industrialtest/api.lua

716 lines
27 KiB
Lua

-- IndustrialTest
-- Copyright (C) 2023 mrkubax10
-- This program is free software: you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation, either version 3 of the License, or
-- (at your option) any later version.
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
-- You should have received a copy of the GNU General Public License
-- along with this program. If not, see <http://www.gnu.org/licenses/>.
local S=minetest.get_translator("industrialtest")
industrialtest.api={}
industrialtest.api.maceratorRecipes={}
industrialtest.api.compressorRecipes={}
industrialtest.api.extractorRecipes={}
industrialtest.api.geothermalGeneratorFuels={}
industrialtest.api.waterMillFuels={}
industrialtest.api.storageCells={}
industrialtest.api.lvPowerFlow=600
industrialtest.api.mvPowerFlow=2400
industrialtest.api.hvPowerFlow=10200
industrialtest.api.evPowerFlow=40800
industrialtest.api.ivPowerFlow=163800
industrialtest.internal.clamp=function(num,min,max)
return math.max(math.min(num,max),min)
end
-- \brief Adds power storage to metadata
-- \param capacity How much EU item/node can store
-- \param flow How much EU can flow in or out item/node per industrialtest.updateDelay
-- \param ioConfig Input/Output configuration in following side order: -X, +X, -Y, +Y, -Z, +Z
-- a - bidirectional, i - input, o - output
-- \returns nil
industrialtest.api.addPowerStorage=function(meta,capacity,flow,ioConfig)
meta:set_int("industrialtest.powerCapacity",capacity)
meta:set_int("industrialtest.powerFlow",flow)
meta:set_int("industrialtest.powerAmount",0)
meta:set_string("industrialtest.ioConfig",ioConfig)
end
-- \brief Takes rotated node and side and outputs normalized side that can be used for ioConfig lookups
-- \param pos Vector with node position
-- \param side Node side. See industrialtest.api.addPowerStorage for possible values
-- \returns Normalized side or in case of failure side argument back
industrialtest.api.normalizeSide=function(pos,side)
local node=minetest.get_node(pos)
-- FIXME: improve code quality there
local translation={
[0]={
1,2,3,4,5,6
},
[1]={
5,6,3,4,2,1
},
[2]={
1,2,3,4,6,5
},
[3]={
6,5,3,4,1,2
}
}
if node.param2>3 then
return side
end
return translation[node.param2][side]
end
-- \brief Checks if metadata contains power storage
-- \param meta MetaDataRef which should be checked
-- \returns true if metadata contains power storage, false otherwise
industrialtest.api.hasPowerStorage=function(meta)
local values={"industrialtest.powerCapacity","industrialtest.powerFlow","industrialtest.powerAmount","industrialtest.ioConfig"}
for _,value in ipairs(values) do
if not meta:contains(value) then
return false
end
end
return true
end
-- \brief Updates itemstack description to show current power storage information, additionally updates item wear bar.
