Fabio/brouter
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions 1
brouter/brouter-mapaccess/src/main/java/btools/mapaccess/WaypointMatcherImpl.java
Arndt Brenschede 9e64eb39c4 refactored waypoint-matching into map-access-layer
2019-04-17 18:00:38 +02:00

157 lines
4.1 KiB
Java
Raw Blame History

package btools.mapaccess;
import java.util.List;
import btools.codec.WaypointMatcher;
import btools.mapaccess.OsmNode;
import btools.mapaccess.OsmNodePairSet;
import btools.util.CheapRuler;
/**
* the WaypointMatcher is feeded by the decoder with geoemtries of ways that are
* already check for allowed access according to the current routing profile
*
* It matches these geometries against the list of waypoints to find the best
* match for each waypoint
*/
public final class WaypointMatcherImpl implements WaypointMatcher
{
private List<MatchedWaypoint> waypoints;
private OsmNodePairSet islandPairs;
private int lonStart;
private int latStart;
private int lonTarget;
private int latTarget;
private boolean anyUpdate;
private int lonLast;
private int latLast;
public WaypointMatcherImpl( List<MatchedWaypoint> waypoints, double maxDistance, OsmNodePairSet islandPairs )
{
this.waypoints = waypoints;
this.islandPairs = islandPairs;
for ( MatchedWaypoint mwp : waypoints )
{
mwp.radius = maxDistance;
}
}
private void checkSegment( int lon1, int lat1, int lon2, int lat2 )
{
// todo: bounding-box pre-filter
double[] lonlat2m = CheapRuler.getLonLatToMeterScales( (lat1+lat2) >> 1 );
double dlon2m = lonlat2m[0];
double dlat2m = lonlat2m[1];
double dx = ( lon2 - lon1 ) * dlon2m;
double dy = ( lat2 - lat1 ) * dlat2m;
double d = Math.sqrt( dy * dy + dx * dx );
if ( d == 0. )
return;
for ( MatchedWaypoint mwp : waypoints )
{
OsmNode wp = mwp.waypoint;
double x1 = ( lon1 - wp.ilon ) * dlon2m;
double y1 = ( lat1 - wp.ilat ) * dlat2m;
double x2 = ( lon2 - wp.ilon ) * dlon2m;
double y2 = ( lat2 - wp.ilat ) * dlat2m;
double r12 = x1 * x1 + y1 * y1;
double r22 = x2 * x2 + y2 * y2;
double radius = Math.abs( r12 < r22 ? y1 * dx - x1 * dy : y2 * dx - x2 * dy ) / d;
if ( radius < mwp.radius )
{
double s1 = x1 * dx + y1 * dy;
double s2 = x2 * dx + y2 * dy;
if ( s1 < 0. )
{
s1 = -s1;
s2 = -s2;
}
if ( s2 > 0. )
{
radius = Math.sqrt( s1 < s2 ? r12 : r22 );
if ( radius > mwp.radius )
continue;
}
// new match for that waypoint
mwp.radius = radius; // shortest distance to way
mwp.hasUpdate = true;
anyUpdate = true;
// calculate crosspoint
if ( mwp.crosspoint == null )
mwp.crosspoint = new OsmNode();
if ( s2 < 0. )
{
double wayfraction = -s2 / ( d * d );
double xm = x2 - wayfraction * dx;
double ym = y2 - wayfraction * dy;
mwp.crosspoint.ilon = (int) ( xm / dlon2m + wp.ilon );
mwp.crosspoint.ilat = (int) ( ym / dlat2m + wp.ilat );
}
else if ( s1 > s2 )
{
mwp.crosspoint.ilon = lon2;
mwp.crosspoint.ilat = lat2;
}
else
{
mwp.crosspoint.ilon = lon1;
mwp.crosspoint.ilat = lat1;
}
}
}
}
@Override
public boolean start( int ilonStart, int ilatStart, int ilonTarget, int ilatTarget )
{
if ( islandPairs.size() > 0 )
{
long n1 = ( (long) ilonStart ) << 32 | ilatStart;
long n2 = ( (long) ilonTarget ) << 32 | ilatTarget;
if ( islandPairs.hasPair( n1, n2 ) )
{
return false;
}
}
lonLast = lonStart = ilonStart;
latLast = latStart = ilatStart;
lonTarget = ilonTarget;
latTarget = ilatTarget;
anyUpdate = false;
return true;
}
@Override
public void transferNode( int ilon, int ilat )
{
checkSegment( lonLast, latLast, ilon, ilat );
lonLast = ilon;
latLast = ilat;
}
@Override
public void end()
{
checkSegment( lonLast, latLast, lonTarget, latTarget );
if ( anyUpdate )
{
for ( MatchedWaypoint mwp : waypoints )
{
if ( mwp.hasUpdate )
{
mwp.hasUpdate = false;
mwp.node1 = new OsmNode( lonStart, latStart );
mwp.node2 = new OsmNode( lonTarget, latTarget );
}
}
}
}
}
Reference in a new issue View git blame Copy permalink