Occupation system: store multiple indices for the same train, introduce reverse_lookup_sel() to select appropriate index out of multiple based on a heuristic

This commit is contained in:
orwell96 2023-06-24 14:37:52 +02:00
parent 283efc44ce
commit 2d7640d424
4 changed files with 96 additions and 66 deletions

View File

@ -79,8 +79,9 @@ function advtrains.train_check_couples(train)
end end
if not train.cpl_front then if not train.cpl_front then
-- recheck front couple -- recheck front couple
local front_trains, pos = advtrains.occ.get_occupations(train, atround(train.index) + CPL_CHK_DST) local pos = advtrains.path_get(train, atround(train.index) + CPL_CHK_DST)
if advtrains.is_node_loaded(pos) then -- if the position is loaded... if advtrains.is_node_loaded(pos) then -- if the position is loaded...
local front_trains = advtrains.occ.reverse_lookup_sel(pos, "in_train")
for tid, idx in pairs(front_trains) do for tid, idx in pairs(front_trains) do
local other_train = advtrains.trains[tid] local other_train = advtrains.trains[tid]
if not advtrains.train_ensure_init(tid, other_train) then if not advtrains.train_ensure_init(tid, other_train) then
@ -109,8 +110,9 @@ function advtrains.train_check_couples(train)
end end
if not train.cpl_back then if not train.cpl_back then
-- recheck back couple -- recheck back couple
local back_trains, pos = advtrains.occ.get_occupations(train, atround(train.end_index) - CPL_CHK_DST) local pos = advtrains.path_get(train, atround(train.end_index) - CPL_CHK_DST)
if advtrains.is_node_loaded(pos) then -- if the position is loaded... if advtrains.is_node_loaded(pos) then -- if the position is loaded...
local back_trains = advtrains.occ.reverse_lookup_sel(pos, "in_train")
for tid, idx in pairs(back_trains) do for tid, idx in pairs(back_trains) do
local other_train = advtrains.trains[tid] local other_train = advtrains.trains[tid]
if not advtrains.train_ensure_init(tid, other_train) then if not advtrains.train_ensure_init(tid, other_train) then