-- Function doesn't check if itemstack contains power storage so you should be sure that it does before calling this function
-- \param itemstack ItemStack which should be updated
-- \returns nil
industrialtest.api.updateItemPowerText=function(itemstack)
local meta=itemstack:get_meta()
local def=minetest.registered_tools[itemstack:get_name()]
meta:set_string("description",S("@1\n@2 / @3 EU",def.description,meta:get_int("industrialtest.powerAmount"),meta:get_int("industrialtest.powerCapacity")))
itemstack:set_wear(65535-meta:get_int("industrialtest.powerAmount")/meta:get_int("industrialtest.powerCapacity")*65534)
end
-- \brief Adds power storage to item depending on it's definition
-- \param itemstack ItemStack to which item storage should be added
-- \returns true if power storage was successfully added, false otherwise
industrialtest.api.preparePowerStorageItem=function(itemstack)
local meta=itemstack:get_meta()
local def=minetest.registered_tools[itemstack:get_name()]
if industrialtest.api.hasPowerStorage(meta) or not def or not def._industrialtest_powerStorage or not def._industrialtest_powerCapacity or not def._industrialtest_powerFlow then
return false
end
industrialtest.api.addPowerStorage(meta,def._industrialtest_powerCapacity,def._industrialtest_powerFlow,"n/a")
industrialtest.api.updateItemPowerText(itemstack)
return true
end
-- \brief Sets uses metadata value depending on item's definition
-- \param itemstack ItemStack which should be altered
-- \returns true if value was successfully added, false otherwise
industrialtest.api.prepareToolItem=function(itemstack)
local def=minetest.registered_tools[itemstack:get_name()]
if not def or not def._industrialtest_tool or not def.tool_capabilities or not def.tool_capabilities.uses then
return false
end
local meta=itemstack:get_meta()
meta:set_int("industrialtest.uses",def.tool_capabilities.uses)
return true
end
-- \brief Adds wear to item after it's use
-- \param itemstack ItemStack to which wear should be added
-- \returns nil
industrialtest.api.afterToolUse=function(itemstack)
local meta=itemstack:get_meta()
local def=minetest.registered_tools[itemstack:get_name()]
if not def or not def._industrialtest_tool or not def.tool_capabilities or not def.tool_capabilities.uses then
return
end
if not meta:contains("industrialtest.uses") then
industrialtest.prepareToolItem(itemstack)
end
local uses=meta:get_int("industrialtest.uses")-1
if uses==0 then
itemstack:set_count(0)
minetest.sound_play({name="default_tool_breaks"},{
gain=1,
fade=0,
pitch=1
},true)
return
end
meta:set_int("industrialtest.uses",uses)
itemstack:set_wear(65535-uses/def.tool_capabilities.uses*65535)
end
-- \brief Checks if power storage is fully charged
-- \param meta MetaDataRef which should be checked
-- \returns true if power storage is fully charged, false otherwise
industrialtest.api.isFullyCharged=function(meta)
return meta:get_int("industrialtest.powerAmount")>=meta:get_int("industrialtest.powerCapacity")
end
-- \brief Adds power to power storage. Function doesn't check if meta contains power storage so you must be sure that it does.
-- \param meta MetaDataRef to which power should be added
-- \param amount Amount of power to add
-- \returns How much of power was actually added
industrialtest.api.addPower=function(meta,amount)
local powerAmount=meta:get_int("industrialtest.powerAmount")
local powerCapacity=meta:get_int("industrialtest.powerCapacity")
local prevPowerAmount=powerAmount
powerAmount=industrialtest.internal.clamp(powerAmount+amount,0,powerCapacity)
meta:set_int("industrialtest.powerAmount",powerAmount)
return powerAmount-prevPowerAmount
end
-- \brief Adds power to itemstack. Function checks if itemstack has power storage.
