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# OpenComputers configuration. This file uses typesafe config's HOCON syntax.
# Try setting your syntax highlighting to Ruby, to help readability. At least
# in Sublime Text that works really well. Note that this file is overwritten
# whenever you start the game! Changes to the comments may vanish.
# Note that all mentions of 'KB' or 'kilobyte' mean 1024 bytes.
opencomputers {
# The version of OC this config was generated by. This is used to allow the
# mod to reset parts of the config when their meaning changed across
# versions, so that the user does not have to delete it.
version: "@VERSION@"
# Client side settings, presentation and performance related stuff.
client {
# The distance at which to start fading out the text on screens. This is
# purely cosmetic, to avoid text disappearing instantly when moving too
# far away from a screen. This should have no measurable impact on
# performance. Note that this needs OpenGL 1.4 to work, otherwise text
# will always just instantly disappear when moving away from the screen
# displaying it.
screenTextFadeStartDistance: 15.0
# The maximum distance at which to render text on screens. Rendering text
# can be pretty expensive, so if you have a lot of screens you'll want to
# avoid huge numbers here. Note that this setting is client-sided, and
# only has an impact on render performance on clients.
maxScreenTextRenderDistance: 20.0
# Whether to apply linear filtering for text displayed on screens when the
# screen has to be scaled down - i.e. the text is rendered at a resolution
# lower than their native one, e.g. when the GUI scale is less than one or
# when looking at a far away screen. This leads to smoother text for
# scaled down text but results in characters not perfectly connecting
# anymore (for example for box drawing characters. Look it up on
# Wikipedia.)
textLinearFiltering: false
# If you prefer the text on the screens to be aliased (you know, *not*
# anti-aliased / smoothed) turn this option off.
textAntiAlias: true
# Render robots' names as a label above them when near them
robotLabels: true
# The volume multiplier applied to sounds from this mod like the computer
# running noise. Disable sounds by setting this to zero.
soundVolume: 1.0
# This is the scaling of the individual chars rendered on screens. This
# is set to slightly overscale per default, to avoid gaps between fully
# filled chars to appear (i.e. the block symbol that is used for cursor
# blinking for example) on less accurate hardware.
fontCharScale: 1.01
# The maximum render distance of a hologram projected by a highest tier
# hologram projector when at maximum scale. Render distance is scaled
# down with the actual scale of the hologram.
hologramRenderDistance: 64
# The distance at which to start fading out the hologram (as with
# hologramRenderDistance). This is purely cosmetic, to avoid image
# disappearing instantly when moving too far away from a projector.
# It does not affect performance. Holograms are transparent anyway.
hologramFadeStartDistance: 48
# This controls how often holograms 'flicker'. This is the chance that it
# flickers for *each frame*, meaning if you're running at high FPS you
# may want to lower this a bit, to avoid it flickering too much.
hologramFlickerFrequency: 0.025
# This controls the maximum scales of holograms, by tier.
# The size at scale 1 is 3x2x3 blocks, at scale 3 the hologram will
# span up to 9x6x9 blocks. Unlike most other `client' settings, this
# value is only used for validation *on the server*, with the effects
# only being visible on the client.
# Warning: very large values may lead to rendering and/or performance
# issues due to the high view distance! Increase at your own peril.
hologramMaxScale: [
3
4
]
# This controls the maximum translation of holograms, by tier.
# The scale is in "hologram sizes", i.e. scale 1 allows offsetting a
# hologram once by its own size.
hologramMaxTranslation: [
0.25
0.5
]
# The color of monochrome text (i.e. displayed when in 1-bit color depth,
# e.g. tier one screens / GPUs, or higher tier set to 1-bit color depth).
# Defaults to white, feel free to make it some other color, tho!
monochromeColor: 0xFFFFFF
# Which font renderer to use. Defaults to `unifont` if invalid.
# Possible values:
# - unifont: the (since 1.3.2) default font renderer. Based on the
# Unifont and capable of rendering many unicode glyphs.
# The used font data can be swapped out using resource packs,
# but is harder to work with, since it involves binary data.
# - texture: the old, font-texture based font renderer that was used
# in OC versions prior to 1.3.2. This will allow overriding
# the font texture as before. Keep in mind that this renderer
# is slightly less efficient than the new one, and more
# importantly, can only render code page 437 (as opposed to...
# a *lot* of unicode).
fontRenderer: "unifont"
