-- Places code for Advanced NPC by Zorman2000 --------------------------------------------------------------------------------------- -- Places functionality --------------------------------------------------------------------------------------- -- In addition, the NPCs need to know where some places are, and know -- where there are nodes they can use. For example, they need to know where the -- chest they use is located, both to walk to it and to use it. They also need -- to know where the farm they work is located, or where the bed they sleep is. -- Other mods have to be supported for this to work correctly, as there are -- many sitting nodes, many beds, many tables, chests, etc. For now, by default, -- support for default MTG games and cottages mod is going to be provided. npc.places = {} npc.places.nodes = { BED_TYPE = { "beds:bed_bottom", "beds:fancy_bed_bottom", "cottages:bed_foot", "cottages:straw_mat", "cottages:sleeping_mat" }, SITTABLE_TYPE = { "cottages:bench", -- TODO: Register other stair types "stairs:stair_wood" }, STORAGE_TYPE = { "default:chest", "default:chest_locked", "cottages:shelf" }, FURNACE_TYPE = { "default:furnace", "default:furnace_active" }, OPENABLE_TYPE = { -- TODO: Register fences "doors:door_glass_a", "doors:door_glass_b", "doors:door_obsidian_a", "doors:door_obsidian_b", "doors:door_steel_a", "doors:door_steel_b", "doors:door_wood_a", "doors:door_wood_b", "cottages:gate_open", "cottages:gate_closed", "cottages:half_door" } } npc.places.PLACE_TYPE = { NPC_HOUSE = { "OWN_BED", "OWN_ROOM_DOOR", "OWN_STORAGE", "SHARED_FURNACE", "SHARED_SITTABLE", "ENTRANCE_DOOR" } } function npc.places.add_public(self, place_name, place_type, pos) self.places_map[place_name] = {type=place_type, pos=pos} end -- Adds a specific node to the NPC places, and modifies the -- node metadata to identify the NPC as the owner. This allows -- other NPCs to avoid to take this as their own. function npc.places.add_owned(self, place_name, place_type, pos) -- Get node metadata local meta = minetest.get_meta(pos) -- Check if it is owned by an NPC? if meta:get_string("npc_owner") == "" then -- Set owned by NPC meta:set_string("npc_owner", self.npc_id) -- Add place to list npc.places.add_public(self, place_name, place_type, pos) return true end return false end function npc.places.get_by_type(self, place_type) local result = {} for place_name, place_entry in pairs(self.places_map) do if place_entry.type == place_type then table.insert(result, place_name) end end return result end -- This function searches on a squared are of the given radius -- for nodes of the given type. The type should be npc.places.nodes function npc.places.find_node_nearby(pos, type, radius) -- Determine area points local start_pos = {x=pos.x - radius, y=pos.y - 1, z=pos.z - radius} local end_pos = {x=pos.x + radius, y=pos.y + 1, z=pos.z + radius} -- Get nodes local nodes = minetest.find_nodes_in_area(start_pos, end_pos, type) return nodes end -- TODO: This function can be improved to support a radius greater than 1. function npc.places.find_node_orthogonally(pos, nodes, y_adjustment) -- Calculate orthogonal points local points = {} table.insert(points, {x=pos.x+1,y=pos.y+y_adjustment,z=pos.z}) table.insert(points, {x=pos.x-1,y=pos.y+y_adjustment,z=pos.z}) table.insert(points, {x=pos.x,y=pos.y+y_adjustment,z=pos.z+1}) table.insert(points, {x=pos.x,y=pos.y+y_adjustment,z=pos.z-1}) local result = {} for _,point in pairs(points) do local node = minetest.get_node(point) minetest.log("Found node: "..dump(node)..", at pos: "..dump(point)) for _,node_name in pairs(nodes) do if node.name == node_name then table.insert(result, {name=node.name, pos=point, param2=node.param2}) end end end return result end function npc.places.find_node_in_area(start_pos, end_pos, type) local nodes = minetest.find_nodes_in_area(start_pos, end_pos, type) return nodes end -- Specialized function to find doors that are an entrance to a building. -- The criteria for an entrance door is the following: -- - Node in front and above door is air, or -- - Node two nodes from front of door and above door is air and, -- - Up to two nodes above is air -- This needs to be fine-tuned with more practical scenarios. -- The given position is assumed to be the openable node's lower node -- (in the case of doors which have two-node heights) function npc.places.openable_node_is_entrance(pos) local result = false -- Calculate the first position to check -- Need to get the direction of the openable node local node = minetest.get_node(pos) local x_adj = 0 local z_adj = 0 if node.param2 then if node.param2 == 0 then elseif node.param2 == 1 then elseif node.param2 == 2 then elseif node.param2 == 3 then end end --local first_check_pos = {x=, y=, z=} end -- Specialized function to find all sittable nodes supported by the -- mod, namely default stairs and cottages' benches. Since not all -- stairs nodes placed aren't meant to simulate benches, this function -- is necessary in order to find stairs that are meant to be benches. function npc.places.find_sittable_nodes_nearby(pos, radius) local result = {} -- Try to find sittable nodes local nodes = npc.places.find_node_nearby(pos, npc.places.nodes.SITTABLE, radius) -- Highly unorthodox check for emptinnes if nodes[1] ~= nil then for i = 1, #nodes do -- Get node name, try to avoid using the staircase check if not a stair node local node = minetest.get_node(nodes[i]) local i1, i2 = string.find(node.name, "stairs:") if i1 ~= nil then if npc.places.is_in_staircase(nodes[i]) < 1 then table.insert(result, nodes[i]) end else -- Add node as it is sittable table.insert(result, nodes[i]) end end end -- Return sittable nodes return result end -- Specialized function to find sittable stairs: stairs that don't -- have any other stair above them. Only stairs using the default -- stairs mod are supported for now. -- Receives a position of a stair node. npc.places.staircase = { none = 0, bottom = 1, middle = 2, top = 3 } function npc.places.is_in_staircase(pos) local node = minetest.get_node(pos) -- Verify node is actually from default stairs mod local p1, p2 = string.find(node.name, "stairs:") if p1 ~= nil then -- Calculate the logical position to the lower and upper stairs node location local up_x_adj, up_z_adj = 0, 0 local lo_x_adj, lo_z_adj = 0, 0 if node.param2 == 1 then up_z_adj = -1 lo_z_adj = 1 elseif node.param2 == 2 then up_z_adj = 1 lo_z_adj = -1 elseif node.param2 == 3 then up_x_adj = -1 lo_x_adj = 1 elseif node.param2 == 4 then up_x_adj = 1 lo_x_adj = -1 else -- This is not a staircase return false end -- Calculate upper and lower position local upper_pos = {x=pos.x + up_x_adj, y=pos.y + 1, z=pos.z + up_z_adj} local lower_pos = {x=pos.x + lo_x_adj, y=pos.y - 1, z=pos.z + lo_z_adj} -- Get next node local upper_node = minetest.get_node(upper_pos) local lower_node = minetest.get_node(lower_pos) minetest.log("Next node: "..dump(upper_pos)) -- Check if next node is also a stairs node local up_p1, up_p2 = string.find(upper_node.name, "stairs:") local lo_p1, lo_p2 = string.find(lower_node.name, "stairs:") if up_p1 ~= nil then -- By default, think this is bottom of staircase. local result = npc.places.staircase.bottom -- Try downwards now if lo_p1 ~= nil then result = npc.places.staircase.middle end return result else -- Check if there is a staircase downwards if lo_p1 ~= nil then return npc.places.staircase.top else return npc.places.staircase.none end end end -- This is not a stairs node return nil end