-- \param itemstack ItemStack to which add power
-- \param amount How much power to add
-- \returns Amount of power added
industrialtest.api.addPowerToItem=function(itemstack,amount)
local meta=itemstack:get_meta()
if not industrialtest.api.hasPowerStorage(meta) then
return 0
end
local added=industrialtest.api.addPower(meta,amount)
industrialtest.api.updateItemPowerText(itemstack)
return added
end
-- \brief Adds power to destination metadata while subtracting it from source metadata
-- \Param srcMeta MetaDataRef from which take power
-- \param destMeta MetaDataRef to which add power
-- \returns How much of power was actually transferred
industrialtest.api.transferPower=function(srcMeta,destMeta,amount)
local currentFlow=math.min(srcMeta:get_int("industrialtest.powerAmount"),amount)
if currentFlow==0 then
return 0
end
local actualFlow=industrialtest.api.addPower(destMeta,currentFlow)
srcMeta:set_int("industrialtest.powerAmount",srcMeta:get_int("industrialtest.powerAmount")-actualFlow)
return actualFlow
end
-- \brief Adds power to destination itemstack while subtracting it from source metadata
-- \param srcMeta MetaDataRef from which take power
-- \param itemstack ItemStack to which add power
-- \returns How much of power was actually transferred
industrialtest.api.transferPowerToItem=function(srcMeta,itemstack,amount)
local currentFlow=math.min(srcMeta:get_int("industrialtest.powerAmount"),amount)
if currentFlow==0 then
return 0
end
local actualFlow=industrialtest.api.addPowerToItem(itemstack,currentFlow)
srcMeta:set_int("industrialtest.powerAmount",srcMeta:get_int("industrialtest.powerAmount")-actualFlow)
return actualFlow
end
-- \brief Adds power to destination metadata while subtracting it from source itemstack
-- \param srcItemstack ItemStack from which subtract power
-- \param meta MetaDataRef to which add power
-- \param amount How much power should be transferred
-- \returns How much of power was actually transferred
industrialtest.api.transferPowerFromItem=function(srcItemstack,meta,amount)
local srcMeta=srcItemstack:get_meta()
local currentFlow=math.min(srcMeta:get_int("industrialtest.powerAmount"),amount)
if currentFlow==0 then
return 0
end
local actualFlow=industrialtest.api.addPower(meta,currentFlow)
industrialtest.api.addPowerToItem(srcItemstack,-actualFlow)
return actualFlow
end
-- \brief Transfers power from source node to all neighbouring nodes
-- \param pos Vector with position of source node
-- \returns two values: true if any neighbouring node has room for more power, false otherwise
-- true if any power was transferred, false otherwise
industrialtest.api.powerFlow=function(pos)
local meta=minetest.get_meta(pos)
-- if machine doesn't have network map then it's not capable of transferring power
if not meta:contains("industrialtest.network") then
return false,false
end
local network=minetest.deserialize(meta:get_string("industrialtest.network"))
if #network==0 then
return false,false
end
local powerFlow=meta:get_int("industrialtest.powerFlow")
local powerDistribution=math.floor(powerFlow/#network)
local transferred=false
local roomAvailable=false
for _,endpoint in ipairs(network) do
local endpointMeta=minetest.get_meta(endpoint.position)
-- TODO: if supplying machine power flow is too large for receiving machine to handle then that machine should explode
local transferredToEndpoint=false
if industrialtest.api.transferPower(meta,endpointMeta,math.min(powerDistribution,endpoint.flow))>0 then
transferred=true
transferredToEndpoint=true
end
local def=minetest.registered_nodes[minetest.get_node(endpoint.position).name]
if def then
local updateFormspec=def._industrialtest_updateFormspec
if updateFormspec then
updateFormspec(endpoint.position)
end
local onPowerFlow=def._industrialtest_onPowerFlow
if onPowerFlow and transferredToEndpoint then
onPowerFlow(endpoint.position,industrialtest.api.getOppositeSide(1))
end
end
minetest.get_node_timer(endpoint.position):start(industrialtest.updateDelay)
if not industrialtest.api.isFullyCharged(endpointMeta) then
roomAvailable=true
end
end
return roomAvailable,transferred
end
local function addNodeToNetwork(pos,networkMasterPos)
local meta=minetest.get_meta(pos)
local networks={}
if meta:contains("industrialtest.networks") then
networks=minetest.deserialize(meta:get_string("industrialtest.networks"))
end
for _,network in ipairs(networks) do
if network.x==networkMasterPos.x and network.y==networkMasterPos.y and network.z==networkMasterPos.z then
return
end
end
table.insert(networks,networkMasterPos)
meta:set_string("industrialtest.networks",minetest.serialize(networks))
end
local function clampFlow(pos,flow)
local def=minetest.registered_nodes[minetest.get_node(pos).name]
