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Harrison Deng
2022-05-10 16:26:15 -05:00
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284
server/config/Mekanism/gear.toml Normal file
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#Gear Config. This config is synced from server to client.
[gear]
#Atomic Disassembler Settings
[gear.atomic_disassembler]
#Base Energy (Joules) usage of the Atomic Disassembler. (Gets multiplied by speed factor)
energyUsage = "10"
#Cost in Joules of using the Atomic Disassembler as a weapon.
energyUsageWeapon = "2000"
#The max Atomic Disassembler Vein Mining Block Count.
miningCount = 128
#Enable the 'Slow' mode for the Atomic Disassembler.
slowMode = true
#Enable the 'Fast' mode for the Atomic Disassembler.
fastMode = true
#Enable the 'Vein Mining' mode for the Atomic Disassembler.
veinMining = false
#The amount of damage the Atomic Disassembler does when it is out of power. (Value is in number of half hearts)
minDamage = 4
#The amount of damage the Atomic Disassembler does when it has at least energyUsageWeapon power stored. (Value is in number of half hearts)
maxDamage = 20
#Maximum amount (joules) of energy the Atomic Disassembler can contain.
maxEnergy = "1000000"
#Amount (joules) of energy the Atomic Disassembler can accept per tick.
chargeRate = "5000"
#Configurator Settings
[gear.configurator]
#Maximum amount (joules) of energy the Configurator can contain.
maxEnergy = "60000"
#Amount (joules) of energy the Configurator can accept per tick.
chargeRate = "300"
#Energy usage in joules of using the configurator to configure machines.
energyPerConfigure = "400"
#Energy cost in joules for each item the configurator ejects from a machine on empty mode.
energyPerItem = "8"
#Electric Bow Settings
[gear.electric_bow]
#Maximum amount (joules) of energy the Electric Bow can contain.
maxEnergy = "120000"
#Amount (joules) of energy the Electric Bow can accept per tick.
chargeRate = "600"
#Cost in Joules of using the Electric Bow.
energyUsage = "120"
#Cost in Joules of using the Electric Bow with flame mode active.
energyUsageFire = "1200"
#Energy Tablet Settings
[gear.energy_tablet]
#Maximum amount (joules) of energy the Energy Tablet can contain.
maxEnergy = "1000000"
#Amount (joules) of energy the Energy Tablet can accept per tick.
chargeRate = "5000"
#Flamethrower Settings
[gear.flamethrower]
#Flamethrower Gas Tank capacity in mB.
#Range: 1 ~ 9223372036854775807
maxGas = 24000
#Amount of hydrogen the Flamethrower can accept per tick.
#Range: 1 ~ 9223372036854775807
fillRate = 16
#Determines whether or not the Flamethrower can destroy items if it fails to smelt them.
destroyItems = true
#Free Runner Settings
[gear.free_runner]
#Energy cost/multiplier in Joules for reducing fall damage with free runners. Energy cost is: FallDamage * freeRunnerFallEnergyCost. (1 FallDamage is 1 half heart)
fallEnergyCost = "50"
#Percent of damage taken from falling that can be absorbed by Free Runners when they have enough power.
#Range: 0.0 ~ 1.0
fallDamageReductionRatio = 1.0
#Maximum amount (joules) of energy Free Runners can contain.
maxEnergy = "64000"
#Amount (joules) of energy the Free Runners can accept per tick.
chargeRate = "320"
#Jetpack Settings
[gear.jetpack]
#Jetpack Gas Tank capacity in mB.
#Range: 1 ~ 9223372036854775807
maxGas = 24000
#Amount of hydrogen the Jetpack can accept per tick.
#Range: 1 ~ 9223372036854775807
fillRate = 16
#Armored Jetpack Settings
[gear.jetpack.armored]
#Armor value of the Armored Jetpack.
armor = 8
#Toughness value of the Armored Jetpack.
toughness = 2.0
#Network Reader Settings
[gear.network_reader]
#Maximum amount (joules) of energy the Network Reader can contain.
maxEnergy = "60000"
#Amount (joules) of energy the Network Reader can accept per tick.
chargeRate = "300"
#Energy usage in joules for each network reading.
energyUsage = "400"
#Portable Teleporter Settings
[gear.portable_teleporter]
#Maximum amount (joules) of energy the Portable Teleporter can contain.
maxEnergy = "1000000"
#Amount (joules) of energy the Portable Teleporter can accept per tick.
chargeRate = "5000"
#Delay in ticks before a player is teleported after clicking the Teleport button in the portable teleporter.
delay = 0
#Scuba Tank Settings
[gear.scuba_tank]
#Scuba Tank Gas Tank capacity in mB.
#Range: 1 ~ 9223372036854775807
maxGas = 24000
#Amount of oxygen the Scuba Tank Gas Tank can accept per tick.
#Range: 1 ~ 9223372036854775807
fillRate = 16
#Seismic Reader Settings
[gear.seismic_reader]
#Maximum amount (joules) of energy the Seismic Reader can contain.
maxEnergy = "12000"
#Amount (joules) of energy the Seismic Reader can accept per tick.
chargeRate = "60"
#Energy usage in joules required to use the Seismic Reader.
energyUsage = "250"
#Canteen Settings
[gear.canteen]
#Maximum amount of Nutritional Paste storable by the Canteen.
#Range: > 1
maxStorage = 64000
#Rate at which Nutritional Paste can be transferred into a Canteen.
