VoxeLibre/mods/ITEMS/mcl_core/functions.lua

1510 lines
50 KiB
Lua

local modpath = minetest.get_modpath(minetest.get_current_modname())
local mg_name = minetest.get_mapgen_setting("mg_name")
local random = math.random
local sqrt = math.sqrt
local floor = math.floor
local ceil = math.ceil
local abs = math.abs
local max = math.max
local vector_new = vector.new
local vector_zero = vector.zero
local vector_offset = vector.offset
local vector_copy = vector.copy
local vector_add = vector.add
local vector_subtract = vector.subtract
local vector_distance = vector.distance
local OAK_TREE_ID = 1
local DARK_OAK_TREE_ID = 2
local SPRUCE_TREE_ID = 3
local ACACIA_TREE_ID = 4
local JUNGLE_TREE_ID = 5
local BIRCH_TREE_ID = 6
minetest.register_abm({
label = "Lava cooling",
nodenames = {"group:lava"},
neighbors = {"group:water"},
interval = 1,
chance = 1,
min_y = mcl_vars.mg_end_min,
action = function(pos, node, active_object_count, active_object_count_wider)
local water = minetest.find_nodes_in_area(vector_offset(pos, -1, -1, -1), vector_offset(pos, 1, 1, 1), "group:water")
local lavatype = minetest.registered_nodes[node.name].liquidtype
for w=1, #water do
--local waternode = minetest.get_node(water[w])
--local watertype = minetest.registered_nodes[waternode.name].liquidtype
-- Lava on top of water: Water turns into stone
if water[w].y < pos.y and water[w].x == pos.x and water[w].z == pos.z then
minetest.set_node(water[w], {name="mcl_core:stone"})
minetest.sound_play("fire_extinguish_flame", {pos = water[w], gain = 0.25, max_hear_distance = 16}, true)
-- Flowing lava vs water on same level: Lava turns into cobblestone
elseif lavatype == "flowing" and water[w].y == pos.y and (water[w].x == pos.x or water[w].z == pos.z) then
minetest.set_node(pos, {name="mcl_core:cobble"})
minetest.sound_play("fire_extinguish_flame", {pos = pos, gain = 0.25, max_hear_distance = 16}, true)
-- Lava source vs flowing water above or horizontally neighbored: Lava turns into obsidian
elseif lavatype == "source" and
((water[w].y > pos.y and water[w].x == pos.x and water[w].z == pos.z) or
(water[w].y == pos.y and (water[w].x == pos.x or water[w].z == pos.z))) then
minetest.set_node(pos, {name="mcl_core:obsidian"})
minetest.sound_play("fire_extinguish_flame", {pos = pos, gain = 0.25, max_hear_distance = 16}, true)
-- water above flowing lava: Lava turns into cobblestone
elseif lavatype == "flowing" and water[w].y > pos.y and water[w].x == pos.x and water[w].z == pos.z then
minetest.set_node(pos, {name="mcl_core:cobble"})
minetest.sound_play("fire_extinguish_flame", {pos = pos, gain = 0.25, max_hear_distance = 16}, true)
end
end
end,
})
--
-- Papyrus and cactus growing
--
function grow_cactus(pos, node)
pos.y = pos.y - 1 -- below
if minetest.get_item_group(minetest.get_node(pos).name, "sand") == 0 then return end
pos.y = pos.y + 2 -- above
local above = minetest.get_node(pos).name
if above == "air" then
minetest.set_node(pos, {name="mcl_core:cactus"})
return
end
if above ~= "mcl_core:cactus" then return end
pos.y = pos.y + 1 -- at max height 3
if minetest.get_node(pos).name == "air" then
minetest.set_node(pos, {name="mcl_core:cactus"})
end
end
function grow_reeds(pos, node)
pos.y = pos.y - 1 -- below
if minetest.get_item_group(minetest.get_node(pos).name, "soil_sugarcane") == 0 then return end
pos.y = pos.y + 2 -- above
local above = minetest.get_node(pos).name
if above == "air" then
pos.y = pos.y - 1 -- original position, check for water
if minetest.find_node_near(pos, 1, {"group:water", "group:frosted_ice"}) == nil then return end
pos.y = pos.y + 1 -- above
minetest.set_node(pos, {name="mcl_core:reeds"})
return
end
if above ~= "mcl_core:reeds" then return end
pos.y = pos.y + 1 -- at max height 3
if minetest.get_node(pos).name == "air" then
pos.y = pos.y - 2 -- original position, check for water
if minetest.find_node_near(pos, 1, {"group:water", "group:frosted_ice"}) == nil then return end
pos.y = pos.y + 2 -- above
minetest.set_node(pos, {name="mcl_core:reeds"})
end
end
-- ABMs
local function drop_attached_node(p)
local nn = minetest.get_node(p).name
if nn == "air" or nn == "ignore" then return end
minetest.remove_node(p)
for _, item in pairs(minetest.get_node_drops(nn, "")) do
if item ~= "" then
minetest.add_item(vector_offset(p, random() * 0.5 - 0.25, random() * 0.5 - 0.25, random() * 0.5 - 0.25), item)
end
end
end
-- Helper function for node actions for liquid flow
local function liquid_flow_action(pos, group, action)
local function check_detach(pos, xp, yp, zp)
local n = minetest.get_node_or_nil(vector_offset(pos, xp, yp, zp))
local d = n and minetest.registered_nodes[n.name]
if not d then return false end
--[[ Check if we want to perform the liquid action.