local newFlow
if def.groups and def.groups._industrialtest_cable then
newFlow=def._industrialtest_cableFlow
else
local meta=minetest.get_meta(pos)
newFlow=meta:get_int("industrialtest.powerFlow")
end
return math.min(flow,newFlow)
end
-- \brief Creates network map starting from node at pos, optionally omitting node at omit
-- \param pos vector
-- \param (optional) omit Vector
-- \returns table with network map
industrialtest.api.createNetworkMap=function(pos,omit)
local workers={}
local map={}
local connections=industrialtest.api.getConnections(pos,"i")
if #connections==0 then
return map
end
local serializedSourcePos=pos.x..","..pos.y..","..pos.z
local visitedNodes={[serializedSourcePos]=true}
for _,conn in ipairs(connections) do
if not omit or conn.x~=omit.x or conn.y~=omit.y or conn.z~=omit.z then
visitedNodes[conn.x..","..conn.y..","..conn.z]=true
addNodeToNetwork(conn,pos)
local def=minetest.registered_nodes[minetest.get_node(conn).name]
if def.groups._industrialtest_cable then
table.insert(workers,{
position=conn,
distance=1,
flow=def._industrialtest_cableFlow
})
else
local meta=minetest.get_meta(conn)
table.insert(map,{
position=conn,
distance=0,
flow=meta:get_int("industrialtest.powerFlow")
})
end
end
end
while #workers>0 do
for i=1,#workers do
local worker=workers[i]
connections=industrialtest.api.getConnections(worker.position,"i")
if #connections==0 then
table.remove(workers,i)
break
else
local directionAssigned=false
local foundNewNode=false
for _,conn in ipairs(connections) do
if not omit or conn.x~=omit.x or conn.y~=omit.y or conn.z~=omit.z then
local serializedPos=conn.x..","..conn.y..","..conn.z
if not visitedNodes[serializedPos] then
local def=minetest.registered_nodes[minetest.get_node(conn).name]
visitedNodes[serializedPos]=true
foundNewNode=true
addNodeToNetwork(conn,pos)
if def.groups._industrialtest_cable then
if directionAssigned then
table.insert(workers,{
position=conn,
distance=worker.distance+1,
flow=clampFlow(conn,worker.flow)
})
else
worker.position=conn
worker.distance=worker.distance+1
worker.flow=clampFlow(conn,worker.flow)
directionAssigned=true
end
else
table.insert(map,{
position=conn,
distance=worker.distance,
flow=clampFlow(conn,worker.flow)
})
if #connections==1 then
table.remove(workers,i)
break
end
end
end
end
end
if not foundNewNode then
table.remove(workers,i)
break
end
end
end
end
return map
end
industrialtest.api.removeNodeFromNetwork=function(pos,nodePos)
local meta=minetest.get_meta(pos)
local network=minetest.deserialize(meta:get_string("industrialtest.network"))
local removed=false
for key,node in ipairs(network) do
if node.position.x==nodePos.x and node.position.y==nodePos.y and node.position.z==nodePos.z then
table.remove(network,key)
removed=true
break
end
end
if removed then
meta:set_string("industrialtest.network",minetest.serialize(network))
end
end
-- \brief Creates network map and writes it to node metadata at pos, optionally omitting node at omit
-- \param pos Vector
-- \param (optional) omit Vector
-- \returns nil
industrialtest.api.createNetworkMapForNode=function(pos,omit)
local meta=minetest.get_meta(pos)
local network=industrialtest.api.createNetworkMap(pos,omit)
meta:set_string("industrialtest.network",minetest.serialize(network))
end
-- \brief Returns true if meta contains network map, false otherwise
-- \param meta MetaDataRef
-- \returns bool
industrialtest.api.isNetworkMaster=function(meta)
return meta:contains("industrialtest.network")
end
-- \brief Returns network table if node containing meta belongs to any networks, false otherwise
-- \param meta MetaDataRef
-- \returns bool or table
industrialtest.api.isAttachedToNetwork=function(meta)
if not meta:contains("industrialtest.networks") then
return false
end
local networks=minetest.deserialize(meta:get_string("industrialtest.networks"))
if #networks==0 then
return false
end
return networks
end
-- \brief Starts node timer of neighbouring nodes with center node
-- \param pos Vector with position of center node
-- \returns nil
industrialtest.api.triggerNeighbours=function(pos)
for _,value in ipairs(industrialtest.api.getConnections(pos)) do
minetest.get_node_timer(value):start(industrialtest.updateDelay)
end
end
-- \brief Returns opposite side of provided one
-- \param side Side number. See industrialtest.api.addPowerStorage for order
-- \returns Opposite side
industrialtest.api.getOppositeSide=function(side)
return (side%2==0 and side-1 or side+1)
end
-- \brief Returns connections of node with power storage. If direction is "i" only input connections will be returned, if direction is "o" only output connections
-- will be returned, if it's not provided all connections will be returned.
