diff --git a/OsmAnd-java/src/main/java/net/osmand/router/BinaryRoutePlanner.java b/OsmAnd-java/src/main/java/net/osmand/router/BinaryRoutePlanner.java index 154d31928e..1b6077cbb1 100644 --- a/OsmAnd-java/src/main/java/net/osmand/router/BinaryRoutePlanner.java +++ b/OsmAnd-java/src/main/java/net/osmand/router/BinaryRoutePlanner.java @@ -370,10 +370,10 @@ public class BinaryRoutePlanner { public void printDebugMemoryInformation(RoutingContext ctx, PriorityQueue graphDirectSegments, PriorityQueue graphReverseSegments, TLongObjectHashMap visitedDirectSegments,TLongObjectHashMap visitedOppositeSegments) { - printInfo(String.format("Time. Total: %.2f, to load: %.2f, to load headers: %.2f, to calc dev: %.2f, to calc rules: %.2f ", + printInfo(String.format("Time. Total: %.2f, to load: %.2f, to load headers: %.2f, to calc dev: %.2f ", (System.nanoTime() - ctx.timeToCalculate) / 1e6, ctx.timeToLoad / 1e6, - ctx.timeToLoadHeaders / 1e6, ctx.timeNanoToCalcDeviation / 1e6, GeneralRouter.TIMER / 1e6)); - GeneralRouter.TIMER = 0; + ctx.timeToLoadHeaders / 1e6, ctx.timeNanoToCalcDeviation / 1e6)); +// GeneralRouter.TIMER = 0; int maxLoadedTiles = Math.max(ctx.maxLoadedTiles, ctx.getCurrentlyLoadedTiles()); printInfo("Current loaded tiles : " + ctx.getCurrentlyLoadedTiles() + ", maximum loaded tiles " + maxLoadedTiles); printInfo("Loaded tiles " + ctx.loadedTiles + " (distinct " + ctx.distinctLoadedTiles + "), unloaded tiles " + ctx.unloadedTiles + @@ -856,6 +856,13 @@ public class BinaryRoutePlanner { super(road, segmentStart); this.distSquare = distSquare; } + + public RouteSegmentPoint(RouteSegmentPoint pnt) { + super(pnt.road, pnt.segStart); + this.distSquare = pnt.distSquare; + this.preciseX = pnt.preciseX; + this.preciseY = pnt.preciseY; + } public double distSquare; public int preciseX; diff --git a/OsmAnd-java/src/main/java/net/osmand/router/GeneralRouter.java b/OsmAnd-java/src/main/java/net/osmand/router/GeneralRouter.java index 0032fb200c..f8de46a783 100644 --- a/OsmAnd-java/src/main/java/net/osmand/router/GeneralRouter.java +++ b/OsmAnd-java/src/main/java/net/osmand/router/GeneralRouter.java @@ -516,6 +516,7 @@ public class GeneralRouter implements VehicleRouter { } private void putCache(RouteDataObjectAttribute attr, RouteRegion reg, int[] types, Float val, boolean extra) { +// TIMER -= System.nanoTime(); Map> ch = evalCache[attr.ordinal()]; if (USE_CACHE) { Map rM = ch.get(reg); @@ -525,7 +526,7 @@ public class GeneralRouter implements VehicleRouter { } rM.put(new IntHolder(types, extra), val); } - TIMER += System.nanoTime(); +// TIMER += System.nanoTime(); } class IntHolder { diff --git a/OsmAnd-java/src/main/java/net/osmand/router/RoutePlannerFrontEnd.java b/OsmAnd-java/src/main/java/net/osmand/router/RoutePlannerFrontEnd.java index 80f2a7382b..acf76552a4 100644 --- a/OsmAnd-java/src/main/java/net/osmand/router/RoutePlannerFrontEnd.java +++ b/OsmAnd-java/src/main/java/net/osmand/router/RoutePlannerFrontEnd.java @@ -32,10 +32,6 @@ public class RoutePlannerFrontEnd { protected static final double GPS_POSSIBLE_ERROR = 7; public boolean useSmartRouteRecalculation = true; - public static double AVERAGE_SPLIT_DISTANCE_GPX = 1500; - public static double MINIMUM_POINT_APPROXIMATION = 50; - public static double MINIMUM_STRAIGHT_STEP_APPROXIMATION = 50; - public RoutePlannerFrontEnd() { } @@ -46,14 +42,29 @@ public class RoutePlannerFrontEnd { COMPLEX } - public static class GpxApproximationResult { + public static class GpxRouteApproximation { + // ! MAIN parameter to approximate (35m good for custom recorded tracks) + public double MINIMUM_POINT_APPROXIMATION = 50; // 35 m good for small deviations + // This parameter could speed up or slow down evaluation (better to make bigger for long routes and smaller for short) + public double MAXIMUM_STEP_APPROXIMATION = 3000; + // don't search subsegments shorter than specified distance (also used to step back for car turns) + public double MINIMUM_STEP_APPROXIMATION = 100; + // Parameter to smoother the track itself (could be 0 if it's not recorded track) + public double SMOOTHEN_POINTS_NO_ROUTE = 2; + + public final RoutingContext ctx; public int routeCalculations = 0; public int routePointsSearched = 0; public int routeDistCalculations = 0; public List res = new ArrayList(); public int routeDistance; + public int routeGapDistance; public int routeDistanceUnmatched; + public GpxRouteApproximation(RoutingContext ctx) { + this.ctx = ctx; + } + @Override public String toString() { return String.format(">> GPX approximation (%d of %d m route calcs, %d route points searched) for %d m: %d m umatched", @@ -192,91 +203,152 @@ public class RoutePlannerFrontEnd { } - // TODO add missing turns for straight lines - // TODO smoothness is not correct for car routing - // TODO native crash - // TODO big gaps when there is no match - // TODO not correct bicycle-> pedestrian - // TODO slow - too many findRouteSegment - // TODO fix progress / timings routing / - // TODO smoothen straight line Douglas-Peucker (remove noise) - public GpxApproximationResult searchGpxRoute(final RoutingContext ctx, List points) throws IOException, InterruptedException { - GpxApproximationResult gctx = new GpxApproximationResult(); + // TODO last segment not correct (cut) before end point and point of straight line + + // TODO add missing turns for straight lines (compare code) + // TODO native matches less roads + + // TODO fix progress - next iteration + // TODO fix timings and remove logging every iteration + public GpxRouteApproximation searchGpxRoute(GpxRouteApproximation gctx, List points) throws IOException, InterruptedException { + gctx.ctx.timeToCalculate = System.nanoTime(); + if (gctx.ctx.calculationProgress == null) { + gctx.ctx.calculationProgress = new RouteCalculationProgress(); + } List gpxPoints = generageGpxPoints(points, gctx); GpxPoint start = gpxPoints.size() > 0 ? gpxPoints.get(0) : null; - + boolean prevRouteFound = false; while (start != null) { - double routeDist = AVERAGE_SPLIT_DISTANCE_GPX; + double routeDist = gctx.MAXIMUM_STEP_APPROXIMATION; GpxPoint next = findNextGpxPointWithin(gctx, gpxPoints, start, routeDist); boolean routeFound = false; - if (next != null && initRoutingPoint(start, gctx, ctx, MINIMUM_POINT_APPROXIMATION)) { - boolean firstAttempt = true; - while ((firstAttempt || next.cumDist - start.cumDist > MINIMUM_POINT_APPROXIMATION) && !routeFound) { - firstAttempt = false; - routeFound = initRoutingPoint(next, gctx, ctx, MINIMUM_POINT_APPROXIMATION); + + if (next != null && initRoutingPoint(start, gctx, gctx.MINIMUM_POINT_APPROXIMATION)) { + while (routeDist >= gctx.MINIMUM_STEP_APPROXIMATION && !routeFound) { + routeFound = initRoutingPoint(next, gctx, gctx.MINIMUM_POINT_APPROXIMATION); if (routeFound) { - routeFound = findGpxRouteSegment(ctx, gctx, gpxPoints, start, next); + routeFound = findGpxRouteSegment(gctx, gpxPoints, start, next, prevRouteFound); + if (routeFound) { + // route is found - cut the end of the route and move to next iteration + boolean stepBack = stepBackAndFindPrevPointInRoute(gctx, gpxPoints, start, next); + if (!stepBack) { + // not supported case (workaround increase MAXIMUM_STEP_APPROXIMATION) + log.info("Consider to increase MAXIMUM_STEP_APPROXIMATION to: " + routeDist*2); + start.routeToTarget = null; + routeFound = false; + break; + } + } } if (!routeFound) { // route is not found move next point closer to start point (distance / 2) routeDist = routeDist / 2; + if (routeDist < gctx.MINIMUM_STEP_APPROXIMATION && routeDist > gctx.MINIMUM_STEP_APPROXIMATION / 2 + 1) { + routeDist = gctx.MINIMUM_STEP_APPROXIMATION; + } next = findNextGpxPointWithin(gctx, gpxPoints, start, routeDist); + if (next != null) { + routeDist = Math.min(next.cumDist - start.cumDist, routeDist); + } } } } - if (routeFound) { - // route is found, cut the end of the route and move to next iteration - start = next; - } else { + // route is not found skip segment and keep it as straight line on display + if (!routeFound) { // route is not found, move start point by - start = findNextGpxPointWithin(gctx, gpxPoints, start, MINIMUM_STRAIGHT_STEP_APPROXIMATION); + next = findNextGpxPointWithin(gctx, gpxPoints, start, gctx.MINIMUM_STEP_APPROXIMATION); + if (prevRouteFound) { + if (next == null) { + // TODO finish + // makeSegmentPointPrecise(prev.routeToTarget.get(prev.routeToTarget.size() - 1), start.loc, false); + } else { + log.warn("NOT found route from: " + start.pnt.getRoad() + " at " + start.pnt.getSegmentStart()); + } + } } - + prevRouteFound = routeFound; + start = next; } - calculateGpxRoute(ctx, gctx, gpxPoints); + + calculateGpxRoute(gctx, gpxPoints); if (!gctx.res.isEmpty()) { - new RouteResultPreparation().printResults(ctx, points.get(0), points.get(points.size() - 1), gctx.res); + new RouteResultPreparation().printResults(gctx.ctx, points.get(0), points.get(points.size() - 1), gctx.res); System.out.println(gctx); } return gctx; } - private void calculateGpxRoute(final RoutingContext ctx, GpxApproximationResult gctx, List gpxPoints) { + private boolean stepBackAndFindPrevPointInRoute(GpxRouteApproximation gctx, + List gpxPoints, GpxPoint start, GpxPoint next) throws IOException { + // step back to find to be sure + // 1) route point is behind GpxPoint - MINIMUM_POINT_APPROXIMATION (end route point could slightly ahead) + // 2) we don't miss correct turn i.e. points could be attached to muliple routes + // 3) to make sure that we perfectly connect to RoadDataObject points + double STEP_BACK_DIST = Math.max(gctx.MINIMUM_POINT_APPROXIMATION, gctx.MINIMUM_STEP_APPROXIMATION); + double d = 0; + int segmendInd = start.routeToTarget.size() - 1; + boolean search = true; + mainLoop: for (; segmendInd >= 0 && search; segmendInd--) { + RouteSegmentResult rr = start.routeToTarget.get(segmendInd); + boolean minus = rr.getStartPointIndex() < rr.getEndPointIndex(); + int nextInd; + for (int j = rr.getEndPointIndex(); j != rr.getStartPointIndex(); j = nextInd) { + nextInd = minus ? j - 1 : j + 1; + d += MapUtils.getDistance(rr.getPoint(j), rr.getPoint(nextInd)); + if (d > STEP_BACK_DIST) { + if (nextInd == rr.getStartPointIndex()) { + segmendInd--; + } else { + rr.setEndPointIndex(nextInd); + } + search = false; + break mainLoop; + } + } + } + if (segmendInd == -1) { + // here all route segments - 1 is longer than needed distance to