* 1: Item must be in liquid group
* 2a: If target node is below liquid, always succeed
* 2b: If target node is horizontal to liquid: succeed if source, otherwise check param2 for horizontal flow direction ]]
local range = d.liquid_range or 8
if minetest.get_item_group(n.name, group) ~= 0 and
(yp > 0 or
(yp == 0 and (d.liquidtype == "source" or (n.param2 > 8-range and n.param2 < 9)))) then
action(pos)
end
end
check_detach(pos, -1, 0, 0)
check_detach(pos, 1, 0, 0)
check_detach(pos, 0, 0, -1)
check_detach(pos, 0, 0, 1)
check_detach(pos, 0, 1, 0)
end
-- Drop some nodes next to flowing water, if it would flow into the node
minetest.register_abm({
label = "Wash away dig_by_water nodes by water flow",
nodenames = {"group:dig_by_water"},
neighbors = {"group:water"},
interval = 1,
chance = 1,
action = function(pos, node, active_object_count, active_object_count_wider)
liquid_flow_action(pos, "water", function(pos)
drop_attached_node(pos)
minetest.remove_node(pos)
end)
end,
})
-- Destroy some nodes next to flowing lava, if it would flow into the node
minetest.register_abm({
label = "Destroy destroy_by_lava_flow nodes by lava flow",
nodenames = {"group:destroy_by_lava_flow"},
neighbors = {"group:lava"},
interval = 1,
chance = 5,
action = function(pos, node, active_object_count, active_object_count_wider)
liquid_flow_action(pos, "lava", function(pos)
minetest.remove_node(pos)
minetest.sound_play("builtin_item_lava", {pos = pos, gain = 0.25, max_hear_distance = 16}, true)
minetest.check_for_falling(pos)
end)
end,
})
-- Cactus mechanisms
minetest.register_abm({
label = "Cactus growth",
nodenames = {"mcl_core:cactus"},
neighbors = {"group:sand"},
interval = 25,
chance = 40,
action = grow_cactus
})
local function is_walkable(pos)
local ndef = minetest.registered_nodes[minetest.get_node(pos).name]
return ndef and ndef.walkable
end
minetest.register_abm({
label = "Cactus mechanisms",
nodenames = {"mcl_core:cactus"},
interval = 1,
chance = 1,
action = function(pos, node, active_object_count, active_object_count_wider)
for _, object in pairs(minetest.get_objects_inside_radius(pos, 0.9)) do
local entity = object:get_luaentity()
if entity and entity.name == "__builtin:item" then
object:remove()
end
end
if is_walkable(vector_offset(pos, 1, 0, 0))
or is_walkable(vector_offset(pos, -1, 0, 0))
or is_walkable(vector_offset(pos, 0, 0, 1))
or is_walkable(vector_offset(pos, 0, 0, -1)) then
local lpos = vector_copy(pos)
local dx, dy
while true do
local node = minetest.get_node(lpos)
if not node or node.name ~= "mcl_core:cactus" then break end
-- minetest.dig_node ignores protected nodes and causes infinite drop (#4628)
minetest.remove_node(lpos)
dx = dx or ((random(0,1)-0.5) * sqrt(random())) * 1.5
dy = dy or ((random(0,1)-0.5) * sqrt(random())) * 1.5
local obj = minetest.add_item(vector_offset(lpos, dx, 0.25, dy), "mcl_core:cactus")
obj:set_velocity(vector_new(dx, 1, dy))
lpos.y = lpos.y + 1
end
end
end,
})
minetest.register_abm({
label = "Sugar canes growth",
nodenames = {"mcl_core:reeds"},
neighbors = {"group:soil_sugarcane"},
interval = 25,
chance = 40,
action = grow_reeds
})
--
-- Sugar canes drop
--
minetest.register_on_dignode(function(pos, node)
local name = "mcl_core:reeds"
local np = vector_offset(pos, 0, 1, 0)
while minetest.get_node(np).name == name do
minetest.remove_node(np)
minetest.add_item(np, name)
np.y = np.y + 1
end
end)
-- Check if a node stops a tree from growing. Torches, plants, wood, tree,
-- leaves and dirt does not affect tree growth.
local function node_stops_growth(node)
if node.name == "air" then return false end
local def = minetest.registered_nodes[node.name]
local groups = def and def.groups
if not groups then return true end
return not (groups.leaves or groups.wood or groups.tree or groups.plant or groups.dirt or groups.torch or groups.bark)
end
-- Check if a tree can grow at position. The width is the width to check
-- around the tree. A width of 3 and height of 5 will check a 3x3 area, 5
-- nodes above the sapling. If any walkable node other than dirt, wood or
-- leaves occurs in those blocks the tree cannot grow.
local function check_growth_width(pos, width, height)
-- Huge tree (with even width to check) will check one more node in
-- positive x and y directions.
local neg_space, pos_space = floor((width - 1) * 0.5), ceil((width - 1) * 0.5)
for x = -neg_space, pos_space do
for z = -neg_space, pos_space do
for y = 1, height do
if node_stops_growth(minetest.get_node(vector_offset(pos, x, y, z))) then
return false
end
end
end
end
return true
end
mcl_core.check_growth_width = check_growth_width
-- Check if a tree with id can grow at a position. Options is a table of flags
-- for varieties of trees. The 'two_by_two' option is used to check if there is
-- room to generate huge trees for spruce and jungle. The 'balloon' option is
-- used to check if there is room to generate a balloon tree for oak.
local function check_tree_growth(pos, tree_id, options)
local two_by_two = options and options.two_by_two
local balloon = options and options.balloon
if tree_id == OAK_TREE_ID then
if balloon then
return check_growth_width(pos, 7, 11)
else
return check_growth_width(pos, 3, 5)
end
elseif tree_id == BIRCH_TREE_ID then
return check_growth_width(pos, 3, 6)
elseif tree_id == SPRUCE_TREE_ID then
if two_by_two then
return check_growth_width(pos, 6, 20)
else
return check_growth_width(pos, 5, 11)
end
elseif tree_id == JUNGLE_TREE_ID then
if two_by_two then
return check_growth_width(pos, 8, 23)
else
return check_growth_width(pos, 3, 8)
end
elseif tree_id == ACACIA_TREE_ID then
return check_growth_width(pos, 7, 8)
elseif tree_id == DARK_OAK_TREE_ID and two_by_two then
return check_growth_width(pos, 4, 7)
end
return false
end
-- Generates a tree with a type. Options is a table of flags for varieties of
-- trees. The 'two_by_two' option is used by jungle and spruce trees to
-- generate huge trees. The 'balloon' option is used by oak to generate a balloon
-- oak tree.
function mcl_core.generate_tree(pos, tree_type, options)
if not minetest.get_node_light(pos) then return end
local two_by_two = options and options.two_by_two
local balloon = options and options.balloon
if tree_type == nil or tree_type == OAK_TREE_ID then
if mg_name == "v6" then
mcl_core.generate_v6_oak_tree(pos)
else
if balloon then
mcl_core.generate_balloon_oak_tree(pos)
else
mcl_core.generate_oak_tree(pos)
end
end
elseif tree_type == DARK_OAK_TREE_ID then
mcl_core.generate_dark_oak_tree(pos)
elseif tree_type == SPRUCE_TREE_ID then
if two_by_two then
mcl_core.generate_huge_spruce_tree(pos)
else
if mg_name == "v6" then
mcl_core.generate_v6_spruce_tree(pos)
else
mcl_core.generate_spruce_tree(pos)
end
end
elseif tree_type == ACACIA_TREE_ID then
mcl_core.generate_acacia_tree(pos)
elseif tree_type == JUNGLE_TREE_ID then
if two_by_two then
