Rewrite mcl_autogroup

These changes are primarly made to make mcl_autogroup more efficient.
Previously enchanted tools required storing around 21 kB of metadata due
to the way the previous version of the mod was implemented.  This caused
a lot of lag and a huge amount of network traffic.  With the changes
enchanted tools won't require more than 1 kB of metadata.

The mod is also rewritten to use an API to register digging groups and
compute the groupcaps for tools.  This will make it easier for modders
to register custom digging groups.

The mod is now split up into two parts.  One part called "mcl_autogroup"
to implement the API for registering custom digging groups, and the
other part called "_mcl_autogroup" which contains most of the code which
has to be loaded after most mods.
This commit is contained in:
Elias Åström 2021-03-09 21:43:25 +01:00
parent e9182a9506
commit 012e150b59
8 changed files with 319 additions and 243 deletions

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@ -0,0 +1 @@
mcl_autogroup

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@ -1,171 +1,275 @@
--[[ Mining times. Yeah, mining times … Alright, this is going to be FUN!
--[[
This mod implements a HACK to make 100% sure the digging times of all tools
match Minecraft's perfectly. The digging times system of Minetest is very
different, so this weird group trickery has to be used. In Minecraft, each
block has a hardness and the actual Minecraft digging time is determined by
this:
This mod does include a HACK to make 100% sure the digging times of all tools match Minecraft's perfectly.
The digging times system of Minetest is very different, so this weird group trickery has to be used.
In Minecraft, each block has a hardness and the actual Minecraft digging time is determined by this:
1) The block's hardness
2) The tool being used
3) Whether the tool is considered as eligible for the block
2) The tool being used (the tool_multiplier and its efficiency level)
3) Whether the tool is considered as "eligible" for the block
(e.g. only diamond pick eligible for obsidian)
See Minecraft Wiki <http://minecraft.gamepedia.com/Minecraft_Wiki> for more information.
In MineClone 2, all diggable node have the hardness set in the custom field _mcl_hardness (0 by default).
The nodes are also required to specify the eligible tools in groups like pickaxey, shovely, etc.
This mod then calculates the real digging time based on the node meta data. The real digging times
are then added into mcl_autogroup.digtimes where the table indices are group rating and the values are the
digging times in seconds. These digging times can be then added verbatim into the tool definitions.
See Minecraft Wiki <http://minecraft.gamepedia.com/Minecraft_Wiki> for more
information.
Example:
mcl_autogroup.digtimes.pickaxey_dig_diamond[1] = 0.2
How the mod is used
===================
This means that when a node has been assigned the group pickaxey_dig_diamond=1, it can be dug by the
diamond pickaxe in 0.2 seconds.
In MineClone 2, all diggable node have the hardness set in the custom field
"_mcl_hardness" (0 by default). Digging groups are registered using the
following code:
mcl_autogroup.register_digtime_group("pickaxey", { levels = 5 })
mcl_autogroup.register_digtime_group("shovely")
mcl_autogroup.register_digtime_group("shovely")
The first line registers "pickaxey" as a digging group. The "levels" field
indicates that the digging group have 5 levels (in this case one for each
material of a pickaxe). The second line registers "shovely" as a digging group
which does not have separate levels (if the "levels" field is not set it
defaults to 0).
This strange setup with mcl_autogroup has been done to minimize the amount of required digging times
a single tool needs to use. If this is not being done, the loading time will increase considerably
(>10s).
Nodes indicate that they belong to a particular digging group by being member of
the digging group in their node definition. "mcl_core:dirt" for example has
shovely=1 in its groups. If the digging group has multiple levels the value of
the group indicates which digging level the node requires.
"mcl_core:stone_with_gold" for example has pickaxey=3 because it requires a
pickaxe of level 3 to be mined.