View File

@ -86,9 +86,10 @@ end
function o.set_item(train_id, pos, idx) function o.set_item(train_id, pos, idx)
local t = occgetcreate(pos) local t = occgetcreate(pos)
assert(idx)
local i = 1 local i = 1
while t[i] do while t[i] do
if t[i]==train_id then if t[i]==train_id and t[i+1]==index then
break break
end end
i = i + 2 i = i + 2
@ -98,27 +99,32 @@ function o.set_item(train_id, pos, idx)
end end
function o.clear_item(train_id, pos) function o.clear_all_items(train_id, pos)
local t = occget(pos) local t = occget(pos)
if not t then return end if not t then return end
local i = 1 local i = 1
local moving = false
while t[i] do while t[i] do
if t[i]==train_id then if t[i]==train_id then
if moving then table.remove(t, i)
-- if, for some occasion, there should be a duplicate entry, erase this one too table.remove(t, i)
atwarn("Duplicate occupation entry at",pos,"for train",train_id,":",t) else
i = i - 2
end
moving = true
end
if moving then
t[i] = t[i+2]
t[i+1] = t[i+3]
end
i = i + 2 i = i + 2
end end
end end
end
function o.clear_specific_item(train_id, pos, index)
local t = occget(pos)
if not t then return end
local i = 1
while t[i] do
if t[i]==train_id and t[i+1]==index then
table.remove(t, i)
table.remove(t, i)
else
i = i + 2
end
end
end
-- Checks whether some other train (apart from train_id) has it's 0 zone here -- Checks whether some other train (apart from train_id) has it's 0 zone here
function o.check_collision(pos, train_id) function o.check_collision(pos, train_id)
@ -143,64 +149,86 @@ function o.check_collision(pos, train_id)
return false return false
end end
-- Gets a mapping of train id's to indexes of trains that share this path item with this train -- Gets a mapping of train id's to indexes of trains that have a path item at this position
-- The train itself will not be included. -- Note that the case where 2 or more indices are at a position only occurs if there is a track loop.
-- If the requested index position is off-track, returns {}. -- returns (table with train_id->{index1, index2...})
-- returns (table with train_id->index), position function o.reverse_lookup(ppos)
function o.get_occupations(train, index)
local ppos, ontrack = advtrains.path_get(train, index)
if not ontrack then
atlog("Train",train.id,"get_occupations requested off-track",index)
return {}, ppos
end
local pos = advtrains.round_vector_floor_y(ppos) local pos = advtrains.round_vector_floor_y(ppos)
local t = occget(pos) local t = occget(pos)
if not t then return {} end if not t then return {} end
local r = {} local r = {}
local i = 1 local i = 1
local train_id = train.id
while t[i] do while t[i] do
if t[i]~=train_id then if t[i]~=train_id then
r[t[i]] = t[i+1] if not r[t[i]] then r[t[i]] = {} end
table.insert(r[t[i]], t[i+1])
end end
i = i + 2 i = i + 2
end end
return r
end
-- Gets a mapping of train id's to indexes of trains that have a path item at this position.
-- Quick variant: will only return one index per train (the latest one added)
-- returns (table with train_id->index)
function o.reverse_lookup_quick(ppos)
local pos = advtrains.round_vector_floor_y(ppos)
local t = occget(pos)
if not t then return {} end
local r = {}
local i = 1
while t[i] do
r[t[i]] = t[i+1]
i = i + 2
end
return r
end
local OCC_CLOSE_PROXIMITY = 3
-- Gets a mapping of train id's to index of trains that have a path item at this position. Selects at most one index based on a given heuristic, or even none if it does not match the heuristic criterion
-- returns (table with train_id->index), position
-- "in_train": first index that lies between train index and end index
-- "first_ahead": smallest index that is > current index
-- "before_end"(default): smallest index that is > end index
-- "close_proximity": within 3 indices close to the train index and end_index
-- "any": just output the first index found and do not check further (also occurs if both "in_train" and "first_ahead" heuristics have failed
function o.reverse_lookup_sel(pos, heuristic)
if not heuristic then heuristic = "before_end" end
local om = o.reverse_lookup(pos)
local r = {}
for tid, idxs in pairs(om) do
r[tid] = idxs[1]
if heuristic~="any" then
--must run a heuristic
--atdebug("reverse_lookup_sel is running heuristic for", pos,heuristic,"idxs",table.concat(idxs,","))
local otrn = advtrains.trains[tid]
advtrains.train_ensure_init(tid, otrn)
local h_value
for _,idx in ipairs(idxs) do
if heuristic == "first_ahead" and idx > otrn.index and (not h_value or h_value>idx) then
h_value = idx
end
if heuristic == "before_end" and idx > otrn.end_index and (not h_value or h_value>idx) then
h_value = idx
end
if heuristic == "in_train" and idx < otrn.index and idx > otrn.end_index then
h_value = idx
end
if heuristic == "close_proximity" and idx < (otrn.index + OCC_CLOSE_PROXIMITY) and idx > (otrn.end_index - OCC_CLOSE_PROXIMITY) then
h_value = idx
end
end
r[tid] = h_value
--atdebug(h_value,"chosen")
end
end
return r, pos return r, pos
end end
-- Gets a mapping of train id's to indexes of trains that stand or drive over -- Gets a mapping of train id's to indexes of trains that stand or drive over
-- returns (table with train_id->index) -- returns (table with train_id->index)
function o.get_trains_at(ppos) function o.get_trains_at(ppos)
local pos = advtrains.round_vector_floor_y(ppos) local pos = advtrains.round_vector_floor_y(ppos)
local t = occget(pos) return o.reverse_lookup_sel(pos, "in_train")
if not t then return {} end
local r = {}
local i = 1
while t[i] do
local train = advtrains.trains[t[i]]
local idx = t[i+1]
if train.end_index - 0.5 <= idx and idx <= train.index + 0.5 then
r[t[i]] = idx
end
i = i + 2
end
return r
end
-- Gets a mapping of train id's to indexes of trains that have a path
-- generated over this node
-- returns (table with train_id->index)
function o.get_trains_over(ppos)
local pos = advtrains.round_vector_floor_y(ppos)
local t = occget(pos)
if not t then return {} end
local r = {}
local i = 1
while t[i] do
local idx = t[i+1]
r[t[i]] = idx
i = i + 2
end
return r
end end
advtrains.occ = o advtrains.occ = o

