Rewrite rail connection system...

...to support an arbitrary number of connections for rails, which leads to these new features:
- switches now get recognized by the trackworker correctly
- ability to add real rail crosses
During this, I also rewrote the rail registering system and the conway function (important part of path prediction)
Note, developers: the track preset format changed, you might need to rewrite them according to the presets in tracks.lua if you wrote your own
(possibly breaks advcarts)
This commit is contained in:
orwell96 2017-12-18 21:44:36 +01:00
parent faa60e2bd4
commit 46c4447da0
12 changed files with 484 additions and 482 deletions

View File

@ -124,8 +124,8 @@ advtrains.atc_function = function(def, preset, suffix, rotation)
meta:set_string("formspec", atc.get_atc_controller_formspec(pos, meta)) meta:set_string("formspec", atc.get_atc_controller_formspec(pos, meta))
local pts=minetest.pos_to_string(pos) local pts=minetest.pos_to_string(pos)
local _, conn1=advtrains.get_rail_info_at(pos, advtrains.all_tracktypes) local _, conns=advtrains.get_rail_info_at(pos, advtrains.all_tracktypes)
atc.controllers[pts]={command=fields.command, arrowconn=conn1} atc.controllers[pts]={command=fields.command, arrowconn=conns[1].c}
if advtrains.detector.on_node[pts] then if advtrains.detector.on_node[pts] then
atc.send_command(pos) atc.send_command(pos)
end end
@ -145,8 +145,8 @@ function atc.get_atc_controller_formspec(pos, meta)
local command=meta:get_string("command") local command=meta:get_string("command")
local command_on=meta:get_string("command_on") local command_on=meta:get_string("command_on")
local channel=meta:get_string("channel") local channel=meta:get_string("channel")
local formspec="size[8,6]".. local formspec="size[8,6]"
"dropdown[0,0;3;mode;static,mesecon,digiline;"..mode.."]" -- "dropdown[0,0;3;mode;static,mesecon,digiline;"..mode.."]"
if mode<3 then if mode<3 then
formspec=formspec.."field[0.5,1.5;7,1;command;"..attrans("Command")..";"..minetest.formspec_escape(command).."]" formspec=formspec.."field[0.5,1.5;7,1;command;"..attrans("Command")..";"..minetest.formspec_escape(command).."]"
if tonumber(mode)==2 then if tonumber(mode)==2 then

View File

@ -52,97 +52,6 @@ function atround(number)
return math.floor(number+0.5) return math.floor(number+0.5)
end end
--vertical_transmit:
--[[
rely1, rely2 tell to which height the connections are pointed to. 1 means it will go up the next node
]]
function advtrains.conway(midreal, prev, drives_on)--in order prev,mid,return
local mid=advtrains.round_vector_floor_y(midreal)
local midnode_ok, middir1, middir2, midrely1, midrely2=advtrains.get_rail_info_at(mid, drives_on)
if not midnode_ok then
return nil
end
local next, chkdir, chkrely, y_offset
y_offset=0
--atprint(" in order mid1,mid2",middir1,middir2)
--try if it is dir1
local cor1=advtrains.dirCoordSet(mid, middir2)--<<<<
if cor1.x==prev.x and cor1.z==prev.z then--this was previous
next=advtrains.dirCoordSet(mid, middir1)
if midrely1>=1 then
next.y=next.y+1
--atprint("found midrely1 to be >=1: next is now "..(next and minetest.pos_to_string(next) or "nil"))
y_offset=1
end
chkdir=middir1
chkrely=midrely1
--atprint("dir2 applied next pos:",minetest.pos_to_string(next),"(chkdir is ",chkdir,")")
end
--dir2???
local cor2=advtrains.dirCoordSet(mid, middir1)--<<<<
if atround(cor2.x)==atround(prev.x) and atround(cor2.z)==atround(prev.z) then
next=advtrains.dirCoordSet(mid, middir2)--dir2 wird überprüft, alles gut.
if midrely2>=1 then
next.y=next.y+1
--atprint("found midrely2 to be >=1: next is now "..(next and minetest.pos_to_string(next) or "nil"))
y_offset=1
end
chkdir=middir2
chkrely=midrely2
--atprint(" dir2 applied next pos:",minetest.pos_to_string(next),"(chkdir is ",chkdir,")")
end
--atprint("dir applied next pos: "..(next and minetest.pos_to_string(next) or "nil").."(chkdir is "..(chkdir or "nil")..", y-offset "..y_offset..")")
--is there a next
if not next then
--atprint("in conway: no next rail(nil), returning!")
return nil
end
local nextnode_ok, nextdir1, nextdir2, nextrely1, nextrely2, nextrailheight=advtrains.get_rail_info_at(advtrains.round_vector_floor_y(next), drives_on)
--is it a rail?
if(not nextnode_ok) then
--atprint("in conway: next "..minetest.pos_to_string(next).." not a rail, trying one node below!")
next.y=next.y-1
y_offset=y_offset-1
nextnode_ok, nextdir1, nextdir2, nextrely1, nextrely2, nextrailheight=advtrains.get_rail_info_at(advtrains.round_vector_floor_y(next), drives_on)
if(not nextnode_ok) then
--atprint("in conway: one below "..minetest.pos_to_string(next).." is not a rail either, returning!")
return nil
end
end
--is this next rail connecting to the mid?
if not ( (((nextdir1+8)%16)==chkdir and nextrely1==chkrely-y_offset) or (((nextdir2+8)%16)==chkdir and nextrely2==chkrely-y_offset) ) then
--atprint("in conway: next "..minetest.pos_to_string(next).." not connecting, trying one node below!")
next.y=next.y-1
y_offset=y_offset-1
nextnode_ok, nextdir1, nextdir2, nextrely1, nextrely2, nextrailheight=advtrains.get_rail_info_at(advtrains.round_vector_floor_y(next), drives_on)
if(not nextnode_ok) then
--atprint("in conway: (at connecting if check again) one below "..minetest.pos_to_string(next).." is not a rail either, returning!")
return nil
end
if not ( (((nextdir1+8)%16)==chkdir and nextrely1==chkrely) or (((nextdir2+8)%16)==chkdir and nextrely2==chkrely) ) then
--atprint("in conway: one below "..minetest.pos_to_string(next).." rail not connecting, returning!")
--atprint(" in order mid1,2,next1,2,chkdir "..middir1.." "..middir2.." "..nextdir1.." "..nextdir2.." "..chkdir)
return nil
end
end
--atprint("conway found rail.")
return vector.add(advtrains.round_vector_floor_y(next), {x=0, y=nextrailheight, z=0}), chkdir
end
--TODO use this
function advtrains.oppd(dir)
return ((dir+8)%16)
end
function advtrains.round_vector_floor_y(vec) function advtrains.round_vector_floor_y(vec)
return {x=math.floor(vec.x+0.5), y=math.floor(vec.y), z=math.floor(vec.z+0.5)} return {x=math.floor(vec.x+0.5), y=math.floor(vec.y), z=math.floor(vec.z+0.5)}
end end
@ -176,6 +85,20 @@ function advtrains.yawToAnyDir(yaw)
end end
return min_conn return min_conn
end end
function advtrains.yawToClosestConn(yaw, conns)
local min_connid, min_diff=1, 10
for connid, conn in ipairs(conns) do
local uvec = vector.normalize(advtrains.dirToCoord(conn.c))
local yaw1 = math.atan2(uvec.z, uvec.x)
local diff = advtrains.minAngleDiffRad(yaw, yaw1)
if diff < min_diff then
min_connid = connid
min_diff = diff
end
end
return min_connid
end
function advtrains.minAngleDiffRad(r1, r2) function advtrains.minAngleDiffRad(r1, r2)
local pi, pi2 = math.pi, 2*math.pi local pi, pi2 = math.pi, 2*math.pi
@ -300,3 +223,95 @@ end
function advtrains.ms_to_kmh(speed) function advtrains.ms_to_kmh(speed)
return speed * 3.6 return speed * 3.6
end end
-- 4 possible inputs:
-- integer: just do that modulo calculation
-- table with c set: rotate c
-- table with tables: rotate each
-- table with integers: rotate each (probably no use case)
function advtrains.rotate_conn_by(conn, rotate)
if tonumber(conn) then
return (conn+rotate)%AT_CMAX
elseif conn.c then
return { c = (conn.c+rotate)%AT_CMAX, y = conn.y}
end
local tmp={}
for connid, data in ipairs(conn) do
tmp[connid]=advtrains.rotate_conn_by(data, rotate)
end
return tmp
end
--TODO use this
function advtrains.oppd(dir)
return advtrains.rotate_conn_by(dir, AT_CMAX/2)
end
--conn_to_match like rotate_conn_by
--other_conns have to be a table of conn tables!
function advtrains.conn_matches_to(conn, other_conns)
if tonumber(conn) then
for connid, data in ipairs(other_conns) do
if advtrains.oppd(conn) == data.c then return connid end
end
return false
elseif conn.c then
for connid, data in ipairs(other_conns) do
local cmp = advtrains.oppd(conn)
if cmp.c == data.c and (cmp.y or 0) == (data.y or 0) then return connid end
end
return false
end
local tmp={}
for connid, data in ipairs(conn) do
local backmatch = advtrains.conn_matches_to(data, other_conns)
if backmatch then return backmatch, connid end --returns <connid of other rail> <connid of this rail>
end
return false
end
-- returns: <adjacent pos>, <conn index of adjacent>, <my conn index>, <railheight of adjacent>
function advtrains.get_adjacent_rail(this_posnr, this_conns_p, conn_idx, drives_on)
local this_pos = advtrains.round_vector_floor_y(this_posnr)
local this_conns = this_conns_p
if not this_conns then
_, this_conns = advtrains.get_rail_info_at(this_pos)
end
if not conn_idx then
for coni, _ in ipairs(this_conns) do
local adj_pos, adj_conn_idx, _, nry = advtrains.get_adjacent_rail(this_pos, this_conns, coni)
if adj_pos then return adj_pos,adj_conn_idx,coni,nry end
end
return nil
end
local conn = this_conns[conn_idx]
local conn_y = conn.y or 0
local adj_pos = advtrains.dirCoordSet(this_pos, conn.c);
while conn_y>=1 do
conn_y = conn_y - 1
adj_pos.y = adj_pos.y + 1
end
local nextnode_ok, nextconns, nextrail_y=advtrains.get_rail_info_at(adj_pos, drives_on)
if not nextnode_ok then
adj_pos.y = adj_pos.y - 1
conn_y = conn_y + 1
nextnode_ok, nextconns, nextrail_y=advtrains.get_rail_info_at(adj_pos, drives_on)
if not nextnode_ok then
return nil
end
end
local adj_connid = advtrains.conn_matches_to({c=conn.c, y=conn_y}, nextconns)
if adj_connid then
return adj_pos, adj_connid, conn_idx, nextrail_y
end
return nil
end
local connlku={[2]={2,1}, [3]={2,1,1}, [4]={2,1,4,3}}
function advtrains.get_matching_conn(conn, nconns)
return connlku[nconns][conn]
end

