134 lines
4.6 KiB
TOML
134 lines
4.6 KiB
TOML
|
|
#General settings
|
|
[general]
|
|
|
|
#Settings for the blazing generator
|
|
[general.blazing]
|
|
#Maximum amount of power the blazing generator can store
|
|
#Range: > 0
|
|
blazingGeneratorMaxPower = 1000000
|
|
#Maximum amount of power the blazing generator give to adjacent machines per side and per tick
|
|
#Range: > 0
|
|
blazingGeneratorSendPerTick = 20000
|
|
#Maximum amount of power the blazing agitator can store
|
|
#Range: > 0
|
|
blazingAgitatorMaxPower = 50000
|
|
#Amount of RF per tick input (per side) for the agitator
|
|
#Range: > 0
|
|
blazingAgitatorRFPerTick = 100
|
|
#Amount of RF per tick the agitator uses while operating
|
|
#Range: > 0
|
|
blazingAgitatorUsePerTick = 10
|
|
#Maximum amount of power the blazing infuser can store
|
|
#Range: > 0
|
|
blazingInfuserMaxPower = 50000
|
|
#Amount of RF per tick input (per side) for the infuser
|
|
#Range: > 0
|
|
blazingInfuserRFPerTick = 100
|
|
#Amount of RF per tick the infuser uses while operating
|
|
#Range: > 0
|
|
blazingInfuserUsePerTick = 10
|
|
|
|
#Settings for the powercell
|
|
[general.dimensionalcell]
|
|
#Base amount of RF/tick that can be extracted/inserted in this block
|
|
#Range: > 0
|
|
rfPerTick = 5000
|
|
#Maximum RF storage that a single cell can hold
|
|
#Range: > 0
|
|
rfPerNormalCell = 1000000
|
|
#How much better is the advanced cell with RF and RF/t
|
|
#Range: > 0
|
|
advancedFactor = 4
|
|
#How much worse is the simple cell with RF and RF/t
|
|
#Range: > 0
|
|
simpleFactor = 4
|
|
#The maximum cost factor for extracting energy out of a powercell for blocks in other dimensions or farther away then 10000 blocks
|
|
#Range: 0.0 ~ 1.0E9
|
|
powerCellCostFactor = 1.1
|
|
#At this distance the cost factor will be maximum. This value is also used when power is extracted from cells in different dimensions
|
|
#Range: 0.0 ~ 1.0E9
|
|
powerCellDistanceCap = 10000.0
|
|
#As soon as powercells are not connected this value will be taken as the minimum distance to base the cost factor from
|
|
#Range: 0.0 ~ 1.0E9
|
|
powerCellMinDistance = 100.0
|
|
#A multiplier for the distance if RFTools dimensions are involved. If both sides are RFTools dimensions then this multiplier is done twice
|
|
#Range: 0.0 ~ 1.0E9
|
|
powerCellRFToolsDimensionAdvantage = 0.5
|
|
#RF per tick that the powrcell can charge items with
|
|
#Range: > 0
|
|
powercellChargePerTick = 30000
|
|
|
|
#Settings for the endergenic generator
|
|
[general.endergenic]
|
|
#Maximum amount of power the endergenic can store
|
|
#Range: > 0
|
|
endergenicMaxPower = 5000000
|
|
#The chance (in 1/10 percent, so 1000 = 100%) that an endergenic pearl is lost while trying to hold it
|
|
#Range: 0 ~ 1000
|
|
endergenicChanceLost = 5
|
|
#The amount of RF that is consumed every tick to hold the endergenic pearl
|
|
#Range: > 0
|
|
endergenicRfHolding = 500
|
|
#The amount of RF that every endergenic will keep itself (so that it can hold pearls)
|
|
#Range: > 0
|
|
endergenicKeepRf = 2000
|
|
#The amount of RF per tick that this generator can give from its internal buffer to adjacent blocks
|
|
#Range: > 0
|
|
endergenicSendPerTick = 20000
|
|
#The amount of particles to spawn whenever energy is generated (use 0 to disable)
|
|
#Range: 0 ~ 1000
|
|
endergenicGoodParticles = 10
|
|
#The amount of particles to spawn whenever a pearl is lost (use 0 to disable)
|
|
#Range: 0 ~ 1000
|
|
endergenicBadParticles = 10
|
|
#Multiplier for power generation
|
|
#Range: 0.0 ~ 1.0E9
|
|
powergenFactor = 2.0
|
|
|
|
#Coal generator settings
|
|
[general.coalgenerator]
|
|
#Amount of RF generated per tick
|
|
#Range: > 0
|
|
generatePerTick = 60
|
|
#Amount of ticks generated per coal
|
|
#Range: > 0
|
|
ticksPerCoal = 600
|
|
#Maximum RF storage that the generator can hold
|
|
#Range: > 0
|
|
generatorMaxRF = 500000
|
|
#RF per tick that the generator can send
|
|
#Range: > 0
|
|
generatorRFPerTick = 2000
|
|
#RF per tick that the generator can charge items with
|
|
#Range: > 0
|
|
generatorChargePerTick = 1000
|
|
|
|
#Powercell settings
|
|
[general.powercell]
|
|
#Maximum RF a single tier1 cell can hold
|
|
#Range: 1 ~ 2000000000
|
|
tier1MaxRF = 500000
|
|
#Maximum RF a single tier2 cell can hold
|
|
#Range: 1 ~ 2000000000
|
|
tier2MaxRF = 4000000
|
|
#Maximum RF a single tier3 cell can hold
|
|
#Range: 1 ~ 2000000000
|
|
tier3MaxRF = 20000000
|
|
#Maximum RF/tick per side for a tier1 cell
|
|
#Range: 1 ~ 2000000000
|
|
tier1MaxRFPerTick = 250
|
|
#Maximum RF/tick per side for a tier2 cell
|
|
#Range: 1 ~ 2000000000
|
|
tier2MaxRFPerTick = 1000
|
|
#Maximum RF/tick per side for a tier3 cell
|
|
#Range: 1 ~ 2000000000
|
|
tier3MaxRFPerTick = 4000
|
|
#How much extra RF/tick every cell gets per cell in the network. 0 means constant RF/t. 1 means linear with amount of cells
|
|
#Range: 0.0 ~ 100.0
|
|
rfPerTickScale = 0.25
|
|
#Maximum number of blocks in a single multiblock network
|
|
#Range: 1 ~ 2000000000
|
|
networkMax = 729
|
|
|