Fix a small bug in lat computation in CheapRulerSingleton and update

according to latest master branch.

brouter-core/src/main/java/btools/router/OsmNodeNamed.java

@@ -28,9 +28,8 @@ public class OsmNodeNamed extends OsmNode
   public double distanceWithinRadius(int lon1, int lat1, int lon2, int lat2, double totalSegmentLength) {
     double[] lonlat2m = CheapRulerSingleton.getLonLatToMeterScales( (lat1 + lat2) >> 1 );
 
-    double realRadius = radius * 110984.;
-    boolean isFirstPointWithinCircle = CheapRulerSingleton.distance(lon1, lat1, ilon, ilat) < realRadius;
-    boolean isLastPointWithinCircle = CheapRulerSingleton.distance(lon2, lat2, ilon, ilat) < realRadius;
+    boolean isFirstPointWithinCircle = CheapRulerSingleton.distance(lon1, lat1, ilon, ilat) < radius;
+    boolean isLastPointWithinCircle = CheapRulerSingleton.distance(lon2, lat2, ilon, ilat) < radius;
     // First point is within the circle
     if (isFirstPointWithinCircle) {
       // Last point is within the circle
@@ -62,7 +61,7 @@ public class OsmNodeNamed extends OsmNode
     double initialToCenter = CheapRulerSingleton.distance(ilon, ilat, lon1, lat1);
     // Half length of the segment within the circle
     double halfDistanceWithin = Math.sqrt(
-      realRadius*realRadius - (
+      radius*radius - (
         initialToCenter*initialToCenter -
         initialToProject*initialToProject
       )

brouter-core/src/main/java/btools/router/RoutingContext.java

@@ -426,7 +426,7 @@ public final class RoutingContext
 
     double dd = Math.sqrt( (dx10*dx10 + dy10*dy10)*(dx21*dx21 + dy21*dy21) );
     if ( dd == 0. ) { cosangle = 1.; return 0.; }
-    double sinp = (dy10*dy21 - dx10*dx21)/dd;
+    double sinp = (dx10*dy21 - dy10*dx21)/dd;
     double cosp = (dy10*dy21 + dx10*dx21)/dd;
     cosangle = cosp;
 

brouter-core/src/test/java/btools/router/OsmNodeNamedTest.java

@@ -29,7 +29,7 @@ public class OsmNodeNamedTest {
     node.ilon = toOsmLon(2.334243);
     node.ilat = toOsmLat(48.824017);
     // Radius
-    node.radius = 30 / 110984.;
+    node.radius = 30;
 
     // Check distance within radius is correctly computed if the segment passes through the center
     lon1 = toOsmLon(2.332559);
@@ -39,9 +39,9 @@ public class OsmNodeNamedTest {
     double totalSegmentLength = CheapRulerSingleton.distance(lon1, lat1, lon2, lat2);
     assertEquals(
       "Works for segment aligned with the nogo center",
-      2 * node.radius * 110984.,
+      2 * node.radius,
       node.distanceWithinRadius(lon1, lat1, lon2, lat2, totalSegmentLength),
-      0.01 * (2 * node.radius * 110984.)
+      0.01 * (2 * node.radius)
     );
 
     // Check distance within radius is correctly computed for a given circle

brouter-util/src/main/java/btools/util/CheapRulerSingleton.java

@@ -33,7 +33,7 @@ public final class CheapRulerSingleton {
   }
 
   private static double[] calcKxKyFromILat(int ilat) {
-    double lat = DEG_TO_RAD*ilat*ILATLNG_TO_LATLNG - 90;
+    double lat = DEG_TO_RAD*(ilat*ILATLNG_TO_LATLNG - 90);
     double cos = Math.cos(lat);
     double cos2 = 2 * cos * cos - 1;
     double cos3 = 2 * cos * cos2 - cos;