techage_modpack/networks/networks.lua

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--[[
Networks
========
Copyright (C) 2021 Joachim Stolberg
AGPL v3
See LICENSE.txt for more information
]]--
-- for lazy programmers
local S2P = minetest.string_to_pos
local P2S = function(pos) if pos then return minetest.pos_to_string(pos) end end
local M = minetest.get_meta
local N = tubelib2.get_node_lvm
local Networks = {} -- cache for networks: {netw_type = {netID = <network>, ...}, ...}
local NetIDs = {} -- cache for netw IDs: {pos_hash = {outdir = netID, ...}, ...}
local MAX_NUM_NODES = 1000 -- per network including junctions
local TTL = 5 * 60 -- 5 minutes
local Route = {} -- Used to determine the already passed nodes while walking
local NumNodes = 0 -- Used to determine the number of network nodes
local Flip = tubelib2.Turn180Deg
local get_nodename = networks.get_nodename
local get_node = networks.get_node
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local tubelib2_get_pos = tubelib2.get_pos
local tubelib2_side_to_dir = tubelib2.side_to_dir
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-------------------------------------------------------------------------------
-- Debugging
-------------------------------------------------------------------------------
-- Table for all registered tubelib2 instances
networks.registered_networks = {} -- {api_type = {instance,...}}
-- Maintain simple numbers for the bulky netID hashes
local DbgNetIDs = {}
local DbgCounter = 1
local function netw_num(netID)
if not netID or netID < 1 then
return netID or 0
end
if not DbgNetIDs[netID] then
DbgNetIDs[netID] = DbgCounter
DbgCounter = DbgCounter + 1
end
return DbgNetIDs[netID]
end
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local function network_nodes(netID, network)
local tbl = {}
for node_type,table in pairs(network or {}) do
if type(table) == "table" then
tbl[#tbl+1] = "#" .. node_type .. " = " .. #table
end
end
tbl[#tbl+1] = "num_nodes = " .. (network.num_nodes or 0)
return "Network " .. netw_num(netID) .. ": " .. table.concat(tbl, ", ")
end
-- Marker entities for debugging purposes
function networks.set_marker(pos, text, size, ttl)
local marker = minetest.add_entity(pos, "networks:marker_cube")
if marker ~= nil then
marker:set_nametag_attributes({color = "#FFFFFF", text = text})
size = size or 1
marker:set_properties({visual_size = {x = size, y = size}})
if ttl then
minetest.after(ttl, marker.remove, marker)
end
end
end
minetest.register_entity("networks:marker_cube", {
initial_properties = {
visual = "cube",
textures = {
"networks_marker.png",
"networks_marker.png",
"networks_marker.png",
"networks_marker.png",
"networks_marker.png",
"networks_marker.png",
},
physical = false,
visual_size = {x = 1.1, y = 1.1},
collisionbox = {-0.55,-0.55,-0.55, 0.55,0.55,0.55},
glow = 8,
static_save = false,
},
on_punch = function(self)
self.object:remove()
end,
})
-------------------------------------------------------------------------------
-- Helper
-------------------------------------------------------------------------------
-- return the networks table from the node definition
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local function net_def(pos, netw_type)
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local ndef = minetest.registered_nodes[get_nodename(pos)]
if ndef and ndef.networks then
return ndef.networks[netw_type]
end
error("Node " .. get_nodename(pos) .. " at ".. P2S(pos) .. " has no 'ndef.networks'")
end
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local function net_def2(pos, node_name, netw_type)
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local ndef = minetest.registered_nodes[node_name]
if ndef and ndef.networks then
return ndef.networks[netw_type]
end
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return net_def(pos, netw_type)
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end
-- Don't allow direct connections between to nodes of the same type
local function valid_secondary_node_connection(tlib2, pos, dir)
local node1 = tlib2:get_secondary_node(pos, dir)
if node1 then
local node2 = N(pos)
local ndef1 = minetest.registered_nodes[node1.name]
local ndef2 = minetest.registered_nodes[node2.name]
local ntype1 = ((ndef1.networks or {})[tlib2.tube_type] or {}).ntype
local ntype2 = ((ndef2.networks or {})[tlib2.tube_type] or {}).ntype
return ntype1 == "junc" or ntype1 ~= ntype2
end
end
-- Returns true if node is connected with another network node
local function connected(tlib2, pos, dir)
local param2, npos = tlib2:get_primary_node_param2(pos, dir)
if param2 then
local d1, d2, num = tlib2:decode_param2(npos, param2)
if not num then return end
return Flip[dir] == d1 or Flip[dir] == d2
end
-- secondary nodes allowed?