]]
For tools to be able to dig nodes of the digging groups they need to use the
"mcl_autogroups.get_groupcaps" function to get the groupcaps. See
"mcl_tools/init.lua" for examples of this.
local materials = { "wood", "gold", "stone", "iron", "diamond" }
local basegroups = { "pickaxey", "axey", "shovely" }
local minigroups = { "handy", "shearsy", "swordy", "shearsy_wool", "swordy_cobweb" }
local divisors = {
["wood"] = 2,
["gold"] = 12,
["stone"] = 4,
["iron"] = 6,
["diamond"] = 8,
["handy"] = 1,
["shearsy"] = 15,
["swordy"] = 1.5,
["shearsy_wool"] = 5,
["swordy_cobweb"] = 15,
}
local max_efficiency_level = 5
Information about the mod
=========================
mcl_autogroup = {}
mcl_autogroup.digtimes = {}
mcl_autogroup.creativetimes = {} -- Copy of digtimes, except that all values are 0. Used for creative mode
The mod is also split up into two mods, mcl_autogroups and _mcl_autogroups.
mcl_autogroups contains the API functions used to register custom digging
groups. _mcl_autogroups contains parts of the mod which need to be executed
after loading all other mods.
--]]
for m=1, #materials do
for g=1, #basegroups do
mcl_autogroup.digtimes[basegroups[g].."_dig_"..materials[m]] = {}
mcl_autogroup.creativetimes[basegroups[g].."_dig_"..materials[m]] = {}
for e=1, max_efficiency_level do
mcl_autogroup.digtimes[basegroups[g].."_dig_"..materials[m].."_efficiency_"..e] = {}
end
end
end
for g=1, #minigroups do
mcl_autogroup.digtimes[minigroups[g].."_dig"] = {}
mcl_autogroup.creativetimes[minigroups[g].."_dig"] = {}
for e=1, max_efficiency_level do
mcl_autogroup.digtimes[minigroups[g].."_dig_efficiency_"..e] = {}
mcl_autogroup.creativetimes[minigroups[g].."_dig_efficiency_"..e] = {}
end
-- The groups which affect dig times
local basegroups = {}
for group, _ in pairs(mcl_autogroup.registered_digtime_groups) do
table.insert(basegroups, group)
end
-- Returns a table containing the unique "_mcl_hardness" for nodes belonging to
-- each basegroup.
local function get_hardness_values_for_groups()
local maps = {}
local values = {}
for _, g in pairs(basegroups) do
maps[g] = {}
values[g] = {}
end
for _, ndef in pairs(minetest.registered_nodes) do
for _, g in pairs(basegroups) do
if ndef.groups[g] ~= nil then
maps[g][ndef._mcl_hardness or 0] = true
end
end
end
for g, map in pairs(maps) do
for k, _ in pairs(map) do
table.insert(values[g], k)
end
end
for _, g in pairs(basegroups) do
table.sort(values[g])
end
return values
end
-- Returns a table containing a table indexed by "_mcl_hardness_value" to get
-- its index in the list of unique hardnesses for each basegroup.
local function get_hardness_lookup_for_groups(hardness_values)
map = {}
for g, values in pairs(hardness_values) do
map[g] = {}
for k, v in pairs(values) do
map[g][v] = k
end
end
return map
end
-- Array of unique hardness values for each group which affects dig time.
local hardness_values = get_hardness_values_for_groups()
-- Map indexed by hardness values which return the index of that value in
-- hardness_value. Used for quick lookup.
local hardness_lookup = get_hardness_lookup_for_groups(hardness_values)
local function compute_creativetimes(group)
local creativetimes = {}
for index, hardness in pairs(hardness_values[group]) do
table.insert(creativetimes, 0)
end
return creativetimes
end
-- Get the list of digging times for using a specific tool on a specific group.
