--trackplacer.lua --holds code for the track-placing system. the default 'track' item will be a craftitem that places rails as needed. this will neither place or change switches nor place vertical rails. --all new trackplacer code local tp={ tracks={} } function tp.register_tracktype(nnprefix, n_suffix) if tp.tracks[nnprefix] then return end--due to the separate registration of slopes and flats for the same nnpref, definition would be overridden here. just don't. tp.tracks[nnprefix]={ default=n_suffix, single_conn={}, single_conn_1={}, single_conn_2={}, double_conn={}, double_conn_1={}, double_conn_2={}, --keys:conn1_conn2 (example:1_4) --values:{name=x, param2=x} twcycle={}, twrotate={},--indexed by suffix, list, tells order of rotations modify={}, } end function tp.add_double_conn(nnprefix, suffix, rotation, conns) local nodename=nnprefix.."_"..suffix..rotation for i=0,3 do tp.tracks[nnprefix].double_conn[((conns.conn1+4*i)%16).."_"..((conns.conn2+4*i)%16)]={name=nodename, param2=i} tp.tracks[nnprefix].double_conn[((conns.conn2+4*i)%16).."_"..((conns.conn1+4*i)%16)]={name=nodename, param2=i} tp.tracks[nnprefix].double_conn_1[((conns.conn1+4*i)%16).."_"..((conns.conn2+4*i)%16)]={name=nodename, param2=i} tp.tracks[nnprefix].double_conn_2[((conns.conn2+4*i)%16).."_"..((conns.conn1+4*i)%16)]={name=nodename, param2=i} end tp.tracks[nnprefix].modify[nodename]=true end function tp.add_single_conn(nnprefix, suffix, rotation, conns) local nodename=nnprefix.."_"..suffix..rotation for i=0,3 do tp.tracks[nnprefix].single_conn[((conns.conn1+4*i)%16)]={name=nodename, param2=i} tp.tracks[nnprefix].single_conn[((conns.conn2+4*i)%16)]={name=nodename, param2=i} tp.tracks[nnprefix].single_conn_1[((conns.conn1+4*i)%16)]={name=nodename, param2=i} tp.tracks[nnprefix].single_conn_2[((conns.conn2+4*i)%16)]={name=nodename, param2=i} end tp.tracks[nnprefix].modify[nodename]=true end function tp.add_worked(nnprefix, suffix, rotation, cycle_follows) tp.tracks[nnprefix].twcycle[suffix]=cycle_follows if not tp.tracks[nnprefix].twrotate[suffix] then tp.tracks[nnprefix].twrotate[suffix]={} end table.insert(tp.tracks[nnprefix].twrotate[suffix], rotation) end --[[ rewrite algorithm. selection criteria: these will never be changed or even selected: - tracks being already connected on both sides - tracks that are already connected on one side but are not bendable to the desired position the following situations can occur: 1. there are two more than two rails around 1.1 there is one or more subset(s) that can be directly connected -> choose the first possibility 2.2 not -> choose the first one and orient straight 2. there's exactly 1 rail around -> choose and orient straight 3. there's no rail around -> set straight ]] local function istrackandbc(pos_p, conn) local tpos = pos_p local cnode=minetest.get_node(advtrains.dirCoordSet(tpos, conn.c)) if advtrains.is_track_and_drives_on(cnode.name, advtrains.all_tracktypes) then local cconns=advtrains.get_track_connections(cnode.name, cnode.param2) return advtrains.conn_matches_to(conn, cconns) end --try the same 1 node below tpos = {x=tpos.x, y=tpos.y-1, z=tpos.z} cnode=minetest.get_node(advtrains.dirCoordSet(tpos, conn.c)) if advtrains.is_track_and_drives_on(cnode.name, advtrains.all_tracktypes) then local cconns=advtrains.get_track_connections(cnode.name, cnode.param2) return advtrains.conn_matches_to(conn, cconns) end return false end function tp.find_already_connected(pos) local dnode=minetest.get_node(pos) local dconns=advtrains.get_track_connections(dnode.name, dnode.param2) local found_conn for connid, conn in ipairs(dconns) do if istrackandbc(pos, conn) then