View File

@ -7,6 +7,9 @@ end
--advtrains --advtrains
--Constant for maximum connection value/division of the circle
AT_CMAX = 16
advtrains = {trains={}, wagon_save={}, player_to_train_mapping={}} advtrains = {trains={}, wagon_save={}, player_to_train_mapping={}}
--pcall --pcall
@ -99,6 +102,13 @@ atwarn=function(t, ...)
end end
sid=function(id) if id then return string.sub(id, -6) end end sid=function(id) if id then return string.sub(id, -6) end end
--TEMP
atdebug=function(t, ...)
local text=advtrains.print_concat_table({t, ...})
minetest.log("action", "[advtrains]"..text)
minetest.chat_send_all("[advtrains]"..text)
end
if minetest.settings:get_bool("advtrains_enable_debugging") then if minetest.settings:get_bool("advtrains_enable_debugging") then
atprint=function(t, ...) atprint=function(t, ...)
local context=advtrains.atprint_context_tid or "" local context=advtrains.atprint_context_tid or ""
@ -135,7 +145,7 @@ advtrains.meseconrules =
{x=0, y=-2, z=0}} {x=0, y=-2, z=0}}
dofile(advtrains.modpath.."/path.lua")
dofile(advtrains.modpath.."/trainlogic.lua") dofile(advtrains.modpath.."/trainlogic.lua")
dofile(advtrains.modpath.."/trainhud.lua") dofile(advtrains.modpath.."/trainhud.lua")
dofile(advtrains.modpath.."/trackplacer.lua") dofile(advtrains.modpath.."/trackplacer.lua")

View File

@ -132,9 +132,12 @@ function ndb.get_node_raw(pos)
end end
function ndb.swap_node(pos, node) function ndb.swap_node(pos, node, no_inval)
minetest.swap_node(pos, node) minetest.swap_node(pos, node)
ndb.update(pos, node) ndb.update(pos, node)
if not no_inval then
advtrains.invalidate_all_paths(pos)
end
end end
function ndb.update(pos, pnode) function ndb.update(pos, pnode)
@ -175,30 +178,15 @@ function advtrains.get_rail_info_at(pos, drives_on)
local rdp=advtrains.round_vector_floor_y(pos) local rdp=advtrains.round_vector_floor_y(pos)
local node=ndb.get_node_or_nil(rdp) local node=ndb.get_node_or_nil(rdp)
if not node then return end
--still no node?
--advtrains.trackdb is nil when there's no data available.
if not node then
if advtrains.trackdb then
--try raildb (see trackdb_legacy.lua)
local dbe=(advtrains.trackdb[rdp.y] and advtrains.trackdb[rdp.y][rdp.x] and advtrains.trackdb[rdp.y][rdp.x][rdp.z])
if dbe then
for tt,_ in pairs(drives_on) do
if not dbe.tracktype or tt==dbe.tracktype then
return true, dbe.conn1, dbe.conn2, dbe.rely1 or 0, dbe.rely2 or 0, dbe.railheight or 0
end
end
end
end
return nil
end
local nodename=node.name local nodename=node.name
if(not advtrains.is_track_and_drives_on(nodename, drives_on)) then if(not advtrains.is_track_and_drives_on(nodename, drives_on)) then
return false return false
end end
local conn1, conn2, rely1, rely2, railheight, tracktype=advtrains.get_track_connections(node.name, node.param2) local conns, railheight, tracktype=advtrains.get_track_connections(node.name, node.param2)
return true, conn1, conn2, rely1, rely2, railheight return true, conns, railheight
end end
ndb.run_lbm = function(pos, node) ndb.run_lbm = function(pos, node)