# The sample rate used for generating beeps of computers' internal
# speakers. Use custom values at your own responsibility here; if it
# breaks OC you'll get no support. Some potentially reasonable
# lower values are 16000 or even 8000 (which was the old default, but
# leads to artifacting on certain frequencies).
beepSampleRate: 44100
# The base volume of beeps generated by computers. This may be in a
# range of [0, 127], where 0 means mute (the sound will not even be
# generated), and 127 means maximum amplitude / volume.
beepVolume: 32
}
# Computer related settings, concerns server performance and security.
computer {
# The overall number of threads to use to drive computers. Whenever a
# computer should run, for example because a signal should be processed or
# some sleep timer expired it is queued for execution by a worker thread.
# The higher the number of worker threads, the less likely it will be that
# computers block each other from running, but the higher the host
# system's load may become.
threads: 4
# The time in seconds a program may run without yielding before it is
# forcibly aborted. This is used to avoid stupidly written or malicious
# programs blocking other computers by locking down the executor threads.
# Note that changing this won't have any effect on computers that are
# already running - they'll have to be rebooted for this to take effect.
timeout: 5.0
# The time in seconds to wait after a computer has been restored before it
# continues to run. This is meant to allow the world around the computer
# to settle, avoiding issues such as components in neighboring chunks
# being removed and then re-connected and other odd things that might
# happen.
startupDelay: 0.25
# The maximum size of the byte array that can be stored on EEPROMs.
eepromSize: 4096
# The sizes of the six levels of RAM, in kilobytes. This list must
# contain exactly six entries, or it will be ignored. Note that while
# there are six levels of RAM, they still fall into the three tiers of
# items (level 1, 2 = tier 1, level 3, 4 = tier 2, level 5, 6 = tier 3).
ramSizes: [
192
256
384
512
768
1024
]
# This setting allows you to fine-tune how RAM sizes are scaled internally
# on 64 Bit machines (i.e. when the Minecraft server runs in a 64 Bit VM).
# Why is this even necessary? Because objects consume more memory in a 64
# Bit environment than in a 32 Bit one, due to pointers and possibly some
# integer types being twice as large. It's actually impossible to break
# this down to a single number, so this is really just a rough guess. If
# you notice this doesn't match what some Lua program would use on 32 bit,
# feel free to play with this and report your findings!
# Note that the values *displayed* to Lua via `computer.totalMemory` and
# `computer.freeMemory` will be scaled by the inverse, so that they always
# correspond to the "apparent" sizes of the installed memory modules. For
# example, when running a computer with a 64KB RAM module, even if it's
# scaled up to 96KB, `computer.totalMemory` will return 64KB, and if there
# are really 45KB free, `computer.freeMemory` will return 32KB.
ramScaleFor64Bit: 1.8
# The number of components the different CPU tiers support. This list
# must contain exactly three entries, or it will be ignored.
cpuComponentCount: [
8
12
16
]
# The provided call budgets by the three tiers of CPU. Higher budgets
# mean that more direct calls can be performed per tick. You can raise
# this to increase the "speed" of computers at the cost of higher real
# CPU time. Lower this to lower the load Lua executors put on your
# machine / server, at the cost of slower computers. This list must
# contain exactly three entries, or it will be ignored.
callBudgets: [
0.5
1.0
1.5
]