--
-- Parameters:
-- group - the group which it is digging
-- can_harvest - if the tool can harvest the block
-- tool_multiplier - dig speed multiplier for tool (default 1)
-- efficiency - efficiency level for the tool (default 0)
local function get_digtimes(group, can_harvest, tool_multiplier, efficiency)
efficiency = efficiency or 0
tool_multiplier = tool_multiplier or 1
speed_multiplier = tool_multiplier
if efficiency > 0 then
speed_multiplier = speed_multiplier + efficiency * efficiency + 1
end
local digtimes = {}
for index, hardness in pairs(hardness_values[group]) do
local digtime = (hardness or 0) / speed_multiplier
if can_harvest then
digtime = digtime * 1.5
else
digtime = digtime * 5
end
if digtime <= 0.05 then
digtime = 0
else
digtime = math.ceil(digtime * 20) / 20
end
table.insert(digtimes, digtime)
end
return digtimes
end
-- Get one groupcap field for using a specific tool on a specific group.
local function get_groupcap(group, can_harvest, multiplier, efficiency, uses)
return {
times = get_digtimes(group, can_harvest, multiplier, efficiency),
uses = uses,
maxlevel = 0,
}
end
-- Get the groupcaps for a tool on the specified digging groups. groupcaps_def
-- contains a table with keys being the digging group and values being the tools
-- properties for that digging group.
--
-- The tool properties can have the following values:
--
-- tool_multiplier - the digging speed multiplier for this tool (default 1)
-- efficiency - the efficiency level for this tool (default 0)
-- level - the maximum level of the group the tool can harvest (default 1)
-- uses - the number of uses the tool has for this group
--
-- A level of 0 means that the tool will be able to dig that group but will
-- never be able to harvest the nodes of that group and will always get a
-- digging time penalty. This is useful for implementing the hand.
--
-- Example usage:
--
-- mcl_autogroup.get_groupcaps {
-- pickaxey = { tool_multiplier = 4, level = 3, uses = 132 }
-- }
--
-- This computes the groupcaps for a tool mining "pickaxey" blocks. The tool
-- has a digging speed multiplier of 4, can mine nodes of level >= 3 and has 132
-- uses.
function mcl_autogroup.get_groupcaps(groupcaps_def)
local groupcaps = {}
for g, capsdef in pairs(groupcaps_def) do
local mult = capsdef.tool_multiplier or 1
local eff = capsdef.efficiency or 0
local def = mcl_autogroup.registered_digtime_groups[g]
local level = capsdef.level or 1
local max_level = def.levels or 0
if max_level > 0 then
level = math.min(level, max_level)
groupcaps[g .. "_0_dig"] = get_groupcap(g, false, mult, eff)
groupcaps[g .. "_" .. level .. "_dig"] = get_groupcap(g, true, mult, eff)
else
groupcaps[g .. "_dig"] = get_groupcap(g, true, mult, eff)
end
end
return groupcaps
end
-- Checks if the given node would drop its useful drop if dug by a tool with the
-- given tool capabilities. Returns true if it will yield its useful drop, false
-- otherwise.
function mcl_autogroup.can_harvest(nodename, tool_capabilities)
local ndef = minetest.registered_nodes[nodename]
local groupcaps = tool_capabilities.groupcaps
local handy = minetest.get_item_group(nodename, "handy")
local dig_immediate = minetest.get_item_group(nodename, "handy")
if handy > 0 or dig_immediate >= 2 then
return true
end
for g, _ in pairs(groupcaps) do
if ndef.groups[g] then
if not string.find(g, "_0_dig$") and string.find(g, "_dig$") then
return true
end
end
end
return false
end
-- This function automatically assigns the "solid" and "opaque" groups to all
-- registered nodes and assigns groups to get the correct digging times for
-- groups registered with "mcl_autogroup.register_digtime_group".