mcl_core.generate_huge_jungle_tree(pos)
else
if mg_name == "v6" then
mcl_core.generate_v6_jungle_tree(pos)
else
mcl_core.generate_jungle_tree(pos)
end
end
elseif tree_type == BIRCH_TREE_ID then
mcl_core.generate_birch_tree(pos)
end
mcl_core.update_sapling_foliage_colors(pos)
end
-- Classic oak in v6 style
function mcl_core.generate_v6_oak_tree(p)
local pos = vector_copy(p)
for dy = 0, 4 do
pos.y = p.y + dy
if minetest.get_node(pos).name ~= "air" then return end
end
local trunk = {name = "mcl_core:tree" }
for dy = 0, 4 do
pos.y = p.y + dy
minetest.add_node(pos, trunk)
end
local leaves = { name = "mcl_core:leaves" }
for dx = -2, 2 do
for dz = -2, 2 do
for dy = 3, 6 do
pos.x, pos.y, pos.z = p.x + dx, p.y + dy, p.z + dz
if dy == 6 then
if dx == 0 and dz == 0 and minetest.get_node(pos).name == "air" and random(1, 5) <= 4 then
minetest.add_node(pos, leaves)
end
elseif abs(dx) ~= 2 and abs(dz) ~= 2 then
if minetest.get_node(pos).name == "air" then
minetest.add_node(pos, leaves)
end
elseif abs(dx) ~= 2 or abs(dz) ~= 2 then
if minetest.get_node(pos).name == "air" and random(1, 5) <= 4 then
minetest.add_node(pos, leaves)
end
end
end
end
end
end
-- Ballon Oak
function mcl_core.generate_balloon_oak_tree(pos)
if random(1, 12) == 1 then
-- Small balloon oak
minetest.place_schematic(vector_offset(pos, -2, -1, -2),
modpath .. "/schematics/mcl_core_oak_balloon.mts",
"random", nil, false)
return
end
-- Large balloon oak
local t = random(1, 4)
local path = modpath .. "/schematics/mcl_core_oak_large_"..t..".mts"
if t == 1 or t == 3 then
minetest.place_schematic(vector_offset(pos, -3, -1, -3), path, "random", nil, false)
elseif t == 2 or t == 4 then
minetest.place_schematic(vector_offset(pos, -4, -1, -4), path, "random", nil, false)
end
end
-- Oak
local path_oak_tree = modpath.."/schematics/mcl_core_oak_classic.mts"
function mcl_core.generate_oak_tree(pos)
minetest.place_schematic(vector_offset(pos, -2, -1, -2 ), path_oak_tree, "random", nil, false)
end
-- Birch
function mcl_core.generate_birch_tree(pos)
minetest.place_schematic(vector_offset(pos, -2, -1, -2), modpath .. "/schematics/mcl_core_birch.mts", "random", nil, false)
end
-- BEGIN of spruce tree generation functions --
-- Copied from Minetest Game 0.4.15 from the pine tree (default.generate_pine_tree)
-- Pine tree (=spruce tree in MCL2) from mg mapgen mod, design by sfan5, pointy top added by paramat
local function add_spruce_leaves(data, vi, c_air, c_ignore, c_snow, c_spruce_leaves)
local node_id = data[vi]
if node_id == c_air or node_id == c_ignore or node_id == c_snow then
data[vi] = c_spruce_leaves
end
end
function mcl_core.generate_v6_spruce_tree(pos)
local x, y, z = pos.x, pos.y, pos.z
local maxy = y + random(9, 13) -- Trunk top
local c_air = minetest.get_content_id("air")
local c_ignore = minetest.get_content_id("ignore")
local c_spruce_tree = minetest.get_content_id("mcl_core:sprucetree")
local c_spruce_leaves = minetest.get_content_id("mcl_core:spruceleaves")
local c_snow = minetest.get_content_id("mcl_core:snow")
local vm = minetest.get_voxel_manip()
local minp, maxp = vm:read_from_map(vector_offset(pos, -3, 0, -3), vector_offset(pos, 3, maxy - y + 3, 3))
local a = VoxelArea:new(minp, maxp)
local data = vm:get_data()
-- Upper branches layer
local dev = 3
for yy = maxy - 1, maxy + 1 do
for zz = z - dev, z + dev do
local vi = a:index(x - dev, yy, zz)
for xx = x - dev, x + dev do
if random() < 0.95 - dev * 0.05 then
add_spruce_leaves(data, vi, c_air, c_ignore, c_snow, c_spruce_leaves)
end
vi = vi + 1
end
end
dev = dev - 1
end
-- Centre top nodes
add_spruce_leaves(data, a:index(x, maxy + 1, z), c_air, c_ignore, c_snow, c_spruce_leaves)
add_spruce_leaves(data, a:index(x, maxy + 2, z), c_air, c_ignore, c_snow, c_spruce_leaves)
-- Lower branches layer
local my = 0
for i = 1, 20 do -- Random 2x2 squares of leaves
local xi = x + random(-3, 2)
local yy = maxy + random(-6, -5)
local zi = z + random(-3, 2)
if yy > my then my = yy end
for zz = zi, zi + 1 do
local vi = a:index(xi, yy, zz)
for xx = xi, xi + 1 do
add_spruce_leaves(data, vi, c_air, c_ignore, c_snow, c_spruce_leaves)
vi = vi + 1
end
end
end
dev = 2
for yy = my + 1, my + 2 do
for zz = z - dev, z + dev do
local vi = a:index(x - dev, yy, zz)
for xx = x - dev, x + dev do
if random() < 0.95 - dev * 0.05 then
add_spruce_leaves(data, vi, c_air, c_ignore, c_snow, c_spruce_leaves)
end
vi = vi + 1
end
end
dev = dev - 1
end
-- Trunk
-- Force-place lowest trunk node to replace sapling
data[a:index(x, y, z)] = c_spruce_tree
for yy = y + 1, maxy do
local vi = a:index(x, yy, z)
local node_id = data[vi]
if node_id == c_air or node_id == c_ignore or node_id == c_spruce_leaves or node_id == c_snow then
data[vi] = c_spruce_tree
end
end
vm:set_data(data)
vm:write_to_map()
end
function mcl_core.generate_spruce_tree(pos)
minetest.place_schematic(vector_offset(pos, -3, -1, -3),
modpath .. "/schematics/mcl_core_spruce_"..random(1, 3)..".mts", "0", nil, false)
end
local function find_necorner(p)
local n = minetest.get_node_or_nil(vector_offset(p, 0, 1, 1))
local e = minetest.get_node_or_nil(vector_offset(p, 1, 1, 0))
if n and n.name == "mcl_core:sprucetree" then
p = vector_offset(p, 0, 0, 1)
end
if e and e.name == "mcl_core:sprucetree" then
p = vector_offset(p, 1, 0, 0)
end
return p
end
local function generate_spruce_podzol(ps)
local pos = find_necorner(ps)
local pos1, pos2 = vector_offset(pos, -6, -6, -6), vector_offset(pos, 6, 6, 6)
local nn = minetest.find_nodes_in_area_under_air(pos1, pos2, {"group:dirt"})
for k,v in pairs(nn) do
if not (abs(pos.x - v.x) == 6 and abs(pos.z - v.z) == 6) and random(vector_distance(pos,v)) < 4 then --leave out the corners
minetest.set_node(v, {name="mcl_core:podzol"})
end
end
end
function mcl_core.generate_huge_spruce_tree(pos)
local r1, r2 = random(1, 2), random(1, 4)
local path, offset
if r1 <= 2 then
-- Mega Spruce Taiga (full canopy)
path = modpath.."/schematics/mcl_core_spruce_huge_"..r2..".mts"
offset = vector_offset(pos, -4, -1, -5)
else
-- Mega Taiga (leaves only at top)
if r2 == 1 or r2 == 3 then
offset = vector_offset(pos, -3, -1, -4)
else
offset = vector_offset(pos, -4, -1, -5)
end
path = modpath.."/schematics/mcl_core_spruce_huge_up_"..r2..".mts"
end
minetest.place_schematic(offset, path, "0", nil, false)
generate_spruce_podzol(pos)
end
-- END of spruce tree functions --
-- Acacia tree (multiple variants)
function mcl_core.generate_acacia_tree(pos)
local r = random(1, 7)
local path, offset = modpath.."/schematics/mcl_core_acacia_"..r..".mts", nil
if r == 1 or r == 5 then
offset = vector_offset(pos, -5, -1, -5)
elseif r == 2 or r == 3 then
offset = vector_offset(pos, -4, -1, -4)
elseif r == 4 or r == 6 or r == 7 then
offset = vector_offset(pos, -3, -1, -3)
end
minetest.place_schematic(offset, path, "random", nil, false)
end
-- Generate dark oak tree with 2x2 trunk.