if tlib2.force_to_use_tubes then
return tlib2:is_special_node(pos, dir)
else
return valid_secondary_node_connection(tlib2, pos, dir)
end
end
local function side_to_outdir(pos, side)
return tubelib2.side_to_dir(side, N(pos).param2)
end
-- determine outdir based on node type
local function get_outdir(node_type, indir)
if node_type == "junc" then
return 0 -- same network on all sides
else
return Flip[indir]
end
end
-------------------------------------------------------------------------------
-- Node Connections
-------------------------------------------------------------------------------
-- Get tlib2 connection dirs as table
-- used e.g. for the connection walk
local function get_node_connection_dirs(pos, netw_type)
local val = M(pos):get_int(netw_type.."_conn")
local tbl = {}
if val % 0x40 >= 0x20 then tbl[#tbl+1] = 1 end
if val % 0x20 >= 0x10 then tbl[#tbl+1] = 2 end
if val % 0x10 >= 0x08 then tbl[#tbl+1] = 3 end
if val % 0x08 >= 0x04 then tbl[#tbl+1] = 4 end
if val % 0x04 >= 0x02 then tbl[#tbl+1] = 5 end
if val % 0x02 >= 0x01 then tbl[#tbl+1] = 6 end
return tbl
end
local function get_node_connection_dirs_table(pos, netw_type)
local val = M(pos):get_int(netw_type.."_conn")
local tbl = {}
if val % 0x40 >= 0x20 then tbl[1] = true end
if val % 0x20 >= 0x10 then tbl[2] = true end
if val % 0x10 >= 0x08 then tbl[3] = true end
if val % 0x08 >= 0x04 then tbl[4] = true end
if val % 0x04 >= 0x02 then tbl[5] = true end
if val % 0x02 >= 0x01 then tbl[6] = true end
return tbl
end
-- store all node sides with tube connections as nodemeta
local function store_node_connection_sides(pos, tlib2)
local node = get_node(pos)
local val = 0
for dir = 1,6 do
val = val * 2
if tlib2:is_valid_dir(node, dir) and connected(tlib2, pos, dir) then
val = val + 1
end
end
M(pos):set_int(tlib2.tube_type.."_conn", val)
end
-- If outdir is given, return outdir, otherwise return all valid node dirs with tube connections
local function get_outdirs(pos, tlib2, outdir)
if outdir then
return {outdir}
end
return get_node_connection_dirs(pos, tlib2.tube_type)
end
-------------------------------------------------------------------------------
-- Connection Walk
-------------------------------------------------------------------------------
local function pos_already_reached(pos)
local key = minetest.hash_node_position(pos)
if not Route[key] and NumNodes < MAX_NUM_NODES then
Route[key] = true
NumNodes = NumNodes + 1
return false
end
return true
end
-- check if the given tube dir into the node is valid
local function valid_indir(pos, indir, node, tlib2)
local outdir = Flip[indir]
return tlib2:is_valid_dir(node, outdir)
end
local function is_junction(pos, name, tlib2)
local ndef = net_def2(pos, name, tlib2.tube_type)
if ndef then
return ndef.ntype == "junc"
end
end
-- Do the walk through the tubelib2 network.
-- `indir` is the direction which should not be covered by the walk
-- (coming from there).