View File

@ -119,7 +119,7 @@ function advtrains.path_invalidate(train, ignore_lock)
if train.path then if train.path then
for i,p in pairs(train.path) do for i,p in pairs(train.path) do
advtrains.occ.clear_item(train.id, advtrains.round_vector_floor_y(p)) advtrains.occ.clear_all_items(train.id, advtrains.round_vector_floor_y(p))
end end
end end
train.path = nil train.path = nil
@ -393,7 +393,7 @@ local PATH_CLEAR_KEEP = 4
function advtrains.path_clear_unused(train) function advtrains.path_clear_unused(train)
local i local i
for i = train.path_ext_b, train.path_req_b - PATH_CLEAR_KEEP do for i = train.path_ext_b, train.path_req_b - PATH_CLEAR_KEEP do
advtrains.occ.clear_item(train.id, advtrains.round_vector_floor_y(train.path[i])) advtrains.occ.clear_specific_item(train.id, advtrains.round_vector_floor_y(train.path[i]), i)
train.path[i] = nil train.path[i] = nil
train.path_dist[i-1] = nil train.path_dist[i-1] = nil
train.path_cp[i] = nil train.path_cp[i] = nil
@ -434,18 +434,19 @@ end
-- Projects the path of "train" onto the path of "onto_train_id", and returns the index on onto_train's path -- Projects the path of "train" onto the path of "onto_train_id", and returns the index on onto_train's path
-- that corresponds to "index" on "train"'s path, as well as whether both trains face each other -- that corresponds to "index" on "train"'s path, as well as whether both trains face each other
-- index may be fractional -- index may be fractional
-- heuristic: see advtrains.occ.reverse_lookup_sel()
-- returns: res_index, trains_facing -- returns: res_index, trains_facing
-- returns nil when path can not be projected, either because trains are on different tracks or -- returns nil when path can not be projected, either because trains are on different tracks or
-- node at "index" happens to be on a turnout and it's the wrong direction -- node at "index" happens to be on a turnout and it's the wrong direction
-- Note - duplicate with similar functionality is in train_step_b() - that code combines train detection with projecting -- Note - duplicate with similar functionality is in train_step_b() - that code combines train detection with projecting
function advtrains.path_project(train, index, onto_train_id) function advtrains.path_project(train, index, onto_train_id, heuristic)
local base_idx = atfloor(index) local base_idx = atfloor(index)
local frac_part = index - base_idx local frac_part = index - base_idx
local base_pos = advtrains.path_get(train, base_idx) local base_pos = advtrains.path_get(train, base_idx)
local base_cn = train.path_cn[base_idx] local base_cn = train.path_cn[base_idx]
local otrn = advtrains.trains[onto_train_id] local otrn = advtrains.trains[onto_train_id]
-- query occupation -- query occupation
local occ = advtrains.occ.get_trains_over(base_pos) local occ = advtrains.occ.reverse_lookup_sel(base_pos, heuristic)
-- is wanted train id contained? -- is wanted train id contained?
local ob_idx = occ[onto_train_id] local ob_idx = occ[onto_train_id]
if not ob_idx then if not ob_idx then

View File

@ -619,7 +619,7 @@ function advtrains.train_step_b(id, train, dtime)
local base_cn = train.path_cn[base_idx] local base_cn = train.path_cn[base_idx]
--atdebug(id,"Begin Checking for on-track collisions new_idx=",new_index_curr_tv,"base_idx=",base_idx,"base_pos=",base_pos,"base_cn=",base_cn) --atdebug(id,"Begin Checking for on-track collisions new_idx=",new_index_curr_tv,"base_idx=",base_idx,"base_pos=",base_pos,"base_cn=",base_cn)
-- query occupation -- query occupation
local occ = advtrains.occ.get_trains_over(base_pos) local occ = advtrains.occ.reverse_lookup_sel(base_pos, "close_proximity")
-- iterate other trains -- iterate other trains
for otid, ob_idx in pairs(occ) do for otid, ob_idx in pairs(occ) do
if otid ~= id then if otid ~= id then
@ -649,7 +649,7 @@ function advtrains.train_step_b(id, train, dtime)
-- Phase 2 - project ref_index back onto our path and check again (necessary because there might be a turnout on the way and we are driving into the flank -- Phase 2 - project ref_index back onto our path and check again (necessary because there might be a turnout on the way and we are driving into the flank
if target_is_inside then if target_is_inside then
local our_index = advtrains.path_project(otrn, ref_index, id) local our_index = advtrains.path_project(otrn, ref_index, id, "before_end")
--atdebug("Backprojected our_index",our_index) --atdebug("Backprojected our_index",our_index)
if our_index and our_index <= new_index_curr_tv if our_index and our_index <= new_index_curr_tv
and our_index >= train.index then --FIX: If train was already past the collision point in the previous step, there is no collision! Fixes bug with split_at_index and our_index >= train.index then --FIX: If train was already past the collision point in the previous step, there is no collision! Fixes bug with split_at_index
@ -1218,7 +1218,6 @@ function advtrains.invert_train(train_id)
advtrains.update_trainpart_properties(train_id, true) advtrains.update_trainpart_properties(train_id, true)
-- recalculate path -- recalculate path
advtrains.train_ensure_init(train_id, train)
-- If interlocking present, check whether this train is in a section and then set as shunt move after reversion -- If interlocking present, check whether this train is in a section and then set as shunt move after reversion
if advtrains.interlocking and train.il_sections and #train.il_sections > 0 then if advtrains.interlocking and train.il_sections and #train.il_sections > 0 then
@ -1244,7 +1243,7 @@ function advtrains.invalidate_all_paths(pos)
local tab local tab
if pos then if pos then
-- if position given, check occupation system -- if position given, check occupation system
tab = advtrains.occ.get_trains_over(pos) tab = advtrains.occ.reverse_lookup_quick(pos)
else else
tab = advtrains.trains tab = advtrains.trains
end end
@ -1257,7 +1256,7 @@ end
-- Calls invalidate_path_ahead on all trains occupying (having paths over) this node -- Calls invalidate_path_ahead on all trains occupying (having paths over) this node
-- Can be called during train step. -- Can be called during train step.
function advtrains.invalidate_all_paths_ahead(pos) function advtrains.invalidate_all_paths_ahead(pos)
local tab = advtrains.occ.get_trains_over(pos) local tab = advtrains.occ.reverse_lookup_sel(pos, "first_ahead")
for id,index in pairs(tab) do for id,index in pairs(tab) do
local train = advtrains.trains[id] local train = advtrains.trains[id]