-- With pos being the lower X and the higher Z value of the trunk
function mcl_core.generate_dark_oak_tree(pos)
minetest.place_schematic(vector_offset(pos, -3, -1, -4), modpath.."/schematics/mcl_core_dark_oak.mts", "random", nil, false)
end
-- Helper function for jungle tree, form Minetest Game 0.4.15
local function add_trunk_and_leaves(data, a, pos, tree_cid, leaves_cid, height, size, iters)
local x, y, z = pos.x, pos.y, pos.z
local c_air = minetest.CONTENT_AIR
local c_ignore = minetest.CONTENT_IGNORE
-- Trunk
data[a:index(x, y, z)] = tree_cid -- Force-place lowest trunk node to replace sapling
for yy = y + 1, y + height - 1 do
local vi = a:index(x, yy, z)
local node_id = data[vi]
if node_id == c_air or node_id == c_ignore or node_id == leaves_cid then
data[vi] = tree_cid
end
end
-- Force leaves near the trunk
for z_dist = -1, 1 do
for y_dist = -size, 1 do
local vi = a:index(x - 1, y + height + y_dist, z + z_dist)
for x_dist = -1, 1 do
if data[vi] == c_air or data[vi] == c_ignore then
data[vi] = leaves_cid
end
vi = vi + 1
end
end
end
-- Randomly add leaves in 2x2x2 clusters.
for i = 1, iters do
local clust_x = x + random(-size, size - 1)
local clust_y = y + height + random(-size, 0)
local clust_z = z + random(-size, size - 1)
for xi = 0, 1 do
for yi = 0, 1 do
for zi = 0, 1 do
local vi = a:index(clust_x + xi, clust_y + yi, clust_z + zi)
if data[vi] == c_air or data[vi] == c_ignore then
data[vi] = leaves_cid
end
end
end
end
end
end
-- Old jungle tree grow function from Minetest Game 0.4.15, imitating v6 jungle trees
function mcl_core.generate_v6_jungle_tree(pos)
--[[
NOTE: Jungletree-placing code is currently duplicated in the engine
and in games that have saplings; both are deprecated but not
replaced yet
--]]
local x, y, z = pos.x, pos.y, pos.z
local height = random(8, 12)
local c_air = minetest.get_content_id("air")
local c_ignore = minetest.get_content_id("ignore")
local c_jungletree = minetest.get_content_id("mcl_core:jungletree")
local c_jungleleaves = minetest.get_content_id("mcl_core:jungleleaves")
local vm = minetest.get_voxel_manip()
local minp, maxp = vm:read_from_map(vector_offset(pos, -3, -1, -3), vector_offset(pos, 3, 1, 3))
local a = VoxelArea:new(minp, maxp)
local data = vm:get_data()
add_trunk_and_leaves(data, a, pos, c_jungletree, c_jungleleaves, height, 3, 30)
-- Roots
for z_dist = -1, 1 do
local vi_1 = a:index(x - 1, y - 1, z + z_dist)
local vi_2 = a:index(x - 1, y, z + z_dist)
for x_dist = -1, 1 do
if random(1, 3) >= 2 then
if data[vi_1] == c_air or data[vi_1] == c_ignore then
data[vi_1] = c_jungletree
elseif data[vi_2] == c_air or data[vi_2] == c_ignore then
data[vi_2] = c_jungletree
end
end
vi_1 = vi_1 + 1
vi_2 = vi_2 + 1
end
end
vm:set_data(data)
vm:write_to_map()
end
function mcl_core.generate_jungle_tree(pos)
minetest.place_schematic(vector_offset(pos, -2, -1, -2), modpath.."/schematics/mcl_core_jungle_tree.mts", "random", nil, false)
end
-- Generate huge jungle tree with 2x2 trunk.
-- With pos being the lower X and the higher Z value of the trunk.
function mcl_core.generate_huge_jungle_tree(pos)
minetest.place_schematic(vector_offset(pos, -6, -1, -7),
modpath.."/schematics/mcl_core_jungle_tree_huge_"..random(1, 2)..".mts",
"random", nil, false)
end
local grass_spread_randomizer = PseudoRandom(minetest.get_mapgen_setting("seed"))
-- Return appropriate grass block node for pos
function mcl_core.get_grass_block_type(pos, requested_grass_block_name)
return {name = requested_grass_block_name or minetest.get_node(pos).name, param2 = mcl_util.get_palette_indexes_from_pos(pos).grass_palette_index}
end
-- Return appropriate foliage block node for pos
function mcl_core.get_foliage_block_type(pos)
return {name = minetest.get_node(pos).name, param2 = mcl_util.get_palette_indexes_from_pos(pos).foliage_palette_index}
end
-- Return appropriate water block node for pos
function mcl_core.get_water_block_type(pos)
return {name = minetest.get_node(pos).name, param2 = mcl_util.get_palette_indexes_from_pos(pos).water_palette_index}
end
------------------------------
-- Spread grass blocks and mycelium on neighbor dirt
------------------------------
minetest.register_abm({
label = "Grass block and mycelium spread",
nodenames = {"mcl_core:dirt"},
neighbors = {"air", "group:grass_block_no_snow", "mcl_core:mycelium"},
interval = 30,
chance = 20,
catch_up = false,
action = function(pos)
if pos == nil then return end
local above = vector_offset(pos, 0, 1, 0)
local abovenode = minetest.get_node(above)
if minetest.get_item_group(abovenode.name, "liquid") ~= 0 or minetest.get_item_group(abovenode.name, "opaque") == 1 then
-- Never grow directly below liquids or opaque blocks
return
end
local light_self = minetest.get_node_light(above)
if not light_self then return end
--[[ Try to find a spreading dirt-type block (e.g. grass block or mycelium)
within a 3x5x3 area, with the source block being on the 2nd-topmost layer. ]]
local nodes = minetest.find_nodes_in_area(vector_offset(pos, -1, -1, -1), vector_offset(pos, 1, 3, 1), "group:spreading_dirt_type")
-- Nothing found ? Bail out!
if #nodes <= 0 then return end
local p2 = nodes[grass_spread_randomizer:next(1, #nodes)]
-- Found it! Now check light levels!
local source_above = vector_offset(p2, 0, 1, 0)
local light_source = minetest.get_node_light(source_above)
if not light_source then return end
if light_self >= 4 and light_source >= 9 then
-- All checks passed! Let's spread the grass/mycelium!