# This determines whether computers can only be used by players that are
# registered as users on them. Per default a newly placed computer has no
# users. Whenever there are no users the computer is free for all. Users
# can be managed via the Lua API (computer.addUser, computer.removeUser,
# computer.users). If this is true, the following interactions are only
# possible for users:
# - input via the keyboard and touch screen.
# - inventory management.
# - breaking the computer block.
# If this is set to false, all computers will always be usable by all
# players, no matter the contents of the user list. Note that operators
# are treated as if they were in the user list of every computer, i.e. no
# restrictions apply to them.
# See also: `maxUsers` and `maxUsernameLength`.
canComputersBeOwned: true
# The maximum number of users that can be registered with a single
# computer. This is used to avoid computers allocating unchecked amounts
# of memory by registering an unlimited number of users. See also:
# `canComputersBeOwned`.
maxUsers: 16
# Sanity check for username length for users registered with computers. We
# store the actual user names instead of a hash to allow iterating the
# list of registered users on the Lua side.
# See also: `canComputersBeOwned`.
maxUsernameLength: 32
# Whether to delete all contents in the /tmp file system when performing
# a 'soft' reboot (i.e. via `computer.shutdown(true)`). The tmpfs will
# always be erased when the computer is completely powered off, even if
# it crashed. This setting is purely for software-triggered reboots.
eraseTmpOnReboot: false
# The time in milliseconds that scheduled computers are forced to wait
# before executing more code. This avoids computers to "busy idle",
# leading to artificially high CPU load. If you're worried about
# performance on your server, increase this number a little (it should
# never exceed 50, a single tick, though) to reduce CPU load even more.
executionDelay: 12
# Settings specific to the Lua architecture.
lua {
# Whether to allow loading precompiled bytecode via Lua's `load`
# function, or related functions (`loadfile`, `dofile`). Enable this
# only if you absolutely trust all users on your server and all Lua
# code you run. This can be a MASSIVE SECURITY RISK, since precompiled
# code can easily be used for exploits, running arbitrary code on the
# real server! I cannot stress this enough: only enable this is you
# know what you're doing.
allowBytecode: false
}
}
# Robot related settings, what they may do and general balancing.
robot {
# Whether robots may 'activate' blocks in the world. This includes
# pressing buttons and flipping levers, for example. Disable this if it
# causes problems with some mod (but let me know!) or if you think this
# feature is too over-powered.
allowActivateBlocks: true
# Whether robots may use items for a specifiable duration. This allows
# robots to use items such as bows, for which the right mouse button has
# to be held down for a longer period of time. For robots this works
# slightly different: the item is told it was used for the specified
# duration immediately, but the robot will not resume execution until the
# time that the item was supposedly being used has elapsed. This way
# robots cannot rapidly fire critical shots with a bow, for example.
allowUseItemsWithDuration: true
# Whether robots may damage players if they get in their way. This
# includes all 'player' entities, which may be more than just real players
# in the game.
canAttackPlayers: false
# Determines whether robots are a pretty cool guy. Ususally cobwebs are
# the bane of anything using a tool other than a sword or shears. This is
# an utter pain in the part you sit on, because it makes robots meant to
# dig holes utterly useless: the poor things couldn't break cobwebs in
# mining shafts with their golden pick axes. So, if this setting is true,
# we check for cobwebs and allow robots to break 'em anyway, no matter
# their current tool. After all, the hardness value of cobweb can only
# rationally explained by Steve's fear of spiders, anyway.
notAfraidOfSpiders: true
# The 'range' of robots when swinging an equipped tool (left click). This
# is the distance to the center of block the robot swings the tool in to
# the side the tool is swung towards. I.e. for the collision check, which
# is performed via ray tracing, this determines the end point of the ray
# like so: `block_center + unit_vector_towards_side * swingRange`
# This defaults to a value just below 0.5 to ensure the robots will not
# hit anything that's actually outside said block.
swingRange: 0.49
# The 'range' of robots when using an equipped tool (right click) or when
# placing items from their inventory. See `robot.swingRange`. This
# defaults to a value large enough to allow robots to detect 'farmland',
# i.e. tilled dirt, so that they can plant seeds.
useAndPlaceRange: 0.65
# The rate at which items used as tools by robots take damage. A value of
# one means that items lose durability as quickly as when they are used by
# a real player. A value of zero means they will not lose any durability
# at all. This only applies to items that can actually be damaged (such as
# swords, pickaxes, axes and shovels).
# Note that this actually is the *chance* of an item losing durability
# when it is used. Or in other words, it's the inverse chance that the
# item will be automatically repaired for the damage it just took
# immediately after it was used.
itemDamageRate: 0.1
# The name format to use for robots. The substring '$player$' is
# replaced with the name of the player that owns the robot, so for the
# first robot placed this will be the name of the player that placed it.
# This is transitive, i.e. when a robot in turn places a robot, that
# robot's owner, too, will be the owner of the placing robot.
# The substring $random$ will be replaced with a random number in the
# interval [1, 0xFFFFFF], which may be useful if you need to differentiate
# individual robots.
# If a robot is placed by something that is not a player, e.g. by some
# block from another mod, the name will default to 'OpenComputers'.
nameFormat: "$player$.robot"
# Controls the UUID robots are given. You can either specify a fixed UUID
# here or use the two provided variables:
# - $random$, which will assign each robot a random UUID.
# - $player$, which assigns to each placed robot the UUID of the player
# that placed it (note: if robots are placed by fake players, i.e.
# other mods' blocks, they will get that mods' fake player's profile!)
# Note that if no player UUID is available this will be the same as
# $random$.
uuidFormat: "$player$"