if found_conn then --we found one in previous iteration return true, true --signal that it's connected else found_conn = conn.c end end end return found_conn end function tp.rail_and_can_be_bent(originpos, conn) local pos=advtrains.dirCoordSet(originpos, conn) local newdir=(conn+8)%16 local node=minetest.get_node(pos) if not advtrains.is_track_and_drives_on(node.name, advtrains.all_tracktypes) then return false end local ndef=minetest.registered_nodes[node.name] local nnpref = ndef and ndef.at_nnpref if not nnpref then return false end local tr=tp.tracks[nnpref] if not tr then return false end if not tr.modify[node.name] then --we actually can use this rail, but only if it already points to the desired direction. if advtrains.is_track_and_drives_on(node.name, advtrains.all_tracktypes) then local cconns=advtrains.get_track_connections(node.name, node.param2) return advtrains.conn_matches_to(conn, cconns) end end -- If the rail is not allowed to be modified, also only use if already in desired direction if not advtrains.can_dig_or_modify_track(pos) then local cconns=advtrains.get_track_connections(node.name, node.param2) return advtrains.conn_matches_to(conn, cconns) end --rail at other end? local adj1, adj2=tp.find_already_connected(pos) if adj1 and adj2 then return false--dont destroy existing track elseif adj1 and not adj2 then if tr.double_conn[adj1.."_"..newdir] then return true--if exists, connect new rail and old end end return false else if tr.single_conn[newdir] then--just rotate old rail to right orientation return true end return false end end function tp.bend_rail(originpos, conn) local pos=advtrains.dirCoordSet(originpos, conn) local newdir=advtrains.oppd(conn) local node=minetest.get_node(pos) local ndef=minetest.registered_nodes[node.name] local nnpref = ndef and ndef.at_nnpref if not nnpref then return false end local tr=tp.tracks[nnpref] if not tr then return false end --is rail already connected? no need to bend. local conns=advtrains.get_track_connections(node.name, node.param2) if advtrains.conn_matches_to(conn, conns) then return end --rail at other end? local adj1, adj2=tp.find_already_connected(pos) if adj1 and adj2 then return false--dont destroy existing track elseif adj1 and not adj2 then if tr.double_conn[adj1.."_"..newdir] then advtrains.ndb.swap_node(pos, tr.double_conn[adj1.."_"..newdir]) return true--if exists, connect new rail and old end end return false else if tr.single_conn[newdir] then--just rotate old rail to right orientation advtrains.ndb.swap_node(pos, tr.single_conn[newdir]) return true end return false end end function tp.placetrack(pos, nnpref, placer, itemstack, pointed_thing, yaw) --1. find all rails that are likely to be connected local tr=tp.tracks[nnpref] local p_rails={} local p_railpos={} for i=0,15 do if tp.rail_and_can_be_bent(pos, i, nnpref) then p_rails[#p_rails+1]=i p_railpos[i] = pos else local upos = {x=pos.x, y=pos.y-1, z=pos.z} if tp.rail_and_can_be_bent(upos, i, nnpref) then p_rails[#p_rails+1]=i p_railpos[i] = upos end end end -- try double_conn if #p_rails > 1 then --iterate subsets for k1, conn1 in ipairs(p_rails) do for k2, conn2 in ipairs(p_rails) do if k1~=k2 then local dconn1 = tr.double_conn_1 local dconn2 = tr.double_conn_2 if not (advtrains.yawToDirection(yaw, conn1, conn2) == conn1) then dconn1 = tr.double_conn_2 dconn2 = tr.double_conn_1 end -- Checks are made this way round so that dconn1 has priority (this will make arrows of atc rails -- point in the right direction) local using if (dconn2[conn1.."_"..conn2]) then using = dconn2[conn1.."_"..conn2] end if (dconn1[conn1.."