diff options
Diffstat (limited to 'advtrains_interlocking')
-rw-r--r-- | advtrains_interlocking/database.lua | 68 |
1 files changed, 8 insertions, 60 deletions
diff --git a/advtrains_interlocking/database.lua b/advtrains_interlocking/database.lua index 6787c50..5f163e4 100644 --- a/advtrains_interlocking/database.lua +++ b/advtrains_interlocking/database.lua @@ -2,71 +2,19 @@ -- saving the location of TCB's, their neighbors and their state --[[ -== THIS COMMENT IS PARTIALLY INCORRECT AND OUTDATED! == - -The interlocking system is based on track circuits. -Track circuit breaks must be manually set by the user. Signals must be assigned to track circuit breaks and to a direction(connid). -To simplify the whole system, there is no overlap. -== Trains == -Trains always occupy certain track circuits. These are shown red in the signalbox view (TRAIN occupation entry). -== Database storage == -The things that are actually saved are the Track Circuit Breaks. Each TCB holds a list of the TCBs that are adjacent in each direction. -TC occupation/state is then saved inside each (TCB,Direction) and held in sync across all TCBs adjacent to this one. If something should not be in sync, -all entries are merged to perform the most restrictive setup. -== Traverser function == -To determine and update the list of neighboring TCBs, we need a traverser function. -It will start at one TCB in a specified direction (connid) and use get_adjacent_rail to crawl along the track. When encountering a turnout or a crossing, -it needs to branch(call itself recursively) to find all required TCBs. Those found TCBs are then saved in a list as tuples (TCB,Dir) -In the last step, they exchange their neighbors. -== TC states == -A track circuit does not have a state as such, but has more or less a list of "reservations" -type can be one of these: -TRAIN See Trains obove -ROUTE Route set from a signal, but no train has yet passed that signal. -Not implemented (see note by reversible): OWNED - former ROUTE segments that a train has begun passing (train_id assigned) - - Space behind a train up to the next signal, when a TC is set as REVERSIBLE -Certain TCs can be marked as "allow call-on". -== Route setting: == -Routes are set from a signal (the entry signal) to another signal facing the same direction (the exit signal) -Remember that signals are assigned to a TCB and a connid. -Whenever this is done, the following track circuits are set "reserved" by the train by saving the entry signal's ID: -- all TCs on the direct way of the route - set as ROUTE -Route setting fails whenever any TC that we want to set ROUTE to is already set ROUTE or TRAIN from another signal (except call-on, see below) -Apart from this, we need to set turnouts -- Turnouts on the track are set held as ROUTE -- Turnouts that purpose as flank protection are set held as FLANK (NOTE: left as an idea for later, because it's not clear how to do this properly without an engineer) -Note: In SimSig, it is possible to set a route into an still occupied section on the victoria line sim. (at the depot exit at seven sisters), although - there are still segments set ahead of the first train passing, remaining from another route. - Because our system will be able to remember "requested routes" and set them automatically once ready, this is not necessary here. -== Call-On/Multiple Trains == -It will be necessary to join and split trains using call-on routes. A call-on route may be set when: -- there are no ROUTE reservations -- there are TRAIN reservations only inside TCs that have "allow call-on" set -== TC Properties == -Note: Reversible property will not be implemented, assuming everything as non-rev. -This is sufficient to cover all use cases, and is done this way in reality. - REVERSIBLE - Whether trains are allowed to reverse while on track circuit - This property is supposed to be set for station tracks, where there is a signal at each end, and for sidings. - It should in no case be set for TCs covering turnouts, or for main running lines. - When a TC is not set as reversible, the OWNED status is cleared from the TC right after the train left it, - to allow other trains to pass it. - If it is set reversible, interlocking will keep the OWNED state behind the train up to the next signal, clearing it - as soon as the train passes another signal or enters a non-reversible section. -CALL_ON_ALLOWED - Whether this TC being blocked (TRAIN or ROUTE) does not prevent shunt routes being set through this TC -== More notes == -- It may not be possible to switch turnouts when their TC has any state entry - == Route releasing (TORR) == A train passing through a route happens as follows: Route set from entry to exit signal -Train passes entry signal and enters first TC past the signal --> Route from signal cleared (TCs remain locked) --> ROUTE status of first TC past signal cleared +Train passes entry signal and enters first TS past the signal +-> Route from signal cleared (TSs remain locked) +-> 'route' status of first TS past signal cleared +-> 'route_post' (holding the turnout locks) remains set Train continues along the route. -Whenever train leaves a TC +Whenever train leaves a TS -> Clearing any routes set from this TC outward recursively - see "Reversing problem" -Whenever train enters a TC --> Clear route status from the just entered TC +-> Free turnout locks and clear 'route_post' +Whenever train enters a TS +-> Clear route status from the just entered TC (but not route_post) Note that this prohibits by design that the train clears the route ahead of it. == Reversing Problem == Encountered at the Royston simulation in SimSig. It is solved there by imposing a time limit on the set route. Call-on routes can somehow be set anyway. |