# This controls how fast robots gain experience, and how that experience
# alters the stats.
xp {
# The required amount per level is computed like this:
# xp(level) = baseValue + (level * constantGrowth) ^ exponentialGrowth
baseValue: 50
# The required amount per level is computed like this:
# xp(level) = baseValue + (level * constantGrowth) ^ exponentialGrowth
constantGrowth: 8
# The required amount per level is computed like this:
# xp(level) = baseValue + (level * constantGrowth) ^ exponentialGrowth
exponentialGrowth: 2
# This controls how much experience a robot gains for each successful
# action it performs. "Actions" only include the following: swinging a
# tool and killing something or destroying a block and placing a block
# successfully. Note that a call to `swing` or `use` while "bare handed"
# will *not* gain a robot any experience.
actionXp: 0.05
# This determines how much "exhaustion" contributes to a robots
# experience. This is additive to the "action" xp, so digging a block
# will per default give 0.05 + 0.025 [exhaustion] * 1.0 = 0.075 XP.
exhaustionXpRate: 1.0
# This determines how much experience a robot gets for each real XP orb
# an ore it harvested would have dropped. For example, coal is worth
# two real experience points, redstone is worth 5.
oreXpRate: 4.0
# This is the amount of additional energy that fits into a robots
# internal buffer for each level it gains. So with the default values,
# at maximum level (30) a robot will have an internal buffer size of
# two hundred thousand.
bufferPerLevel: 5000
# The additional "efficiency" a robot gains in using tools with each
# level. This basically increases the chances of a tool not losing
# durability when used, relative to the base rate. So for example, a
# robot with level 15 gets a 0.15 bonus, with the default damage rate
# that would lead to a damage rate of 0.1 * (1 - 0.15) = 0.085.
toolEfficiencyPerLevel: 0.01
# The increase in block harvest speed a robot gains per level. The time
# it takes to break a block is computed as actualTime * (1 - bonus).
# For example at level 20, with a bonus of 0.4 instead of taking 0.3
# seconds to break a stone block with a diamond pick axe it only takes
# 0.12 seconds.
harvestSpeedBoostPerLevel: 0.02
}
# Allows fine-tuning of delays for robot actions.
delays {
# The time in seconds to pause execution after a robot turned either
# left or right. Note that this essentially determines hw fast robots
# can turn around, since this also determines the length of the turn
# animation.
turn: 0.4
# The time in seconds to pause execution after a robot issued a
# successful move command. Note that this essentially determines how
# fast robots can move around, since this also determines the length
# of the move animation.
move: 0.4
# The time in seconds to pause execution after a robot successfully
# swung a tool (or it's 'hands' if nothing is equipped). Successful in
# this case means that it hit something, i.e. it attacked an entity or
# extinguishing fires.
# When breaking blocks the normal harvest time scaled with the
# `harvestRatio` (see below) applies.
swing: 0.4
# The time in seconds to pause execution after a robot successfully
# used an equipped tool (or it's 'hands' if nothing is equipped).
# Successful in this case means that it either used the equipped item,
# for example a splash potion, or that it activated a block, for
# example by pushing a button.
# Note that if an item is used for a specific amount of time, like
# when shooting a bow, the maximum of this and the duration of the
# item use is taken.
use: 0.4
# The time in seconds to pause execution after a robot successfully
# placed an item from its inventory.
place: 0.4
# The time in seconds to pause execution after an item was
# successfully dropped from a robot's inventory.
drop: 0.5
# The time in seconds to pause execution after a robot successfully
# picked up an item after triggering a suck command.
suck: 0.5
# This is the *ratio* of the time a player would require to harvest a
# block. Note that robots cannot break blocks they cannot harvest. So
# the time a robot is forced to sleep after harvesting a block is
# breakTime * harvestRatio
# Breaking a block will always at least take one tick, 0.05 seconds.
harvestRatio: 1.0
}
}
# Power settings, buffer sizes and power consumption.
power {
# Whether to ignore any power requirements. Whenever something requires
# power to function, it will try to get the amount of energy it needs from
# the buffer of its connector node, and in case it fails it won't perform
# the action / trigger a shutdown / whatever. Setting this to `true` will
# simply make the check 'is there enough energy' succeed unconditionally.
# Note that buffers are still filled and emptied following the usual
# rules, there just is no failure case anymore. The converter will however
# not accept power from other mods.
ignorePower: false
# This determines how often continuous power sinks try to actually try to
# consume energy from the network. This includes computers, robots and
# screens. This also controls how frequent distributors revalidate their
# global state and secondary distributors, as well as how often the power
# converter queries sources for energy (for now: only BuildCraft). If set
# to 1, this would query every tick. The default queries every 20 ticks,
# or in other words once per second.
# Higher values mean more responsive power consumption, but slightly more
# work per tick (shouldn't be that noticeable, though). Note that this
# has no influence on the actual amount of energy required by computers
# and screens. The power cost is directly scaled up accordingly:
# `tickFrequency * cost`.
tickFrequency: 10
# The amount of energy a Charger transfers to each adjacent robot per tick
# if a maximum strength redstone signal is set. Chargers load robots with
# a controllable speed, based on the maximum strength of redstone signals
# going into the block. So if a redstone signal of eight is set, it'll
# charge robots at roughly half speed.
chargerChargeRate: 100.0
# The amount of energy a Charger transfers into a tablet, if present, per
# tick. This is also based on configured charge speed, as for robots.
chargerChargeRateTablet: 10.0
# The energy efficiency of the generator upgrade. At 1.0 this will
# generate as much energy as you'd get by burning the fuel in a BuildCraft
# Stirling Engine (1MJ per fuel value / burn ticks). To discourage fully
# autonomous robots the efficiency of generators is slighly reduced by
# default.
generatorEfficiency: 0.8
# The energy efficiency of the solar generator upgrade. At 1.0 this will
# generate as much energy as you'd get by burning fuel in a BuildCraft
# Stirling Engine . To discourage fully autonomous robots the efficiency
# of solar generators is greatly reduced by default.
solarGeneratorEfficiency: 0.2
# The amount of energy the robot assembler can apply per tick. This
# controls the speed at which robots are assembled, basically.
assemblerTickAmount: 50
# The amount of energy the disassembler can apply per tick. This
# controls the speed at which items are disassembled, basically.
disassemblerTickAmount: 25
# If you don't want OpenComputers to accept power from one or more of the
# supported power mods, for example because it doesn't suit the vision
# of your mod pack, you can disable support for them here. To stop
# OpenComputers accepting power from a mod, enter its mod id here, e.g.
# `BuildCraftAPI|power`, `IC2`, `factorization`, ...
modBlacklist: []
# Default "buffer" sizes, i.e. how much energy certain blocks can store.
buffer {
# The amount of energy a single capacitor can store.
capacitor: 1600.0
# The amount of bonus energy a capacitor can store for each other
# capacitor it shares a face with. This bonus applies to both of the
# involved capacitors. It reaches a total of two blocks, where the
# bonus is halved for the second neighbor. So three capacitors in a
# row will give a total of 8.8k storage with default values:
# (1.6 + 0.8 + 0.4)k + (0.8 + 1.6 + 0.8)k + (0.4 + 0.8 + 1.6)k
capacitorAdjacencyBonus: 800.0
# The amount of energy a capacitor can store when installed as an
# upgrade into a robot.
batteryUpgrades: [
10000
15000
20000
]