_"..conn2]) then using = dconn1[conn1.."_"..conn2] end if using then -- has found a fitting rail in either direction -- if not, continue loop tp.bend_rail(p_railpos[conn1], conn1, nnpref) tp.bend_rail(p_railpos[conn2], conn2, nnpref) advtrains.ndb.swap_node(pos, using) local nname=using.name if minetest.registered_nodes[nname] and minetest.registered_nodes[nname].after_place_node then minetest.registered_nodes[nname].after_place_node(pos, placer, itemstack, pointed_thing) end return end end end end end -- try single_conn if #p_rails > 0 then for ix, p_rail in ipairs(p_rails) do local sconn1 = tr.single_conn_1 local sconn2 = tr.single_conn_2 if not (advtrains.yawToDirection(yaw, p_rail, (p_rail+8)%16) == p_rail) then sconn1 = tr.single_conn_2 sconn2 = tr.single_conn_1 end if sconn1[p_rail] then local using = sconn1[p_rail] tp.bend_rail(p_railpos[p_rail], p_rail, nnpref) advtrains.ndb.swap_node(pos, using) local nname=using.name if minetest.registered_nodes[nname] and minetest.registered_nodes[nname].after_place_node then minetest.registered_nodes[nname].after_place_node(pos, placer, itemstack, pointed_thing) end return end if sconn2[p_rail] then local using = sconn2[p_rail] tp.bend_rail(p_railpos[p_rail], p_rail, nnpref) advtrains.ndb.swap_node(pos, using) local nname=using.name if minetest.registered_nodes[nname] and minetest.registered_nodes[nname].after_place_node then minetest.registered_nodes[nname].after_place_node(pos, placer, itemstack, pointed_thing) end return end end end --use default minetest.set_node(pos, {name=nnpref.."_"..tr.default}) if minetest.registered_nodes[nnpref.."_"..tr.default] and minetest.registered_nodes[nnpref.."_"..tr.default].after_place_node then minetest.registered_nodes[nnpref.."_"..tr.default].after_place_node(pos, placer, itemstack, pointed_thing) end end function tp.register_track_placer(nnprefix, imgprefix, dispname, def) minetest.register_craftitem(":"..nnprefix.."_placer",{ description = dispname, inventory_image = imgprefix.."_placer.png", wield_image = imgprefix.."_placer.png", groups={advtrains_trackplacer=1, digtron_on_place=1}, liquids_pointable = def.liquids_pointable, on_place = function(itemstack, placer, pointed_thing) local name = placer:get_player_name() if not name then return itemstack, false end if pointed_thing.type=="node" then local pos=pointed_thing.above local upos=vector.subtract(pointed_thing.above, {x=0, y=1, z=0}) if not advtrains.check_track_protection(pos, name) then return itemstack, false end if minetest.registered_nodes[minetest.get_node(pos).name] and minetest.registered_nodes[minetest.get_node(pos).name].buildable_to then local s if def.suitable_substrate then s = def.suitable_substrate(upos) else s = minetest.registered_nodes[minetest.get_node(upos).name] and minetest.registered_nodes[minetest.get_node(upos).name].walkable end if s then -- minetest.chat_send_all(nnprefix) local yaw = placer:get_look_horizontal() tp.placetrack(pos, nnprefix, placer, itemstack, pointed_thing, yaw) if not advtrains.is_creative(name) then itemstack:take_item() end end end end return itemstack, true end, }) end minetest.register_craftitem("advtrains:trackworker",{ description = attrans("Track Worker Tool\n\nLeft-click: change rail type (straight/curve/switch)\nRight-click: rotate rail/bumper/signal/etc."), groups = {cracky=1}, -- key=name, value=rating; rating=1..3. inventory_image = "advtrains_trackworker.png", wield_image = "advtrains_trackworker.png", stack_max = 1, on_place = function(itemstack, placer, pointed_thing) local name = placer:get_player_name() if not name then return end local has_aux1_down = placer:get_player_control().aux1 if pointed_thing.type=="node" then local pos=pointed_thing.under if not advtrains.check_track_protection(pos, name) then return end local node=minetest.get_node(pos) --if not advtrains.is_track_and_drives_on(minetest.get_node(pos).name, advtrains.all_tracktypes) then return end local nnprefix, suffix, rotation=string.match(node.name, "^(.