step back + return false; + } + while (start.routeToTarget.size() > segmendInd + 1) { + start.routeToTarget.remove(segmendInd + 1); + } + RouteSegmentResult res = start.routeToTarget.get(segmendInd); + next.pnt = new RouteSegmentPoint(res.getObject(), res.getEndPointIndex(), 0); + return true; + } + + private void calculateGpxRoute(GpxRouteApproximation gctx, List gpxPoints) { RouteRegion reg = new RouteRegion(); reg.initRouteEncodingRule(0, "highway", "unmatched"); - TIntArrayList lastStraightLine = null; + List lastStraightLine = null; for (int i = 0; i < gpxPoints.size(); ) { GpxPoint pnt = gpxPoints.get(i); if (pnt.routeToTarget != null && !pnt.routeToTarget.isEmpty()) { LatLon startPoint = pnt.routeToTarget.get(0).getStartPoint(); if (lastStraightLine != null) { - lastStraightLine.add(MapUtils.get31TileNumberX(startPoint.getLongitude())); - lastStraightLine.add(MapUtils.get31TileNumberY(startPoint.getLatitude())); + lastStraightLine.add(startPoint); addStraightLine(gctx.res, lastStraightLine, reg, gctx); lastStraightLine = null; } - // TODO - double distLastPnt = gctx.distFromLastPoint(pnt.routeToTarget.get(0).getStartPoint()); - double gpxDistPnt = gctx.distFromLastPoint(pnt.loc); - if (distLastPnt > MINIMUM_POINT_APPROXIMATION / 5 || gpxDistPnt > MINIMUM_POINT_APPROXIMATION / 5) { - System.out.println(String.format("????? routePnt - prevPnt = %f, gpxPoint - prevPnt = %f ", - distLastPnt, gpxDistPnt)); + if (gctx.distFromLastPoint(startPoint) > 1) { + gctx.routeGapDistance += gctx.distFromLastPoint(startPoint); + System.out.println(String.format("????? gap of route point = %f, gap of actual gpxPoint = %f ", + gctx.distFromLastPoint(startPoint), gctx.distFromLastPoint(pnt.loc))); } gctx.res.addAll(pnt.routeToTarget); i = pnt.targetInd; } else { // add straight line from i -> i+1 if (lastStraightLine == null) { - lastStraightLine = new TIntArrayList(); + lastStraightLine = new ArrayList(); // make smooth connection if(gctx.distFromLastPoint(pnt.loc) > 1) { - lastStraightLine.add(MapUtils.get31TileNumberX(gctx.getLastPoint().getLongitude())); - lastStraightLine.add(MapUtils.get31TileNumberY(gctx.getLastPoint().getLatitude())); + lastStraightLine.add(gctx.getLastPoint()); } } - lastStraightLine.add(MapUtils.get31TileNumberX(pnt.loc.getLongitude())); - lastStraightLine.add(MapUtils.get31TileNumberY(pnt.loc.getLatitude())); + lastStraightLine.add(pnt.loc); i++; } } @@ -285,10 +357,10 @@ public class RoutePlannerFrontEnd { lastStraightLine = null; } // clean turns to recaculate them - cleanupResultAndAddTurns(ctx, gctx); + cleanupResultAndAddTurns(gctx); } - private List generageGpxPoints(List points, GpxApproximationResult gctx) { + private List generageGpxPoints(List points, GpxRouteApproximation gctx) { List gpxPoints = new ArrayList<>(points.size()); GpxPoint prev = null; for(int i = 0; i < points.size(); i++) { @@ -305,7 +377,7 @@ public class RoutePlannerFrontEnd { return gpxPoints; } - private void cleanupResultAndAddTurns(final RoutingContext ctx, GpxApproximationResult gctx) { + private void cleanupResultAndAddTurns(GpxRouteApproximation gctx) { // cleanup double joints int LOOK_AHEAD = 4; for(int i = 0; i < gctx.res.size(); i++) { @@ -325,71 +397,119 @@ public class RoutePlannerFrontEnd { r.setTurnType(null); r.setDescription(""); } - preparation.prepareTurnResults(ctx, gctx.res); + preparation.prepareTurnResults(gctx.ctx, gctx.res); } - private void addStraightLine(List