local overwrite = function()
for nname, ndef in pairs(minetest.registered_nodes) do
local groups_changed = false
local newgroups = table.copy(ndef.groups)
if (nname ~= "ignore" and ndef.diggable) then
-- Automatically assign the “solid” group for solid nodes
-- Automatically assign the "solid" group for solid nodes
if (ndef.walkable == nil or ndef.walkable == true)
and (ndef.collision_box == nil or ndef.collision_box.type == "regular")
and (ndef.node_box == nil or ndef.node_box.type == "regular")
and (ndef.groups.not_solid == 0 or ndef.groups.not_solid == nil) then
newgroups.solid = 1
groups_changed = true
end
-- Automatically assign the “opaque” group for opaque nodes
-- Automatically assign the "opaque" group for opaque nodes
if (not (ndef.paramtype == "light" or ndef.sunlight_propagates)) and
(ndef.groups.not_opaque == 0 or ndef.groups.not_opaque == nil) then
newgroups.opaque = 1
groups_changed = true
end
local function calculate_group(hardness, material, diggroup, newgroups, actual_rating, expected_rating, efficiency)
local time, validity_factor
if actual_rating >= expected_rating then
-- Valid tool
validity_factor = 1.5
for g, gdef in pairs(mcl_autogroup.registered_digtime_groups) do
local index = hardness_lookup[g][ndef._mcl_hardness]
if ndef.groups[g] then
if gdef.levels then
newgroups[g .. "_0_dig"] = index
for i = ndef.groups.pickaxey, gdef.levels do
newgroups[g .. "_" .. i .. "_dig"] = index
end
else
-- Wrong tool (higher digging time)
validity_factor = 5
end
local speed_multiplier = divisors[material]
if efficiency then
speed_multiplier = speed_multiplier + efficiency * efficiency + 1
end
time = (hardness * validity_factor) / speed_multiplier
if time <= 0.05 then
time = 0
else
time = math.ceil(time * 20) / 20
end
table.insert(mcl_autogroup.digtimes[diggroup], time)
if not efficiency then
table.insert(mcl_autogroup.creativetimes[diggroup], 0)
end
newgroups[diggroup] = #mcl_autogroup.digtimes[diggroup]
return newgroups
end
-- Hack in digging times
local hardness = ndef._mcl_hardness
if not hardness then
hardness = 0
end
-- Handle pickaxey, axey and shovely
for _, basegroup in pairs(basegroups) do
if (hardness ~= -1 and ndef.groups[basegroup]) then
for g=1,#materials do
local diggroup = basegroup.."_dig_"..materials[g]
newgroups = calculate_group(hardness, materials[g], diggroup, newgroups, g, ndef.groups[basegroup])
for e=1,max_efficiency_level do
newgroups = calculate_group(hardness, materials[g], diggroup .. "_efficiency_" .. e, newgroups, g, ndef.groups[basegroup], e)
end
groups_changed = true
end
end
end
for m=1, #minigroups do
local minigroup = minigroups[m]
if hardness ~= -1 then
local diggroup = minigroup.."_dig"
-- actual rating
local ar = ndef.groups[minigroup]
if ar == nil then
ar = 0
end
if (minigroup == "handy")
or
(ndef.groups.shearsy_wool and minigroup == "shearsy_wool" and ndef.groups.wool)
or
(ndef.groups.swordy_cobweb and minigroup == "swordy_cobweb" and nname == "mcl_core:cobweb")
or
(ndef.groups[minigroup] and minigroup ~= "swordy_cobweb" and minigroup ~= "shearsy_wool") then
newgroups = calculate_group(hardness, minigroup, diggroup, newgroups, ar, 1)
for e=1,max_efficiency_level do
newgroups = calculate_group(hardness, minigroup, diggroup .. "_efficiency_" .. e, newgroups, ar, 1, e)
end
groups_changed = true
local index = hardness_lookup[g][ndef._mcl_hardness]
newgroups[g .. "_dig"] = index
end
end
end
if groups_changed then
minetest.override_item(nname, {
groups = newgroups
})
end
end
end
end
overwrite()

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@ -0,0 +1,15 @@
--[[
This mod implements the API to register digging groups for mcl_autogroups. The
rest of the mod is implemented and documented in the mod "_mcl_autogroup".
The mcl_autogroups mod is split up into two mods, mcl_autogroups and
_mcl_autogroups. mcl_autogroups contains the API functions used to register
custom digging groups. _mcl_autogroups contains parts of the mod which need to
be executed after loading all other mods.