#Range: > 1
transferRate = 128
#Meka-Tool Settings
[gear.mekatool]
#Base energy (Joules) usage of the Meka-Tool. (Gets multiplied by speed factor)
energyUsage = "10"
#Silk touch energy (Joules) usage of the Meka-Tool. (Gets multiplied by speed factor)
energyUsageSilk = "100"
#Cost in Joules of using the Meka-Tool to deal 4 units of damage.
energyUsageWeapon = "2000"
#Cost in Joules of using the Meka-Tool to teleport 10 blocks.
energyUsageTeleport = "1000"
#Maximum distance a player can teleport with the Meka-Tool.
maxTeleportReach = 100
#Base damage applied by the Meka-Tool without using any energy.
baseDamage = 4
#Efficiency of the Meka-Tool with energy but without any upgrades.
baseEfficiency = 4.0
#Energy capacity (Joules) of the Meka-Tool without any installed upgrades. Quadratically scaled by upgrades.
baseEnergyCapacity = "16000000"
#Amount (joules) of energy the Meka-Tool can accept per tick. Quadratically scaled by upgrades.
chargeRate = "100000"
#Cost in Joules of using the Meka-Tool as a hoe.
energyUsageHoe = "10"
#Cost in Joules of using the Meka-Tool as a shovel for making paths and dowsing campfires.
energyUsageShovel = "10"
#Cost in Joules of using the Meka-Tool as an axe for stripping logs, scraping, or removing wax.
energyUsageAxe = "10"
#Cost in Joules of using the Meka-Tool to shear entities.
energyUsageShearEntity = "10"
#Enable the 'Extended Vein Mining' mode for the Meka-Tool. (Allows vein mining everything not just ores/logs)
extendedMining = true
#MekaSuit Settings
[gear.mekasuit]
#Energy capacity (Joules) of MekaSuit items without any installed upgrades. Quadratically scaled by upgrades.
baseEnergyCapacity = "16000000"
#Amount (joules) of energy the MekaSuit can accept per tick. Quadratically scaled by upgrades.
chargeRate = "100000"
#Energy usage (Joules) of MekaSuit when adding 0.1 to jump motion.
baseJumpEnergyUsage = "1000"
#Energy usage (Joules) per second of the MekaSuit when flying with the Elytra Unit.
elytraEnergyUsage = "32000"
#Energy usage (Joules) of MekaSuit when lessening a potion effect.
energyUsagePotionTick = "40000"
#Energy cost/multiplier in Joules for reducing magic damage via the inhalation purification unit. Energy cost is: MagicDamage * energyUsageMagicPrevent. (1 MagicDamage is 1 half heart).
energyUsageMagicReduce = "1000"
#Energy cost/multiplier in Joules for reducing fall damage with MekaSuit Boots. Energy cost is: FallDamage * freeRunnerFallEnergyCost. (1 FallDamage is 1 half heart)
energyUsageFall = "50"
#Energy usage (Joules) of MekaSuit when adding 0.1 to sprint motion.
energyUsageSprintBoost = "100"
#Energy usage (Joules) of MekaSuit per tick when flying via Gravitational Modulation.
energyUsageGravitationalModulation = "1000"
#Charge rate of inventory items (Joules) per tick.
inventoryChargeRate = "10000"
#Solar recharging rate (Joules) of helmet per tick, per upgrade installed.
solarRechargingRate = "500"
#Energy usage (Joules) of MekaSuit per tick of using vision enhancement.
energyUsageVisionEnhancement = "500"
#Energy usage (Joules) of MekaSuit per half-food of nutritional injection.
energyUsageNutritionalInjection = "20000"
#Energy usage (Joules) of MekaSuit per unit of damage applied.
energyUsageDamage = "100000"
#Energy usage (Joules) of MekaSuit per tick of attracting a single item.
energyUsageItemAttraction = "250"
#Maximum amount of Nutritional Paste storable by the nutritional injection unit.
#Range: > 1
nutritionalMaxStorage = 128000
#Rate at which Nutritional Paste can be transferred into the nutritional injection unit.
#Range: > 1
nutritionalTransferRate = 256
#Maximum amount of Hydrogen storable in the jetpack unit.
#Range: 1 ~ 9223372036854775807
jetpackMaxStorage = 48000
#Rate at which Hydrogen can be transferred into the jetpack unit.
#Range: 1 ~ 9223372036854775807
jetpackTransferRate = 256
[gear.mekasuit.damage_absorption]
#Percent of damage taken from fall that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
fallDamageReductionRatio = 1.0
#Percent of damage taken from magic damage that can be absorbed by MekaSuit Helmet with Purification unit when it has enough power.
#Range: 0.0 ~ 1.0
magicDamageReductionRatio = 1.0
#Percent of damage taken from other non explicitly supported damage types that don't bypass armor when the MekaSuit has enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
unspecifiedDamageReductionRatio = 1.0
#Percent of damage taken from anvil that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
anvilDamageReductionRatio = 1.0
#Percent of damage taken from cactus that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
cactusDamageReductionRatio = 1.0
#Percent of damage taken from cramming that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
crammingDamageReductionRatio = 1.0
#Percent of damage taken from dragonBreath that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
dragonBreathDamageReductionRatio = 1.0
#Percent of damage taken from dryout that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
dryoutDamageReductionRatio = 1.0
#Percent of damage taken from fallingBlock that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
fallingBlockDamageReductionRatio = 1.0
#Percent of damage taken from flyIntoWall that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
flyIntoWallDamageReductionRatio = 1.0
#Percent of damage taken from generic that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
genericDamageReductionRatio = 1.0
#Percent of damage taken from hotFloor that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
hotFloorDamageReductionRatio = 1.0
#Percent of damage taken from inFire that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
inFireDamageReductionRatio = 1.0
#Percent of damage taken from inWall that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
inWallDamageReductionRatio = 1.0
#Percent of damage taken from lava that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
lavaDamageReductionRatio = 1.0
#Percent of damage taken from lightningBolt that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
lightningBoltDamageReductionRatio = 1.0
#Percent of damage taken from onFire that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
onFireDamageReductionRatio = 1.0
#Percent of damage taken from sweetBerryBush that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
sweetBerryBushDamageReductionRatio = 1.0
#Percent of damage taken from wither that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
witherDamageReductionRatio = 1.0
#Percent of damage taken from freeze that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
freezeDamageReductionRatio = 1.0
#Percent of damage taken from fallingStalactite that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
fallingStalactiteDamageReductionRatio = 1.0
#Percent of damage taken from stalagmite that can be absorbed by the MekaSuit when there is enough power and a full suit is equipped.
#Range: 0.0 ~ 1.0
stalagmiteDamageReductionRatio = 1.0

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server/config/Mekanism/general.toml Normal file
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#General Config. This config is synced from server to client.
[general]
#Log Mekanism packet names. Debug setting.
logPackets = false
#Disable to make the anchor upgrade not do anything.
allowChunkloading = true
#Enable this to allow dragging items from JEI into the target slot of Digital Miner filters.
easyMinerFilters = false
#How many ticks must pass until a block's active state is synced with the client, if it has been rapidly changing.
blockDeactivationDelay = 60
#Any mod ids added to this list will not be able to have any of their blocks, picked up by the cardboard box. For example: ["mekanism"]
cardboardModBlacklist = []
#Allow right clicking on Cables/Pipes/Tubes with alloys to upgrade the tier.
transmitterAlloyUpgrade = true
#Base factor for working out machine performance with upgrades - UpgradeModifier * (UpgradesInstalled/UpgradesPossible).
