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--advtrains by orwell96, see readme.txt
advtrains.dir_trans_tbl={
[0]={x=0, z=1},
[1]={x=1, z=2},
[2]={x=1, z=1},
[3]={x=2, z=1},
[4]={x=1, z=0},
[5]={x=2, z=-1},
[6]={x=1, z=-1},
[7]={x=1, z=-2},
[8]={x=0, z=-1},
[9]={x=-1, z=-2},
[10]={x=-1, z=-1},
[11]={x=-2, z=-1},
[12]={x=-1, z=0},
[13]={x=-2, z=1},
[14]={x=-1, z=1},
[15]={x=-1, z=2},
}
function advtrains.dirCoordSet(coord, dir)
local x,z
if advtrains.dir_trans_tbl[dir] then
x,z=advtrains.dir_trans_tbl[dir].x, advtrains.dir_trans_tbl[dir].z
else
error("advtrains: in helpers.lua/dirCoordSet() given dir="..(dir or "nil"))
end
return {x=coord.x+x, y=coord.y, z=coord.z+z}
end
function advtrains.dirToCoord(dir)
return advtrains.dirCoordSet({x=0, y=0, z=0}, dir)
end
function advtrains.maxN(list, expectstart)
local n=expectstart or 0
while list[n] do
n=n+1
end
return n-1
end
function advtrains.minN(list, expectstart)
local n=expectstart or 0
while list[n] do
n=n-1
end
return n+1
end
function atround(number)
return math.floor(number+0.5)
end
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)}
end
function advtrains.yawToDirection(yaw, conn1, conn2)
if not conn1 or not conn2 then
error("given nil to yawToDirection: conn1="..(conn1 or "nil").." conn2="..(conn1 or "nil"))
end
local yaw1=math.pi*(conn1/8)
local yaw2=math.pi*(conn2/8)
local adiff1 = advtrains.minAngleDiffRad(yaw, yaw1)
local adiff2 = advtrains.minAngleDiffRad(yaw, yaw2)
if math.abs(adiff2)<math.abs(adiff1) then
return conn2
else
return conn1
end
end
function advtrains.yawToAnyDir(yaw)
local min_conn, min_diff=0, 10
for conn, vec in pairs(advtrains.dir_trans_tbl) do
local uvec = vector.normalize(advtrains.dirToCoord(conn))
local yaw1 = math.atan2(uvec.z, uvec.x)
local diff = advtrains.minAngleDiffRad(yaw, yaw1)
if diff < min_diff then
min_conn = conn
min_diff = diff
end
end
return min_conn
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)
local pi, pi2 = math.pi, 2*math.pi
while r1>pi2 do
r1=r1-pi2
end
while r1<0 do
r1=r1+pi2
end
while r2>pi2 do
r2=r2-pi2
end
while r1<0 do
r2=r2+pi2
end
local try1=r2-r1
local try2=r2+pi2-r1
local try3=r2-pi2-r1
local minabs = math.min(math.abs(try1), math.abs(try2), math.abs(try3))
if minabs==math.abs(try1) then
return try1
end
if minabs==math.abs(try2) then
return try2
end
if minabs==math.abs(try3) then
return try3
end
end
function advtrains.dumppath(path)
atlog("Dumping a path:")
if not path then atlog("dumppath: no path(nil)") return end
local temp_path={}
for ipt, iit in pairs(path) do
temp_path[#temp_path+1]={i=ipt, p=iit}
end
table.sort(temp_path, function (k1, k2) return k1.i < k2.i end)
for _,pit in ipairs(temp_path) do
atlog(pit.i.." > "..minetest.pos_to_string(pit.p))
end
end
function advtrains.merge_tables(a, ...)
local new={}
for _,t in ipairs({a,...}) do
for k,v in pairs(t) do new[k]=v end
end
return new
end
function advtrains.save_keys(tbl, keys)
local new={}
for _,key in ipairs(keys) do
new[key] = tbl[key]
end
return new
end
function advtrains.yaw_from_3_positions(prev, curr, next)
local pts=minetest.pos_to_string
--atprint("p3 "..pts(prev)..pts(curr)..pts(next))
local prev2curr=math.atan2((curr.x-prev.x), (prev.z-curr.z))
local curr2next=math.atan2((next.x-curr.x), (curr.z-next.z))
--atprint("y3 "..(prev2curr*360/(2*math.pi)).." "..(curr2next*360/(2*math.pi)))
return prev2curr+(advtrains.minAngleDiffRad(prev2curr, curr2next)/2)
end
function advtrains.get_wagon_yaw(front, first, second, back, pct)
local pts=minetest.pos_to_string
--atprint("p "..pts(front)..pts(first)..pts(second)..pts(back))
local y2=advtrains.yaw_from_3_positions(second, first, front)
local y1=advtrains.yaw_from_3_positions(back, second, first)
--atprint("y "..(y1*360/(2*math.pi)).." "..(y2*360/(2*math.pi)))
return y1+advtrains.minAngleDiffRad(y1, y2)*pct
end
function advtrains.get_real_index_position(path, index)
if not path or not index then return end
local first_pos=path[math.floor(index)]
local second_pos=path[math.floor(index)+1]
if not first_pos or not second_pos then return nil end
local factor=index-math.floor(index)
local actual_pos={x=first_pos.x-(first_pos.x-second_pos.x)*factor, y=first_pos.y-(first_pos.y-second_pos.y)*factor, z=first_pos.z-(first_pos.z-second_pos.z)*factor,}
return actual_pos
end
function advtrains.pos_median(pos1, pos2)
return {x=pos1.x-(pos1.x-pos2.x)*0.5, y=pos1.y-(pos1.y-pos2.y)*0.5, z=pos1.z-(pos1.z-pos2.z)*0.5}
end
function advtrains.abs_ceil(i)
return math.ceil(math.abs(i))*math.sign(i)
end
function advtrains.serialize_inventory(inv)
local ser={}
local liszts=inv:get_lists()
for lisztname, liszt in pairs(liszts) do
ser[lisztname]={}
for idx, item in ipairs(liszt) do
local istring=item:to_string()
if istring~="" then
ser[lisztname][idx]=istring
end
end
end
return minetest.serialize(ser)
end
function advtrains.deserialize_inventory(sers, inv)
local ser=minetest.deserialize(sers)
if ser then
inv:set_lists(ser)
return true
end
return false
end
--is_protected wrapper that checks for protection_bypass privilege
function advtrains.is_protected(pos, name)
if not name then
error("advtrains.is_protected() called without name parameter!")
end
if minetest.check_player_privs(name, {protection_bypass=true}) then
--player can bypass protection
return false
end
return minetest.is_protected(pos, name)
end
function advtrains.ms_to_kmh(speed)
return speed * 3.6
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
function advtrains.random_id()
local idst=""
for i=0,5 do
idst=idst..(math.random(0,9))
end
return idst
end
|