--]]
mcl_autogroup = {}
mcl_autogroup.registered_digtime_groups = {}
function mcl_autogroup.register_digtime_group(group, def)
mcl_autogroup.registered_digtime_groups[group] = def or {}
end

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@ -169,62 +169,6 @@ local minigroups = { "shearsy", "swordy", "shearsy_wool", "swordy_cobweb" }
local basegroups = { "pickaxey", "axey", "shovely" }
local materials = { "wood", "gold", "stone", "iron", "diamond" }
-- Checks if the given node would drop its useful drop if dug by a tool
-- with the given tool capabilities. Returns true if it will yield its useful
-- drop, false otherwise.
local check_can_drop = function(node_name, tool_capabilities)
local handy = minetest.get_item_group(node_name, "handy")
local dig_immediate = minetest.get_item_group(node_name, "dig_immediate")
if handy == 1 or dig_immediate == 2 or dig_immediate == 3 then
return true
else
local toolgroupcaps
if tool_capabilities then
toolgroupcaps = tool_capabilities.groupcaps
else
return false
end
-- Compare node groups with tool capabilities
for m=1, #minigroups do
local minigroup = minigroups[m]
local g = minetest.get_item_group(node_name, minigroup)
if g ~= 0 then
local plus = minigroup .. "_dig"
if toolgroupcaps[plus] then
return true
end
for e=1,5 do
local effplus = plus .. "_efficiency_" .. e
if toolgroupcaps[effplus] then
return true
end
end
end
end
for b=1, #basegroups do
local basegroup = basegroups[b]
local g = minetest.get_item_group(node_name, basegroup)
if g ~= 0 then
for m=g, #materials do
local plus = basegroup .. "_dig_"..materials[m]
if toolgroupcaps[plus] then
return true
end
for e=1,5 do
local effplus = plus .. "_efficiency_" .. e
if toolgroupcaps[effplus] then
return true
end
end
end
end
end
return false
end
end
-- Stupid workaround to get drops from a drop table:
-- Create a temporary table in minetest.registered_nodes that contains the proper drops,
-- because unfortunately minetest.get_node_drops needs the drop table to be inside a registered node definition
@ -287,7 +231,7 @@ function minetest.handle_node_drops(pos, drops, digger)
tool = digger:get_wielded_item()
toolcaps = tool:get_tool_capabilities()
if not check_can_drop(dug_node.name, toolcaps) then
if not mcl_autogroup.can_harvest(dug_node.name, toolcaps) then
return
end
end

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@ -1,3 +1,4 @@
mcl_autogroup
mcl_init
mcl_sounds
mcl_particles

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@ -3,6 +3,17 @@ mcl_core = {}
-- Repair percentage for toolrepair
mcl_core.repair = 0.05
mcl_autogroup.register_digtime_group("handy")
mcl_autogroup.register_digtime_group("pickaxey", { levels = 5 })
mcl_autogroup.register_digtime_group("axey")
mcl_autogroup.register_digtime_group("shovely")
mcl_autogroup.register_digtime_group("shearsy")
mcl_autogroup.register_digtime_group("shearsy_wool")
mcl_autogroup.register_digtime_group("shearsy_cobweb")
mcl_autogroup.register_digtime_group("swordy")
mcl_autogroup.register_digtime_group("swordy_cobweb")
mcl_autogroup.register_digtime_group("creative_breakable")
-- Load files
local modpath = minetest.get_modpath("mcl_core")
dofile(modpath.."/functions.lua")

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@ -108,7 +108,7 @@ minetest.register_node("mcl_core:cobweb", {
liquid_renewable = false,
liquid_range = 0,
walkable = false,
groups = {swordy_cobweb=1,shearsy=1, fake_liquid=1, disable_jump=1, deco_block=1, dig_by_piston=1, dig_by_water=1,destroy_by_lava_flow=1,},