#Range: > 1
maxUpgradeMultiplier = 10
#How much Boiler heat is immediately usable to convert water to steam.
boilerWaterConductivity = 0.7
#Amount of heat produced per fuel tick of a fuel's burn time in the Fuelwood Heater.
heatPerFuelTick = 400.0
#Number of ticks to burn an item at in a Fuelwood Heater. Use this config option to effectively make Fuelwood Heater's burn faster but produce the same amount of heat per item.
#Range: 1 ~ 1000
fuelwoodTickMultiplier = 1
#How much heat energy is created from one Joule of regular energy in the Resistive Heater.
#Range: 0.0 ~ 1.0
resistiveHeaterEfficiency = 0.6
#Amount of heat each Boiler heating element produces.
superheatingHeatTransfer = 1.6E7
#Displayed temperature unit in Mekanism GUIs.
#Allowed Values: K, C, R, F, STP
temperatureUnit = "K"
#Peak processing rate for the Solar Neutron Activator. Note: It can go higher than this value in some extreme environments.
maxSolarNeutronActivatorRate = 64
#Dynamic Tank Settings
[general.dynamic_tank]
#Amount of fluid (mB) that each block of the dynamic tank contributes to the volume. Max = volume * fluidPerTank
#Range: 1 ~ 368224
fluidPerTank = 350000
#Amount of chemical (mB) that each block of the dynamic tank contributes to the volume. Max = volume * chemicalPerTank
#Range: 1 ~ 1581510980256305
chemicalPerTank = 16000000
#Auto Eject Settings
[general.auto_eject]
#Rate at which fluid gets auto ejected from tiles.
fluid = 1024
#Rate at which chemicals gets auto ejected from tiles.
#Range: 1 ~ 9223372036854775807
chemical = 1024
#The percentage of a tank's capacity to leave contents in when set to dumping excess.
#Range: 0.001 ~ 1.0
dumpExcessKeepRatio = 0.9
#Prefilled Tanks
[general.prefilled]
#Add filled creative fluid tanks to creative/JEI.
fluidTanks = true
#Add filled creative gas tanks to creative/JEI.
gasTanks = true
#Add filled creative infusion tanks to creative/JEI.
infusionTanks = true
#Add filled creative pigment tanks to creative/JEI.
pigmentTanks = true
#Add filled creative slurry tanks to creative/JEI.
slurryTanks = true
#Energy Conversion Rate Settings
[general.energy_conversion]
#Disables IC2 power integration. Requires world restart (server-side option in SMP).
blacklistIC2 = false
#Conversion multiplier from EU to Joules (EU * JoulePerEU = Joules)
JoulePerEU = "10"
#Conversion multiplier from Joules to EU (Joules * EUPerJoule = EU)
EUPerJoule = "0.1000"
#Disables Forge Energy (FE,RF,IF,uF,CF) power integration. Requires world restart (server-side option in SMP).
blacklistForge = false
#Conversion multiplier from Forge Energy to Joules (FE * JoulePerForgeEnergy = Joules)
JoulePerForgeEnergy = "2.5000"
#Conversion multiplier from Joules to Forge Energy (Joules * ForgeEnergyPerJoule = FE)
ForgeEnergyPerJoule = "0.4000"
#Disables Flux Networks higher throughput Forge Energy (FE,RF,IF,uF,CF) power integration. Requires world restart (server-side option in SMP). Note: Disabling Forge Energy integration also disables this.
blacklistFluxNetworks = false
#How much energy is produced per mB of Hydrogen, also affects Electrolytic Separator usage, Ethylene burn rate and Gas generator energy capacity.
HydrogenEnergyDensity = "200"
#Burn time for Ethylene (1mB hydrogen + 2*bioFuel/tick*200ticks/100mB * 20x efficiency bonus).
#Range: > 1
EthyleneBurnTime = 40
#Maximum Joules per mB of Steam. Also affects Thermoelectric Boiler.
maxEnergyPerSteam = "10"
#Displayed energy type in Mekanism GUIs.
#Allowed Values: J, FE, EU
energyType = "FE"
#Radiation Settings
[general.radiation]
#Enable worldwide radiation effects. Don't be a downer and disable this.
radiationEnabled = true
#The radius of chunks checked when running radiation calculations. The algorithm is efficient, but don't abuse it by making this crazy high.
#Range: 1 ~ 100
chunkCheckRadius = 5
#Radiation sources are multiplied by this constant roughly once per second to represent their emission decay. At the default rate, it takes roughly 10 hours to remove a 1,000 Sv/h (crazy high) source.
sourceDecayRate = 0.9995
#Radiated objects and entities are multiplied by this constant roughly once per second to represent their dosage decay.
targetDecayRate = 0.9995
#Defines the minimum severity radiation dosage severity (scale of 0 to 1) for which negative effects can take place. Set to 1 to disable negative effects completely.
#Range: 0.0 ~ 1.0
negativeEffectsMinSeverity = 0.1
#Amount of gas (mB) that can be stored in a Radioactive Waste Barrel.
#Range: 1 ~ 9223372036854775807
radioactiveWasteBarrelMaxGas = 512000
#Number of ticks required for radioactive gas stored in a Radioactive Waste Barrel to decay radioactiveWasteBarrelDecayAmount mB.
#Range: > 1
radioactiveWasteBarrelProcessTicks = 20
#Number of mB of gas that decay every radioactiveWasteBarrelProcessTicks ticks when stored in a Radioactive Waste Barrel. Set to zero to disable decay all together. (Gases in the mekanism:waste_barrel_decay_blacklist tag will not decay).
#Range: 0 ~ 9223372036854775807
radioactiveWasteBarrelDecayAmount = 1
#Digital Miner Settings
[general.digital_miner]
#Energy multiplier for using silk touch mode with the Digital Miner.
silkMultiplier = 12
#Maximum radius in blocks that the Digital Miner can reach. (Increasing this may have negative effects on stability and/or performance. We strongly recommend you leave it at the default value).