82
advtrains/path.lua Normal file
View File

@ -0,0 +1,82 @@
-- path.lua
-- Functions for pathpredicting, put in a separate file.
function advtrains.conway(midreal, prev, drives_on)--in order prev,mid,return
local mid=advtrains.round_vector_floor_y(midreal)
local midnode_ok, midconns=advtrains.get_rail_info_at(mid, drives_on)
if not midnode_ok then
return nil
end
local pconnid
for connid, conn in ipairs(midconns) do
local tps = advtrains.dirCoordSet(mid, conn.c)
if tps.x==prev.x and tps.z==prev.z then
pconnid=connid
end
end
local nconnid = advtrains.get_matching_conn(pconnid, #midconns)
local next, next_connid, _, nextrailheight = advtrains.get_adjacent_rail(mid, midconns, nconnid, drives_on)
if not next then
return nil
end
return vector.add(advtrains.round_vector_floor_y(next), {x=0, y=nextrailheight, z=0}), midconns[nconnid].c
end
--about regular: Used by 1. to ensure path gets generated far enough, since end index is not known at this time.
function advtrains.pathpredict(id, train, regular)
--TODO duplicate code under 5b.
local path_pregen=10
local gen_front= path_pregen
local gen_back= - train.trainlen - path_pregen
if regular then
gen_front=math.max(train.index, train.detector_old_index) + path_pregen
gen_back=math.min(train.end_index, train.detector_old_end_index) - path_pregen
end
local maxn=train.path_extent_max or 0
while maxn < gen_front do--pregenerate
local conway
if train.max_index_on_track == maxn then
--atprint("maxn conway for ",maxn,train.path[maxn],maxn-1,train.path[maxn-1])
conway=advtrains.conway(train.path[maxn], train.path[maxn-1], train.drives_on)
end
if conway then
train.path[maxn+1]=conway
train.max_index_on_track=maxn+1
else
--do as if nothing has happened and preceed with path
--but do not update max_index_on_track
atprint("over-generating path max to index ",(maxn+1)," (position ",train.path[maxn]," )")
train.path[maxn+1]=vector.add(train.path[maxn], vector.subtract(train.path[maxn], train.path[maxn-1]))
end
train.path_dist[maxn]=vector.distance(train.path[maxn+1], train.path[maxn])
maxn=maxn+1
end
train.path_extent_max=maxn
local minn=train.path_extent_min or -1
while minn > gen_back do
local conway
if train.min_index_on_track == minn then
--atprint("minn conway for ",minn,train.path[minn],minn+1,train.path[minn+1])
conway=advtrains.conway(train.path[minn], train.path[minn+1], train.drives_on)
end
if conway then
train.path[minn-1]=conway
train.min_index_on_track=minn-1
else
--do as if nothing has happened and preceed with path
--but do not update min_index_on_track
atprint("over-generating path min to index ",(minn-1)," (position ",train.path[minn]," )")
train.path[minn-1]=vector.add(train.path[minn], vector.subtract(train.path[minn], train.path[minn+1]))
end
train.path_dist[minn-1]=vector.distance(train.path[minn], train.path[minn-1])
minn=minn-1
end
train.path_extent_min=minn
if not train.min_index_on_track then train.min_index_on_track=-1 end
if not train.max_index_on_track then train.max_index_on_track=0 end
end