# The amount of energy a computer can store. This allows you to get a
# computer up and running without also having to build a capacitor.
computer: 500.0
# The amount of energy a microcontroller can store in its internal
# buffer.
mcu: 1000.0
# The amount a tablet can store in its internal buffer.
tablet: 10000
# The amount of energy robots can store in their internal buffer.
robot: 20000.0
# The amount of energy a drone can store in its internal buffer.
drone: 5000.0
# The amount of energy a converter can store. This allows directly
# connecting a converter to a distributor, without having to have a
# capacitor on the side of the converter.
converter: 1000.0
# The amount of energy each face of a distributor can story. This
# allows connecting two power distributors directly. If the buffer
# capacity between the two distributors is zero, they won't be able
# to exchange energy. This basically controls the bandwidth. You can
# add capacitors between two distributors to increase this bandwidth.
distributor: 500
# The amount of energy an access point can store.
accessPoint: 600.0
}
# Default "costs", i.e. how much energy certain operations consume.
cost {
# The amount of energy a computer consumes per tick when running.
computer: 0.5
# Amount of energy a microcontroller consumes per tick while running.
microcontroller: 0.1
# The amount of energy a robot consumes per tick when running. This is
# per default less than a normal computer uses because... well... they
# are better optimized? It balances out due to the cost for movement,
# interaction and whatnot, and the fact that robots cannot connect to
# component networks directly, so they are no replacements for normal
# computers.
robot: 0.25
# The amount of energy a drone consumes per tick when running.
drone: 0.4
# The actual cost per tick for computers and robots is multiplied
# with this value if they are currently in a "sleeping" state. They
# enter this state either by calling `os.sleep()` or by pulling
# signals. Note that this does not apply in the tick they resume, so
# you can't fake sleep by calling `os.sleep(0)`.
sleepFactor: 0.1
# The amount of energy a screen consumes per tick. For each lit pixel
# (each character that is not blank) this cost increases linearly:
# for basic screens, if all pixels are lit the cost per tick will be
# this value. Higher tier screens can become even more expensive to
# run, due to their higher resolution. If a screen cannot consume the
# defined amount of energy it will stop rendering the text that
# should be displayed on it. It will *not* forget that text, however,
# so when enough power is available again it will restore the
# previously displayed text (with any changes possibly made in the
# meantime). Note that for multi-block screens *each* screen that is
# part of it will consume this amount of energy per tick.
screen: 0.05
# The amount of energy a hologram projetor consumes per tick. This
# is the cost if every column is lit. If not a single voxel is
# displayed the hologram projector will not drain energy.
hologram: 0.2
# Energy it takes read one kilobyte from a file system. Note that non
# I/O operations on file systems such as `list` or `getFreeSpace` do
# *not* consume power. Note that this very much determines how much
# energy you need in store to start a computer, since you need enough
# to have the computer read all the libraries, which is around 60KB
# at the time of writing.
# Note: internally this is adjusted to a cost per byte, and applied
# as such. It's just specified per kilobyte to be more intuitive.
hddRead: 0.1
# Energy it takes to write one kilobyte to a file system.
# Note: internally this is adjusted to a cost per byte, and applied
# as such. It's just specified per kilobyte to be more intuitive.
hddWrite: 0.25
# Energy it takes to change *every* 'pixel' via the set command of a
# basic screen via the `set` command.
# Note: internally this is adjusted to a cost per pixel, and applied
# as such, so this also implicitly defines the cost for higher tier
# screens.
gpuSet: 2.0
# Energy it takes to change a basic screen with the fill command.
# Note: internally this is adjusted to a cost per pixel, and applied
# as such, so this also implicitly defines the cost for higher tier
# screens.
gpuFill: 1.0
# Energy it takes to clear a basic screen using the fill command with
# 'space' as the fill char.
# Note: internally this is adjusted to a cost per pixel, and applied
# as such, so this also implicitly defines the cost for higher tier
# screens.
gpuClear: 0.1
# Energy it takes to copy half of a basic screen via the copy command.
# Note: internally this is adjusted to a cost per pixel, and applied
# as such, so this also implicitly defines the cost for higher tier
# screens.
gpuCopy: 0.25
# The amount of energy it takes a robot to perform a 90 degree turn.
robotTurn: 2.5
# The amount of energy it takes a robot to move a single block.
robotMove: 15.0
# The conversion rate of exhaustion from using items to energy
# consumed. Zero means exhaustion does not require energy, one is a
# one to one conversion. For example, breaking a block generates 0.025
# exhaustion, attacking an entity generates 0.3 exhaustion.
robotExhaustion: 10.0
# The amount of energy it costs to send a wireless message with signal
# strength one, which means the signal reaches one block. This is
# scaled up linearly, so for example to send a signal 400 blocks a
# signal strength of 400 is required, costing a total of
# 400 * `wirelessCostPerRange`. In other words, the higher this value,
# the higher the cost of wireless messages.
# See also: `maxWirelessRange`.
wirelessCostPerRange: 0.05
# The cost of a single packet sent via StargateTech 2's abstract bus.
abstractBusPacket: 1
# How much energy is consumed when the Geolyzer scans a block.
geolyzerScan: 10
# The base energy cost for assembling a robot.
robotAssemblyBase: 50000
# The additional amount of energy required to assemble a robot for
# each point of complexity.
robotAssemblyComplexity: 10000