groups = {swordy_cobweb=1, shearsy_cobweb=1, fake_liquid=1, disable_jump=1, deco_block=1, dig_by_piston=1, dig_by_water=1,destroy_by_lava_flow=1,},
drop = "mcl_mobitems:string",
_mcl_shears_drop = true,
sounds = mcl_sounds.node_sound_leaves_defaults(),

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@ -28,18 +28,17 @@ dig_speed_class group:
local groupcaps, hand_range, hand_groups
if minetest.is_creative_enabled("") then
-- Instant breaking in creative mode
groupcaps = {
creative_breakable = {times={[1]=0}, uses=0},
groupcaps = mcl_autogroup.get_groupcaps {
creative_breakable = { tool_multiplier = 1000000, level = 0, uses = 0 },
handy = { tool_multiplier = 1000000, level = 0, uses = 0 },
pickaxey = { tool_multiplier = 1000000, level = 0, uses = 0 }
}
-- mcl_autogroup provides the creative digging times for all digging groups
for k,v in pairs(mcl_autogroup.creativetimes) do
groupcaps[k] = { times = v, uses = 0 }
end
hand_range = 10
hand_groups = { dig_speed_class = 7 }
else
groupcaps = {
handy_dig = {times=mcl_autogroup.digtimes.handy_dig, uses=0},
groupcaps = mcl_autogroup.get_groupcaps {
handy = { tool_multiplier = 1, level = 0, uses = 0 },
pickaxey = { tool_multiplier = 1, level = 0, uses = 0 }
}
hand_range = 4
hand_groups = { dig_speed_class = 1 }
@ -86,8 +85,8 @@ minetest.register_tool("mcl_tools:pick_wood", {
-- 1/1.2
full_punch_interval = 0.83333333,
max_drop_level=1,
groupcaps={
pickaxey_dig_wood = {times=mcl_autogroup.digtimes.pickaxey_dig_wood, uses=60, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
pickaxey = { tool_multiplier = 2, level = 1, uses = 60 }
},
damage_groups = {fleshy=2},
punch_attack_uses = 30,
@ -106,8 +105,8 @@ minetest.register_tool("mcl_tools:pick_stone", {
-- 1/1.2
full_punch_interval = 0.83333333,
max_drop_level=3,
groupcaps={
pickaxey_dig_stone = {times=mcl_autogroup.digtimes.pickaxey_dig_stone, uses=132, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
pickaxey = { tool_multiplier = 4, level = 3, uses = 132 }
},
damage_groups = {fleshy=3},
punch_attack_uses = 66,
@ -126,8 +125,8 @@ minetest.register_tool("mcl_tools:pick_iron", {
-- 1/1.2
full_punch_interval = 0.83333333,
max_drop_level=4,
groupcaps={
pickaxey_dig_iron = {times=mcl_autogroup.digtimes.pickaxey_dig_iron , uses=251, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
pickaxey = { tool_multiplier = 6, level = 4, uses = 251 }
},
damage_groups = {fleshy=4},
punch_attack_uses = 126,
@ -146,8 +145,8 @@ minetest.register_tool("mcl_tools:pick_gold", {
-- 1/1.2
full_punch_interval = 0.83333333,
max_drop_level=2,
groupcaps={
pickaxey_dig_gold = {times=mcl_autogroup.digtimes.pickaxey_dig_gold , uses=33, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
pickaxey = { tool_multiplier = 12, level = 2, uses = 33 }
},
damage_groups = {fleshy=2},
punch_attack_uses = 17,
@ -166,8 +165,8 @@ minetest.register_tool("mcl_tools:pick_diamond", {
-- 1/1.2
full_punch_interval = 0.83333333,
max_drop_level=5,
groupcaps={
pickaxey_dig_diamond = {times=mcl_autogroup.digtimes.pickaxey_dig_diamond, uses=1562, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
pickaxey = { tool_multiplier = 8, level = 5, uses = 1562 }
},
damage_groups = {fleshy=5},
punch_attack_uses = 781,
@ -288,8 +287,8 @@ minetest.register_tool("mcl_tools:shovel_wood", {
tool_capabilities = {
full_punch_interval = 1,
max_drop_level=1,
groupcaps={
shovely_dig_wood = {times=mcl_autogroup.digtimes.shovely_dig_wood, uses=60, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