-- \param pos Vector
-- \param (optional) direction string
-- \returns table
industrialtest.api.getConnections=function(pos,direction)
local result={}
local neighbourPositions={
vector.offset(pos,-1,0,0),
vector.offset(pos,1,0,0),
vector.offset(pos,0,-1,0),
vector.offset(pos,0,1,0),
vector.offset(pos,0,0,-1),
vector.offset(pos,0,0,1)
}
local sourceMeta=minetest.get_meta(pos)
local sourceDef=minetest.registered_nodes[minetest.get_node(pos).name]
local directionOutput=(not direction or direction=="o")
local directionInput=(not direction or direction=="i")
for key,conn in ipairs(neighbourPositions) do
local meta=minetest.get_meta(conn)
local def=minetest.registered_nodes[minetest.get_node(conn).name]
local powerOutput=(sourceDef.groups._industrialtest_cable or industrialtest.api.isPowerOutput(sourceMeta,key))
local powerInput=(sourceDef.groups._industrialtest_cable or industrialtest.api.isPowerInput(sourceMeta,key))
if def.groups._industrialtest_cable or industrialtest.api.hasPowerStorage(meta) then
local side=industrialtest.api.getOppositeSide(key)
if (powerOutput and directionInput and (def.groups._industrialtest_cable or industrialtest.api.isPowerInput(meta,side))) or ((def.groups._industrialtest_cable or industrialtest.api.isPowerOutput(meta,side)) and powerInput and directionOutput) then
table.insert(result,conn)
end
end
end
return result
end
-- \brief Changes node's power IO config. Function doesn't check if meta actually contains power storage.
-- \param meta MetaDataRef of node which power IO config should be changed
-- \param side Side number. See industrialtest.api.addPowerStorage to check order.
-- \param mode Side mode. See industrialtest.api.addPowerStorage for possible values.
-- \returns nil
industrialtest.api.changeIoConfig=function(meta,side,mode)
local ioConfig=meta:get_string("industrialtest.ioConfig")
ioConfig=string.sub(ioConfig,1,side-1)..mode..string.sub(ioConfig,side+1)
meta:set_string("industrialtest.ioConfig",ioConfig)
end
-- \brief Checks if provided side is power input
-- \param meta MetaDataRef of node
-- \param side Side number. See industrialtest.api.addPowerStorage to check order.
-- \returns true if provided side is power input, false otherwise
industrialtest.api.isPowerInput=function(meta,side)
local ioConfig=meta:get_string("industrialtest.ioConfig")
local mode=string.sub(ioConfig,side,side)
return (mode=="i" or mode=="a")
end
-- \brief Checks if provided side is power output
-- \param meta MetaDataRef of node
-- \param side Side number. See industrialtest.api.addPowerStorage to check order.