View File

@ -37,12 +37,12 @@ for r,f in pairs({on={as="off", ls="green", als="red"}, off={as="on", ls="red",
mesecons = {effector = { mesecons = {effector = {
rules=advtrains.meseconrules, rules=advtrains.meseconrules,
["action_"..f.as] = function (pos, node) ["action_"..f.as] = function (pos, node)
advtrains.ndb.swap_node(pos, {name = "advtrains:retrosignal_"..f.as..rotation, param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:retrosignal_"..f.as..rotation, param2 = node.param2}, true)
end end
}}, }},
on_rightclick=function(pos, node, player) on_rightclick=function(pos, node, player)
if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then
advtrains.ndb.swap_node(pos, {name = "advtrains:retrosignal_"..f.as..rotation, param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:retrosignal_"..f.as..rotation, param2 = node.param2}, true)
end end
end, end,
}) })
@ -72,20 +72,20 @@ for r,f in pairs({on={as="off", ls="green", als="red"}, off={as="on", ls="red",
mesecons = {effector = { mesecons = {effector = {
rules=advtrains.meseconrules, rules=advtrains.meseconrules,
["action_"..f.as] = function (pos, node) ["action_"..f.as] = function (pos, node)
advtrains.ndb.swap_node(pos, {name = "advtrains:signal_"..f.as..rotation, param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:signal_"..f.as..rotation, param2 = node.param2}, true)
end end
}}, }},
luaautomation = { luaautomation = {
getstate = f.ls, getstate = f.ls,
setstate = function(pos, node, newstate) setstate = function(pos, node, newstate)
if newstate == f.als then if newstate == f.als then
advtrains.ndb.swap_node(pos, {name = "advtrains:signal_"..f.as..rotation, param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:signal_"..f.as..rotation, param2 = node.param2}, true)
end end
end, end,
}, },
on_rightclick=function(pos, node, player) on_rightclick=function(pos, node, player)
if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then
advtrains.ndb.swap_node(pos, {name = "advtrains:signal_"..f.as..rotation, param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:signal_"..f.as..rotation, param2 = node.param2}, true)
end end
end, end,
}) })
@ -121,20 +121,20 @@ for r,f in pairs({on={as="off", ls="green", als="red"}, off={as="on", ls="red",
mesecons = {effector = { mesecons = {effector = {
rules = mrules_wallsignal, rules = mrules_wallsignal,
["action_"..f.as] = function (pos, node) ["action_"..f.as] = function (pos, node)
advtrains.ndb.swap_node(pos, {name = "advtrains:signal_wall_"..loc.."_"..f.as, param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:signal_wall_"..loc.."_"..f.as, param2 = node.param2}, true)
end end
}}, }},
luaautomation = { luaautomation = {
getstate = f.ls, getstate = f.ls,
setstate = function(pos, node, newstate) setstate = function(pos, node, newstate)
if newstate == f.als then if newstate == f.als then
advtrains.ndb.swap_node(pos, {name = "advtrains:signal_wall_"..loc.."_"..f.as, param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:signal_wall_"..loc.."_"..f.as, param2 = node.param2}, true)
end end
end, end,
}, },
on_rightclick=function(pos, node, player) on_rightclick=function(pos, node, player)
if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then
advtrains.ndb.swap_node(pos, {name = "advtrains:signal_wall_"..loc.."_"..f.as, param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:signal_wall_"..loc.."_"..f.as, param2 = node.param2}, true)
end end
end, end,
}) })
@ -167,20 +167,20 @@ minetest.register_node("advtrains:across_off", {
mesecons = {effector = { mesecons = {effector = {
rules = advtrains.meseconrules, rules = advtrains.meseconrules,
action_on = function (pos, node) action_on = function (pos, node)
advtrains.ndb.swap_node(pos, {name = "advtrains:across_on", param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:across_on", param2 = node.param2}, true)
end end
}}, }},
luaautomation = { luaautomation = {
getstate = "off", getstate = "off",
setstate = function(pos, node, newstate) setstate = function(pos, node, newstate)
if newstate == "on" then if newstate == "on" then
advtrains.ndb.swap_node(pos, {name = "advtrains:across_on", param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:across_on", param2 = node.param2}, true)
end end
end, end,
}, },
on_rightclick=function(pos, node, player) on_rightclick=function(pos, node, player)
if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then
advtrains.ndb.swap_node(pos, {name = "advtrains:across_on", param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:across_on", param2 = node.param2}, true)
end end
end, end,
}) })
@ -208,20 +208,20 @@ minetest.register_node("advtrains:across_on", {
mesecons = {effector = { mesecons = {effector = {
rules = advtrains.meseconrules, rules = advtrains.meseconrules,
action_off = function (pos, node) action_off = function (pos, node)
advtrains.ndb.swap_node(pos, {name = "advtrains:across_off", param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:across_off", param2 = node.param2}, true)
end end
}}, }},
luaautomation = { luaautomation = {
getstate = "on", getstate = "on",
setstate = function(pos, node, newstate) setstate = function(pos, node, newstate)
if newstate == "off" then if newstate == "off" then
advtrains.ndb.swap_node(pos, {name = "advtrains:across_off", param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:across_off", param2 = node.param2}, true)
end end
end, end,
}, },
on_rightclick=function(pos, node, player) on_rightclick=function(pos, node, player)
if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then
advtrains.ndb.swap_node(pos, {name = "advtrains:across_off", param2 = node.param2}) advtrains.ndb.swap_node(pos, {name = "advtrains:across_off", param2 = node.param2}, true)
end end
end, end,
}) })

View File

@ -71,31 +71,35 @@ end
local function istrackandbc(pos_p, conn) local function istrackandbc(pos_p, conn)
local tpos = pos_p local tpos = pos_p
local cnode=minetest.get_node(advtrains.dirCoordSet(tpos, conn)) local cnode=minetest.get_node(advtrains.dirCoordSet(tpos, conn.c))
local bconn=(conn+8)%16
if advtrains.is_track_and_drives_on(cnode.name, advtrains.all_tracktypes) then if advtrains.is_track_and_drives_on(cnode.name, advtrains.all_tracktypes) then
local cconn1, cconn2=advtrains.get_track_connections(cnode.name, cnode.param2) local cconns=advtrains.get_track_connections(cnode.name, cnode.param2)
return cconn1==bconn or cconn2==bconn return advtrains.conn_matches_to(conn, cconns)
end end
--try the same 1 node below --try the same 1 node below
tpos = {x=tpos.x, y=tpos.y-1, z=tpos.z} tpos = {x=tpos.x, y=tpos.y-1, z=tpos.z}
cnode=minetest.get_node(advtrains.dirCoordSet(tpos, conn)) cnode=minetest.get_node(advtrains.dirCoordSet(tpos, conn.c))
bconn=(conn+8)%16
if advtrains.is_track_and_drives_on(cnode.name, advtrains.all_tracktypes) then if advtrains.is_track_and_drives_on(cnode.name, advtrains.all_tracktypes) then
local cconn1, cconn2=advtrains.get_track_connections(cnode.name, cnode.param2) local cconns=advtrains.get_track_connections(cnode.name, cnode.param2)
return cconn1==bconn or cconn2==bconn return advtrains.conn_matches_to(conn, cconns)
end end
return false return false
end end
function tp.find_already_connected(pos) function tp.find_already_connected(pos)
local dnode=minetest.get_node(pos) local dnode=minetest.get_node(pos)
local dconn1, dconn2=advtrains.get_track_connections(dnode.name, dnode.param2) local dconns=advtrains.get_track_connections(dnode.name, dnode.param2)
if istrackandbc(pos, dconn1) and istrackandbc(pos, dconn2) then return dconn1, dconn2 local found_conn
elseif istrackandbc(pos, dconn1) then return dconn1 for connid, conn in ipairs(dconns) do
elseif istrackandbc(pos, dconn2) then return dconn2 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
return nil end
end
return found_conn
end end
function tp.rail_and_can_be_bent(originpos, conn) function tp.rail_and_can_be_bent(originpos, conn)
local pos=advtrains.dirCoordSet(originpos, conn) local pos=advtrains.dirCoordSet(originpos, conn)
@ -105,16 +109,15 @@ function tp.rail_and_can_be_bent(originpos, conn)
return false return false
end end
local ndef=minetest.registered_nodes[node.name] local ndef=minetest.registered_nodes[node.name]
local nnpref = ndef and ndef.nnpref local nnpref = ndef and ndef.at_nnpref
if not nnpref then return false end if not nnpref then return false end
local tr=tp.tracks[nnpref] local tr=tp.tracks[nnpref]
if not tr then return false end if not tr then return false end
if not tr.modify[node.name] then if not tr.modify[node.name] then
--we actually can use this rail, but only if it already points to the desired direction. --we actually can use this rail, but only if it already points to the desired direction.
local bconn=(conn+8)%16
if advtrains.is_track_and_drives_on(node.name, advtrains.all_tracktypes) then if advtrains.is_track_and_drives_on(node.name, advtrains.all_tracktypes) then
local cconn1, cconn2=advtrains.get_track_connections(node.name, node.param2) local cconns=advtrains.get_track_connections(node.name, node.param2)
return cconn1==bconn or cconn2==bconn return advtrains.conn_matches_to(conn, cconns)
end end
end end
--rail at other end? --rail at other end?
@ -135,16 +138,16 @@ function tp.rail_and_can_be_bent(originpos, conn)
end end
function tp.bend_rail(originpos, conn) function tp.bend_rail(originpos, conn)
local pos=advtrains.dirCoordSet(originpos, conn) local pos=advtrains.dirCoordSet(originpos, conn)
local newdir=(conn+8)%16 local newdir=advtrains.oppd(conn)
local node=minetest.get_node(pos) local node=minetest.get_node(pos)
local ndef=minetest.registered_nodes[node.name] local ndef=minetest.registered_nodes[node.name]
local nnpref = ndef and ndef.nnpref local nnpref = ndef and ndef.at_nnpref
if not nnpref then return false end if not nnpref then return false end
local tr=tp.tracks[nnpref] local tr=tp.tracks[nnpref]
if not tr then return false end if not tr then return false end
--is rail already connected? no need to bend. --is rail already connected? no need to bend.
local conn1, conn2=advtrains.get_track_connections(node.name, node.param2) local conns=advtrains.get_track_connections(node.name, node.param2)
if newdir==conn1 or newdir==conn2 then if advtrains.conn_matches_to(conn, conns) then
return return
end end
--rail at other end? --rail at other end?
@ -309,6 +312,7 @@ minetest.register_craftitem("advtrains:trackworker",{
if not name then if not name then
return return
end end
local has_aux1_down = placer:get_player_control().aux1
if pointed_thing.type=="node" then if pointed_thing.type=="node" then
local pos=pointed_thing.under local pos=pointed_thing.under
if advtrains.is_protected(pos, name) then if advtrains.is_protected(pos, name) then
@ -320,6 +324,13 @@ minetest.register_craftitem("advtrains:trackworker",{
--if not advtrains.is_track_and_drives_on(minetest.get_node(pos).name, advtrains.all_tracktypes) 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 if advtrains.get_train_at_pos(pos) then return 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 nnprefix, suffix, rotation=string.match(node.name, "^(.+)_([^_]+)(_[^_]+)$") local nnprefix, suffix, rotation=string.match(node.name, "^(.+)_([^_]+)(_[^_]+)$")
--atprint(node.name.."\npattern recognizes:"..nodeprefix.." / "..railtype.." / "..rotation) --atprint(node.name.."\npattern recognizes:"..nodeprefix.." / "..railtype.." / "..rotation)
if not tp.tracks[nnprefix] or not tp.tracks[nnprefix].twrotate[suffix] then if not tp.tracks[nnprefix] or not tp.tracks[nnprefix].twrotate[suffix] then

