+/* $Id$
+
+This file is part of the MSP Märklin suite
+Copyright © 2006-2009 Mikkosoft Productions, Mikko Rasa
+Distributed under the GPL
+*/
+
#include "control.h"
#include "block.h"
#include "tracktype.h"
#include "trafficmanager.h"
#include "turnout.h"
-using namespace Msp;
-
-#include <iostream>
using namespace std;
+using namespace Msp;
namespace Marklin {
+unsigned Block::next_id = 1;
+
Block::Block(TrafficManager &tm, Track &start):
trfc_mgr(tm),
id(next_id++),
sensor_id(start.get_sensor_id()),
+ turnout_id(start.get_turnout_id()),
train(0)
{
tracks.insert(&start);
while(!queue.empty())
{
- Track *track=queue.front();
+ Track *track = queue.front();
queue.erase(queue.begin());
- const vector<Track *> &links=track->get_links();
+ const vector<Track *> &links = track->get_links();
for(unsigned i=0; i<links.size(); ++i)
if(links[i] && !tracks.count(links[i]))
{
- if(links[i]->get_sensor_id()==sensor_id)
+ if(links[i]->get_sensor_id()==sensor_id && links[i]->get_turnout_id()==turnout_id)
{
queue.push_back(links[i]);
tracks.insert(links[i]);
for(unsigned i=0; i<endpoints.size(); ++i)
{
- unsigned route=1<<i;
- endpoints[i].routes|=route;
+ unsigned path = 1<<i;
+ endpoints[i].paths |= path;
set<Track *> visited;
- find_routes(*endpoints[i].track, endpoints[i].track_ep, route, visited);
+ find_paths(*endpoints[i].track, endpoints[i].track_ep, path, visited);
}
}
return -1;
}
-int Block::traverse(unsigned epi, float *len) const
+unsigned Block::traverse(unsigned epi, float *len) const
{
if(epi>=endpoints.size())
throw InvalidParameterValue("Endpoint index out of range");
- const Endpoint &ep=endpoints[epi];
- Track *track=ep.track;
- unsigned track_ep=ep.track_ep;
+ const Endpoint &ep = endpoints[epi];
+ Track *track = ep.track;
+ unsigned track_ep = ep.track_ep;
if(len)
- *len=0;
+ *len = 0;
while(1)
{
- unsigned cur_route=0;
- unsigned tid=track->get_turnout_id();
+ unsigned cur_path = 0;
+ unsigned tid = track->get_turnout_id();
if(tid)
{
- Turnout &turnout=trfc_mgr.get_control().get_turnout(tid);
- cur_route=turnout.get_route();
+ Turnout &turnout = trfc_mgr.get_control().get_turnout(tid);
+ cur_path = turnout.get_path();
}
if(len)
- *len+=track->get_type().get_route_length(cur_route);
-
- int other_ep=track->traverse(track_ep, cur_route);
- if(other_ep<0)
- return -1;
+ *len += track->get_type().get_path_length(cur_path);
+ unsigned other_ep = track->traverse(track_ep, cur_path);
for(unsigned i=0; i<endpoints.size(); ++i)
if(endpoints[i].track==track && endpoints[i].track_ep==static_cast<unsigned>(other_ep))
return i;
- Track *next=track->get_link(other_ep);
- track_ep=next->get_endpoint_by_link(*track);
- track=next;
-
- if(tracks.count(track)==0)
- return -1;
+ Track *next = track->get_link(other_ep);
+ if(!tracks.count(next))
+ throw LogicError("Block traversal strayed out of the block");
+ track_ep = next->get_endpoint_by_link(*track);
+ track = next;
}
}
for(vector<Endpoint>::iterator j=other.endpoints.begin(); j!=other.endpoints.end(); ++j)
if(j->track==i->track->get_link(i->track_ep) && j->track->get_link(j->track_ep)==i->track && !j->link)
{
- i->link=&other;
- j->link=this;
+ i->link = &other;
+ j->link = this;
}
}
}
{
if(!t || !train)
{
- train=t;
- if(train)
- cout<<"Block "<<this<<" reserved for train "<<train->get_name()<<'\n';
- else
- cout<<"Block "<<this<<" freed\n";
+ train = t;
trfc_mgr.signal_block_reserved.emit(*this, train);
return true;
}
return false;
}
-void Block::print_debug()
-{
- cout<<"Block "<<id;
- if((*tracks.begin())->get_sensor_id())
- cout<<", sensor="<<(*tracks.begin())->get_sensor_id();
- cout<<'\n';
- for(vector<Endpoint>::iterator i=endpoints.begin(); i!=endpoints.end(); ++i)
- {
- cout<<" Endpoint, link=";
- if(i->link)
- cout<<i->link->id;
- else
- cout<<"none";
- cout<<", routes="<<i->routes<<'\n';
- }
-}
-
-void Block::find_routes(Track &track, unsigned track_ep, unsigned route, set<Track *> &visited)
+void Block::find_paths(Track &track, unsigned track_ep, unsigned path, set<Track *> &visited)
{
visited.insert(&track);
- const vector<Marklin::Endpoint> &eps=track.get_type().get_endpoints();
+ const vector<Marklin::Endpoint> &eps = track.get_type().get_endpoints();
for(unsigned i=0; i<eps.size(); ++i)
{
if(i==track_ep) continue;
- Track *link=track.get_link(i);
+ Track *link = track.get_link(i);
if(!link) continue;
if(visited.count(link)) continue;
- if(!(eps[i].routes&eps[track_ep].routes)) continue;
+ if(!(eps[i].paths&eps[track_ep].paths)) continue;
if(tracks.count(link))
- find_routes(*link, link->get_endpoint_by_link(track), route, visited);
+ find_paths(*link, link->get_endpoint_by_link(track), path, visited);
else
{
for(vector<Endpoint>::iterator j=endpoints.begin(); j!=endpoints.end(); ++j)
if(j->track==&track && j->track_ep==i)
- j->routes|=route;
+ j->paths |= path;
}
}
}
-unsigned Block::next_id=1;
-
Block::Endpoint::Endpoint(Track *t, unsigned e):
track(t),
track_ep(e),
link(0),
- routes(0)
+ paths(0)
{ }
} // namespace Marklin