#Range: > 1
maxRadius = 32
#Number of ticks required to mine a single block with a Digital Miner (without any upgrades).
#Range: > 1
ticksPerMine = 80
#Laser Settings
[general.laser]
#If enabled, lasers can break blocks and the flamethrower starts fires.
aestheticWorldDamage = true
#How far (in blocks) a laser can travel.
range = 64
#Energy needed to destroy or attract blocks with a Laser (per block hardness level).
energyNeededPerHardness = "100000"
#Energy used per half heart of damage being transferred to entities.
energyPerDamage = "2500"
#Oredictionificator Settings
[general.oredictionificator]
#The list of valid tag prefixes for the Oredictionificator. Note: It is highly recommended to only include well known/defined tag prefixes otherwise it is very easy to potentially add in accidental conversions of things that are not actually equivalent.
validItemFilters = ["forge:dusts/", "forge:ingots/", "forge:nuggets/", "forge:ores/", "forge:storage_blocks/"]
#Pump Settings
[general.pump]
#Maximum block distance to pull fluid from for the Electric Pump.
maxPumpRange = 80
#If enabled makes Water and Heavy Water blocks be removed from the world on pump.
pumpWaterSources = false
#Fluidic Plenisher stops after this many blocks.
maxPlenisherNodes = 4000
#Quantum Entangloporter Settings
[general.quantum_entangloporter]
#Maximum energy buffer (Mekanism Joules) of an Entangoloporter frequency - i.e. the maximum transfer per tick per frequency. Default is ultimate tier energy cube capacity.
energyBuffer = "256000000"
#Maximum fluid buffer (mb) of an Entangoloporter frequency - i.e. the maximum transfer per tick per frequency. Default is ultimate tier tank capacity.
#Range: > 1
fluidBuffer = 256000
#Maximum chemical buffer (mb) of an Entangoloporter frequency - i.e. the maximum transfer per tick per frequency. Default is ultimate tier tank capacity.
#Range: 1 ~ 9223372036854775807
chemicalBuffer = 8192000
#Block security/protection Settings
[general.security]
#Enable the security system for players to prevent others from accessing their machines. Does NOT affect Frequencies.
allowProtection = true
#Ops can bypass the block security restrictions if enabled.
opsBypassRestrictions = false
#Nutritional Paste Settings
[general.nutritional_paste]
#Saturation level of Nutritional Paste when eaten.
saturation = 0.8
#How much mB of Nutritional Paste equates to one 'half-food.'
mbPerFood = 50
#Thermal Evaporation Plant Settings
[general.thermal_evaporation]
#Thermal Evaporation Tower heat loss per tick.
heatDissipation = 0.02
#Temperature to amount produced ratio for Thermal Evaporation Tower.
tempMultiplier = 0.4
#Heat to absorb per Solar Panel array of Thermal Evaporation Tower.
solarMultiplier = 0.2
#Heat capacity of Thermal Evaporation Tower layers (increases amount of energy needed to increase temperature).
heatCapacity = 100.0
#SPS Settings
[general.sps]
#How much input gas (polonium) in mB must be processed to make 1 mB of antimatter.
#Range: > 1
inputPerAntimatter = 1000
#Energy needed to process 1 mB of input (inputPerAntimatter * energyPerInput = energy to produce 1 mB of antimatter).
energyPerInput = "1000000"

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server/config/Mekanism/machine-storage.toml Normal file
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#Machine Energy Storage Config. This config is synced from server to client.
[storage]
#Base energy storage (Joules).
enrichmentChamber = "20000"
#Base energy storage (Joules).
osmiumCompressor = "80000"
#Base energy storage (Joules).
combiner = "40000"
#Base energy storage (Joules).
crusher = "20000"
#Base energy storage (Joules).
metallurgicInfuser = "20000"
#Base energy storage (Joules).
purificationChamber = "80000"
#Base energy storage (Joules).
energizedSmelter = "20000"
#Base energy storage (Joules).
digitalMiner = "50000"
#Base energy storage (Joules).
electricPump = "40000"
#Base energy storage (Joules).
chargePad = "2048000"
#Base energy storage (Joules).
rotaryCondensentrator = "20000"
#Base energy storage (Joules).
oxidationChamber = "80000"
#Base energy storage (Joules).
chemicalInfuser = "80000"
#Base energy storage (Joules).
chemicalInjectionChamber = "160000"
#Base energy storage (Joules).
electrolyticSeparator = "160000"
#Base energy storage (Joules).
precisionSawmill = "20000"
#Base energy storage (Joules).
chemicalDissolutionChamber = "160000"
#Base energy storage (Joules).
chemicalWasher = "80000"
#Base energy storage (Joules).
chemicalCrystallizer = "160000"
#Base energy storage (Joules).
seismicVibrator = "20000"
#Base energy storage (Joules).
pressurizedReactionBase = "2000"
#Base energy storage (Joules).
fluidicPlenisher = "40000"
#Base energy storage (Joules).
laser = "2000000"
#Base energy storage (Joules).
laserAmplifier = "5000000000"
#Base energy storage (Joules).
laserTractorBeam = "5000000000"
#Base energy storage (Joules).
formulaicAssemblicator = "40000"
#Base energy storage (Joules).
teleporter = "5000000"
#Base energy storage (Joules).
modificationStation = "40000"
#Base energy storage (Joules).
isotopicCentrifuge = "80000"
#Base energy storage (Joules).
nutritionalLiquifier = "40000"
#Base energy storage (Joules). Also defines max process rate.
antiprotonicNucleosynthesizer = "1000000000"
#Base energy storage (Joules).
pigmentExtractor = "40000"
#Base energy storage (Joules).
pigmentMixer = "80000"
#Base energy storage (Joules).
paintingMachine = "40000"
#Base energy storage (Joules). Also defines max output rate.
spsPort = "1000000000"

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server/config/Mekanism/machine-usage.toml Normal file
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#Machine Energy Usage Config. This config is synced from server to client.