View File

@ -34,90 +34,80 @@ vert2={
advtrains.all_tracktypes={} advtrains.all_tracktypes={}
--definition preparation --definition preparation
local function conns(c1, c2, r1, r2, rh, rots) return {conn1=c1, conn2=c2, rely1=r1, rely2=r2, railheight=rh} end local function conns(c1, c2, r1, r2) return {{c=c1, y=r1}, {c=c2, y=r2}} end
local function conns3(c1, c2, c3, r1, r2, r3) return {{c=c1, y=r1}, {c=c2, y=r2}, {c=c3, y=r3}} end
advtrains.ap={} advtrains.ap={}
advtrains.ap.t_30deg_flat={ advtrains.ap.t_30deg_flat={
regstep=1, regstep=1,
variant={ variant={
st=conns(0,8), st={
cr=conns(0,7), conns = conns(0,8),
swlst=conns(0,8), desc = "straight",
swlcr=conns(0,7), tpdouble = true,
swrst=conns(0,8), tpsingle = true,
swrcr=conns(0,9), trackworker = "cr",
}, },
description={ cr={
st="straight", conns = conns(0,7),
cr="curve", desc = "curve",
swlst="left switch (straight)", tpdouble = true,
swlcr="left switch (curve)", trackworker = "swlst",
swrst="right switch (straight)",
swrcr="right switch (curve)",
}, },
switch={ swlst={
swlst="swlcr", conns = conns3(0,8,7),
swlcr="swlst", desc = "left switch (straight)",
swrst="swrcr", trackworker = "swrst",
swrcr="swrst", switchalt = "swlcr",
switchmc = "on",
switchst = "st",
}, },
switchmc={ swlcr={
swlst="on", conns = conns3(0,7,8),
swlcr="off", desc = "left switch (curve)",
swrst="on", trackworker = "swrcr",
swrcr="off", switchalt = "swlst",
switchmc = "off",
switchst = "cr",
},
swrst={
conns = conns3(0,8,9),
desc = "right switch (straight)",
trackworker = "st",
switchalt = "swrcr",
switchmc = "on",
switchst = "st",
},
swrcr={
conns = conns3(0,9,8),
desc = "right switch (curve)",
trackworker = "st",
switchalt = "swrst",
switchmc = "off",
switchst = "cr",
}, },
switchst={
swlst="st",
swlcr="cr",
swrst="st",
swrcr="cr",
}, },
regtp=true, regtp=true,
trackplacer={
st=true,
cr=true,
},
tpsingle={
st=true,
},
tpdefault="st", tpdefault="st",
trackworker={ trackworker={
["swrcr"]="st", ["swrcr"]="st",
["swrst"]="st", ["swrst"]="st",
["st"]="cr",
["cr"]="swlst", ["cr"]="swlst",
["swlcr"]="swrcr", ["swlcr"]="swrcr",
["swlst"]="swrst", ["swlst"]="swrst",
}, },
rotation={"", "_30", "_45", "_60"}, rotation={"", "_30", "_45", "_60"},
slopenodes={},
increativeinv={},
} }
advtrains.ap.t_30deg_slope={ advtrains.ap.t_30deg_slope={
regstep=1, regstep=1,
variant={ variant={
vst1=conns(8,0,0,0.5,0.25), vst1={conns = conns(8,0,0,0.5), rail_y = 0.25, desc = "steep uphill 1/2", slope=true},
vst2=conns(8,0,0.5,1,0.75), vst2={conns = conns(8,0,0.5,1), rail_y = 0.75, desc = "steep uphill 2/2", slope=true},
vst31=conns(8,0,0,0.33,0.16), vst31={conns = conns(8,0,0,0.33), rail_y = 0.16, desc = "uphill 1/3", slope=true},
vst32=conns(8,0,0.33,0.66,0.5), vst32={conns = conns(8,0,0.33,0.66), rail_y = 0.5, desc = "uphill 2/3", slope=true},
vst33=conns(8,0,0.66,1,0.83), vst33={conns = conns(8,0,0.66,1), rail_y = 0.83, desc = "uphill 3/3", slope=true},
}, },
description={
vst1="steep uphill 1/2",
vst2="steep uphill 2/2",
vst31="uphill 1/3",
vst32="uphill 2/3",
vst33="uphill 3/3",
},
switch={},
switchmc={},
switchst={},
regsp=true, regsp=true,
slopenodes={
vst1=true, vst2=true,
vst31=true, vst32=true, vst33=true,
},
slopeplacer={ slopeplacer={
[2]={"vst1", "vst2"}, [2]={"vst1", "vst2"},
[3]={"vst31", "vst32", "vst33"}, [3]={"vst31", "vst32", "vst33"},
@ -134,125 +124,91 @@ advtrains.ap.t_30deg_slope={
advtrains.ap.t_30deg_straightonly={ advtrains.ap.t_30deg_straightonly={
regstep=1, regstep=1,
variant={ variant={
st=conns(0,8), st={
conns = conns(0,8),
desc = "straight",
tpdouble = true,
tpsingle = true,
trackworker = "st",
}, },
description={
st="straight",
},
switch={
},
switchmc={
}, },
regtp=true, regtp=true,
trackplacer={
},
tpsingle={
},
tpdefault="st", tpdefault="st",
trackworker={
["st"]="st",
},
trackplacer={
st=true,
},
tpsingle={
st=true,
},
slopenodes={},
rotation={"", "_30", "_45", "_60"}, rotation={"", "_30", "_45", "_60"},
increativeinv={"st"},
} }
advtrains.ap.t_30deg_straightonly_noplacer={ advtrains.ap.t_30deg_straightonly_noplacer={
regstep=1, regstep=1,
variant={ variant={
st=conns(0,8), st={
conns = conns(0,8),
desc = "straight",
tpdouble = true,
tpsingle = true,
trackworker = "st",
}, },
description={
st="straight",
},
switch={
},
switchmc={
},
regtp=false,
trackplacer={
},
tpsingle={
}, },
tpdefault="st", tpdefault="st",
trackworker={
["st"]="st",
},
trackplacer={
st=true,
},
tpsingle={
st=true,
},
slopenodes={},
rotation={"", "_30", "_45", "_60"}, rotation={"", "_30", "_45", "_60"},
increativeinv={"st"},
} }
advtrains.ap.t_45deg={ advtrains.ap.t_45deg={
regstep=2, regstep=2,
variant={ variant={
st=conns(0,8), st={
cr=conns(0,6), conns = conns(0,8),
swlst=conns(0,8), desc = "straight",
swlcr=conns(0,6), tpdouble = true,
swrst=conns(0,8), tpsingle = true,
swrcr=conns(0,10), trackworker = "cr",
vst1=conns(8,0,0,0.5,0.25),
vst2=conns(8,0,0.5,1,0.75),
}, },
description={ cr={
st="straight", conns = conns(0,6),
cr="curve", desc = "curve",
swlst="left switch (straight)", tpdouble = true,
swlcr="left switch (curve)", trackworker = "swlst",
swrst="right switch (straight)",
swrcr="right switch (curve)",
vst1="vertical lower node",
vst2="vertical upper node",
}, },
switch={ swlst={
swlst="swlcr", conns = conns3(0,8,6),
swlcr="swlst", desc = "left switch (straight)",
swrst="swrcr", trackworker = "swrst",
swrcr="swrst", switchalt = "swlcr",
switchmc = "on",
switchst = "st",
}, },
switchmc={ swlcr={
swlst="on", conns = conns3(0,6,8),
swlcr="off", desc = "left switch (curve)",