+)_([^_]+)(_[^_]+)$") --atdebug(node.name.."\npattern recognizes:"..nnprefix.." / "..suffix.." / "..rotation) --atdebug("nntab: ",tp.tracks[nnprefix]) if not tp.tracks[nnprefix] or not tp.tracks[nnprefix].twrotate[suffix] then nnprefix, suffix=string.match(node.name, "^(.+)_([^_]+)$") rotation = "" if not tp.tracks[nnprefix] or not tp.tracks[nnprefix].twrotate[suffix] then minetest.chat_send_player(placer:get_player_name(), attrans("This node can't be rotated using the trackworker!")) return end end -- check if the node is modify-protected if advtrains.is_track_and_drives_on(minetest.get_node(pos).name, advtrains.all_tracktypes) then -- is a track, we can query local can_modify, reason = advtrains.can_dig_or_modify_track(pos) if not can_modify then local str = attrans("This track can not be rotated!") if reason then str = str .. " " .. reason end minetest.chat_send_player(placer:get_player_name(), str) return end end if has_aux1_down then --feature: flip the node by 180° --i've always wanted this! advtrains.ndb.swap_node(pos, {name=node.name, param2=(node.param2+2)%4}) return end local modext=tp.tracks[nnprefix].twrotate[suffix] if rotation==modext[#modext] then --increase param2 advtrains.ndb.swap_node(pos, {name=nnprefix.."_"..suffix..modext[1], param2=(node.param2+1)%4}) return else local modpos for k,v in pairs(modext) do if v==rotation then modpos=k end end if not modpos then minetest.chat_send_player(placer:get_player_name(), attrans("This node can't be rotated using the trackworker!")) return end advtrains.ndb.swap_node(pos, {name=nnprefix.."_"..suffix..modext[modpos+1], param2=node.param2}) end end end, on_use=function(itemstack, user, pointed_thing) local name = user:get_player_name() if not name then return end if pointed_thing.type=="node" then local pos=pointed_thing.under local node=minetest.get_node(pos) if not advtrains.check_track_protection(pos, name) then return end --if not advtrains.is_track_and_drives_on(minetest.get_node(pos).name, advtrains.all_tracktypes) then return end if advtrains.get_train_at_pos(pos) then return end local nnprefix, suffix, rotation=string.match(node.name, "^(.+)_([^_]+)(_[^_]+)$") --atdebug(node.name.."\npattern recognizes:"..nodeprefix.." / "..railtype.." / "..rotation) if not tp.tracks[nnprefix] or not tp.tracks[nnprefix].twcycle[suffix] then nnprefix, suffix=string.match(node.name, "^(.+)_([^_]+)$") rotation = "" if not tp.tracks[nnprefix] or not tp.tracks[nnprefix].twcycle[suffix] then minetest.chat_send_player(user:get_player_name(), attrans("This node can't be changed using the trackworker!")) return end end -- check if the node is modify-protected if advtrains.is_track_and_drives_on(minetest.get_node(pos).name, advtrains.all_tracktypes) then -- is a track, we can query local can_modify, reason = advtrains.can_dig_or_modify_track(pos) if not can_modify then local str = attrans("This track can not be changed!") if reason then str = str .. " " .. reason end minetest.chat_send_player(user:get_player_name(), str) return end end local nextsuffix=tp.tracks[nnprefix].twcycle[suffix] advtrains.ndb.swap_node(pos, {name=nnprefix.."_"..nextsuffix..rotation, param2=node.param2}) else atprint(name, dump(tp.tracks)) end end, }) --putting into right place advtrains.trackplacer=tp