local n2 = minetest.get_node(p2)
if minetest.get_item_group(n2.name, "grass_block") ~= 0 then
n2 = mcl_core.get_grass_block_type(pos, "mcl_core:dirt_with_grass")
end
minetest.set_node(pos, {name=n2.name})
-- If this was mycelium, uproot plant above
if n2.name == "mcl_core:mycelium" then
local tad = minetest.registered_nodes[minetest.get_node(above).name]
if tad and tad.groups and tad.groups.non_mycelium_plant then
minetest.dig_node(above)
end
end
end
end
})
-- Grass/mycelium death in darkness
minetest.register_abm({
label = "Grass block / mycelium in darkness",
nodenames = {"group:spreading_dirt_type"},
interval = 8,
chance = 50,
catch_up = false,
action = function(pos, node)
local above = minetest.get_node(vector_offset(pos, 0, 1, 0)).name
-- Kill grass/mycelium when below opaque block or liquid
if above ~= "ignore" and (minetest.get_item_group(above, "opaque") == 1 or minetest.get_item_group(above, "liquid") ~= 0) then
minetest.set_node(pos, {name = "mcl_core:dirt"})
end
end
})
-- Turn Grass Path and similar nodes to Dirt if a solid node is placed above it
minetest.register_on_placenode(function(pos, newnode, placer, oldnode, itemstack, pointed_thing)
if minetest.get_item_group(newnode.name, "solid") ~= 0 or minetest.get_item_group(newnode.name, "dirtifier") ~= 0 then
local below = vector_offset(pos, 0, -1, 0)
local belownode = minetest.get_node(below)
if minetest.get_item_group(belownode.name, "dirtifies_below_solid") == 1 then
minetest.set_node(below, {name="mcl_core:dirt"})
end
end
end)
minetest.register_abm({
label = "Turn grass path below solid block into dirt",
nodenames = {"mcl_core:grass_path"},
neighbors = {"group:solid"},
interval = 8,
chance = 50,
action = function(pos, node)
local above = minetest.get_node(vector_offset(pos, 0, 1, 0)).name
if above == "ignore" then return end
local nodedef = minetest.registered_nodes[above]
if nodedef and (nodedef.groups and nodedef.groups.solid) then
minetest.set_node(pos, {name = "mcl_core:dirt"})
end
end,
})
local SAVANNA_INDEX = 1
minetest.register_lbm({
label = "Replace legacy dry grass",
name = "mcl_core:replace_legacy_dry_grass_0_65_0",
nodenames = {"mcl_core:dirt_with_dry_grass", "mcl_core:dirt_with_dry_grass_snow"},
run_at_every_load = true,
action = function(pos, node)
node.name = node.name == "mcl_core:dirt_with_dry_grass_snow" and "mcl_core:dirt_with_grass_snow" or "mcl_core:dirt_with_grass"
-- use savanna palette index to simulate dry grass.
node.param2 = node.param2 or SAVANNA_INDEX
minetest.set_node(pos, node)
end,
})
--------------------------
-- Try generate tree ---
--------------------------
local treelight = 9
local function sapling_grow_action(tree_id, soil_needed, one_by_one, two_by_two, sapling)
return function(pos)
local meta = minetest.get_meta(pos)
if meta:get("grown") then return end
-- Checks if the sapling at pos has enough light and the correct soil
local light = minetest.get_node_light(pos)
if not light then return end
local low_light = light < treelight
local delta = 1
local current_game_time = minetest.get_day_count() + minetest.get_timeofday()
local last_game_time = tonumber(meta:get_string("last_gametime"))
meta:set_string("last_gametime", tostring(current_game_time))
if last_game_time then
delta = current_game_time - last_game_time
elseif low_light then
return
end
if low_light then
if delta < 1.2 then return end
if minetest.get_node_light(pos, 0.5) < treelight then return end
end
-- TODO: delta is [days] missed in inactive area. Currently we just add it to stage, which is far from a perfect calculation...
local soilnode = minetest.get_node(vector_offset(pos, 0, -1, 0))
local soiltype = minetest.get_item_group(soilnode.name, "soil_sapling")
if soiltype < soil_needed then return end
-- Increase and check growth stage
local meta = minetest.get_meta(pos)
local stage = meta:get_int("stage")
if stage == nil then stage = 0 end
stage = stage + max(1, floor(delta))
if stage >= 3 then
meta:set_string("grown", "true")
-- This sapling grows in a special way when there are 4 saplings in a 2x2 pattern
if two_by_two then
-- Check 8 surrounding saplings and try to find a 2x2 pattern
local function is_sapling(pos, sapling)
return minetest.get_node(pos).name == sapling
end
-- clockwise from x+1, coded right/bottom/left/top
local prr = vector_offset(pos, 1, 0, 0) -- right
local prb = vector_offset(pos, 1, 0, -1) -- right bottom
local pbb = vector_offset(pos, 0, 0, -1) -- bottom
local pbl = vector_offset(pos, -1, 0, -1) -- bottom left
local pll = vector_offset(pos, -1, 0, 0) -- left
local plt = vector_offset(pos, -1, 0, 1) -- left top
local ptt = vector_offset(pos, 0, 0, 1) -- top
local ptr = vector_offset(pos, 1, 0, 1) -- top right
local srr = is_sapling(prr, sapling)
local srb = is_sapling(prb, sapling)
local sbb = is_sapling(pbb, sapling)
local sbl = is_sapling(pbl, sapling)
local sll = is_sapling(pll, sapling)
local slt = is_sapling(plt, sapling)
local stt = is_sapling(ptt, sapling)
local str = is_sapling(ptr, sapling)
-- In a 3x3 field there are 4 possible 2x2 squares. We check them all.