# The base energy cost for assembling a microcontroller.
microcontrollerAssemblyBase: 10000
# The additional amount of energy required to assemble a
# microcontroller for each point of complexity.
microcontrollerAssemblyComplexity: 10000
# The base energy cost for assembling a tablet.
tabletAssemblyBase: 20000
# The additional amount of energy required to assemble a tablet for
# each point of complexity.
tabletAssemblyComplexity: 5000
# The base energy cost for assembling a drone.
droneAssemblyBase: 25000
# The additional amount of energy required to assemble a
# drone for each point of complexity.
droneAssemblyComplexity: 15000
# The amount of energy it takes to extract one ingredient from an
# item that is being disassembled. For example, if an item that was
# crafted from three other items gets disassembled, a total of 15000
# energy will be required by default.
# Note that this is consumed over time, and each time this amount is
# reached *one* ingredient gets ejected (unless it breaks, see the
# disassemblerBreakChance setting).
disassemblerPerItem: 2000
# The amount of energy the chunkloader upgrade draws per tick while
# it is enabled, i.e. actually loading a chunk.
chunkloaderCost: 0.06
# The amount of energy pushing blocks with the piston upgrade costs.
pistonPush: 20
# Energy it costs to re-program an EEPROM. This is deliberately
# expensive, to discourage frequent re-writing of EEPROMs.
eepromWrite: 50
}
# The rate at which different blocks accept external power. All of these
# values are in OC energy / tick.
rate {
accessPoint: 10.0
assembler: 100.0
case: [
5.0
10.0
20.0
]
charger: 200.0
disassembler: 50.0
powerConverter: 500.0
serverRack: 50.0
}
# Power values for different power systems.
value {
AppliedEnergistics2: 100.0
BuildCraft: 500.0
Factorization: 6.5
Galacticraft: 24.0
IndustrialCraft2: 200.0
Mekanism: 700.0
RedstoneFlux: 18.0
ResonantEngine: 1750.0
}
}
# File system related settings, performance and and balancing.
filesystem {
# Whether persistent file systems such as disk drivers should be
# 'buffered', and only written to disk when the world is saved. This
# applies to all hard drives. The advantage of having this enabled is that
# data will never go 'out of sync' with the computer's state if the game
# crashes. The price is slightly higher memory consumption, since all
# loaded files have to be kept in memory (loaded as in when the hard drive
# is in a computer).
bufferChanges: true
# The base 'cost' of a single file or directory on a limited file system,
# such as hard drives. When computing the used space we add this cost to
# the real size of each file (and folders, which are zero sized
# otherwise). This is to ensure that users cannot spam the file system
# with an infinite number of files and/or folders. Note that the size
# returned via the API will always be the real file size, however.
fileCost: 512
# The sizes of the three tiers of hard drives, in kilobytes. This list
# must contain exactly three entries, or it will be ignored.
hddSizes: [
1024
2048
4096
]
# The size of writable floppy disks, in kilobytes.
floppySize: 512
# The size of the /tmp filesystem that each computer gets for free. If
# set to a non-positive value the tmp file system will not be created.
tmpSize: 64
# The maximum number of file handles any single computer may have open at
# a time. Note that this is *per filesystem*. Also note that this is only
# enforced by the filesystem node - if an add-on decides to be fancy it
# may well ignore this. Since file systems are usually 'virtual' this will
# usually not have any real impact on performance and won't be noticeable
# on the host operating system.
maxHandles: 16
# The maximum block size that can be read in one 'read' call on a file
# system. This is used to limit the amount of memory a call from a user
# program can cause to be allocated on the host side: when 'read' is,
# called a byte array with the specified size has to be allocated. So if
# this weren't limited, a Lua program could trigger massive memory
# allocations regardless of the amount of RAM installed in the computer it
# runs on. As a side effect this pretty much determines the read
# performance of file systems.
maxReadBuffer: 2048
}
# Internet settings, security related.
internet {
# Whether to allow HTTP requests via internet cards. When enabled,
# the `request` method on internet card components becomes available.
enableHttp: true
# Whether to allow TCP connections via internet cards. When enabled,
# the `connect` method on internet card components becomes available.
enableTcp: true
# This is a list of blacklisted domain names. If an HTTP request is made
# or a socket connection is opened the target address will be compared
# to the addresses / adress ranges in this list. It it is present in this
# list, the request will be denied.
# Entries are either domain names (www.example.com) or IP addresses in
# string format (10.0.0.3), optionally in CIDR notation to make it easier
# to define address ranges (1.0.0.0/8). Domains are resolved to their
# actual IP once on startup, future requests are resolved and compared
# to the resolved addresses.
# By default all local addresses are blocked. This is only meant as a
# thin layer of security, to avoid average users hosting a game on their
# local machine having players access services in their local network.
# Server hosters are expected to configure their network outside of the
# mod's context in an appropriate manner, e.g. using a system firewall.
blacklist: [
"127.0.0.0/8"
"10.0.0.0/8"
"192.168.0.0/16"
"172.16.0.0/12"
]
# This is a list of whitelisted domain names. Requests may only be made
# to addresses that are present in this list. If this list is empty,
# requests may be made to all addresses not blacklisted. Note that the
# blacklist is always applied, so if an entry is present in both the
# whitelist and the blacklist, the blacklist will win.
# Entries are of the same format as in the blacklist. Examples:
# "gist.github.com", "www.pastebin.com"
whitelist: []