-- if outdir is given, only this dir is used
local function connection_walk(pos, outdir, indir, node, tlib2, clbk)
if clbk then clbk(pos, indir, node) end
if outdir or is_junction(pos, node.name, tlib2) then
for _,outdir in ipairs(get_outdirs(pos, tlib2, outdir)) do
local pos2, indir2 = tlib2:get_connected_node_pos(pos, outdir)
local node = get_node(pos2)
if valid_indir(pos2, indir2, node, tlib2) and not pos_already_reached(pos2) then
connection_walk(pos2, nil, indir2, node, tlib2, clbk)
end
end
end
end
local function collect_network_nodes(pos, tlib2, outdir)
local t = minetest.get_us_time()
Route = {}
NumNodes = 0
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pos_already_reached(pos)
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local netw = {}
local node = N(pos)
local netw_type = tlib2.tube_type
local tbl = get_node_connection_dirs_table(pos, netw_type)
if tbl[outdir] then -- valid conncetion
-- outdir corresponds to the indir coming from
connection_walk(pos, outdir, Flip[outdir], node, tlib2, function(pos, indir, node)
local ndef = net_def2(pos, node.name, netw_type)
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if ndef and ndef.ntype then
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local ntype = ndef.ntype
if not netw[ntype] then netw[ntype] = {} end
netw[ntype][#netw[ntype] + 1] = {pos = pos, indir = indir}
end
end)
end
netw.ttl = minetest.get_gametime() + TTL
netw.num_nodes = NumNodes
t = minetest.get_us_time() - t
--print("collect_network_nodes in " .. t .. " us", NumNodes, P2S(pos), N(pos).name)
return netw
end
-------------------------------------------------------------------------------
-- Maintain Network
-------------------------------------------------------------------------------
local function set_network(netw_type, netID, network)
assert(netID)
if netID > 0 then
Networks[netw_type] = Networks[netw_type] or {}
Networks[netw_type][netID] = network
Networks[netw_type][netID].ttl = minetest.get_gametime() + TTL
end
end
-- Return network if available, or dummy network.
-- The function updates the network TTL, thus keeping the network alive.
local function get_network(netw_type, netID)
assert(netID)
if netID > 0 then
local netw = Networks[netw_type] and Networks[netw_type][netID]
if netw then
netw.ttl = minetest.get_gametime() + TTL
return netw
end
end
return {num_nodes = 0}
end
local function delete_network(netw_type, netID)
assert(netID)
if netID > 0 then
if Networks[netw_type] and Networks[netw_type][netID] then
Networks[netw_type][netID] = nil
end
end
end
-- Keep data in memory small
local function remove_outdated_networks()
local to_be_deleted = {}
local t = minetest.get_gametime()
for net_name,tbl in pairs(Networks) do
for netID,network in pairs(tbl) do
local valid = (network.ttl or 0) - t
if valid < 0 then
to_be_deleted[#to_be_deleted+1] = {net_name, netID}
end
end
end
for _,item in ipairs(to_be_deleted) do
local net_name, netID = unpack(item)
Networks[net_name][netID] = nil
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--print("Network " .. netw_num(netID) .. " timed out")
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end
minetest.after(60, remove_outdated_networks)
end
minetest.after(60, remove_outdated_networks)
-------------------------------------------------------------------------------
-- Maintain netID
-------------------------------------------------------------------------------
local function set_netID(pos, outdir, netID)
local hash = minetest.hash_node_position(pos)
NetIDs[hash] = NetIDs[hash] or {}
NetIDs[hash][outdir] = netID
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end
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local function get_netID(pos, outdir)
local hash = minetest.hash_node_position(pos)
NetIDs[hash] = NetIDs[hash] or {}
return NetIDs[hash][outdir]
end
-- determine network ID (largest hash number of all nodes with given type)
local function determine_netID(netw)
local netID = 0
for node_type, table in pairs(netw) do
if type(table) == "table" then
for _, item in ipairs(netw[node_type] or {}) do
local outdir = Flip[item.indir]
local new = minetest.hash_node_position(item.pos) * 8 + outdir
if netID <= new then
netID = new
end
end
end
end
return netID
end
-- store network ID for each network node
local function store_netID(tlib2, netw, netID)
