layout.get_driver().signal_halt.connect(sigc::mem_fun(this, &Train::halt_event));
- control->signal_control_changed.connect(signal_control_changed);
+ control->signal_control_changed.connect(sigc::mem_fun(this, &Train::control_changed));
}
Train::~Train()
layout.get_driver().set_loco_function(address+1, func-4, state);
}
+float Train::get_control(const string &ctrl) const
+{
+ return control->get_control(ctrl).value;
+}
+
+float Train::get_speed() const
+{
+ return control->get_speed();
+}
+
bool Train::get_function(unsigned func) const
{
return (functions>>func)&1;
timetable->tick(t);
control->tick(dt);
float speed = control->get_speed();
- unsigned speed_notch = find_speed(abs(speed));
+ unsigned speed_notch = find_speed(speed);
if(control->get_reverse()!=reverse)
{
}
}
}
- else if(end_of_route)
+ else if(end_of_route && rsv_blocks.empty())
+ {
+ signal_arrived.emit();
set_route(0);
+ }
if(!cur_blocks.empty() && !cur_blocks.front().block->get_sensor_id())
{
}
}
+void Train::control_changed(const TrainControl &ctrl)
+{
+ signal_control_changed.emit(ctrl.name, ctrl.value);
+}
+
void Train::loco_speed_event(unsigned addr, unsigned speed, bool)
{
if(addr==address)
// Try to get more blocks if we're moving
if(active)
- {
- unsigned nsens = reserve_more();
- if(!nsens && end_of_route)
- signal_arrived.emit();
- }
+ reserve_more();
}
else if(result==3)
layout.emergency("Sensor for "+name+" triggered out of order");
unsigned good_sens = nsens;
while(good_sens<3)
{
- if(last->block->get_endpoints().size()<2)
- {
- good = last;
- good_sens = nsens;
- break;
- }
-
// Traverse to the next block
unsigned exit = last->block->traverse(last->entry);
Block *link = last->block->get_link(exit);
else if(route && route->get_tracks().count(entry_ep.track))
cur_route = route;
+ if(link->get_endpoints().size()<2)
+ {
+ good = last;
+ good_sens = nsens;
+ break;
+ }
+
bool reserved = link->reserve(this);
if(!reserved)
{
Train::Loader::Loader(Train &t):
DataFile::BasicLoader<Train>(t),
- prev_block(0)
+ prev_block(0),
+ blocks_valid(true)
{
add("block", &Loader::block);
add("block_hint", &Loader::block_hint);
add("vehicle", &Loader::vehicle);
}
+void Train::Loader::finish()
+{
+ if(!obj.cur_blocks.empty())
+ {
+ const BlockRef &blkref = obj.cur_blocks.front();
+ const Block::Endpoint &bep = blkref.block->get_endpoints()[blkref.entry];
+ obj.vehicles.back()->place(bep.track, bep.track_ep, 0, Vehicle::BACK_BUFFER);
+
+ obj.set_status("Stopped");
+ }
+}
+
void Train::Loader::block(unsigned id)
{
- Block &blk = obj.layout.get_block(id);
+ if(!blocks_valid)
+ return;
+
+ Block *blk;
+ try
+ {
+ blk = &obj.layout.get_block(id);
+ }
+ catch(const KeyError &)
+ {
+ blocks_valid = false;
+ return;
+ }
+
int entry = -1;
if(prev_block)
- entry = blk.get_endpoint_by_link(*prev_block);
+ entry = blk->get_endpoint_by_link(*prev_block);
if(entry<0)
entry = 0;
- blk.reserve(&obj);
- obj.cur_blocks.push_back(BlockRef(&blk, entry));
- obj.set_status("Stopped");
- const Block::Endpoint &bep = blk.get_endpoints()[entry];
- obj.vehicles.front()->place(bep.track, bep.track_ep, 0, Vehicle::BACK_BUFFER);
+ blk->reserve(&obj);
+ obj.cur_blocks.push_back(BlockRef(blk, entry));
- if(blk.get_sensor_id())
- obj.layout.get_driver().set_sensor(blk.get_sensor_id(), true);
+ if(blk->get_sensor_id())
+ obj.layout.get_driver().set_sensor(blk->get_sensor_id(), true);
- prev_block = &blk;
+ prev_block = blk;
}
void Train::Loader::block_hint(unsigned id)
{
- prev_block = &obj.layout.get_block(id);
+ try
+ {
+ prev_block = &obj.layout.get_block(id);
+ }
+ catch(const KeyError &)
+ {
+ blocks_valid = false;
+ }
}
void Train::Loader::name(const string &n)