res, TIntArrayList lastStraightLine, RouteRegion reg, GpxApproximationResult gctx) { + private void addStraightLine(List res, List lastStraightLine, RouteRegion reg, GpxRouteApproximation gctx) { RouteDataObject rdo = new RouteDataObject(reg); - int l = lastStraightLine.size() / 2; - rdo.pointsX = new int[l]; - rdo.pointsY = new int[l]; - rdo.types = new int[] { 0 } ; - rdo.id = -1; - for (int i = 0; i < l; i++) { - rdo.pointsX[i] = lastStraightLine.get(i * 2); - rdo.pointsY[i] = lastStraightLine.get(i * 2 + 1); - if(i > 0) { - double dist = MapUtils.squareRootDist31(rdo.pointsX[i], rdo.pointsY[i], rdo.pointsX[i-1], rdo.pointsY[i-1]); - gctx.routeDistanceUnmatched += dist; + if(gctx.SMOOTHEN_POINTS_NO_ROUTE > 0) { + simplifyDouglasPeucker(lastStraightLine, gctx.SMOOTHEN_POINTS_NO_ROUTE, 0, lastStraightLine.size() - 1); + } + int s = lastStraightLine.size(); + TIntArrayList x = new TIntArrayList(s); + TIntArrayList y = new TIntArrayList(s); + for (int i = 0; i < s; i++) { + if(lastStraightLine.get(i) != null) { + LatLon l = lastStraightLine.get(i); + int t = x.size() - 1; + x.add(MapUtils.get31TileNumberX(l.getLongitude())); + y.add(MapUtils.get31TileNumberY(l.getLatitude())); + if (t >= 0) { + double dist = MapUtils.squareRootDist31(x.get(t), y.get(t), x.get(t + 1), y.get(t + 1)); + gctx.routeDistanceUnmatched += dist; + } } } + rdo.pointsX = x.toArray(); + rdo.pointsY = y.toArray(); + rdo.types = new int[] { 0 } ; + rdo.id = -1; + // comment to see road without straight connections res.add(new RouteSegmentResult(rdo, 0, rdo.getPointsLength() - 1)); } - private boolean initRoutingPoint(GpxPoint start, GpxApproximationResult gctx, RoutingContext ctx, double distThreshold) throws IOException { + + private void simplifyDouglasPeucker(List l, double eps, int start, int end) { + double dmax = -1; + int index = -1; + LatLon s = l.get(start); + LatLon e = l.get(end); + for (int i = start + 1; i <= end - 1; i++) { + LatLon ip = l.get(i); + double dist = MapUtils.getOrthogonalDistance(ip.getLatitude(), ip.getLongitude(), s.getLatitude(), s.getLongitude(), + e.getLatitude(), e.getLongitude()); + if (dist > dmax) { + dmax = dist; + index = i; + } + } + if (dmax >= eps) { + simplifyDouglasPeucker(l, eps, start, index); + simplifyDouglasPeucker(l, eps, index, end); + } else { + for(int i = start + 1; i < end; i++ ) { + l.set(i, null); + } + } + } + + private boolean initRoutingPoint(GpxPoint start, GpxRouteApproximation gctx, double distThreshold) throws IOException { if (start != null && start.pnt == null) { gctx.routePointsSearched++; - RouteSegmentPoint rsp = findRouteSegment(start.loc.getLatitude(), start.loc.getLongitude(), ctx, null, false); + RouteSegmentPoint rsp = findRouteSegment(start.loc.getLatitude(), start.loc.getLongitude(), gctx.ctx, null, false); if (MapUtils.getDistance(rsp.getPreciseLatLon(), start.loc) < distThreshold) { start.pnt = rsp; } + } + if (start != null && start.pnt != null) { + return true; } - return start != null && start.pnt != null; + return false; } - private GpxPoint findNextGpxPointWithin(GpxApproximationResult gctx, List gpxPoints, + private GpxPoint findNextGpxPointWithin(GpxRouteApproximation gctx, List gpxPoints, GpxPoint start, double dist) { - int targetInd = start.ind + 1; + // returns first point with that has slightly more than dist or last point + int plus = dist > 0 ? 