-- \returns true if provided side is power output, false otherwise
industrialtest.api.isPowerOutput=function(meta,side)
local ioConfig=meta:get_string("industrialtest.ioConfig")
local mode=string.sub(ioConfig,side,side)
return (mode=="o" or mode=="a")
end
-- \brief Registers dust of certain resource
-- \param name Technical name of resource
-- \param displayName Display name of resource
-- \param resources List of tables with following keys: <output>, <recipe>, [count(1)]
-- <> - required, [] - optional, () - default value
-- \param color HTML color of dust
-- \param registerMaceratorRecipe If true macerator recipe for dust will be registered
-- \returns nil
industrialtest.api.registerResourceDust=function(name,displayName,resources,color,registerMaceratorRecipe)
minetest.register_craftitem("industrialtest:"..name.."_dust",{
description=S(displayName.." Dust"),
inventory_image="industrialtest_dust.png",
color=color
})
if registerMaceratorRecipe then
for _,value in ipairs(resources) do
industrialtest.api.registerMaceratorRecipe({
output="industrialtest:"..name.."_dust "..(value.count or 1),
recipe=value.resource
})
end
end
end
-- \brief Registers plate of certain resource
-- \param name Technical name of resource
-- \param displayName Display name of resource
-- \param resources List of tables with following keys: <output>, <recipe>, [count(1)]
-- <> - required, [] - optional, () - default value
-- \param color HTML color of plate
-- \param registerCompressorRecipe If true compressor recipe for plate will be registered
-- \returns nil
industrialtest.api.registerPlate=function(name,displayName,resources,color,registerCompressorRecipe)
minetest.register_craftitem("industrialtest:"..name.."_plate",{
description=S(displayName.." Plate"),
inventory_image="industrialtest_plate.png",
color=color
})
if registerCompressorRecipe then
for _,value in ipairs(resources) do
industrialtest.api.registerCompressorRecipe({
output="industrialtest:"..name.."_plate "..(value.count or 1),
recipe=value.resource
})
end
end
end
-- \brief Registers cell with certain fluid
-- \param name Technical name of cell
-- \param displayName Display name of cell
-- \param node Node which can be picked up with this cell
-- \returns nil
industrialtest.api.registerStorageCell=function(name,displayName,node,modname)
if not modname then
modname="industrialtest"
end
minetest.register_craftitem("industrialtest:"..name.."_cell",{
description=S(displayName.." Cell"),
inventory_image=modname.."_"..name.."_cell.png",
on_place=function(itemstack,user,pointed)
if pointed.type~="node" or not user or not user:is_player() then
return nil
end
local node=minetest.get_node_or_nil(pointed.above)
local storage=industrialtest.api.getStorageCell("industrialtest:"..name.."_cell")
if storage.node then
if node.name~="air" and node.name~=storage.node then
return nil
end
minetest.set_node(pointed.above,{name=storage.node})
if itemstack:get_count()==1 then
itemstack:set_name("industrialtest:empty_cell")
else
local inv=user:get_inventory()
inv:add_item("main",ItemStack("industrialtest:empty_cell"))
itemstack:take_item()
end
return itemstack
end
return nil
end
})
industrialtest.api.storageCells["industrialtest:"..name.."_cell"]={
name="industrialtest:"..name.."_cell",
node=node
}
end
-- \brief Returns registred storage cell by name
-- \param name Storage cell name
-- \returns Table with following keys: name, node or nil in case of failure
industrialtest.api.getStorageCell=function(name)
return industrialtest.api.storageCells[name]
end
-- \brief Returns registered storage cells by node
-- \param node Node ID
-- \returns Table with following keys: name, node or nil in case of failure
industrialtest.api.getStorageCellByNode=function(node)
for _,value in pairs(industrialtest.api.storageCells) do
if value.node==node then
return value
end
end
return nil
end
-- \brief Registers macerator recipe
-- \param config Table with keys: <output>, <recipe>, [time(2)]
-- \returns nil
