/* $Id$
This file is part of the MSP Märklin suite
-Copyright © 2006-2009 Mikkosoft Productions, Mikko Rasa
+Copyright © 2006-2010 Mikkosoft Productions, Mikko Rasa
Distributed under the GPL
*/
#include <cmath>
+#include "block.h"
+#include "catalogue.h"
+#include "driver.h"
+#include "layout.h"
#include "track.h"
#include "tracktype.h"
using namespace std;
using namespace Msp;
-#include <iostream>
-
namespace Marklin {
-Track::Track(const TrackType &t):
+Track::Track(Layout &l, const TrackType &t):
+ layout(l),
type(t),
+ block(0),
rot(0),
slope(0),
flex(false),
- turnout_id(0),
+ turnout_id(type.is_turnout() ? layout.allocate_turnout_id(type.is_double_address()) : 0),
sensor_id(0),
- links(t.get_endpoints().size())
-{ }
+ links(type.get_endpoints().size()),
+ active_path(0)
+{
+ layout.add_track(*this);
+
+ if(layout.has_driver())
+ layout.get_driver().signal_turnout.connect(sigc::mem_fun(this, &Track::turnout_event));
+
+ for(unsigned paths = type.get_paths(); !(paths&1); ++active_path, paths>>=1) ;
+}
Track::~Track()
{
break_links();
+ layout.remove_track(*this);
+}
+
+void Track::set_block(Block *b)
+{
+ if(b && !b->has_track(*this))
+ throw InvalidParameterValue("Track is not in the Block");
+ if(!b && block && block->has_track(*this))
+ throw InvalidState("Track is still in a Block");
+
+ block = b;
+}
+
+Block &Track::get_block() const
+{
+ if(!block)
+ throw InvalidState("No Block");
+
+ return *block;
}
void Track::set_position(const Point &p)
{
- pos=p;
+ pos = p;
}
void Track::set_rotation(float r)
{
- rot=r;
+ rot = r;
while(rot<0)
- rot+=M_PI*2;
+ rot += M_PI*2;
while(rot>M_PI*2)
- rot-=M_PI*2;
+ rot -= M_PI*2;
}
void Track::set_slope(float s)
{
- if(links.size()!=2) return;
+ if(links.size()!=2)
+ return;
- slope=s;
+ slope = s;
}
void Track::set_flex(bool f)
{
- flex=f;
+ flex = f;
+}
+
+void Track::check_slope()
+{
+ if(links.size()!=2)
+ return;
+
+ if(links[0] && links[1])
+ {
+ Point epp0 = links[0]->get_endpoint_position(links[0]->get_endpoint_by_link(*this));
+ Point epp1 = links[1]->get_endpoint_position(links[1]->get_endpoint_by_link(*this));
+ pos.z = epp0.z;
+ slope = epp1.z-pos.z;
+ }
+ else
+ {
+ slope = 0;
+ if(links[0])
+ {
+ Point epp = links[0]->get_endpoint_position(links[0]->get_endpoint_by_link(*this));
+ pos.z = epp.z;
+ }
+ else if(links[1])
+ {
+ Point epp = links[1]->get_endpoint_position(links[1]->get_endpoint_by_link(*this));
+ pos.z = epp.z;
+ }
+ }
}
void Track::set_turnout_id(unsigned i)
{
- turnout_id=i;
+ if(!type.is_turnout())
+ throw InvalidState("Not a turnout");
+
+ turnout_id = i;
+ layout.create_blocks(*this);
+ layout.update_routes();
+ if(layout.has_driver() && turnout_id)
+ {
+ layout.get_driver().add_turnout(turnout_id);
+ if(type.is_double_address())
+ layout.get_driver().add_turnout(turnout_id+1);
+ }
}
void Track::set_sensor_id(unsigned i)
{
- sensor_id=i;
+ if(type.is_turnout())
+ throw InvalidState("Can't set sensor on a turnout");
+
+ sensor_id = i;
+ layout.create_blocks(*this);
+ if(layout.has_driver() && sensor_id)