# The time in seconds to wait for a response to a request before timing
# out and returning an error message. If this is zero (the default) the
# request will never time out.
requestTimeout: 0
# The maximum size of files / data that can be downloaded using HTTP-
# requests. This is to limit the size of the data that is written when
# the world is saved. If this is too large you run into danger of having
# chunks not save properly because Minecraft is derpy like that, and
# memory consumption can explode, too, if the requested data is not
# fetched by the requesting state (e.g. downloading a very large file).
# This is in bytes. Four MB is probably still too lenient. Consider
# reducing this number on servers.
requestMaxDownloadSize: 4194304
# The maximum concurrent TCP connections *each* internet card can have
# open at a time.
maxTcpConnections: 4
# The number of threads used for processing host name lookups and HTTP
# requests in the background. The more there are, the more concurrent
# connections can potentially be opened by computers, and the less likely
# they are to delay each other.
threads: 4
}
# Switch and access point network message forwarding logic related stuff.
switch {
# The delay a switch has by default between relaying packets (in ticks).
# WARNING: lowering this value will result in higher maximum CPU load,
# and may in extreme cases cause server lag.
defaultRelayDelay: 5
# The amount of ticks the delay is *reduced* by per tier of the CPU
# inserted into a switch.
relayDelayUpgrade: 1
# This is the size of the queue of a not upgraded switch. Increasing it
# avoids packets being dropped when many messages are sent in a single
# burst.
defaultMaxQueueSize: 20
# This is the amount by which the queue size increases per tier of the
# hard drive installed in the switch.
queueSizeUpgrade: 10
# The base number of packets that get relayed in one 'cycle'. The
# cooldown between cycles is determined by the delay.
defaultRelayAmount: 1
# The number of additional packets that get relayed per cycle, based on
# the tier of RAM installed in the switch. For built-in RAM this
# increases by one per half-tier, for third-party ram this increases by
# two per item tier.
relayAmountUpgrade: 1
}
# Other settings that you might find useful to tweak.
misc {
# The maximum width of multi-block screens, in blocks.
# See also: `maxScreenHeight`.
maxScreenWidth: 8
# The maximum height of multi-block screens, in blocks. This is limited to
# avoid excessive computations for merging screens. If you really need
# bigger screens it's probably safe to bump this quite a bit before you
# notice anything, since at least incremental updates should be very
# efficient (i.e. when adding/removing a single screen).
maxScreenHeight: 6
# Whether to pass along the name of the user that caused an input signals
# to the computer (mouse and keyboard signals). If you feel this breaks
# the game's immersion, disable it.
# Note: also applies to the motion sensor.
inputUsername: true
# The maximum length of a string that may be pasted. This is used to limit
# the size of the data sent to the server when the user tries to paste a
# string from the clipboard (Shift+Ins on a screen with a keyboard).
maxClipboard: 1024
# The maximum size of network packets to allow sending via network cards.
# This has *nothing to do* with real network traffic, it's just a limit
# for the network cards, mostly to reduce the chance of computer with a
# lot of RAM killing those with less by sending huge packets. This does
# not apply to HTTP traffic.
maxNetworkPacketSize: 8192
# The maximum number of ports a single network card can have opened at
# any given time.
maxOpenPorts: 16
# The maximum distance a wireless message can be sent. In other words,
# this is the maximum signal strength a wireless network card supports.
# This is used to limit the search range in which to check for modems,
# which may or may not lead to performance issues for ridiculous ranges -
# like, you know, more than the loaded area.
# See also: `wirelessCostPerRange`.
maxWirelessRange: 400
# The number of remote terminals supported by each server tier.
terminalsPerTier: [2, 4, 8]
# Whether to perform an update check and informing local players and OPs
# if a new version is available (contacts Github once the first player
# joins a server / the first map in single player is opened).
updateCheck: true
# The probability (or rather, weighted chance) that a program disk is
# spawned as loot in a treasure chest. For reference, iron ingots have
# a value of 10, gold ingots a value of 5 and and diamonds a value of 3.
# This is the chance *that* a disk is created. Which disk that will be
# is decided in an extra roll of the dice.
lootProbability: 5
# The range, in blocks, in which the Geolyzer can scan blocks. Note that
# it uses the maximum-distance, not the euclidean one, i.e. it can scan
# in a cube surrounding it with twice this value as its edge length.
geolyzerRange: 32
# Controls how noisy results from the Geolyzer are. This is the maximum
# deviation from the original value at the maximum vertical distance
# from the geolyzer. Noise increases linearly with the vertical distance
# to the Geolyzer. So yes, on the same height, the returned value are of
# equal 'quality', regardless of the real distance. This is a performance
# trade-off.
geolyzerNoise: 4
# By default the disassembler can only be used to disassemble items from
# OpenComputers itself (or objects whitelisted via the API). If you'd
# like to allow the disassembler to work on all kinds of items, even from
# other mods, set this to true.
disassembleAllTheThings: false
# The probability that an item breaks when disassembled. This chance
# applies *per extracted item*. For example, if an item was crafted from
# three other items and gets disassembled, each of those three items has
# this chance of breaking in the process.
disassemblerBreakChance: 0.05
# Whether to not show your special thinger (if you have one you know it).
hideOwnSpecial: false
# Allow robots to get a table representation of item stacks using the
# inventory controller upgrade? (i.e. whether the getStackInSlot method
# of said upgrade is enabled or not). Also applies to tank controller
# upgrade and it's fluid getter method.
allowItemStackInspection: true
# Probablility that at certain celebratory times crafting an OC item will
# spawn a present in the crafting player's inventory. Set to zero to
# disable.
presentChance: 0.05
# List of item descriptors of assembler template base items to blacklist,
# i.e. for disabling the assembler template for. Entries must be of the
# format 'itemid@damage', were the damage is optional.
# Examples: 'OpenComputers:case3', 'minecraft:stonebrick@1'
assemblerBlacklist: []
}
# Settings for mod integration (the mod previously known as OpenComponents).
integration {
# A list of mods (by mod id) for which support should NOT be enabled. Use
# this to disable support for mods you feel should not be controllable via
# computers (such as magic related mods, which is why Thaumcraft is on this
# list by default.)
modBlacklist: [
"Thaumcraft"
]
# A list of tile entities by class name that should NOT be accessible via
# the Adapter block. Add blocks here that can lead to crashes or deadlocks
# (and report them, please!)
peripheralBlacklist: [
"net.minecraft.tileentity.TileEntityCommandBlock"
]
# The UUID to use for the global fake player needed for some mod
# interactions.
fakePlayerUuid: "7e506b5d-2ccb-4ac4-a249-5624925b0c67"