shovely = { tool_multiplier = 2, level = 1, uses = 60 }
},
damage_groups = {fleshy=2},
punch_attack_uses = 30,
@ -309,8 +308,8 @@ minetest.register_tool("mcl_tools:shovel_stone", {
tool_capabilities = {
full_punch_interval = 1,
max_drop_level=3,
groupcaps={
shovely_dig_stone = {times=mcl_autogroup.digtimes.shovely_dig_stone, uses=132, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
shovely = { tool_multiplier = 4, level = 3, uses = 132 }
},
damage_groups = {fleshy=3},
punch_attack_uses = 66,
@ -330,8 +329,8 @@ minetest.register_tool("mcl_tools:shovel_iron", {
tool_capabilities = {
full_punch_interval = 1,
max_drop_level=4,
groupcaps={
shovely_dig_iron = {times=mcl_autogroup.digtimes.shovely_dig_iron, uses=251, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
shovely = { tool_multiplier = 6, level = 4, uses = 251 }
},
damage_groups = {fleshy=4},
punch_attack_uses = 126,
@ -351,8 +350,8 @@ minetest.register_tool("mcl_tools:shovel_gold", {
tool_capabilities = {
full_punch_interval = 1,
max_drop_level=2,
groupcaps={
shovely_dig_gold = {times=mcl_autogroup.digtimes.shovely_dig_gold, uses=33, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
shovely = { tool_multiplier = 12, level = 2, uses = 33 }
},
damage_groups = {fleshy=2},
punch_attack_uses = 17,
@ -372,8 +371,8 @@ minetest.register_tool("mcl_tools:shovel_diamond", {
tool_capabilities = {
full_punch_interval = 1,
max_drop_level=5,
groupcaps={
shovely_dig_diamond = {times=mcl_autogroup.digtimes.shovely_dig_diamond, uses=1562, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
shovely = { tool_multiplier = 8, level = 5, uses = 1562 }
},
damage_groups = {fleshy=5},
punch_attack_uses = 781,
@ -395,8 +394,8 @@ minetest.register_tool("mcl_tools:axe_wood", {
tool_capabilities = {
full_punch_interval = 1.25,
max_drop_level=1,
groupcaps={
axey_dig_wood = {times=mcl_autogroup.digtimes.axey_dig_wood, uses=60, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
axey = { tool_multiplier = 2, level = 1, uses = 60 }
},
damage_groups = {fleshy=7},
punch_attack_uses = 30,
@ -414,8 +413,8 @@ minetest.register_tool("mcl_tools:axe_stone", {
tool_capabilities = {
full_punch_interval = 1.25,
max_drop_level=3,
groupcaps={
axey_dig_stone = {times=mcl_autogroup.digtimes.axey_dig_stone, uses=132, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
axey = { tool_multiplier = 4, level = 3, uses = 132 }
},
damage_groups = {fleshy=9},
punch_attack_uses = 66,
@ -434,8 +433,8 @@ minetest.register_tool("mcl_tools:axe_iron", {
-- 1/0.9
full_punch_interval = 1.11111111,
max_drop_level=4,
groupcaps={
axey_dig_iron = {times=mcl_autogroup.digtimes.axey_dig_iron, uses=251, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
axey = { tool_multiplier = 6, level = 4, uses = 251 }
},
damage_groups = {fleshy=9},
punch_attack_uses = 126,
@ -453,8 +452,8 @@ minetest.register_tool("mcl_tools:axe_gold", {
tool_capabilities = {
full_punch_interval = 1.0,
max_drop_level=2,
groupcaps={
axey_dig_gold= {times=mcl_autogroup.digtimes.axey_dig_gold, uses=33, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
axey = { tool_multiplier = 12, level = 2, uses = 33 }
},
damage_groups = {fleshy=7},
punch_attack_uses = 17,
@ -472,8 +471,8 @@ minetest.register_tool("mcl_tools:axe_diamond", {
tool_capabilities = {
full_punch_interval = 1.0,
max_drop_level=5,
groupcaps={
axey_dig_diamond = {times=mcl_autogroup.digtimes.axey_dig_diamond, uses=1562, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