+ layout.get_driver().add_sensor(sensor_id);
+}
+
+void Track::set_active_path(unsigned p)
+{
+ if(!turnout_id)
+ throw InvalidState("Not a turnout");
+ if(!(type.get_paths()&(1<<p)))
+ throw InvalidParameterValue("Invalid path");
+
+ layout.get_driver().set_turnout(turnout_id, p&1);
+ if(type.is_double_address())
+ layout.get_driver().set_turnout(turnout_id+1, p&2);
+ else if(type.get_n_paths()>2)
+ active_path = (active_path&1) | (p&2);
}
-int Track::get_endpoint_by_link(const Track &other) const
+int Track::get_endpoint_by_link(Track &other) const
{
for(unsigned i=0; i<links.size(); ++i)
if(links[i]==&other)
Point Track::get_endpoint_position(unsigned epi) const
{
- const vector<Endpoint> &eps=type.get_endpoints();
+ const vector<TrackType::Endpoint> &eps = type.get_endpoints();
if(epi>=eps.size())
- throw InvalidParameterValue("Endpoint index out of range");
+ throw InvalidParameterValue("TrackType::Endpoint index out of range");
- const Endpoint &ep=eps[epi];
+ const TrackType::Endpoint &ep = eps[epi];
- float c=cos(rot);
- float s=sin(rot);
+ float c = cos(rot);
+ float s = sin(rot);
Point p(pos.x+c*ep.pos.x-s*ep.pos.y, pos.y+s*ep.pos.x+c*ep.pos.y, pos.z);
if(eps.size()==2 && epi==1)
- p.z+=slope;
+ p.z += slope;
return p;
}
float Track::get_endpoint_direction(unsigned epi) const
{
- const vector<Endpoint> &eps=type.get_endpoints();
+ const vector<TrackType::Endpoint> &eps = type.get_endpoints();
if(epi>=eps.size())
- throw InvalidParameterValue("Endpoint index out of range");
+ throw InvalidParameterValue("TrackType::Endpoint index out of range");
- const Endpoint &ep=eps[epi];
+ const TrackType::Endpoint &ep = eps[epi];
return rot+ep.dir;
}
-bool Track::snap_to(Track &other, bool link)
+bool Track::snap_to(Track &other, bool link, float limit)
{
- float limit=(link && !flex) ? 1e-6 : 1e-4;
- const vector<Endpoint> &eps=type.get_endpoints();
- const vector<Endpoint> &other_eps=other.get_type().get_endpoints();
+ if(!limit || link)
+ {
+ limit = layout.get_catalogue().get_gauge();
+ if(link && !flex && !other.get_flex())
+ limit /= 10;
+ }
+ limit *= limit;
+
+ const vector<TrackType::Endpoint> &eps = type.get_endpoints();
+ const vector<TrackType::Endpoint> &other_eps = other.get_type().get_endpoints();
for(unsigned i=0; i<eps.size(); ++i)
{
- Point epp=get_endpoint_position(i);
+ Point epp = get_endpoint_position(i);
for(unsigned j=0; j<other_eps.size(); ++j)
{
if(other.get_link(j))
continue;
- Point epp2=other.get_endpoint_position(j);
- float dx=epp2.x-epp.x;
- float dy=epp2.y-epp.y;
- if(dx*dx+dy*dy<limit)
+ Point epp2 = other.get_endpoint_position(j);
+ float dx = epp2.x-epp.x;
+ float dy = epp2.y-epp.y;
+ float dz = epp2.z-epp.z;
+ if(dx*dx+dy*dy<limit && dz*dz<limit)
{
- set_rotation(other.rot+other_eps[j].dir-eps[i].dir+M_PI);
- set_position(Point(epp2.x-(eps[i].pos.x*cos(rot)-eps[i].pos.y*sin(rot)), epp2.y-(eps[i].pos.y*cos(rot)+eps[i].pos.x*sin(rot)), epp2.z));
+ if(!link || (!flex && !other.get_flex()))
+ {
+ set_rotation(other.rot+other_eps[j].dir-eps[i].dir+M_PI);
+ Point p(epp2.x-(eps[i].pos.x*cos(rot)-eps[i].pos.y*sin(rot)),