# The name to use for the global fake player needed for some mod
# interactions.
fakePlayerName: "[OpenComputers]"
# Vanilla integration related settings.
vanilla {
# Whether to enable the inventory driver. This driver allows interacting
# with inventories adjacent to adapters in a way similar to what the
# inventory controller upgrade allows when built into a robot or placed
# inside an adapter. It is therefore considered to be somewhat cheaty by
# some, and disabled by default. If you don't care about that, feel free
# to enable this driver.
enableInventoryDriver: false
# Whether to enable the tank driver. This driver is like the inventory
# driver, just for fluid tanks, and is disabled by default with the same
# reasoning as the inventory driver - using a tank controller upgrade in
# an adapter has pretty much the same effect.
enableTankDriver: false
# Whether to allow the item stack converter to push NBT data in
# compressed format (GZIP'ed). This can be useful for pushing this
# data back to other callbacks. However, given a sophisticated
# enough software (Lua script) it is possible to decode this data,
# and get access to things that should be considered implementation
# detail / private (mods may keep "secret" data in such NBT tags).
# The recommended method is to use the database component instead.
allowItemStackNBTTags: false
}
}
# Settings that are intended for debugging issues, not for normal use.
# You usually don't want to touch these unless asked to do so by a developer.
debug {
# Forces the use of the LuaJ fallback instead of the native libraries.
# Use this if you have concerns using native libraries or experience
# issues with the native library.
forceLuaJ: false
# This setting is meant for debugging errors that occur in Lua callbacks.
# Per default, if an error occurs and it has a message set, only the
# message is pushed back to Lua, and that's it. If you encounter weird
# errors or are developing an addon you'll want the stacktrace for those
# errors. Enabling this setting will log them to the game log. This is
# disabled per default to avoid spamming the log with inconsequentual
# exceptions such as IllegalArgumentExceptions and the like.
logCallbackErrors: false
# Disable user data support. This means any otherwise supported
# userdata (implementing the Value interface) will not be pushed
# to the Lua state.
disableUserdata: false
# Disable computer state persistence. This means that computers will
# automatically be rebooted when loaded after being unloaded, instead
# of resuming with their exection (it also means the state is not even
# saved). Only relevant when using the native library.
disablePersistence: false
# Disable memory limit enforcement. This means Lua states can
# theoretically use as much memory as they want. Only relevant when
# using the native library.
disableMemoryLimit: false
# Force the buffered file system to be case insensitive. This makes it
# impossible to have multiple files whose names only differ in their
# capitalization, which is commonly the case on Windows, for example.
# This only takes effect when bufferChanges is set to true.
forceCaseInsensitiveFS: false
# Logs the full error when a native library fails to load. This is
# disabled by default to avoid spamming the log, since libraries are
# iterated until one works, so it's very likely for some to fail. Use
# this in case all libraries fail to load even though you'd expect one
# to work.
logFullNativeLibLoadErrors: false
# Force loading one specific library, to avoid trying to load any
# others. Use this if you get warnings in the log or are told to do
# so for debugging purposes ;-)
forceNativeLibWithName: ""
# Used to suppress log spam for OpenGL errors on derpy drivers. I'm
# quite certain the code in the font render is valid, display list
# compatible OpenGL, but it seems to cause 'invalid operation' errors
# when executed as a display list. I'd be happy to be proven wrong,
# since it'd restore some of my trust into AMD drivers...
logOpenGLErrors: false
# On some platforms the native library can crash the game, so there are
# a few checks in place to avoid trying to load it in those cases. This
# is Windows XP and Windows Server 2003, right. If you think it might
# work nonetheless (newer builds of Server2k3 e.g.) you might want to
# try setting this to `true`. Use this at your own risk. If the game
# crashes as a result of setting this to `true` DO NOT REPORT IT.
alwaysTryNative: false
# This is meant for debugging errors. Enabling this has a high impact
# on computers' save and load performance, so you should not enable
# this unless you're asked to.
verbosePersistenceErrors: false
# Logs information about malformed glyphs (i.e. glyphs that deviate in
# width from what wcwidth says).
logUnifontErrors: false
# Extract the native library with Lua into the system's temporary
# directory instead of the game directory (e.g. /tmp on Linux). The
# default is to extract into the game directory, to avoid issues when
# the temporary directory is mounted as noexec (meaning the lib cannot)
# be loaded. There is also less of a chance of conflicts when running
# multiple servers or server and client on the same machine.
nativeInTmpDir: false
# Due to a bug in Minecraft's lighting code there's an issue where
# lighting does not properly update near light emitting blocks that are
# fully solid - like screens, for example. This can be annoying when
# using other blocks that dynamically change their brightness (e.g. for
# the addon mod OpenLights). Enable this to force light emitting blocks
# in oc to periodically (every two seconds) do an update. This should
# not have an overly noticeable impact on performance, but it's disabled
# by default because it is unnecessary in *most* cases.
periodicallyForceLightUpdate: false
# Pass along IDs of items and fluids when converting them to a table
# representation for Lua.
insertIdsInConverters: false
# Enable debug card functionality. This may also be of use for custom
# maps, so it is enabled by default. If you run a server where people
# may cheat in items but should not have op/admin-like rights, you may
# want to set this to false. This will *not* remove the card, it will
# just make all functions it provides error out.
enableDebugCard: true
# Whether to always register the LuaJ architecture - even if the native
# library is available. In that case it is possible to switch between
# the two like any other registered architecture.
registerLuaJArchitecture: false
}
}