1 : -1; + int targetInd = start.ind + plus; GpxPoint target = null; - while (targetInd < gpxPoints.size()) { + while (targetInd < gpxPoints.size() && targetInd >= 0) { target = gpxPoints.get(targetInd); - if (target.cumDist - start.cumDist > dist) { + if (Math.abs(target.cumDist - start.cumDist) > Math.abs(dist)) { break; } - targetInd++; + targetInd = targetInd + plus; } return target; } - private boolean findGpxRouteSegment(final RoutingContext ctx, GpxApproximationResult gctx, List gpxPoints, - GpxPoint start, GpxPoint target) throws IOException, InterruptedException { + private boolean findGpxRouteSegment(GpxRouteApproximation gctx, List gpxPoints, + GpxPoint start, GpxPoint target, boolean prevRouteCalculated) throws IOException, InterruptedException { List res = null; boolean routeIsCorrect = false; if (start.pnt != null && target.pnt != null) { + start.pnt = new RouteSegmentPoint(start.pnt); + target.pnt = new RouteSegmentPoint(target.pnt); gctx.routeDistCalculations += (target.cumDist - start.cumDist); gctx.routeCalculations++; - res = searchRouteInternalPrepare(ctx, start.pnt, target.pnt, null); + res = searchRouteInternalPrepare(gctx.ctx, start.pnt, target.pnt, null); routeIsCorrect = res != null && !res.isEmpty(); - if (routeIsCorrect) { - makeStartEndPointsPrecise(res, start.pnt.getPreciseLatLon(), target.pnt.getPreciseLatLon(), null); - } for (int k = start.ind + 1; routeIsCorrect && k < target.ind; k++) { GpxPoint ipoint = gpxPoints.get(k); - if (!pointCloseEnough(ipoint, res)) { + if (!pointCloseEnough(gctx, ipoint, res)) { routeIsCorrect = false; } } if (routeIsCorrect) { + // correct start point though don't change end point + if (!prevRouteCalculated) { + // make first position precise + makeSegmentPointPrecise(res.get(0), start.loc, true); + } else { + assert res.get(0).getObject().getId() == start.pnt.getRoad().getId(); + // start point could shift to +-1 due to direction + res.get(0).setStartPointIndex(start.pnt.getSegmentStart()); + } start.routeToTarget = res; start.targetInd = target.ind; } @@ -397,10 +517,11 @@ public class RoutePlannerFrontEnd { return routeIsCorrect; } - private boolean pointCloseEnough(GpxPoint ipoint, List res) { + private boolean pointCloseEnough(GpxRouteApproximation gctx, GpxPoint ipoint, List res) { int px = MapUtils.get31TileNumberX(ipoint.loc.getLongitude()); int py = MapUtils.get31TileNumberY(ipoint.loc.getLatitude()); - double SQR = MINIMUM_POINT_APPROXIMATION * MINIMUM_POINT_APPROXIMATION * 4; + double SQR = gctx.MINIMUM_POINT_APPROXIMATION; + SQR = SQR * SQR; for (RouteSegmentResult sr : res) { int start = sr.getStartPointIndex(); int end = sr.getEndPointIndex(); @@ -525,8 +646,8 @@ public class RoutePlannerFrontEnd { protected void makeStartEndPointsPrecise(List res, LatLon start, LatLon end, List intermediates) { if (res.size() > 0) { - updateResult(res.get(0), start, true); - updateResult(res.get(res.size() - 1), end, false); + makeSegmentPointPrecise(res.get(0), start, true); + makeSegmentPointPrecise(res.get(res.size() - 1), end, false); } } @@ -540,7 +661,7 @@ public class RoutePlannerFrontEnd { return currentsDist; } - private void updateResult(RouteSegmentResult routeSegmentResult, LatLon point, boolean st) { + private void makeSegmentPointPrecise(RouteSegmentResult routeSegmentResult, LatLon point, boolean st) { int px = MapUtils.get31TileNumberX(point.getLongitude()); int py = MapUtils.get31TileNumberY(point.getLatitude()); int pind = st ? routeSegmentResult.getStartPointIndex() : routeSegmentResult.getEndPointIndex();