if srr and srb and sbb and check_tree_growth(pos, tree_id, { two_by_two = true }) then
-- Success: Remove saplings and place tree
minetest.remove_node(pos)
minetest.remove_node(prr)
minetest.remove_node(prb)
minetest.remove_node(pbb)
mcl_core.generate_tree(pos, tree_id, { two_by_two = true }) -- center is top-left of 2x2
return
elseif sbb and sbl and sll and check_tree_growth(pll, tree_id, { two_by_two = true }) then
minetest.remove_node(pos)
minetest.remove_node(pbb)
minetest.remove_node(pbl)
minetest.remove_node(pll)
mcl_core.generate_tree(pll, tree_id, { two_by_two = true }) -- ll is top-left of 2x2
return
elseif sll and slt and stt and check_tree_growth(plt, tree_id, { two_by_two = true }) then
minetest.remove_node(pos)
minetest.remove_node(pll)
minetest.remove_node(plt)
minetest.remove_node(ptt)
mcl_core.generate_tree(plt, tree_id, { two_by_two = true }) -- lt is top-left of 2x2
return
elseif stt and str and srr and check_tree_growth(ptt, tree_id, { two_by_two = true }) then
minetest.remove_node(pos)
minetest.remove_node(ptt)
minetest.remove_node(ptr)
minetest.remove_node(prr)
mcl_core.generate_tree(ptt, tree_id, { two_by_two = true }) -- tt is top-left of 2x2
return
end
end
if one_by_one and tree_id == OAK_TREE_ID then
-- There is a chance that this tree wants to grow as a balloon oak
if random(1, 12) == 1 then
-- Check if there is room for that
if check_tree_growth(pos, tree_id, { balloon = true }) then
minetest.set_node(pos, {name="air"})
mcl_core.generate_tree(pos, tree_id, { balloon = true })
return
end
end
end
-- If this sapling can grow alone
if one_by_one and check_tree_growth(pos, tree_id) then
-- Single sapling
minetest.set_node(pos, {name="air"})
mcl_core.generate_tree(pos, tree_id)
return
end
else
meta:set_int("stage", stage)
end
end
end
local grow_oak = sapling_grow_action(OAK_TREE_ID, 1, true, false)
local grow_dark_oak = sapling_grow_action(DARK_OAK_TREE_ID, 2, false, true, "mcl_core:darksapling")
local grow_jungle_tree = sapling_grow_action(JUNGLE_TREE_ID, 1, true, true, "mcl_core:junglesapling")
local grow_acacia = sapling_grow_action(ACACIA_TREE_ID, 2, true, false)
local grow_spruce = sapling_grow_action(SPRUCE_TREE_ID, 1, true, true, "mcl_core:sprucesapling")
local grow_birch = sapling_grow_action(BIRCH_TREE_ID, 1, true, false)
function mcl_core.update_sapling_foliage_colors(pos)
local foliage = minetest.find_nodes_in_area(
vector_offset(pos, -8, 0, -8), vector_offset(pos, 8, 30, 8),
{"group:foliage_palette", "group:foliage_palette_wallmounted"})
for _, fpos in pairs(foliage) do
minetest.set_node(fpos, minetest.get_node(fpos))
end
end
--- Attempts to grow the sapling at the specified position
-- pos: Position
-- node: Node table of the node at this position, from minetest.get_node
-- Returns true on success and false on failure
function mcl_core.grow_sapling(pos, node)
if node.name == "mcl_core:sapling" then
grow_oak(pos)
elseif node.name == "mcl_core:darksapling" then
grow_dark_oak(pos)
elseif node.name == "mcl_core:junglesapling" then
grow_jungle_tree(pos)
elseif node.name == "mcl_core:acaciasapling" then
grow_acacia(pos)
elseif node.name == "mcl_core:sprucesapling" then
grow_spruce(pos)
elseif node.name == "mcl_core:birchsapling" then
grow_birch(pos)
else
return false
end
return true
end
-- TODO: Use better tree models for everything
-- TODO: Support 2x2 saplings
-- Oak tree
minetest.register_abm({
label = "Oak tree growth",
nodenames = {"mcl_core:sapling"},
neighbors = {"group:soil_sapling"},
interval = 25,
chance = 2,
action = grow_oak
})
minetest.register_lbm({
label = "Add growth for unloaded oak tree",
name = "mcl_core:lbm_oak",
nodenames = {"mcl_core:sapling"},
run_at_every_load = true,
action = grow_oak
})
-- Dark oak tree
minetest.register_abm({
label = "Dark oak tree growth",
nodenames = {"mcl_core:darksapling"},
neighbors = {"group:soil_sapling"},
interval = 25,
chance = 2,
action = grow_dark_oak
})
minetest.register_lbm({
label = "Add growth for unloaded dark oak tree",
name = "mcl_core:lbm_dark_oak",
nodenames = {"mcl_core:darksapling"},
run_at_every_load = true,
action = grow_dark_oak
})
-- Jungle Tree
minetest.register_abm({
label = "Jungle tree growth",
nodenames = {"mcl_core:junglesapling"},
neighbors = {"group:soil_sapling"},
interval = 25,
chance = 2,
action = grow_jungle_tree
})
minetest.register_lbm({
label = "Add growth for unloaded jungle tree",
name = "mcl_core:lbm_jungle_tree",
nodenames = {"mcl_core:junglesapling"},
run_at_every_load = true,
action = grow_jungle_tree
})
-- Spruce tree
minetest.register_abm({
label = "Spruce tree growth",
nodenames = {"mcl_core:sprucesapling"},
neighbors = {"group:soil_sapling"},
interval = 25,
chance = 2,
action = grow_spruce
})
minetest.register_lbm({
label = "Add growth for unloaded spruce tree",
name = "mcl_core:lbm_spruce",
nodenames = {"mcl_core:sprucesapling"},
run_at_every_load = true,
action = grow_spruce
})
-- Birch tree
minetest.register_abm({
label = "Birch tree growth",
nodenames = {"mcl_core:birchsapling"},
neighbors = {"group:soil_sapling"},
interval = 25,
chance = 2,
action = grow_birch
})
minetest.register_lbm({
label = "Add growth for unloaded birch tree",
name = "mcl_core:lbm_birch",
nodenames = {"mcl_core:birchsapling"},
run_at_every_load = true,
action = grow_birch
})
-- Acacia tree
minetest.register_abm({
label = "Acacia tree growth",
nodenames = {"mcl_core:acaciasapling"},
neighbors = {"group:soil_sapling"},
interval = 20,
chance = 2,
action = grow_acacia
})
minetest.register_lbm({
label = "Add growth for unloaded acacia tree",
name = "mcl_core:lbm_acacia",
nodenames = {"mcl_core:acaciasapling"},
run_at_every_load = true,
action = grow_acacia
})
local function leafdecay_particles(pos, node)
minetest.add_particlespawner({
amount = random(10, 20),
time = 0.1,
minpos = vector_offset(pos, -0.4, -0.4, -0.4),
maxpos = vector_offset(pos, 0.4, 0.4, 0.4),
minvel = vector_new(-0.2, -0.2, -0.2),
maxvel = vector_new(0.2, 0.1, 0.2),
minacc = vector_new(0, -9.81, 0),
maxacc = vector_new(0, -9.81, 0),
minexptime = 0.1,
maxexptime = 0.5,
minsize = 0.5,
maxsize = 1.5,
collisiondetection = true,
vertical = false,
node = node,
})
end
local function vinedecay_particles(pos, node)
local dir = minetest.wallmounted_to_dir(node.param2)
if not dir then return end -- Don't crash if the map data got corrupted somehow
local minpos, maxpos
if dir.x < 0 then
minpos = vector_offset(pos, -0.45, -0.4, -0.5)
maxpos = vector_offset(pos, -0.4, 0.4, 0.5)
elseif dir.x > 0 then
minpos = vector_offset(pos, 0.4, -0.4, -0.5)
maxpos = vector_offset(pos, 0.45, 0.4, 0.5)
elseif dir.z < 0 then
minpos = vector_offset(pos, -0.5, -0.4, -0.45)
maxpos = vector_offset(pos, 0.5, 0.4, -0.4)
elseif dir.z > 0 then
minpos = vector_offset(pos, -0.5, -0.4, 0.4)
