layout.add_train(*this);
- layout.get_driver().add_loco(address, protocol, loco_type);
+ loco_id = layout.get_driver().add_loco(address, protocol, loco_type);
layout.get_driver().signal_loco_speed.connect(sigc::mem_fun(this, &Train::loco_speed_event));
layout.get_driver().signal_loco_function.connect(sigc::mem_fun(this, &Train::loco_func_event));
{
if(!loco_type.get_functions().count(func))
throw invalid_argument("Train::set_function");
- layout.get_driver().set_loco_function(address, func, state);
+ layout.get_driver().set_loco_function(loco_id, func, state);
}
float Train::get_control(const string &ctrl) const
(*i)->message(msg);
}
-void Train::place(const BlockIter &block)
+bool Train::place(const BlockIter &block)
{
if(!block)
throw invalid_argument("Train::place");
if(controller->get_speed())
throw logic_error("moving");
- allocator.start_from(block);
accurate_position = false;
last_entry_block = BlockIter();
- if(reverse)
- vehicles.front()->place(block.reverse().track_iter(), VehiclePlacement::FRONT_BUFFER);
+ if(allocator.start_from(block))
+ {
+ if(reverse)
+ vehicles.front()->place(block.reverse().track_iter(), VehiclePlacement::FRONT_BUFFER);
+ else
+ vehicles.back()->place(block.track_iter(), VehiclePlacement::BACK_BUFFER);
+ return true;
+ }
else
- vehicles.back()->place(block.track_iter(), VehiclePlacement::BACK_BUFFER);
+ {
+ unplace();
+ return false;
+ }
}
void Train::unplace()
dist += i->get_path_length(i.entry());
- if(i->get_sensor_id())
+ if(i->get_sensor_address())
sensor_seen = true;
}
bool r = reverse;
if(loco_type.get_swap_direction())
r = !r;
- driver.set_loco_reverse(address, r);
+ driver.set_loco_reverse(loco_id, r);
allocator.reverse();
last_entry_block = BlockIter();
if(speed_step!=current_speed_step && !speed_changing && !driver.is_halted() && driver.get_power())
{
speed_changing = true;
- driver.set_loco_speed(address, speed_step);
+ driver.set_loco_speed(loco_id, speed_step);
pure_speed = false;
}
signal_control_changed.emit(ctrl.name, ctrl.value);
}
-void Train::loco_speed_event(unsigned addr, unsigned speed, bool rev)
+void Train::loco_speed_event(unsigned id, unsigned speed, bool rev)
{
- if(addr==address)
+ if(id==loco_id)
{
current_speed_step = speed;
bool r = reverse;
if(loco_type.get_swap_direction())
r = !r;
if(rev!=r)
- layout.get_driver().set_loco_reverse(address, r);
+ layout.get_driver().set_loco_reverse(loco_id, r);
speed_changing = false;
pure_speed = false;
}
}
-void Train::loco_func_event(unsigned addr, unsigned func, bool state)
+void Train::loco_func_event(unsigned id, unsigned func, bool state)
{
- if(addr==address)
+ if(id==loco_id)
{
if(state)
functions |= 1<<func;
if(last_entry_block && &*last_entry_block!=block)
{
for(BlockIter i=last_entry_block.next(); (i && &*i!=block); i=i.next())
- if(i->get_train()!=this || i->get_sensor_id())
+ if(i->get_train()!=this || i->get_sensor_address())
return;
}
if(reverse)
track = track.reverse();
else
- result = track->get_type().get_path_length(track->get_active_path())-result;
+ result = track->get_path_length()-result;
result -= veh.get_type().get_length()/2;
BlockIter block = track.block_iter();
// Count remaining distance in the vehicle's current block
for(track=track.next(); &track->get_block()==&*block; track=track.next())
- result += track->get_type().get_path_length(track->get_active_path());
+ result += track->get_path_length();
const BlockIter &last = allocator.last();
if(&*block==&*last)
void Train::Loader::vehicle(ArticleNumber art_nr)
{
- const VehicleType &vtype = obj.layout.get_catalogue().get_vehicle(art_nr);
+ const VehicleType &vtype = obj.layout.get_catalogue().get<VehicleType>(art_nr);
Vehicle *veh = new Vehicle(obj.layout, vtype);
obj.vehicles.back()->attach_back(*veh);
obj.vehicles.push_back(veh);