swrst="on", trackworker = "swrcr",
swrcr="off", switchalt = "swlst",
switchmc = "off",
switchst = "cr",
},
swrst={
conns = conns3(0,8,10),
desc = "right switch (straight)",
trackworker = "st",
switchalt = "swrcr",
switchmc = "on",
switchst = "st",
},
swrcr={
conns = conns3(0,10,8),
desc = "right switch (curve)",
trackworker = "st",
switchalt = "swrst",
switchmc = "off",
switchst = "cr",
}, },
switchst={
swlst="st",
swlcr="cr",
swrst="st",
swrcr="cr",
}, },
regtp=true, regtp=true,
trackplacer={
st=true,
cr=true,
},
tpsingle={
st=true,
},
tpdefault="st", tpdefault="st",
trackworker={ trackworker={
["swrcr"]="st", ["swrcr"]="st",
["swrst"]="st", ["swrst"]="st",
["st"]="cr",
["cr"]="swlst", ["cr"]="swlst",
["swlcr"]="swrcr", ["swlcr"]="swrcr",
["swlst"]="swrst", ["swlst"]="swrst",
}, },
slopenodes={}, rotation={"", "_30", "_45", "_60"},
rotation={"", "_45"},
increativeinv={vst1=true, vst2=true}
} }
advtrains.trackpresets = advtrains.ap advtrains.trackpresets = advtrains.ap
@ -269,74 +225,36 @@ advtrains.trackpresets = advtrains.ap
(each a table with indices 0-3, for if to register a rail with this 'rotation' table entry. nil is assumed as 'all', set {} to not register at all) (each a table with indices 0-3, for if to register a rail with this 'rotation' table entry. nil is assumed as 'all', set {} to not register at all)
} }
common={} change something on common rail appearance common={} change something on common rail appearance
}]]
function advtrains.register_tracks(tracktype, def, preset)
local function make_switchfunc(suffix_target, mesecon_state, is_state)
local rcswitchfunc=function(pos, node, player)
if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then
advtrains.ndb.swap_node(pos, {name=def.nodename_prefix.."_"..suffix_target, param2=node.param2})
advtrains.invalidate_all_paths(pos)
end
end
local switchfunc=function(pos, node, newstate)
if newstate~=is_state then
advtrains.ndb.swap_node(pos, {name=def.nodename_prefix.."_"..suffix_target, param2=node.param2})
advtrains.invalidate_all_paths(pos)
end
end
local mesec
if mesecon_state then -- if mesecons is not wanted, do not.
mesec = {effector = {
["action_"..mesecon_state] = switchfunc,
rules=advtrains.meseconrules
}}
end
return rcswitchfunc, mesec,
{
getstate = is_state,
setstate = switchfunc,
} }
end [18.12.17] Note on new connection system:
local function make_overdef(suffix, rotation, conns, rcswitchfunc, mesecontbl, luaautomation, in_creative_inv, drop_slope) In order to support real rail crossing nodes and finally make the trackplacer respect switches, I changed the connection system.
local img_suffix=suffix..rotation There can be a variable number of connections available. These are specified as tuples {c=<connection>, y=<rely>}
return { The table "at_conns" consists of {<conn1>, <conn2>...}
mesh = def.shared_model or (def.models_prefix.."_"..img_suffix..def.models_suffix), the "at_rail_y" property holds the value that was previously called "railheight"
tiles = {def.shared_texture or (def.texture_prefix.."_"..img_suffix..".png"), def.second_texture}, Depending on the number of connections:
--inventory_image = def.texture_prefix.."_"..img_suffix..".png", 2 conns: regular rail
--wield_image = def.texture_prefix.."_"..img_suffix..".png", 3 conns: switch:
description=def.description.."("..preset.description[suffix]..rotation..")", - when train passes in at conn1, will move out of conn2
connect1=conns.conn1, - when train passes in at conn2 or conn3, will move out of conn1
connect2=conns.conn2, 4 conns: cross (or cross switch, depending on arrangement of conns):
rely1=conns.rely1 or 0, - conn1 <> conn2
rely2=conns.rely2 or 0, - conn3 <> conn4
railheight=conns.railheight or 0, ]]
on_rightclick=rcswitchfunc, function advtrains.register_tracks(tracktype, def, preset)
groups = { advtrains.trackplacer.register_tracktype(def.nodename_prefix, preset.tpdefault)
attached_node=1, if preset.regtp then
["advtrains_track_"..tracktype]=1, advtrains.trackplacer.register_track_placer(def.nodename_prefix, def.texture_prefix, def.description)
save_in_at_nodedb=1,
dig_immediate=2,
not_in_creative_inventory=(not in_creative_inv and 1 or nil),
not_blocking_trains=1,
},
mesecons=mesecontbl,
luaautomation=luaautomation,
drop = (drop_slope and def.nodename_prefix.."_slopeplacer" or def.nodename_prefix.."_placer"),
}
end end
local function cycle_conns(conns, rotid) if preset.regsp then
local add=(rotid-1)*preset.regstep advtrains.slope.register_placer(def, preset)
return {
conn1=(conns.conn1+add)%16,
conn2=(conns.conn2+add)%16,
rely1=conns.rely1 or 0,
rely2=conns.rely2 or 0,
railheight=conns.railheight or 0,
}
end end
local common_def=advtrains.merge_tables({ for suffix, var in pairs(preset.variant) do
description = def.description, for rotid, rotation in ipairs(preset.rotation) do
if not def.formats[suffix] or def.formats[suffix][rotid] then
local img_suffix = suffix..rotation
local ndef = advtrains.merge_tables({
description=def.description.."("..(var.desc or "any")..rotation..")",
drawtype = "mesh", drawtype = "mesh",
paramtype="light", paramtype="light",
paramtype2="facedir", paramtype2="facedir",
@ -345,10 +263,19 @@ function advtrains.register_tracks(tracktype, def, preset)
type = "fixed", type = "fixed",
fixed = {-1/2, -1/2, -1/2, 1/2, -1/2+1/16, 1/2}, fixed = {-1/2, -1/2, -1/2, 1/2, -1/2+1/16, 1/2},
}, },
rely1=0,
rely2=0, mesh = def.shared_model or (def.models_prefix.."_"..img_suffix..def.models_suffix),