+ epp2.y-(eps[i].pos.y*cos(rot)+eps[i].pos.x*sin(rot)),
+ epp2.z);
+ if(eps.size()==2 && i==1)
+ p.z -= slope;
+ set_position(p);
+ }
if(link)
{
if(links[i])
break_link(*links[i]);
- links[i]=&other;
- other.links[j]=this;
+ links[i] = &other;
+ other.links[j] = this;
+ layout.create_blocks(*this);
}
return true;
bool Track::snap(Point &pt, float &d) const
{
- const vector<Endpoint> &eps=type.get_endpoints();
+ const vector<TrackType::Endpoint> &eps = type.get_endpoints();
for(unsigned i=0; i<eps.size(); ++i)
{
- Point epp=get_endpoint_position(i);
- float dx=pt.x-epp.x;
- float dy=pt.y-epp.y;
+ Point epp = get_endpoint_position(i);
+ float dx = pt.x-epp.x;
+ float dy = pt.y-epp.y;
if(dx*dx+dy*dy<1e-4)
{
- pt=epp;
- d=rot+eps[i].dir;
+ pt = epp;
+ d = rot+eps[i].dir;
return true;
}
}
for(vector<Track *>::iterator i=links.begin(); i!=links.end(); ++i)
if(*i==&trk)
{
- *i=0;
+ *i = 0;
trk.break_link(*this);
+ // XXX Creates the blocks twice
+ layout.create_blocks(*this);
return;
}
}
for(vector<Track *>::iterator i=links.begin(); i!=links.end(); ++i)
if(Track *trk=*i)
{
- *i=0;
+ *i = 0;
trk->break_link(*this);
}
}
return links[i];
}
-void Track::check_slope()
+TrackPoint Track::get_point(unsigned epi, unsigned path, float d) const
{
- if(links.size()!=2)
- return;
+ TrackPoint p = type.get_point(epi, path, d);
+ float c = cos(rot);
+ float s = sin(rot);
- if(links[0] && links[1])
- {
- Point epp0=links[0]->get_endpoint_position(links[0]->get_endpoint_by_link(*this));
- Point epp1=links[1]->get_endpoint_position(links[1]->get_endpoint_by_link(*this));
- pos.z=epp0.z;
- slope=epp1.z-pos.z;
- }
- else
+ p.pos = Point(pos.x+c*p.pos.x-s*p.pos.y, pos.y+s*p.pos.x+c*p.pos.y, pos.z);
+ p.dir += rot;
+ if(type.get_endpoints().size()==2)
{
- slope=0;
- if(links[0])
+ float len = type.get_path_length(path);
+ float grade = slope/len;
+ if(epi==0)
{
- Point epp=links[0]->get_endpoint_position(links[0]->get_endpoint_by_link(*this));
- pos.z=epp.z;
+ p.pos.z += grade*d;
+ p.grade = grade;
}
- else if(links[1])
+ else
{
- Point epp=links[1]->get_endpoint_position(links[1]->get_endpoint_by_link(*this));
- pos.z=epp.z;
+ p.pos.z += slope-grade*d;
+ p.grade = -grade;
}
}
+
+ return p;
}
-int Track::traverse(unsigned i, unsigned route) const
+TrackPoint Track::get_point(unsigned epi, float d) const
{
- const vector<Endpoint> &eps=type.get_endpoints();
- if(i>=eps.size())
- throw InvalidParameterValue("Endpoint index out of range");
-
- const Endpoint &ep=eps[i];
-
- if(ep.routes&(1<<route))
- {
- // Find the other endpoint for this route
- for(unsigned j=0; j<eps.size(); ++j)
- if((eps[j].routes&(1<<route)) && j!=i)
- return j;
- }
- else
- {
- // Find an endpoint that's connected to this one and has the requested route
- for(unsigned j=0; j<eps.size(); ++j)
- if((eps[j].routes&(1<<route)) && (eps[j].routes&ep.routes))
- return j;
- }
+ return get_point(epi, active_path, d);
+}
- return -1;
+void Track::save(list<DataFile::Statement> &st) const
+{
+ st.push_back((DataFile::Statement("position"), pos.x, pos.y, pos.z));