[usage]
#Energy per operation tick (Joules).
enrichmentChamber = "50"
#Energy per operation tick (Joules).
osmiumCompressor = "100"
#Energy per operation tick (Joules).
combiner = "50"
#Energy per operation tick (Joules).
crusher = "50"
#Energy per operation tick (Joules).
metallurgicInfuser = "50"
#Energy per operation tick (Joules).
purificationChamber = "200"
#Energy per operation tick (Joules).
energizedSmelter = "50"
#Energy per operation tick (Joules).
digitalMiner = "1000"
#Energy per operation tick (Joules).
electricPump = "100"
#Energy that can be transferred at once per charge operation (Joules).
chargePad = "1024000"
#Energy per operation tick (Joules).
rotaryCondensentrator = "50"
#Energy per operation tick (Joules).
oxidationChamber = "200"
#Energy per operation tick (Joules).
chemicalInfuser = "200"
#Energy per operation tick (Joules).
chemicalInjectionChamber = "400"
#Energy per operation tick (Joules).
precisionSawmill = "50"
#Energy per operation tick (Joules).
chemicalDissolutionChamber = "400"
#Energy per operation tick (Joules).
chemicalWasher = "200"
#Energy per operation tick (Joules).
chemicalCrystallizer = "400"
#Energy per operation tick (Joules).
seismicVibrator = "50"
#Energy per operation tick (Joules).
pressurizedReactionBase = "5"
#Energy per operation tick (Joules).
fluidicPlenisher = "100"
#Energy per operation tick (Joules).
laser = "10000"
#Energy per operation tick (Joules).
formulaicAssemblicator = "100"
#Energy per operation tick (Joules).
modificationStation = "100"
#Energy per operation tick (Joules).
isotopicCentrifuge = "200"
#Energy per operation tick (Joules).
nutritionalLiquifier = "200"
#Energy per operation tick (Joules).
antiprotonicNucleosynthesizer = "100000"
#Energy per operation tick (Joules).
pigmentExtractor = "200"
#Energy per operation tick (Joules).
pigmentMixer = "200"
#Energy per operation tick (Joules).
paintingMachine = "100"
#Teleporter
[usage.teleporter]
#Base Joules cost for a teleportation.
teleporterBase = "1000"
#Joules per unit of distance travelled during teleportation - sqrt(xDiff^2 + yDiff^2 + zDiff^2).
teleporterDistance = "10"
#Flat additional cost for interdimensional teleportation.
teleporterDimensionPenalty = "10000"

264
server/config/Mekanism/tiers.toml Normal file
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#Tier Config. This config is synced from server to client.
[tier]
#Energy Cubes
[tier.energy_cubes]
#Maximum number of Joules Basic energy cubes can store.
basicStorage = "4000000"
#Output rate in Joules of Basic energy cubes.
basicOutput = "4000"
#Maximum number of Joules Advanced energy cubes can store.
advancedStorage = "16000000"
#Output rate in Joules of Advanced energy cubes.
advancedOutput = "16000"
#Maximum number of Joules Elite energy cubes can store.
eliteStorage = "64000000"
#Output rate in Joules of Elite energy cubes.
eliteOutput = "64000"
#Maximum number of Joules Ultimate energy cubes can store.
ultimateStorage = "256000000"
#Output rate in Joules of Ultimate energy cubes.
ultimateOutput = "256000"
#Maximum number of Joules Creative energy cubes can store.
creativeStorage = "18446744073709551615.9999"
#Output rate in Joules of Creative energy cubes.
creativeOutput = "18446744073709551615.9999"
#Fluid Tanks
[tier.fluid_tanks]
#Storage size of Basic fluid tanks in mB.
#Range: > 1
basicStorage = 32000
#Output rate of Basic fluid tanks in mB.
#Range: > 1
basicOutput = 1000
#Storage size of Advanced fluid tanks in mB.
#Range: > 1
advancedStorage = 64000
#Output rate of Advanced fluid tanks in mB.
#Range: > 1
advancedOutput = 4000
#Storage size of Elite fluid tanks in mB.
#Range: > 1
eliteStorage = 128000
#Output rate of Elite fluid tanks in mB.
#Range: > 1
eliteOutput = 16000
#Storage size of Ultimate fluid tanks in mB.
#Range: > 1
ultimateStorage = 256000
#Output rate of Ultimate fluid tanks in mB.
#Range: > 1
ultimateOutput = 64000
#Storage size of Creative fluid tanks in mB.
#Range: > 1
creativeStorage = 2147483647
#Output rate of Creative fluid tanks in mB.
#Range: > 1
creativeOutput = 1073741823
#Chemical Tanks
[tier.chemical_tanks]
#Storage size of Basic chemical tanks in mB.
#Range: 1 ~ 9223372036854775807
basicStorage = 64000
#Output rate of Basic chemical tanks in mB.
#Range: 1 ~ 9223372036854775807
basicOutput = 1000
#Storage size of Advanced chemical tanks in mB.
#Range: 1 ~ 9223372036854775807
advancedStorage = 256000
#Output rate of Advanced chemical tanks in mB.
#Range: 1 ~ 9223372036854775807
advancedOutput = 16000
#Storage size of Elite chemical tanks in mB.
#Range: 1 ~ 9223372036854775807
eliteStorage = 1024000
#Output rate of Elite chemical tanks in mB.
#Range: 1 ~ 9223372036854775807
eliteOutput = 128000
#Storage size of Ultimate chemical tanks in mB.
#Range: 1 ~ 9223372036854775807
ultimateStorage = 8192000
#Output rate of Ultimate chemical tanks in mB.
#Range: 1 ~ 9223372036854775807
ultimateOutput = 512000
#Storage size of Creative chemical tanks in mB.
#Range: 1 ~ 9223372036854775807
creativeStorage = 9223372036854775807
#Output rate of Creative chemical tanks in mB.
#Range: 1 ~ 9223372036854775807
creativeOutput = 4611686018427387903
#Bins
[tier.bins]
#The number of items Basic bins can store.
#Range: > 1
basicStorage = 4096
#The number of items Advanced bins can store.
#Range: > 1
advancedStorage = 8192
#The number of items Elite bins can store.
#Range: > 1
eliteStorage = 32768
#The number of items Ultimate bins can store.
#Range: > 1
ultimateStorage = 262144
#The number of items Creative bins can store.
