TrainRouter::TrainRouter(Train &t):
TrainAI(t),
priority(0),
- arriving(0),
+ arrival(ON_THE_WAY),
destination(0),
destination_changed(false),
metrics_stale(false),
{
train.get_layout().signal_block_reserved.connect(sigc::mem_fun(this, &TrainRouter::block_reserved));
train.signal_advanced.connect(sigc::mem_fun(this, &TrainRouter::train_advanced));
+ train.signal_rear_advanced.connect(sigc::mem_fun(this, &TrainRouter::train_rear_advanced));
}
TrainRouter::~TrainRouter()
routes.clear();
if(lead)
routes.push_back(lead);
+ // TODO Check if eclipsed by lead route
if(r)
routes.push_back(r);
bool already_at_end = false;
if(!routes.empty())
{
+ /* Find the route that should be used for the next allocated block. We
+ can't rely on the resync code in block_reserved since we may need to
+ clear the stop marker to continue allocation. */
TrackIter track = train.get_block_allocator().first().track_iter();
for(; track; track=track.next())
{
if(!already_at_end)
{
- train.stop_at(0);
+ // We are not at the end of the route now, but might have been before.
+ arrival = ON_THE_WAY;
+ train.refresh_blocks_from(*fncb);
+ if(!arrival)
+ train.stop_at(0);
+ }
+ else if(!arrival)
+ {
+ /* If arrival wasn't set before (perhaps because we weren't on a route),
+ set it now. */
+ arrival = RESERVED_TO_END;
+ train.stop_at(&*fncb.flip());
train.refresh_blocks_from(*fncb);
}
destination_changed = true;
}
+void TrainRouter::set_trip_duration(const Time::TimeDelta &d)
+{
+ duration = d;
+}
+
void TrainRouter::message(const Message &msg)
{
if(msg.type=="set-route")
}
else if(msg.type=="set-departure-delay")
set_departure_delay(msg.value.value<Time::TimeDelta>());
+ else if(msg.type=="set-trip-duration")
+ set_trip_duration(msg.value.value<Time::TimeDelta>());
}
void TrainRouter::tick(const Time::TimeDelta &dt)
if(delay)
{
delay -= dt;
- if(delay<=Time::zero)
+ if(delay<Time::zero)
+ {
+ duration = max(duration+delay, Time::zero);
delay = Time::zero;
+ }
}
+ else if(duration)
+ duration = max(duration-dt, Time::zero);
- if(destination_changed)
+ if(destination_changed && !planner)
+ start_planning(train.get_layout());
+
+ if(planner && planner->check()!=TrainRoutePlanner::PENDING)
{
- if(!planner)
- start_planning(train.get_layout());
- else if(planner->get_result()!=TrainRoutePlanner::PENDING)
+ destination_changed = false;
+ if(planner->get_result()==TrainRoutePlanner::COMPLETE)
{
- destination_changed = false;
- if(planner->get_result()==TrainRoutePlanner::COMPLETE)
+ const list<Route *> &planned_routes = planner->get_routes_for(train);
+
+ routes.clear();
+ Route *lead = create_lead_route(0, planned_routes.front());
+ routes.push_back(lead);
+
+ list<Route *>::const_iterator begin = planned_routes.begin();
+ for(; begin!=planned_routes.end(); ++begin)
{
- const list<Route *> &planned_routes = planner->get_routes_for(train);
- routes.clear();
- routes.push_back(create_lead_route(0, planned_routes.front()));
- routes.insert(routes.end(), planned_routes.begin(), planned_routes.end());
- sequence_points = planner->get_sequence_for(train);
- current_sequence = 0;
- sequence_check_pending = false;
-
- route_changed();
+ const Route::TrackSet &tracks = (*begin)->get_tracks();
+ bool eclipsed = true;
+ for(Route::TrackSet::const_iterator i=tracks.begin(); (eclipsed && i!=tracks.end()); ++i)
+ eclipsed = lead->has_track(**i);
+ if(!eclipsed)
+ break;
}
- planner = 0;
+ routes.insert(routes.end(), begin, planned_routes.end());
+
+ sequence_points = planner->get_sequence_for(train);
+ current_sequence = 0;
+ sequence_check_pending = false;
+
+ route_changed();
}
+ planner = 0;
}
if(sequence_check_pending)
sequence_check_pending = false;
}
- if(arriving==1 && !train.get_speed())
+ if(arrival==RESERVED_TO_END && !train.get_speed())
{
signal_arrived.emit(destination);
signal_event.emit(Message("arrived", destination));
- arriving = 2;
+ arrival = ARRIVED;
}
- else if(arriving==2 && !train.get_block_allocator().is_active())
+ else if(arrival==ARRIVED && !train.get_block_allocator().is_active())
set_route(0);
}
if(!t)
return;
+ // Are we waiting for the other train to pass a sequence point?