maxpos = vector_offset(pos, 0.5, 0.4, 0.45)
else
return
end
minetest.add_particlespawner({
amount = random(8, 16),
time = 0.1,
minpos = minpos,
maxpos = maxpos,
minvel = vector_new(-0.2, -0.2, -0.2),
maxvel = vector_new( 0.2, 0.1, 0.2),
minacc = vector_new(0, -9.81, 0),
maxacc = vector_new(0, -9.81, 0),
minexptime = 0.1,
maxexptime = 0.5,
minsize = 0.5,
maxsize = 1.0,
collisiondetection = true,
vertical = false,
node = node,
})
end
-----------------
-- Vine growth --
-----------------
-- Add vines below pos (if empty)
local function vine_spread_down(origin, node)
if random(1, 2) == 1 then return end
local target = vector_offset(origin, 0, -1, 0)
if minetest.get_node(target).name == "air" then
minetest.add_node(target, {name = "mcl_core:vine", param2 = node.param2})
end
end
-- Add vines above pos if it is backed up
local function vine_spread_up(origin, node)
if random(1, 2) == 1 then return end
local vines_in_area = minetest.find_nodes_in_area(vector_offset(origin, -4, -1, -4), vector_offset(origin, 4, 1, 4), "mcl_core:vine")
-- Less than 4 other vines blocks around the ticked vines block (remember the ticked block is counted by above function as well)
if #vines_in_area >= 5 then return end
local target = vector_offset(origin, 0, 1, 0)
if minetest.get_node(target).name ~= "air" then return end
local backupnodename = minetest.get_node(vector_subtract(target, minetest.wallmounted_to_dir(node.param2))).name
-- Check if the block above is supported
if mcl_core.supports_vines(backupnodename) then
minetest.add_node(target, {name = "mcl_core:vine", param2 = node.param2})
end
end
local function vine_spread_horizontal(origin, dir, node)
local vines_in_area = minetest.find_nodes_in_area(vector_offset(origin, -4, -1, -4), vector_offset(origin, 4, 1, 4), "mcl_core:vine")
if #vines_in_area >= 5 then return end
-- Less than 4 other vines blocks around the ticked vines block (remember the ticked block is counted by above function as well)
local target = vector_add(origin, dir)
-- Spread horizontally, but not into support direction
local backup_dir = minetest.wallmounted_to_dir(node.param2)
if backup_dir.x == dir.x and backup_dir.y == dir.y then return end
local target_node = minetest.get_node(target)
if target_node.name ~= "air" then return end
local backupnodename = minetest.get_node(vector_add(target, backup_dir)).name
if mcl_core.supports_vines(backupnodename) then
minetest.add_node(target, {name = "mcl_core:vine", param2 = node.param2})
end
end
minetest.register_abm({
label = "Vine growth",
nodenames = {"mcl_core:vine"},
interval = 47,
chance = 4,
action = function(pos, node, active_object_count, active_object_count_wider)
-- First of all, check if we are even supported, otherwise, decay.
if not mcl_core.check_vines_supported(pos, node) then
minetest.remove_node(pos)
vinedecay_particles(pos, node)
minetest.check_for_falling(pos)
return
end
local d = random(1, 6)
if d == 1 then
vine_spread_horizontal(pos, vector_new( 1, 0, 0), node)
elseif d == 2 then
vine_spread_horizontal(pos, vector_new(-1, 0, 0), node)
elseif d == 3 then
vine_spread_horizontal(pos, vector_new( 0, 0, 1), node)
elseif d == 4 then
vine_spread_horizontal(pos, vector_new( 0, 0, -1), node)
elseif d == 5 then
vine_spread_up(pos, node)
else
vine_spread_down(pos, node)
end
end
})
-- Returns true of the node supports vines
function mcl_core.supports_vines(nodename)
local def = minetest.registered_nodes[nodename]
-- Rules: 1) walkable 2) full cube
return def and def.walkable and
(def.node_box == nil or def.node_box.type == "regular") and
(def.collision_box == nil or def.collision_box.type == "regular")
end
-- Leaf Decay
--
-- Whenever a tree trunk node is removed, all `group:leaves` nodes in a radius
-- of 6 blocks are checked from the trunk node's `after_destruct` handler.
-- Any such nodes within that radius that has no trunk node present within a
-- distance of 6 blocks is replaced with a `group:orphan_leaves` node.
--
-- The `group:orphan_leaves` nodes are gradually decayed in this ABM.
minetest.register_abm({
label = "Leaf decay",
nodenames = {"group:orphan_leaves"},
interval = 5,
chance = 10,
action = function(pos, node)
-- Spawn item entities for any of the leaf's drops
local itemstacks = minetest.get_node_drops(node.name)
for _, itemname in pairs(itemstacks) do
minetest.add_item(vector_offset(pos, random() - 0.5, random() - 0.5, random() - 0.5), itemname)
end
-- Remove the decayed node
minetest.remove_node(pos)
leafdecay_particles(pos, node)
minetest.check_for_falling(pos)
-- Kill depending vines immediately to skip the vines decay delay
local function clean_vines(spos)
local maybe_vine = minetest.get_node(spos)
if maybe_vine.name == "mcl_core:vine" and (not mcl_core.check_vines_supported(spos, maybe_vine)) then
minetest.remove_node(spos)
vinedecay_particles(spos, maybe_vine)
minetest.check_for_falling(spos)
end
end
clean_vines(vector_offset(pos, 0, 0, -1))
clean_vines(vector_offset(pos, 0, 0, 1))
clean_vines(vector_offset(pos, -1, 0, 0))
clean_vines(vector_offset(pos, 1, 0, 0))
clean_vines(vector_offset(pos, 0, -1, 0))
end
})
-- Remove vines which are not supported by anything, similar to leaf decay.
--[[ TODO: Vines are supposed to die immediately when they supporting block is destroyed.
But doing this in Minetest would be too complicated / hacky. This vines decay is a simple
way to make sure that all floating vines are destroyed eventually. ]]
minetest.register_abm({
label = "Vines decay",
nodenames = {"mcl_core:vine"},
neighbors = {"air"},
-- A low interval and a high inverse chance spreads the load
interval = 4,
chance = 8,
action = function(pos, node)
if not mcl_core.check_vines_supported(pos, node) then
minetest.remove_node(pos)
vinedecay_particles(pos, node)
minetest.check_for_falling(pos)
end
end
})
-- Melt snow
minetest.register_abm({
label = "Top snow and ice melting",
nodenames = {"mcl_core:snow", "mcl_core:ice"},
interval = 16,
chance = 8,
action = function(pos, node)
if minetest.get_node_light(pos, 0) >= 12 then
if node.name == "mcl_core:ice" then
mcl_core.melt_ice(pos)
else
minetest.remove_node(pos)
end
end
end
})
-- Freeze water
minetest.register_abm({
label = "Freeze water in cold areas",
nodenames = {"mcl_core:water_source", "mclx_core:river_water_source"},
interval = 32,
chance = 8,
action = function(pos, node)
if mcl_weather.has_snow(pos)
and minetest.get_natural_light(vector_offset(pos, 0, 1, 0), 0.5) == minetest.LIGHT_MAX + 1
and minetest.get_artificial_light(minetest.get_node(pos).param1) < 10 then
node.name = "mcl_core:ice"
minetest.swap_node(pos, node)
end
end
})
--[[ Call this for vines nodes only.
Given the pos and node of a vines node, this returns true if the vines are supported
and false if the vines are currently floating.