axey = { tool_multiplier = 8, level = 5, uses = 1562 }
},
damage_groups = {fleshy=9},
punch_attack_uses = 781,
@ -494,9 +493,9 @@ minetest.register_tool("mcl_tools:sword_wood", {
tool_capabilities = {
full_punch_interval = 0.625,
max_drop_level=1,
groupcaps={
swordy_dig = {times=mcl_autogroup.digtimes.swordy_dig , uses=60, maxlevel=0},
swordy_cobweb_dig = {times=mcl_autogroup.digtimes.swordy_cobweb_dig , uses=60, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
swordy = { tool_multiplier = 2, level = 1, uses = 60 },
swordy_cobweb = { tool_multiplier = 2, level = 1, uses = 60 }
},
damage_groups = {fleshy=4},
punch_attack_uses = 60,
@ -514,9 +513,9 @@ minetest.register_tool("mcl_tools:sword_stone", {
tool_capabilities = {
full_punch_interval = 0.625,
max_drop_level=3,
groupcaps={
swordy_dig = {times=mcl_autogroup.digtimes.swordy_dig , uses=132, maxlevel=0},
swordy_cobweb_dig = {times=mcl_autogroup.digtimes.swordy_cobweb_dig , uses=132, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
swordy = { tool_multiplier = 4, level = 3, uses = 132 },
swordy_cobweb = { tool_multiplier = 4, level = 3, uses = 132 }
},
damage_groups = {fleshy=5},
punch_attack_uses = 132,
@ -534,9 +533,9 @@ minetest.register_tool("mcl_tools:sword_iron", {
tool_capabilities = {
full_punch_interval = 0.625,
max_drop_level=4,
groupcaps={
swordy_dig = {times=mcl_autogroup.digtimes.swordy_dig, uses=251, maxlevel=0},
swordy_cobweb_dig = {times=mcl_autogroup.digtimes.swordy_cobweb_dig , uses=251, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
swordy = { tool_multiplier = 6, level = 4, uses = 251 },
swordy_cobweb = { tool_multiplier = 6, level = 4, uses = 251 }
},
damage_groups = {fleshy=6},
punch_attack_uses = 251,
@ -554,9 +553,9 @@ minetest.register_tool("mcl_tools:sword_gold", {
tool_capabilities = {
full_punch_interval = 0.625,
max_drop_level=2,
groupcaps={
swordy_dig = {times=mcl_autogroup.digtimes.swordy_dig, uses=33, maxlevel=0},
swordy_cobweb_dig = {times=mcl_autogroup.digtimes.swordy_cobweb_dig, uses=33, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
swordy = { tool_multiplier = 12, level = 2, uses = 33 },
swordy_cobweb = { tool_multiplier = 12, level = 2, uses = 33 }
},
damage_groups = {fleshy=4},
punch_attack_uses = 33,
@ -574,9 +573,9 @@ minetest.register_tool("mcl_tools:sword_diamond", {
tool_capabilities = {
full_punch_interval = 0.625,
max_drop_level=5,
groupcaps={
swordy_dig = {times=mcl_autogroup.digtimes.swordy_dig, uses=1562, maxlevel=0},
swordy_cobweb_dig = {times=mcl_autogroup.digtimes.swordy_cobweb_dig, uses=1562, maxlevel=0},
groupcaps = mcl_autogroup.get_groupcaps {
swordy = { tool_multiplier = 8, level = 5, uses = 1562 },
swordy_cobweb = { tool_multiplier = 8, level = 5, uses = 1562 }
},
damage_groups = {fleshy=7},
punch_attack_uses = 1562,
@ -598,10 +597,11 @@ minetest.register_tool("mcl_tools:shears", {
tool_capabilities = {
full_punch_interval = 0.5,
max_drop_level=1,
groupcaps={
shearsy_dig = {times=mcl_autogroup.digtimes.shearsy_dig, uses=238, maxlevel=0},
shearsy_wool_dig = {times=mcl_autogroup.digtimes.shearsy_wool_dig, uses=238, maxlevel=0},
}
groupcaps = mcl_autogroup.get_groupcaps {
shearsy = { tool_multiplier = 1.5, level = 1, uses = 238 },
shearsy_wool = { tool_multiplier = 5, level = 1, uses = 238 },
shearsy_cobweb = { tool_multiplier = 15, level = 1, uses = 238 }
},
},
on_place = carve_pumpkin,
sound = { breaks = "default_tool_breaks" },