SequencePoint &sp = sequence_points.front();
if(sp.preceding_train==t && sp.block==&block)
- {
- if(sp.is_cleared())
- train.stop_at(0);
- else
- sequence_check_pending = true;
- }
+ /* The other train's router will advance its sequence on the same
+ signal and may not have handled it yet. */
+ sequence_check_pending = true;
return;
}
+ // Did we reach our next sequence point?
if(!sequence_points.empty())
{
SequencePoint &sp = sequence_points.front();
TrackIter track = train.get_block_allocator().iter_for(block).track_iter();
- // Is the block a turnout? If so, set it to the proper path.
+ // Is the block a turnout? If it is, set it to the correct path.
if(unsigned taddr = block.get_turnout_address())
{
int path = (*reserving_route)->get_turnout(taddr);
track->set_active_path(path);
}
+ /* If the allocator has released blocks from the front, we may need to
+ resync reserving_route. */
if(reserving_route==routes.end() || !(*reserving_route)->has_track(*track))
{
reserving_route = routes.begin();
+ arrival = ON_THE_WAY;
track = t->get_block_allocator().first().track_iter();
for(; track; track=track.next())
{
}
}
- // Do we need to move to the next route?
+ /* Keep reserving_route pointing to the route containing the block that is
+ expected to be allocated next. */
for(; track; track=track.next((*reserving_route)->get_path(*track)))
{
if(!advance_to_track(reserving_route, *track))
{
+ // We've reached the end of the route. Stop here.
+ arrival = RESERVED_TO_END;
train.stop_at(&block);
return;
}
break;
}
+ // Do we need to wait for another train to pass?
if(!sequence_points.empty())
{
SequencePoint &sp = sequence_points.front();
{
BlockIter b_iter = train.get_block_allocator().iter_for(block);
- // Check if we've reached the next route
- if(routes.size()>1)
- {
- Track &track = *b_iter.endpoint().track;
- const Route *route = get_route();
- bool change_route = false;
- if(route->is_loop())
- change_route = (*++routes.begin())->has_track(track);
- else
- change_route = !route->has_track(track);
-
- if(change_route)
- {
- routes.pop_front();
- route = get_route();
- // XXX Exceptions?
- signal_route_changed.emit(route);
- signal_event.emit(Message("route-changed", route));
- }
- }
-
if(!waypoints.empty())
{
+ // A waypoint is considered reached when the train has advanced through it.
const TrackChain &wp = *waypoints.front();
TrackIter t_iter = b_iter.track_iter();
if(wp.has_track(*t_iter))
}
}
}
+}
- if(!routes.empty())
- {
- b_iter = b_iter.next();
- if(b_iter && !is_on_route(*b_iter))
- arriving = 1;
- }
+void TrainRouter::train_rear_advanced(Block &block)
+{
+ Track &track = *train.get_block_allocator().iter_for(block).endpoint().track;
+
+ // Drop any routes that are now completely behind the train.
+ for(RouteList::iterator i=routes.begin(); i!=routes.end(); ++i)
+ if((*i)->has_track(track))
+ {
+ if(i!=routes.begin())
+ {
+ routes.erase(routes.begin(), i);
+ const Route *route = get_route();
+ signal_route_changed.emit(route);
+ signal_event.emit(Message("route-changed", route));
+ }
+ break;
+ }
}
void TrainRouter::create_metrics()
lead->set_temporary(true);
}
- bool target_reached = false;
- for(TrackIter i=train.get_block_allocator().first().track_iter(); i; i=i.next())
+ bool target_tracks = 0;
+ for(TrackIter i=train.get_block_allocator().first().track_iter(); (target_tracks<2 && i); i=i.next())
{
if(i->get_block().get_train()!=&train)
break;
if(target)
{
if(target->has_track(*i))
- target_reached = true;
- else if(target_reached)
+ ++target_tracks;
+ else if(target_tracks>0)
break;
}
lead->add_track(*i);
router->planner = planner;
}
- planner->plan();
+ planner->plan_async();
}