Vines are considered “supported” if they face a walkable+solid block or “hang” from a vines node above. ]]
function mcl_core.check_vines_supported(pos, node)
local dir = minetest.wallmounted_to_dir(node.param2)
if not dir then return end -- Don't crash if the map data got corrupted somehow
local node_neighbor = minetest.get_node(vector_add(pos, dir))
-- Check if vines are attached to a solid block, assume "ignore" is good.
if node_neighbor.name == "ignore" or mcl_core.supports_vines(node_neighbor.name) then return true end
if dir.y == 0 then
-- Vines are not attached, now we check if the vines are “hanging” below another vines block
-- of equal orientation.
local node2 = minetest.get_node(vector_offset(pos, 0, 1, 0))
if node2.name == "ignore" or (node2.name == "mcl_core:vine" and node2.param2 == node.param2) then
return true
end
end
return false
end
-- Melt ice at pos. mcl_core:ice MUST be at pos if you call this!
function mcl_core.melt_ice(pos)
-- Create a water source if ice is destroyed and there was something below it
local below = vector_offset(pos, 0, -1, 0)
local dim = mcl_worlds.pos_to_dimension(below)
local belownode = minetest.get_node(below)
if dim == "nether" or belownode.name == "air" or belownode.name == "ignore" or belownode.name == "mcl_core:void" then
minetest.remove_node(pos)
else
minetest.set_node(pos, {name="mcl_core:water_source"})
end
minetest.check_single_for_falling(vector_offset(pos, -1, 0, 0))
minetest.check_single_for_falling(vector_offset(pos, 1, 0, 0))
minetest.check_single_for_falling(vector_offset(pos, 0, -1, 0))
minetest.check_single_for_falling(vector_offset(pos, 0, 1, 0))
minetest.check_single_for_falling(vector_offset(pos, 0, 0, -1))
minetest.check_single_for_falling(vector_offset(pos, 0, 0, 1))
end
---- FUNCTIONS FOR SNOWED NODES ----
-- These are nodes which change their appearence when they are below a snow cover
-- and turn back into “normal” when the snow cover is removed.
-- Registers a snowed variant of a node (e.g. grass block, podzol, mycelium).
-- * itemstring_snowed: Itemstring of the snowed node to add
-- * itemstring_clear: Itemstring of the original “clear” node without snow
-- * tiles: Optional custom tiles
-- * sounds: Optional custom sounds
-- * clear_colorization: Optional. If true, will clear all paramtype2="color" related node def. fields
-- * desc: Item description
--
-- The snowable nodes also MUST have _mcl_snowed defined to contain the name
-- of the snowed node.
function mcl_core.register_snowed_node(itemstring_snowed, itemstring_clear, tiles, sounds, clear_colorization, desc, grass_palette)
local def = table.copy(minetest.registered_nodes[itemstring_clear])
-- Just some group clearing
def.description = desc
def._doc_items_longdesc = nil
def._doc_items_usagehelp = nil
def._doc_items_create_entry = false
def.groups.not_in_creative_inventory = 1
def.groups.grass_palette = grass_palette
if def.groups.grass_block == 1 then
def.groups.grass_block_no_snow = nil
def.groups.grass_block_snow = 1
end
-- Enderman must never take this because this block is supposed to be always buried below snow.
def.groups.enderman_takable = nil
-- Snowed blocks never spread
def.groups.spreading_dirt_type = nil
-- Add the clear node to the item definition for easy lookup
def._mcl_snowless = itemstring_clear
-- Note: _mcl_snowed must be added to the clear node manually!
def.tiles = tiles or {"default_snow.png", "default_dirt.png", {name="mcl_core_grass_side_snowed.png", tileable_vertical=false}}
if clear_colorization then
def.paramtype2 = nil
def.palette = nil
def.palette_index = nil
def.color = nil
def.overlay_tiles = nil
end
def.sounds = sounds or mcl_sounds.node_sound_dirt_defaults({footstep = mcl_sounds.node_sound_snow_defaults().footstep})
def._mcl_silk_touch_drop = {itemstring_clear}
-- Register stuff
minetest.register_node(itemstring_snowed, def)
if def.description and minetest.get_modpath("doc") then
doc.add_entry_alias("nodes", itemstring_clear, "nodes", itemstring_snowed)
end
end
-- Reverts a snowed dirtlike node at pos to its original snow-less form.
-- This function assumes there is no snow cover node above. This function
-- MUST NOT be called if there is a snow cover node above pos.
function mcl_core.clear_snow_dirt(pos, node)
local def = minetest.registered_nodes[node.name]
if def and def._mcl_snowless then
minetest.swap_node(pos, {name = def._mcl_snowless, param2 = node.param2})
end
end
---- [[[[[ Functions for snowable nodes (nodes that can become snowed). ]]]]] ----
-- Always add these for snowable nodes.
-- on_construct
-- Makes constructed snowable node snowed if placed below a snow cover node.
function mcl_core.on_snowable_construct(pos)
local above = minetest.get_node(vector_offset(pos, 0, 1, 0)).name
-- Make snowed if needed
if minetest.get_item_group(above.name, "snow_cover") == 1 then
local node = minetest.get_node(pos)
local def = minetest.registered_nodes[node.name]
if def and def._mcl_snowed then
minetest.swap_node(pos, {name = def._mcl_snowed, param2 = node.param2})
end
end
end
---- [[[[[ Functions for snow cover nodes. ]]]]] ----
-- A snow cover node is a node which turns a snowed dirtlike --
-- node into its snowed form while it is placed above.
-- MCL2's snow cover nodes are Top Snow (mcl_core:snow) and Snow (mcl_core:snowblock).
-- Always add the following functions to snow cover nodes:
-- on_construct
-- Makes snowable node below snowed.
function mcl_core.on_snow_construct(pos)
local below = vector_offset(pos, 0, -1, 0)
local node = minetest.get_node(below)
local def = minetest.registered_nodes[node.name]
if def and def._mcl_snowed then
minetest.swap_node(below, {name = def._mcl_snowed, param2 = node.param2})
end
end
-- after_destruct
-- Clears snowed dirtlike node below.
function mcl_core.after_snow_destruct(pos)
if minetest.get_item_group(minetest.get_node(pos).name, "snow_cover") == 1 then return end
local below = vector_offset(pos, 0, -1, 0)
mcl_core.clear_snow_dirt(below, minetest.get_node(below))
end
-- Obsidian crying
local crobby_particle = {
velocity = vector_zero(),
acceleration = vector_zero(),
texture = "mcl_core_crying_obsidian_tear.png",
collisiondetection = false,
collision_removal = false,
}
minetest.register_abm({
label = "Obsidian cries",
nodenames = {"mcl_core:crying_obsidian"},
interval = 5,
chance = 10,
action = function(pos, node)
minetest.after(0.1 + random() * 1.4, function()
local pt = table.copy(crobby_particle)
pt.size = 1.3 + random() * 1.2
pt.expirationtime = 0.5 + random()
pt.pos = vector_offset(pos, random() - 0.5, -0.51, random() - 0.5)
minetest.add_particle(pt)
minetest.after(pt.expirationtime, function()
pt.acceleration = vector_new(0, -9, 0)
pt.collisiondetection = true
pt.expirationtime = 1.2 + random() * 3.3
minetest.add_particle(pt)
end)
end)
end
})