for(vector<TrainRoutingInfo>::iterator i=routed_trains.begin(); i!=routed_trains.end(); ++i)
{
for(list<Route *>::iterator j=i->routes.begin(); j!=i->routes.end(); ++j)
for(vector<TrainRoutingInfo>::iterator i=routed_trains.begin(); i!=routed_trains.end(); ++i)
{
for(list<Route *>::iterator j=i->routes.begin(); j!=i->routes.end(); ++j)
const TrainRoutingState *current_wait = 0;
for(list<const TrainRoutingState *>::const_iterator j=i->waits.begin(); j!=i->waits.end(); ++j)
if(!current_wait || (*j)->track.track()!=current_wait->track.track())
const TrainRoutingState *current_wait = 0;
for(list<const TrainRoutingState *>::const_iterator j=i->waits.begin(); j!=i->waits.end(); ++j)
if(!current_wait || (*j)->track.track()!=current_wait->track.track())
- {
- Time::TimeDelta t = time+(i->remaining_estimate/i->info->speed)*Time::sec+i->delay;
- if(i==trains.begin() || t>total_estimate)
- total_estimate = t;
- }
+ if(i->remaining_estimate>=0)
+ cost_estimate += i->wait_time+((i->distance_traveled+i->remaining_estimate)/i->info->speed)*Time::sec;
for(vector<TrainRoutingState>::const_iterator i=trains.begin(); i!=trains.end(); ++i)
if(i->remaining_estimate<0)
return false;
for(vector<TrainRoutingState>::const_iterator i=trains.begin(); i!=trains.end(); ++i)
if(i->remaining_estimate<0)
return false;