+ st.push_back((DataFile::Statement("rotation"), rot));
+ st.push_back((DataFile::Statement("slope"), slope));
+ if(turnout_id)
+ st.push_back((DataFile::Statement("turnout_id"), turnout_id));
+ if(sensor_id)
+ st.push_back((DataFile::Statement("sensor_id"), sensor_id));
+ if(flex)
+ st.push_back((DataFile::Statement("flex"), true));
}
-Point Track::get_point(unsigned epi, unsigned route, float d) const
+void Track::turnout_event(unsigned addr, bool state)
{
- const vector<Endpoint> &eps=type.get_endpoints();
- if(epi>=eps.size())
- throw InvalidParameterValue("Endpoint index out of range");
+ if(!turnout_id)
+ return;
- float x=eps[epi].pos.x;
- float y=eps[epi].pos.y;
+ if(addr==turnout_id)
+ active_path = (active_path&2) | (state ? 1 : 0);
+ else if(type.is_double_address() && addr==turnout_id+1)
+ active_path = (active_path&1) | (state ? 2 : 0);
+ else
+ return;
- const vector<TrackPart> &parts=type.get_parts();
- const TrackPart *last_part=0;
- while(1)
- {
- for(vector<TrackPart>::const_iterator i=parts.begin(); i!=parts.end(); ++i)
- {
- if((eps[epi].routes&(1<<route)) && i->route!=route)
- continue;
- if(&*i==last_part)
- continue;
+ signal_path_changed.emit(active_path);
+}
- vector<Endpoint> part_eps;
- i->collect_endpoints(part_eps);
- for(unsigned j=0; j<part_eps.size(); ++j)
- {
- float dx=part_eps[j].pos.x-x;
- float dy=part_eps[j].pos.y-y;
- if(dx*dx+dy*dy<1e-6)
- {
- float plen=i->length;
- if(i->radius)
- plen*=abs(i->radius);
- if(d<plen)
- {
- if(j==1)
- d=plen-d;
- Point p=i->get_point(d);
- float c=cos(rot);
- float s=sin(rot);
- return Point(pos.x+c*p.x-s*p.y, pos.y+c*p.y+s*p.x);
- }
- else if(part_eps.size()>1)
- {
- d-=plen;
- x=part_eps[1-j].pos.x;
- y=part_eps[1-j].pos.y;
- last_part=&*i;
- i=parts.begin();
- break;
- }
- else
- return pos;
- }
- }
- }
- if(!last_part)
- throw Exception("Internal error (Endpoint does not match any part)");
- else
- return pos;
- }
+Track::Loader::Loader(Track &t):
+ DataFile::BasicLoader<Track>(t)
+{
+ add("position", &Loader::position);
+ add("rotation", &Track::rot);
+ add("slope", &Track::slope);
+ add("turnout_id", &Loader::turnout_id);
+ add("sensor_id", &Loader::sensor_id);
+ add("flex", &Track::flex);
}
-Track *Track::copy() const
+void Track::Loader::position(float x, float y, float z)
{
- Track *trk=new Track(type);
- trk->set_position(pos);
- trk->set_rotation(rot);
- trk->set_slope(slope);
- trk->set_flex(flex);
-
- return trk;
+ obj.pos = Point(x, y, z);
}
-/*******************
-** Track::Loader
-*/
-
-Track::Loader::Loader(Track &t):
- track(t)
+void Track::Loader::sensor_id(unsigned id)
{
- add("position", &Loader::position);
- add("rotation", &Track::rot);
- add("slope", &Track::slope);
- add("turnout_id", &Track::turnout_id);
- add("sensor_id", &Track::sensor_id);
- add("flex", &Track::flex);
+ obj.set_sensor_id(id);
}
-void Track::Loader::position(float x, float y, float z)
+void Track::Loader::turnout_id(unsigned id)
{
- track.pos=Point(x, y, z);
+ obj.set_turnout_id(id);
}
} // namespace Marklin