#Range: > 1
creativeStorage = 2147483647
#Induction
[tier.induction]
#Maximum number of Joules Basic induction cells can store.
basicStorage = "8000000000"
#Maximum number of Joules Advanced induction cells can store.
advancedStorage = "64000000000"
#Maximum number of Joules Elite induction cells can store.
eliteStorage = "512000000000"
#Maximum number of Joules Ultimate induction cells can store.
ultimateStorage = "4000000000000"
#Maximum number of Joules Basic induction providers can output or accept.
basicOutput = "256000"
#Maximum number of Joules Advanced induction providers can output or accept.
advancedOutput = "2048000"
#Maximum number of Joules Elite induction providers can output or accept.
eliteOutput = "16384000"
#Maximum number of Joules Ultimate induction providers can output or accept.
ultimateOutput = "131072000"
#Transmitters
[tier.transmitters]
#Universal Cables
[tier.transmitters.energy]
#Internal buffer in Joules of each Basic universal cable.
basicCapacity = "8000"
#Internal buffer in Joules of each Advanced universal cable.
advancedCapacity = "128000"
#Internal buffer in Joules of each Elite universal cable.
eliteCapacity = "1024000"
#Internal buffer in Joules of each Ultimate universal cable.
ultimateCapacity = "8192000"
#Mechanical Pipes
[tier.transmitters.fluid]
#Capacity of Basic mechanical pipes in mB.
#Range: > 1
basicCapacity = 2000
#Pump rate of Basic mechanical pipes in mB/t.
#Range: > 1
basicPullAmount = 250
#Capacity of Advanced mechanical pipes in mB.
#Range: > 1
advancedCapacity = 8000
#Pump rate of Advanced mechanical pipes in mB/t.
#Range: > 1
advancedPullAmount = 1000
#Capacity of Elite mechanical pipes in mB.
#Range: > 1
eliteCapacity = 32000
#Pump rate of Elite mechanical pipes in mB/t.
#Range: > 1
elitePullAmount = 8000
#Capacity of Ultimate mechanical pipes in mB.
#Range: > 1
ultimateCapacity = 128000
#Pump rate of Ultimate mechanical pipes in mB/t.
#Range: > 1
ultimatePullAmount = 32000
#Pressurized Tubes
[tier.transmitters.chemical]
#Capacity of Basic pressurized tubes in mB.
#Range: 1 ~ 9223372036854775807
basicCapacity = 4000
#Pump rate of Basic pressurized tubes in mB/t.
#Range: 1 ~ 9223372036854775807
basicPullAmount = 750
#Capacity of Advanced pressurized tubes in mB.
#Range: 1 ~ 9223372036854775807
advancedCapacity = 16000
#Pump rate of Advanced pressurized tubes in mB/t.
#Range: 1 ~ 9223372036854775807
advancedPullAmount = 2000
#Capacity of Elite pressurized tubes in mB.
#Range: 1 ~ 9223372036854775807
eliteCapacity = 256000
#Pump rate of Elite pressurized tubes in mB/t.
#Range: 1 ~ 9223372036854775807
elitePullAmount = 64000
#Capacity of Ultimate pressurized tubes in mB.
#Range: 1 ~ 9223372036854775807
ultimateCapacity = 1024000
#Pump rate of Ultimate pressurized tubes in mB/t.
#Range: 1 ~ 9223372036854775807
ultimatePullAmount = 256000
#Logistical Transporters
[tier.transmitters.items]
#Item throughput rate of Basic logistical transporters in items/half second.
#Range: > 1
basicPullAmount = 1
#Five times the travel speed in m/s of Basic logistical transporter.
#Range: > 1
basicSpeed = 5
#Item throughput rate of Advanced logistical transporters in items/half second.
#Range: > 1
advancedPullAmount = 16
#Five times the travel speed in m/s of Advanced logistical transporter.
#Range: > 1
advancedSpeed = 10
#Item throughput rate of Elite logistical transporters in items/half second.
#Range: > 1
elitePullAmount = 32
#Five times the travel speed in m/s of Elite logistical transporter.
#Range: > 1
eliteSpeed = 20
#Item throughput rate of Ultimate logistical transporters in items/half second.
#Range: > 1
ultimatePullAmount = 64
#Five times the travel speed in m/s of Ultimate logistical transporter.
#Range: > 1
ultimateSpeed = 50
#Thermodynamic Conductors
[tier.transmitters.heat]
#Conduction value of Basic thermodynamic conductors.
#Range: 1.0 ~ 1.7976931348623157E308
basicInverseConduction = 5.0
#Heat capacity of Basic thermodynamic conductors.
#Range: 1.0 ~ 1.7976931348623157E308
basicHeatCapacity = 1.0
#Insulation value of Basic thermodynamic conductor.
#Range: 0.0 ~ 1.7976931348623157E308
basicInsulation = 10.0
#Conduction value of Advanced thermodynamic conductors.
#Range: 1.0 ~ 1.7976931348623157E308
advancedInverseConduction = 5.0
#Heat capacity of Advanced thermodynamic conductors.
#Range: 1.0 ~ 1.7976931348623157E308
advancedHeatCapacity = 1.0
#Insulation value of Advanced thermodynamic conductor.
#Range: 0.0 ~ 1.7976931348623157E308
advancedInsulation = 400.0
#Conduction value of Elite thermodynamic conductors.
#Range: 1.0 ~ 1.7976931348623157E308
eliteInverseConduction = 5.0
#Heat capacity of Elite thermodynamic conductors.
#Range: 1.0 ~ 1.7976931348623157E308
eliteHeatCapacity = 1.0
#Insulation value of Elite thermodynamic conductor.
#Range: 0.0 ~ 1.7976931348623157E308
eliteInsulation = 8000.0
#Conduction value of Ultimate thermodynamic conductors.
#Range: 1.0 ~ 1.7976931348623157E308
ultimateInverseConduction = 5.0
#Heat capacity of Ultimate thermodynamic conductors.
#Range: 1.0 ~ 1.7976931348623157E308
ultimateHeatCapacity = 1.0
#Insulation value of Ultimate thermodynamic conductor.
#Range: 0.0 ~ 1.7976931348623157E308
ultimateInsulation = 100000.0

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server/config/Mekanism/world.toml Normal file
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#World generation settings for Mekanism. This config is synced from server to client
[world_generation]
#Allows chunks to retrogen Mekanism ore blocks.
enableRegeneration = false
#Change this value to cause Mekanism to regen its ore in all loaded chunks.
#Range: > 0
userWorldGenVersion = 0
#Generation Settings for tin ore.