for node_type, table in pairs(netw) do
if type(table) == "table" then
for _, item in ipairs(table) do
local outdir = get_outdir(node_type, item.indir)
set_netID(item.pos, outdir, netID)
end
end
end
set_network(tlib2.tube_type, netID, netw)
end
-- delete network and netID for all nodes in the network
-- `outdir` shall be 0 for junctions
local function delete_netID(pos, tlib2, outdir)
local netID = get_netID(pos, outdir)
if netID then
local netw = get_network(tlib2.tube_type, netID)
for node_type, table in pairs(netw) do
if type(table) == "table" then
for _, item in ipairs(table) do
local outdir = get_outdir(node_type, item.indir)
set_netID(item.pos, outdir, nil)
end
end
end
set_netID(pos, outdir, nil)
delete_network(tlib2.tube_type, netID)
end
end
-------------------------------------------------------------------------------
-- API Functions
-------------------------------------------------------------------------------
networks.MAX_NUM_NODES = MAX_NUM_NODES
-- Table for a 180 degree turn: indir => outdir and vice versa
networks.Flip = tubelib2.Turn180Deg
-- networks.net_def(pos, netw_type)
networks.net_def = net_def
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-- sides: outdir:
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-- U
-- | B
-- | / 6 (N)
-- +--|-----+ | 1
-- / o /| | /
-- +--------+ | |/
-- L <----| |o----> R (W) 4 <-------+-------> 2 (O)
-- | o | | /|
-- | / | + / |
-- | / |/ 3 |
-- +-/------+ (S) 5
-- / |
-- F |
-- D
--
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-- Determine the pos relative to the given 'pos', 'param2'
-- and the path based on 'sides' like "FUL"
function networks.get_relpos(pos, sides, param2)
local pos1 = {x = pos.x, y = pos.y, z = pos.z}
for side in sides:gmatch(".") do
pos1 = tubelib2_get_pos(pos1, tubelib2_side_to_dir(side, param2))
end
return pos1
end
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-- networks.side_to_outdir(pos, side)
networks.side_to_outdir = side_to_outdir
-- networks.is_junction(pos, name, tlib2)
networks.is_junction = is_junction
-- Return a simple number instead of the netID
-- Useful for debuging purposes
-- networks.netw_num(netID)
networks.netw_num = netw_num
-- For debugging purposes
-- networks.network_nodes(netID, network)
networks.network_nodes = network_nodes
-- networks.get_network(netw_type, netID)
networks.get_network = get_network
-- return the networks table from the node definition
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-- networks.net_def(pos, netw_type)
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networks.net_def = net_def
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-- Function returns {outdir} or all node dirs with connections
-- networks.get_outdirs(pos, tlib2, outdir)
networks.get_outdirs = get_outdirs
-- Provide own netID
-- networks.get_netID(pos, outdir)
networks.get_netID = get_netID
-- networks.get_node_connection_dirs(pos, netw_type)
networks.get_node_connection_dirs = get_node_connection_dirs
-- To be called from each node via 'tubelib2_on_update2'
-- 'output' is optional and only needed for nodes with dedicated
-- pipe sides. Junctions have to provide 0 (= same network on all sides).
function networks.update_network(pos, outdir, tlib2, node)
store_node_connection_sides(pos, tlib2) -- update node internal data
delete_netID(pos, tlib2, outdir) -- delete node netIDs and network
end
-- Provide or determine netID
function networks.determine_netID(pos, tlib2, outdir)
assert(outdir)
local netID = get_netID(pos, outdir)
if netID and Networks[tlib2.tube_type] and Networks[tlib2.tube_type][netID] then
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return netID
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elseif netID == 0 then
return -- no network available
end
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local netw = collect_network_nodes(pos, tlib2, outdir)
if netw.num_nodes > 1 then
netID = determine_netID(netw)
store_netID(tlib2, netw, netID)
return netID
end
-- mark as "no network"
set_netID(pos, outdir, 0)
end
-- Provide network with all node tables
function networks.get_network_table(pos, tlib2, outdir)
assert(outdir)
local netID = networks.determine_netID(pos, tlib2, outdir)
if netID and netID > 0 then
return get_network(tlib2.tube_type, netID)
end
end