industrialtest.api.registerMaceratorRecipe=function(config)
local definition={
output=config.output or "",
recipe=config.recipe or "",
time=config.time or 2
}
industrialtest.api.maceratorRecipes[definition.recipe]=definition
end
-- \brief Returns macerator recipe result
-- \param recipe String ID of resulting conten
-- \returns Table with following keys: output, recipe, time
industrialtest.api.getMaceratorRecipeResult=function(recipe)
return industrialtest.api.maceratorRecipes[recipe]
end
-- \brief Registers compressor recipe
-- \param config Table with following keys: <output>, <recipe>, [time(2)], [count(1)]
-- \returns nil
industrialtest.api.registerCompressorRecipe=function(config)
local definition={
output=config.output or "",
recipe=config.recipe or "",
time=config.time or 2,
count=config.count or 1
}
industrialtest.api.compressorRecipes[definition.recipe]=definition
end
-- \brief Returns macerator recipe result
-- \param recipe String ID of resulting conten
-- \returns Table with following keys: output, recipe, time
industrialtest.api.getCompressorRecipeResult=function(recipe)
return industrialtest.api.compressorRecipes[recipe]
end
industrialtest.api.registerExtractorRecipe=function(config)
local definition={
output=config.output or "",
recipe=config.recipe or "",
time=config.time or 2
}
industrialtest.api.extractorRecipes[definition.recipe]=definition
end
industrialtest.api.getExtractorRecipeResult=function(recipe)
return industrialtest.api.extractorRecipes[recipe]
end
-- \brief Registers fuel that can be used in geothermal generator
-- \param fuel Table with following keys: <name>, <calorificValue>, <storageItems>
-- which is a table containing items which are tables with following keys: <name>, <leftover>
-- \returns nil
industrialtest.api.registerGeothermalGeneratorFuel=function(config)
local definition={
name=config.name or "",
calorificValue=config.calorificValue or 0,
texture=config.texture or "industrialtest_gui_fluid_bg.png",
storageItems=config.storageItems or {}
}
industrialtest.api.geothermalGeneratorFuels[definition.name]=definition
end
-- \brief Returns generator fuel information
-- \param name Name of fuel
-- \returns Table with following keys: name, calorificValue, storageItems
industrialtest.api.getGeothermalGeneratorFuel=function(name)
return industrialtest.api.geothermalGeneratorFuels[name]
end
-- \brief Returns generator fuel information by item name
-- \param name ID of item
-- \returns Table with following keys: name, calorificValue, storageItems or nil in case of failure
industrialtest.api.getGeothermalGeneratorFuelByItem=function(name)
for _,value in pairs(industrialtest.api.geothermalGeneratorFuels) do
for _,item in ipairs(value.storageItems) do
if item.name==name then
return value
end
end
end
return nil
end
-- \brief Registers fuel that can be used in water mill
-- \param fuel Table with following keys: <name>, <calorificValue>, <storageItems>
-- which is a table containing items which are tables with following keys: <name>, <leftover>
-- \returns nil
industrialtest.api.registerWaterMillFuel=function(config)
local definition={
name=config.name or "",
calorificValue=config.calorificValue or 0,
texture=config.texture or "industrialtest_gui_fluid_bg.png",
storageItems=config.storageItems or {}
}
industrialtest.api.waterMillFuels[definition.name]=definition
end
-- \brief Returns water mill fuel information
-- \param name Name of fuel
-- \returns Table with following keys: name, calorificValue, storageItems
industrialtest.api.getWaterMillFuel=function(name)
return industrialtest.api.waterMillFuels[name]
end
-- \brief Returns water mill fuel information by item name
-- \param name ID of item
-- \returns Table with following keys: name, calorificValue, storageItems or nil in case of failure
industrialtest.api.getWaterMillFuelByItem=function(name)
for _,value in pairs(industrialtest.api.waterMillFuels) do
for _,item in ipairs(value.storageItems) do
if item.name==name then
return value
end
end
end
return nil
end