railheight=0, tiles = {def.shared_texture or (def.texture_prefix.."_"..img_suffix..".png"), def.second_texture},
drop=def.nodename_prefix.."_placer",
groups = {
attached_node=1,
["advtrains_track_"..tracktype]=1,
save_in_at_nodedb=1,
dig_immediate=2,
not_in_creative_inventory=1,
not_blocking_trains=1,
},
can_dig=function(pos) can_dig=function(pos)
return not advtrains.get_train_at_pos(pos) return not advtrains.get_train_at_pos(pos)
end, end,
@ -358,55 +285,70 @@ function advtrains.register_tracks(tracktype, def, preset)
after_place_node=function(pos) after_place_node=function(pos)
advtrains.ndb.update(pos) advtrains.ndb.update(pos)
end, end,
nnpref = def.nodename_prefix, at_nnpref = def.nodename_prefix,
at_suffix = suffix,
at_rotation = rotation,
at_rail_y = var.rail_y
}, def.common or {}) }, def.common or {})
--make trackplacer base def
advtrains.trackplacer.register_tracktype(def.nodename_prefix, preset.tpdefault)
if preset.regtp then if preset.regtp then
advtrains.trackplacer.register_track_placer(def.nodename_prefix, def.texture_prefix, def.description) ndef.drop = def.nodename_prefix.."_placer"
end end
if preset.regsp then if preset.regsp and var.slope then
advtrains.slope.register_placer(def, preset) ndef.drop = def.nodename_prefix.."_slopeplacer"
end end
for suffix, conns in pairs(preset.variant) do
for rotid, rotation in ipairs(preset.rotation) do --connections
if not def.formats[suffix] or def.formats[suffix][rotid] then ndef.at_conns = advtrains.rotate_conn_by(var.conns, (rotid-1)*preset.regstep)
local rcswitchfunc, mesecontbl, luaautomation
if preset.switch[suffix] then if var.switchalt and var.switchst then
rcswitchfunc, mesecontbl, luaautomation=make_switchfunc(preset.switch[suffix]..rotation, preset.switchmc[suffix], preset.switchst[suffix]) local switchfunc=function(pos, node, newstate)
if newstate~=var.switchst then
advtrains.ndb.swap_node(pos, {name=def.nodename_prefix.."_"..var.switchalt..rotation, param2=node.param2})
advtrains.invalidate_all_paths(pos)
end end
end
ndef.on_rightclick = function(pos, node, player)
if minetest.check_player_privs(player:get_player_name(), {train_operator=true}) then
switchfunc(pos, node)
end
end
if var.switchmc then
ndef.mesecons = {effector = {
["action_"..var.switchmc] = switchfunc,
rules=advtrains.meseconrules
}}
end
ndef.luaautomation = {
getstate = var.switchst,
setstate = switchfunc,
}
end
local adef={} local adef={}
if def.get_additional_definiton then if def.get_additional_definiton then
adef=def.get_additional_definiton(def, preset, suffix, rotation) adef=def.get_additional_definiton(def, preset, suffix, rotation)
end end
ndef = advtrains.merge_tables(ndef, adef)
minetest.register_node(":"..def.nodename_prefix.."_"..suffix..rotation, advtrains.merge_tables( minetest.register_node(":"..def.nodename_prefix.."_"..suffix..rotation, ndef)
common_def,
make_overdef(
suffix, rotation,
cycle_conns(conns, rotid),
rcswitchfunc, mesecontbl, luaautomation, preset.increativeinv[suffix], preset.slopenodes[suffix]
),
adef
)
)
--trackplacer --trackplacer
if preset.regtp then if preset.regtp then
if preset.trackplacer[suffix] then local tpconns = {conn1=ndef.at_conns[1].c, conn2=ndef.at_conns[2].c}
advtrains.trackplacer.add_double_conn(def.nodename_prefix, suffix, rotation, cycle_conns(conns, rotid)) if var.tpdouble then
advtrains.trackplacer.add_double_conn(def.nodename_prefix, suffix, rotation, tpconns)
end end
if preset.tpsingle[suffix] then if var.tpsingle then
advtrains.trackplacer.add_single_conn(def.nodename_prefix, suffix, rotation, cycle_conns(conns, rotid)) advtrains.trackplacer.add_single_conn(def.nodename_prefix, suffix, rotation, tpconns)
end end
end end
advtrains.trackplacer.add_worked(def.nodename_prefix, suffix, rotation, preset.trackworker[suffix]) advtrains.trackplacer.add_worked(def.nodename_prefix, suffix, rotation, var.trackworker)
end end
end end
end end
advtrains.all_tracktypes[tracktype]=true advtrains.all_tracktypes[tracktype]=true
end end
function advtrains.is_track_and_drives_on(nodename, drives_on_p) function advtrains.is_track_and_drives_on(nodename, drives_on_p)
local drives_on = drives_on_p local drives_on = drives_on_p
if not drives_on then drives_on = advtrains.all_tracktypes end if not drives_on then drives_on = advtrains.all_tracktypes end
@ -430,7 +372,7 @@ end
function advtrains.get_track_connections(name, param2) function advtrains.get_track_connections(name, param2)
local nodedef=minetest.registered_nodes[name] local nodedef=minetest.registered_nodes[name]
if not nodedef then atprint(" get_track_connections couldn't find nodedef for nodename "..(name or "nil")) return 0, 8, 0, 0, 0 end if not nodedef then atprint(" get_track_connections couldn't find nodedef for nodename "..(name or "nil")) return nil end
local noderot=param2 local noderot=param2
if not param2 then noderot=0 end if not param2 then noderot=0 end
if noderot > 3 then atprint(" get_track_connections: rail has invaild param2 of "..noderot) noderot=0 end if noderot > 3 then atprint(" get_track_connections: rail has invaild param2 of "..noderot) noderot=0 end
@ -442,7 +384,7 @@ function advtrains.get_track_connections(name, param2)
tracktype=tt tracktype=tt
end end
end end
return (nodedef.connect1 + 4 * noderot)%16, (nodedef.connect2 + 4 * noderot)%16, nodedef.rely1 or 0, nodedef.rely2 or 0, nodedef.railheight or 0, tracktype return advtrains.rotate_conn_by(nodedef.at_conns, noderot*AT_CMAX/4), (nodedef.at_rail_y or 0), tracktype
end end
--detector code --detector code

