local math = math local tostring = tostring mcl_farming.plant_lists = {} local plant_lists = {} local plant_nodename_to_id_list = {} local function get_intervals_counter(pos, interval, chance) local meta = minetest.get_meta(pos) local time_speed = tonumber(minetest.settings:get("time_speed") or 72) local current_game_time if time_speed == nil then return 1 end if (time_speed < 0.1) then return 1 end local time_multiplier = 86400 / time_speed current_game_time = .0 + ((minetest.get_day_count() + minetest.get_timeofday()) * time_multiplier) local approx_interval = math.max(interval, 1) * math.max(chance, 1) local last_game_time = meta:get_string("last_gametime") if last_game_time then last_game_time = tonumber(last_game_time) end if not last_game_time or last_game_time < 1 then last_game_time = current_game_time - approx_interval / 10 elseif last_game_time == current_game_time then current_game_time = current_game_time + approx_interval end local elapsed_game_time = .0 + current_game_time - last_game_time meta:set_string("last_gametime", tostring(current_game_time)) return elapsed_game_time / approx_interval end local function get_avg_light_level(pos) local node_light = tonumber(minetest.get_node_light(pos) or 0) local meta = minetest.get_meta(pos) local counter = meta:get_int("avg_light_count") local summary = meta:get_int("avg_light_summary") if counter > 99 then counter = 51 summary = math.ceil((summary + 0.0) / 2.0) else counter = counter + 1 end summary = summary + node_light meta:set_int("avg_light_count", counter) meta:set_int("avg_light_summary", summary) return math.ceil((summary + 0.0) / counter) end function mcl_farming:add_plant(identifier, full_grown, names, interval, chance) mcl_farming.plant_lists[identifier] = {} mcl_farming.plant_lists[identifier].full_grown = full_grown mcl_farming.plant_lists[identifier].names = names mcl_farming.plant_lists[identifier].interval = interval mcl_farming.plant_lists[identifier].chance = chance plant_lists = mcl_farming.plant_lists --provide local copy of plant lists (performances) minetest.register_abm({ label = string.format("Farming plant growth (%s)", identifier), nodenames = names, interval = interval, chance = chance, action = function(pos, node) local low_speed = minetest.get_node({x=pos.x, y=pos.y-1, z=pos.z}).name ~= "mcl_farming:soil_wet" mcl_farming:grow_plant(identifier, pos, node, false, false, low_speed) end, }) for _, nodename in pairs(names) do plant_nodename_to_id_list[nodename] = identifier end end -- Attempts to advance a plant at pos by one or more growth stages (if possible) -- identifier: Identifier of plant as defined by mcl_farming:add_plant -- pos: Position -- node: Node table -- stages: Number of stages to advance (optional, defaults to 1) -- ignore_light: if true, ignore light requirements for growing -- Returns true if plant has been grown by 1 or more stages. -- Returns false if nothing changed. function mcl_farming:grow_plant(identifier, pos, node, stages, ignore_light, low_speed) local average_light_level = get_avg_light_level(pos) local plant_info = plant_lists[identifier] local intervals_counter = get_intervals_counter(pos, plant_info.interval, plant_info.chance) local low_speed = low_speed or false if low_speed then if intervals_counter < 1.01 and math.random(0, 9) > 0 then return else intervals_counter = intervals_counter / 10 end end if not minetest.get_node_light(pos) and not ignore_light and intervals_counter < 1.5 then return false end if minetest.get_node_light(pos) < 10 and not ignore_light and intervals_counter < 1.5 then return false end if intervals_counter >= 1.5 then if average_light_level < 0.1 then return false end if average_light_level < 10 then intervals_counter = intervals_counter * average_light_level / 10 end end local step = nil