[world_generation.tin]
#Determines if tin ore should be added to world generation.
shouldGenerate = true
#small tin vein Generation Settings.
[world_generation.tin.small]
#Determines if small tin veins should be added to world generation. Note: Requires generating tin ore to be enabled.
shouldGenerate = true
#Chance that small tin veins generates in a chunk.
#Range: 1 ~ 256
perChunk = 14
#Maximum number of blocks in a small tin vein.
#Range: 1 ~ 64
maxVeinSize = 4
#Maximum number of blocks in a small tin vein.
#Range: 0.0 ~ 1.0
discardChanceOnAirExposure = 0.0
#Distribution shape for placing small tin veins.
#Allowed Values: TRAPEZOID, UNIFORM
shape = "TRAPEZOID"
#Half length of short side of trapezoid, only used if shape is TRAPEZOID. A value of zero means the shape is a triangle.
plateau = 0
#Minimum (inclusive) height anchor for small tin veins.
[world_generation.tin.small.minInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = -20
#Maximum (inclusive) height anchor for small tin veins.
[world_generation.tin.small.maxInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = 94
#large tin vein Generation Settings.
[world_generation.tin.large]
#Determines if large tin veins should be added to world generation. Note: Requires generating tin ore to be enabled.
shouldGenerate = true
#Chance that large tin veins generates in a chunk.
#Range: 1 ~ 256
perChunk = 12
#Maximum number of blocks in a large tin vein.
#Range: 1 ~ 64
maxVeinSize = 9
#Maximum number of blocks in a large tin vein.
#Range: 0.0 ~ 1.0
discardChanceOnAirExposure = 0.0
#Distribution shape for placing large tin veins.
#Allowed Values: TRAPEZOID, UNIFORM
shape = "TRAPEZOID"
#Half length of short side of trapezoid, only used if shape is TRAPEZOID. A value of zero means the shape is a triangle.
plateau = 0
#Minimum (inclusive) height anchor for large tin veins.
[world_generation.tin.large.minInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = -32
#Maximum (inclusive) height anchor for large tin veins.
[world_generation.tin.large.maxInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = 72
#Generation Settings for osmium ore.
[world_generation.osmium]
#Determines if osmium ore should be added to world generation.
shouldGenerate = true
#upper osmium vein Generation Settings.
[world_generation.osmium.upper]
#Determines if upper osmium veins should be added to world generation. Note: Requires generating osmium ore to be enabled.
shouldGenerate = true
#Chance that upper osmium veins generates in a chunk.
#Range: 1 ~ 256
perChunk = 65
#Maximum number of blocks in a upper osmium vein.
#Range: 1 ~ 64
maxVeinSize = 7
#Maximum number of blocks in a upper osmium vein.
#Range: 0.0 ~ 1.0
discardChanceOnAirExposure = 0.0
#Distribution shape for placing upper osmium veins.
#Allowed Values: TRAPEZOID, UNIFORM
shape = "TRAPEZOID"
#Half length of short side of trapezoid, only used if shape is TRAPEZOID. A value of zero means the shape is a triangle.
plateau = 8
#Minimum (inclusive) height anchor for upper osmium veins.
[world_generation.osmium.upper.minInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = 72
#Maximum (inclusive) height anchor for upper osmium veins.
[world_generation.osmium.upper.maxInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "BELOW_TOP"
#Value used for calculating y for the anchor based on the type.
value = -24
#middle osmium vein Generation Settings.
[world_generation.osmium.middle]
#Determines if middle osmium veins should be added to world generation. Note: Requires generating osmium ore to be enabled.
shouldGenerate = true
#Chance that middle osmium veins generates in a chunk.
#Range: 1 ~ 256
perChunk = 6
#Maximum number of blocks in a middle osmium vein.
#Range: 1 ~ 64
maxVeinSize = 9
#Maximum number of blocks in a middle osmium vein.
#Range: 0.0 ~ 1.0
discardChanceOnAirExposure = 0.0
#Distribution shape for placing middle osmium veins.
#Allowed Values: TRAPEZOID, UNIFORM
shape = "TRAPEZOID"
#Half length of short side of trapezoid, only used if shape is TRAPEZOID. A value of zero means the shape is a triangle.
plateau = 0
#Minimum (inclusive) height anchor for middle osmium veins.
[world_generation.osmium.middle.minInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = -32
#Maximum (inclusive) height anchor for middle osmium veins.
[world_generation.osmium.middle.maxInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = 56
#small osmium vein Generation Settings.
[world_generation.osmium.small]
#Determines if small osmium veins should be added to world generation. Note: Requires generating osmium ore to be enabled.
shouldGenerate = true
#Chance that small osmium veins generates in a chunk.
#Range: 1 ~ 256
perChunk = 8
#Maximum number of blocks in a small osmium vein.
#Range: 1 ~ 64
maxVeinSize = 4
#Maximum number of blocks in a small osmium vein.
#Range: 0.0 ~ 1.0
discardChanceOnAirExposure = 0.0
#Distribution shape for placing small osmium veins.
#Allowed Values: TRAPEZOID, UNIFORM
shape = "UNIFORM"
#Half length of short side of trapezoid, only used if shape is TRAPEZOID. A value of zero means the shape is a triangle.
plateau = 0
#Minimum (inclusive) height anchor for small osmium veins.
[world_generation.osmium.small.minInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABOVE_BOTTOM"
#Value used for calculating y for the anchor based on the type.
value = 0
#Maximum (inclusive) height anchor for small osmium veins.
[world_generation.osmium.small.maxInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = 64
#Generation Settings for uranium ore.
[world_generation.uranium]
#Determines if uranium ore should be added to world generation.
shouldGenerate = true
#small uranium vein Generation Settings.
[world_generation.uranium.small]
#Determines if small uranium veins should be added to world generation. Note: Requires generating uranium ore to be enabled.
shouldGenerate = true
#Chance that small uranium veins generates in a chunk.
#Range: 1 ~ 256
perChunk = 4
#Maximum number of blocks in a small uranium vein.
#Range: 1 ~ 64
maxVeinSize = 4
#Maximum number of blocks in a small uranium vein.
#Range: 0.0 ~ 1.0
discardChanceOnAirExposure = 0.0
#Distribution shape for placing small uranium veins.
