)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 7
- else
- car1 = car2
- car2 = car1 + (b * m^8)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 8
- else
- car1 = car2
- car2 = car1 + (b * m^9)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 9
- else
- car1 = car2
- car2 = car1 + (b * m^10)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 10
- else
- car1 = car2
- car2 = car1 + (b * m^11)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 11
- else
- car1 = car2
- car2 = car1 + (b * m^12)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 12
- else
- car1 = car2
- car2 = car1 + (b * m^13)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 13
- else
- car1 = car2
- car2 = car1 + (b * m^14)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 14
- else
- car1 = car2
- car2 = car1 + (b * m^15)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 15
- else
- car1 = car2
- car2 = car1 + (b * m^16)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 16
- else
- car1 = car2
- car2 = car1 + (b * m^17)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 17
- else
- car1 = car2
- car2 = car1 + (b * m^18)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 18
- else
- car1 = car2
- car2 = car1 + (b * m^19)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 19
- else
- car1 = car2
- car2 = car1 + (b * m^20)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 20
- else
- car1 = car2
- car2 = car1 + (b * m^21)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 21
- else
- car1 = car2
- car2 = car1 + (b * m^22)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 22
- else
- car1 = car2
- car2 = car1 + (b * m^23)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 23
- else
- car1 = car2
- car2 = car1 + (b * m^24)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 24
- else
- car1 = car2
- car2 = car1 + (b * m^25)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 25
- else
- car1 = car2
- car2 = car1 + (b * m^26)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 26
- else
- car1 = car2
- car2 = car1 + (b * m^27)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 27
- else
- car1 = car2
- car2 = car1 + (b * m^28)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 28
- else
- car1 = car2
- car2 = car1 + (b * m^29)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 29
- else
- car1 = car2
- car2 = car1 + (b * m^30)
- if ((balance > car1) and (balance < car2)) then
- maxroll = 30
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- end
- -- End set maxroll
- if (bmulti ~= tmulti) then
- if (maxroll >= tmaxroll) then
- tmaxroll = maxroll
- tmulti = bmulti
- end
- end
- end -- End for statement
- bmulti = tmulti -- Output 2x multiplier
- print(bmulti)
- end -- End of if statement
- -- End process to set bet multiplier
- -- Begin bet calcs
- if win then
- nextbet = base
- else
- nextbet = previousbet * bmulti
- end
- end -- end dobet
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