for i, name in ipairs(plant_info.names) do if name == node.name then step = i break end end if step == nil then return false end if not stages then stages = 1 end stages = stages + math.floor(intervals_counter) local new_node = {name = plant_info.names[step+stages]} if new_node.name == nil then new_node.name = plant_info.full_grown end new_node.param = node.param new_node.param2 = node.param2 minetest.set_node(pos, new_node) return true end function mcl_farming:place_seed(itemstack, placer, pointed_thing, plantname) local pt = pointed_thing if not pt then return end if pt.type ~= "node" then return end -- Use pointed node's on_rightclick function first, if present local node = minetest.get_node(pt.under) if placer and not placer:get_player_control().sneak then if minetest.registered_nodes[node.name] and minetest.registered_nodes[node.name].on_rightclick then return minetest.registered_nodes[node.name].on_rightclick(pt.under, node, placer, itemstack) or itemstack end end local pos = {x=pt.above.x, y=pt.above.y-1, z=pt.above.z} local farmland = minetest.get_node(pos) pos= {x=pt.above.x, y=pt.above.y, z=pt.above.z} local place_s = minetest.get_node(pos) if string.find(farmland.name, "mcl_farming:soil") and string.find(place_s.name, "air") then minetest.sound_play(minetest.registered_nodes[plantname].sounds.place, {pos = pos}, true) minetest.add_node(pos, {name=plantname, param2 = minetest.registered_nodes[plantname].place_param2}) --local intervals_counter = get_intervals_counter(pos, 1, 1) else return end if not minetest.is_creative_enabled(placer:get_player_name()) then itemstack:take_item() end return itemstack end --[[ Helper function to create a gourd (e.g. melon, pumpkin), the connected stem nodes as - full_unconnected_stem: itemstring of the full-grown but unconnceted stem node. This node must already be done - connected_stem_basename: prefix of the itemstrings used for the 4 connected stem nodes to create - stem_itemstring: Desired itemstring of the fully-grown unconnected stem node - stem_def: Partial node definition of the fully-grown unconnected stem node. Many fields are already defined. You need to add `tiles` and `description` at minimum. Don't define on_construct without good reason - stem_drop: Drop probability table for all stem - gourd_itemstring: Desired itemstring of the full gourd node - gourd_def: (almost) full definition of the gourd node. This function will add on_construct and after_dig_node to the definition for unconnecting any connected stems - grow_interval: Will attempt to grow a gourd periodically at this interval in seconds - grow_chance: Chance of 1/grow_chance to grow a gourd next to the full unconnected stem after grow_interval has passed. Must be a natural number - connected_stem_texture: Texture of the connected stem - gourd_on_construct_extra: Custom on_construct extra function for the gourd. Will be called after the stem check code ]] function mcl_farming:add_gourd(full_unconnected_stem, connected_stem_basename, stem_itemstring, stem_def, stem_drop, gourd_itemstring, gourd_def, grow_interval, grow_chance, connected_stem_texture, gourd_on_construct_extra) local connected_stem_names = { connected_stem_basename .. "_r", connected_stem_basename .. "_l", connected_stem_basename .. "_t", connected_stem_basename .. "_b", } local neighbors = { { x=-1, y=0, z=0 }, { x=1, y=0, z=0 }, { x=0, y=0, z=-1 }, { x=0, y=0, z=1 }, } -- Connect the stem at stempos to the first neighboring gourd block. -- No-op if not a stem or no gourd block found local function try_connect_stem(stempos) local stem = minetest.get_node(stempos) if stem.name ~= full_unconnected_stem then return false end for n=1, #neighbors do local offset = neighbors[n] local blockpos = vector.add(stempos, offset) local block = minetest.get_node(blockpos) if