#Allowed Values: TRAPEZOID, UNIFORM
shape = "TRAPEZOID"
#Half length of short side of trapezoid, only used if shape is TRAPEZOID. A value of zero means the shape is a triangle.
plateau = 0
#Minimum (inclusive) height anchor for small uranium veins.
[world_generation.uranium.small.minInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABOVE_BOTTOM"
#Value used for calculating y for the anchor based on the type.
value = 0
#Maximum (inclusive) height anchor for small uranium veins.
[world_generation.uranium.small.maxInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = 8
#buried uranium vein Generation Settings.
[world_generation.uranium.buried]
#Determines if buried uranium veins should be added to world generation. Note: Requires generating uranium ore to be enabled.
shouldGenerate = true
#Chance that buried uranium veins generates in a chunk.
#Range: 1 ~ 256
perChunk = 7
#Maximum number of blocks in a buried uranium vein.
#Range: 1 ~ 64
maxVeinSize = 9
#Maximum number of blocks in a buried uranium vein.
#Range: 0.0 ~ 1.0
discardChanceOnAirExposure = 0.75
#Distribution shape for placing buried uranium veins.
#Allowed Values: TRAPEZOID, UNIFORM
shape = "TRAPEZOID"
#Half length of short side of trapezoid, only used if shape is TRAPEZOID. A value of zero means the shape is a triangle.
plateau = 16
#Minimum (inclusive) height anchor for buried uranium veins.
[world_generation.uranium.buried.minInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABOVE_BOTTOM"
#Value used for calculating y for the anchor based on the type.
value = -24
#Maximum (inclusive) height anchor for buried uranium veins.
[world_generation.uranium.buried.maxInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABOVE_BOTTOM"
#Value used for calculating y for the anchor based on the type.
value = 56
#Generation Settings for fluorite ore.
[world_generation.fluorite]
#Determines if fluorite ore should be added to world generation.
shouldGenerate = true
#normal fluorite vein Generation Settings.
[world_generation.fluorite.normal]
#Determines if normal fluorite veins should be added to world generation. Note: Requires generating fluorite ore to be enabled.
shouldGenerate = true
#Chance that normal fluorite veins generates in a chunk.
#Range: 1 ~ 256
perChunk = 5
#Maximum number of blocks in a normal fluorite vein.
#Range: 1 ~ 64
maxVeinSize = 5
#Maximum number of blocks in a normal fluorite vein.
#Range: 0.0 ~ 1.0
discardChanceOnAirExposure = 0.0
#Distribution shape for placing normal fluorite veins.
#Allowed Values: TRAPEZOID, UNIFORM
shape = "UNIFORM"
#Half length of short side of trapezoid, only used if shape is TRAPEZOID. A value of zero means the shape is a triangle.
plateau = 0
#Minimum (inclusive) height anchor for normal fluorite veins.
[world_generation.fluorite.normal.minInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABOVE_BOTTOM"
#Value used for calculating y for the anchor based on the type.
value = 0
#Maximum (inclusive) height anchor for normal fluorite veins.
[world_generation.fluorite.normal.maxInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = 23
#buried fluorite vein Generation Settings.
[world_generation.fluorite.buried]
#Determines if buried fluorite veins should be added to world generation. Note: Requires generating fluorite ore to be enabled.
shouldGenerate = true
#Chance that buried fluorite veins generates in a chunk.
#Range: 1 ~ 256
perChunk = 3
#Maximum number of blocks in a buried fluorite vein.
#Range: 1 ~ 64
maxVeinSize = 13
#Maximum number of blocks in a buried fluorite vein.
#Range: 0.0 ~ 1.0
discardChanceOnAirExposure = 1.0
#Distribution shape for placing buried fluorite veins.
#Allowed Values: TRAPEZOID, UNIFORM
shape = "TRAPEZOID"
#Half length of short side of trapezoid, only used if shape is TRAPEZOID. A value of zero means the shape is a triangle.
plateau = 0
#Minimum (inclusive) height anchor for buried fluorite veins.
[world_generation.fluorite.buried.minInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABOVE_BOTTOM"
#Value used for calculating y for the anchor based on the type.
value = 0
#Maximum (inclusive) height anchor for buried fluorite veins.
[world_generation.fluorite.buried.maxInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = 4
#Generation Settings for lead ore.
[world_generation.lead]
#Determines if lead ore should be added to world generation.
shouldGenerate = true
#normal lead vein Generation Settings.
[world_generation.lead.normal]
#Determines if normal lead veins should be added to world generation. Note: Requires generating lead ore to be enabled.
shouldGenerate = true
#Chance that normal lead veins generates in a chunk.
#Range: 1 ~ 256
perChunk = 8
#Maximum number of blocks in a normal lead vein.
#Range: 1 ~ 64
maxVeinSize = 9
#Maximum number of blocks in a normal lead vein.
#Range: 0.0 ~ 1.0
discardChanceOnAirExposure = 0.25
#Distribution shape for placing normal lead veins.
#Allowed Values: TRAPEZOID, UNIFORM
shape = "TRAPEZOID"
#Half length of short side of trapezoid, only used if shape is TRAPEZOID. A value of zero means the shape is a triangle.
plateau = 0
#Minimum (inclusive) height anchor for normal lead veins.
[world_generation.lead.normal.minInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABOVE_BOTTOM"
#Value used for calculating y for the anchor based on the type.
value = -24
#Maximum (inclusive) height anchor for normal lead veins.
[world_generation.lead.normal.maxInclusive]
#Type of anchor.
#Absolute -> y = value
#Above Bottom -> y = minY + value
#Below Top -> y = depth - 1 + minY - value
#Allowed Values: ABSOLUTE, ABOVE_BOTTOM, BELOW_TOP
type = "ABSOLUTE"
#Value used for calculating y for the anchor based on the type.
value = 64
#Generation Settings for salt.
[world_generation.salt]
#Determines if salt should be added to world generation.
shouldGenerate = true
#Chance that salt generates in a chunk.
#Range: 1 ~ 2031
perChunk = 2
#Base radius of a vein of salt.
#Range: 1 ~ 4
minRadius = 2
#Extended variability (spread) for the radius in a vein of salt.
maxRadius = 3
#Number of blocks to extend up and down when placing a vein of salt.
#Range: 0 ~ 2031
halfHeight = 1