View File

@ -428,63 +428,6 @@ function advtrains.train_step_a(id, train, dtime)
end end
end end
--about regular: Used by 1. to ensure path gets generated far enough, since end index is not known at this time.
function advtrains.pathpredict(id, train, regular)
--TODO duplicate code under 5b.
local path_pregen=10
local gen_front= path_pregen
local gen_back= - train.trainlen - path_pregen
if regular then
gen_front=math.max(train.index, train.detector_old_index) + path_pregen
gen_back=math.min(train.end_index, train.detector_old_end_index) - path_pregen
end
local maxn=train.path_extent_max or 0
while maxn < gen_front do--pregenerate
local conway
if train.max_index_on_track == maxn then
--atprint("maxn conway for ",maxn,train.path[maxn],maxn-1,train.path[maxn-1])
conway=advtrains.conway(train.path[maxn], train.path[maxn-1], train.drives_on)
end
if conway then
train.path[maxn+1]=conway
train.max_index_on_track=maxn+1
else
--do as if nothing has happened and preceed with path
--but do not update max_index_on_track
atprint("over-generating path max to index ",(maxn+1)," (position ",train.path[maxn]," )")
train.path[maxn+1]=vector.add(train.path[maxn], vector.subtract(train.path[maxn], train.path[maxn-1]))
end
train.path_dist[maxn]=vector.distance(train.path[maxn+1], train.path[maxn])
maxn=maxn+1
end
train.path_extent_max=maxn
local minn=train.path_extent_min or -1
while minn > gen_back do
local conway
if train.min_index_on_track == minn then
--atprint("minn conway for ",minn,train.path[minn],minn+1,train.path[minn+1])
conway=advtrains.conway(train.path[minn], train.path[minn+1], train.drives_on)
end
if conway then
train.path[minn-1]=conway
train.min_index_on_track=minn-1
else
--do as if nothing has happened and preceed with path
--but do not update min_index_on_track
atprint("over-generating path min to index ",(minn-1)," (position ",train.path[minn]," )")
train.path[minn-1]=vector.add(train.path[minn], vector.subtract(train.path[minn], train.path[minn+1]))
end
train.path_dist[minn-1]=vector.distance(train.path[minn], train.path[minn-1])
minn=minn-1
end
train.path_extent_min=minn
if not train.min_index_on_track then train.min_index_on_track=-1 end
if not train.max_index_on_track then train.max_index_on_track=0 end
end
function advtrains.train_step_b(id, train, dtime) function advtrains.train_step_b(id, train, dtime)

View File

@ -931,8 +931,13 @@ function advtrains.register_wagon(sysname_p, prototype, desc, inv_img)
minetest.record_protection_violation(pointed_thing.under, placer:get_player_name()) minetest.record_protection_violation(pointed_thing.under, placer:get_player_name())
return return
end end
local conn1=advtrains.get_track_connections(node.name, node.param2) local tconns=advtrains.get_track_connections(node.name, node.param2)
local id=advtrains.create_new_train_at(pointed_thing.under, advtrains.dirCoordSet(pointed_thing.under, conn1)) local yaw = placer:get_look_horizontal() + (math.pi/2)
local plconnid = advtrains.yawToClosestConn(yaw, tconns)
local prevpos = advtrains.get_adjacent_rail(pointed_thing.under, tconns, plconnid, prototype.drives_on)
if not prevpos then return end
local id=advtrains.create_new_train_at(pointed_thing.under, prevpos)
local ob=minetest.add_entity(pointed_thing.under, sysname) local ob=minetest.add_entity(pointed_thing.under, sysname)
if not ob then if not ob then

View File

@ -107,8 +107,8 @@ advtrains.register_tracks("default", {
--set arrowconn (for ATC) --set arrowconn (for ATC)
local ph=minetest.pos_to_string(pos) local ph=minetest.pos_to_string(pos)
local _, conn1=advtrains.get_rail_info_at(pos, advtrains.all_tracktypes) local _, conns=advtrains.get_rail_info_at(pos, advtrains.all_tracktypes)
atlatc.active.nodes[ph].arrowconn=conn1 atlatc.active.nodes[ph].arrowconn=conns[1].c
end, end,
advtrains = { advtrains = {

View File

@ -128,8 +128,14 @@ minetest.register_craftitem(":advtrains:subway_train", {
minetest.record_protection_violation(pointed_thing.under, placer:get_player_name()) minetest.record_protection_violation(pointed_thing.under, placer:get_player_name())
return return
end end
local conn1=advtrains.get_track_connections(node.name, node.param2)
local id=advtrains.create_new_train_at(pointed_thing.under, advtrains.dirCoordSet(pointed_thing.under, conn1)) local tconns=advtrains.get_track_connections(node.name, node.param2)
local yaw = placer:get_look_horizontal() + (math.pi/2)
local plconnid = advtrains.yawToClosestConn(yaw, tconns)
local prevpos = advtrains.get_adjacent_rail(pointed_thing.under, tconns, plconnid, prototype.drives_on)
if not prevpos then return end
local id=advtrains.create_new_train_at(pointed_thing.under, prevpos)
for i=1,3 do for i=1,3 do
local ob=minetest.add_entity(pointed_thing.under, "advtrains:subway_wagon") local ob=minetest.add_entity(pointed_thing.under, "advtrains:subway_wagon")