block.name == gourd_itemstring then if offset.x == 1 then minetest.set_node(stempos, {name=connected_stem_names[1]}) elseif offset.x == -1 then minetest.set_node(stempos, {name=connected_stem_names[2]}) elseif offset.z == 1 then minetest.set_node(stempos, {name=connected_stem_names[3]}) elseif offset.z == -1 then minetest.set_node(stempos, {name=connected_stem_names[4]}) end return true end end end -- Register gourd if not gourd_def.after_dig_node then function gourd_def.after_dig_node(blockpos, oldnode, oldmetadata, user) -- Disconnect any connected stems, turning them back to normal stems for n=1, #neighbors do local offset = neighbors[n] local expected_stem = connected_stem_names[n] local stempos = vector.add(blockpos, offset) local stem = minetest.get_node(stempos) if stem.name == expected_stem then minetest.add_node(stempos, {name=full_unconnected_stem}) try_connect_stem(stempos) end end end end if not gourd_def.on_construct then function gourd_def.on_construct(blockpos) -- Connect all unconnected stems at full size for n=1, #neighbors do local stempos = vector.add(blockpos, neighbors[n]) try_connect_stem(stempos) end -- Call custom on_construct if gourd_on_construct_extra then gourd_on_construct_extra(blockpos) end end end minetest.register_node(gourd_itemstring, gourd_def) -- Register unconnected stem -- Default values for the stem definition if not stem_def.selection_box then stem_def.selection_box = { type = "fixed", fixed = { {-0.15, -0.5, -0.15, 0.15, 0.5, 0.15} }, } end if not stem_def.paramtype then stem_def.paramtype = "light" end if not stem_def.drawtype then stem_def.drawtype = "plantlike" end if stem_def.walkable == nil then stem_def.walkable = false end if stem_def.sunlight_propagates == nil then stem_def.sunlight_propagates = true end if stem_def.drop == nil then stem_def.drop = stem_drop end if stem_def.groups == nil then stem_def.groups = {dig_immediate=3, not_in_creative_inventory=1, plant=1,attached_node=1, dig_by_water=1,destroy_by_lava_flow=1,} end if stem_def.sounds == nil then stem_def.sounds = mcl_sounds.node_sound_leaves_defaults() end if not stem_def.on_construct then function stem_def.on_construct(stempos) -- Connect stem to gourd (if possible) try_connect_stem(stempos) end end minetest.register_node(stem_itemstring, stem_def) -- Register connected stems local connected_stem_tiles = { { "blank.png", --top "blank.png", -- bottom "blank.png", -- right "blank.png", -- left connected_stem_texture, -- back connected_stem_texture.."^[transformFX90" --front }, { "blank.png", --top "blank.png", -- bottom "blank.png", -- right "blank.png", -- left connected_stem_texture.."^[transformFX90", --back connected_stem_texture, -- front }, { "blank.png", --top "blank.png", -- bottom connected_stem_texture.."^[transformFX90", -- right connected_stem_texture, -- left "blank.png", --back "blank.png", -- front }, { "blank.png", --top "blank.png", -- bottom connected_stem_texture, -- right connected_stem_texture.."^[transformFX90", -- left "blank.png", --back "blank.png", -- front } } local connected_stem_nodebox = { {-0.5, -0.5, 0, 0.5, 0.5, 0}, {-0.5, -0.5, 0, 0.5, 0.5, 0}, {0, -0.5, -0.5, 0, 0.5, 0.5}, {0, -0.5, -0.5, 0, 0.5, 0.5}, } local connected_stem_selectionbox = { {-0.1, -0.5, -0.1, 0.5, 0.2, 0.1}, {-0.5, -0.5, -0.1, 0.1, 0.2, 0.1}, {-0.1, -0.5, -0.1, 0.1, 0.2, 0.5}, {-0.1, -0.5, -0.5, 0.1, 0.2, 0.1}, } for i=1, 4 do minetest.register_node(connected_stem_names[i], { _doc_items_create_entry = false, paramtype = "light", sunlight_propagates = true, walkable = false, drop = stem_drop, drawtype = "nodebox", node_box = { type = "fixed", fixed = connected_stem_nodebox[i] }, selection_box = { type = "fixed", fixed = connected_stem_selectionbox[i] }, tiles = connected_stem_tiles[i], use_texture_alpha = minetest.features.use_texture_alpha_string_modes and "clip" or true, groups = {dig_immediate=3, not_in_creative_inventory=1, plant=1,attached_node=1, dig_by_water=1,destroy_by_lava_flow=1,}, sounds = mcl_sounds.node_sound_leaves_defaults(), _mcl_blast_resistance = 0, }) if minetest.get_modpath("doc") then doc.add_entry_alias("nodes", full_unconnected_stem, "nodes", connected_stem_names[i]) end end minetest.register_abm({ label = "Grow gourd stem to gourd ("..full_unconnected_stem.." → "..gourd_itemstring..")", nodenames = {full_unconnected_stem}, neighbors = {"air"}, interval = grow_interval, chance = grow_chance, action = function(stempos) local light = minetest.get_node_light(stempos) if light and light > 10 then -- Check the four neighbors and filter out neighbors where gourds can't grow local neighbors = { { x=-1, y=0, z=0 }, { x=1, y=0, z=0 }, { x=0, y=0, z=-1 }, { x=0, y=0, z=1 }, } local floorpos, floor for n=#neighbors, 1, -1 do local offset = neighbors[n] local blockpos = vector.add(stempos, offset) floorpos = { x=blockpos.x, y=blockpos.y-1, z=blockpos.z } floor = minetest.get_node(floorpos) local block = minetest.get_node(blockpos) local soilgroup = minetest.get_item_group(floor.name, "soil") if not ((minetest.get_item_group(floor.name, "grass_block") == 1 or floor.name=="mcl_core:dirt" or soilgroup == 2 or soilgroup == 3) and block.name == "air") then table.remove(neighbors, n) end end -- Gourd needs at least 1 free neighbor to grow if #neighbors > 0 then -- From the remaining neighbors, grow randomly local r = math.random(1, #neighbors) local offset = neighbors[r] local blockpos = vector.add(stempos, offset) local p2 if offset.x == 1 then minetest.set_node(stempos, {name=connected_stem_names[1]}) p2 = 3 elseif offset.x == -1 then minetest.set_node(stempos, {name=connected_stem_names[2]}) p2 = 1 elseif offset.z == 1 then minetest.set_node(stempos, {name=connected_stem_names[3]}) p2 = 2 elseif offset.z == -1 then minetest.set_node(stempos, {name=connected_stem_names[4]}) p2 = 0 end -- Place the gourd if gourd_def.paramtype2 == "facedir" then minetest.add_node(blockpos, {name=gourd_itemstring, param2=p2}) else minetest.add_node(blockpos, {name=gourd_itemstring}) end -- Reset farmland, etc. to dirt when the gourd grows on top if minetest.get_item_group(floor.name, "dirtifies_below_solid") == 1 then minetest.set_node(floorpos, {name = "mcl_core:dirt"}) end end end end, }) end -- Used for growing gourd stems. Returns the intermediate color between startcolor and endcolor at a step -- * startcolor: ColorSpec in table form for the stem in its lowest growing stage -- * endcolor: ColorSpec in table form for the stem in its final growing stage -- * step: The nth growth step. Counting starts at 1 -- * step_count: The number of total growth steps function mcl_farming:stem_color(startcolor, endcolor, step, step_count) local color = {} local function get_component(startt, endd, step, step_count) return math.floor(math.max(0, math.min(255, (startt + (((step-1)/step_count) * endd))))) end color.r = get_component(startcolor.r, endcolor.r, step, step_count) color.g = get_component(startcolor.g, endcolor.g, step, step_count) color.b = get_component(startcolor.b, endcolor.b, step, step_count) local colorstring = string.format("#%02X%02X%02X", color.r, color.g, color.b) return colorstring end minetest.register_lbm({ label = "Add growth for unloaded farming plants", name = "mcl_farming:growth", nodenames = {"group:plant"}, run_at_every_load = true, action = function(pos, node) local identifier = plant_nodename_to_id_list[node.name] if not identifier then return end local low_speed = minetest.get_node({x=pos.x, y=pos.y-1, z=pos.z}).name ~= "mcl_farming:soil_wet" mcl_farming:grow_plant(identifier, pos, node, false, false, low_speed) end, })