#include "gpxparser.h" qreal GPXParser::number() { bool res; qreal ret = _reader.readElementText().toDouble(&res); if (!res) _reader.raiseError(QString("Invalid %1").arg( _reader.name().toString())); return ret; } QDateTime GPXParser::time() { QDateTime d = QDateTime::fromString(_reader.readElementText(), Qt::ISODate); if (!d.isValid()) _reader.raiseError(QString("Invalid %1").arg( _reader.name().toString())); return d; } Coordinates GPXParser::coordinates() { bool res; qreal lon, lat; const QXmlStreamAttributes &attr = _reader.attributes(); #if QT_VERSION < QT_VERSION_CHECK(5, 0, 0) lon = attr.value("lon").toString().toDouble(&res); #else // QT_VERSION < 5 lon = attr.value("lon").toDouble(&res); #endif // QT_VERSION < 5 if (!res || (lon < -180.0 || lon > 180.0)) { _reader.raiseError("Invalid longitude"); return Coordinates(); } #if QT_VERSION < QT_VERSION_CHECK(5, 0, 0) lat = attr.value("lat").toString().toDouble(&res); #else // QT_VERSION < 5 lat = attr.value("lat").toDouble(&res); #endif // QT_VERSION < 5 if (!res || (lat < -90.0 || lat > 90.0)) { _reader.raiseError("Invalid latitude"); return Coordinates(); } return Coordinates(lon, lat); } void GPXParser::rpExtension(SegmentData *autoRoute) { while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("rpt")) autoRoute->append(Trackpoint(coordinates())); _reader.skipCurrentElement(); } } void GPXParser::tpExtension(Trackpoint &trackpoint) { while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("hr")) trackpoint.setHeartRate(number()); else if (_reader.name() == QLatin1String("atemp")) trackpoint.setTemperature(number()); else if (_reader.name() == QLatin1String("cad")) trackpoint.setCadence(number()); else if (_reader.name() == QLatin1String("speed")) trackpoint.setSpeed(number()); else _reader.skipCurrentElement(); } } void GPXParser::rteptExtensions(SegmentData *autoRoute) { while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("RoutePointExtension")) rpExtension(autoRoute); else _reader.skipCurrentElement(); } } void GPXParser::trkptExtensions(Trackpoint &trackpoint) { while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("speed")) trackpoint.setSpeed(number()); else if (_reader.name() == QLatin1String("hr") || _reader.name() == QLatin1String("heartrate")) trackpoint.setHeartRate(number()); else if (_reader.name() == QLatin1String("temp")) trackpoint.setTemperature(number()); else if (_reader.name() == QLatin1String("cadence")) trackpoint.setCadence(number()); else if (_reader.name() == QLatin1String("power")) trackpoint.setPower(number()); else if (_reader.name() == QLatin1String("TrackPointExtension")) tpExtension(trackpoint); else _reader.skipCurrentElement(); } } void GPXParser::trackpointData(Trackpoint &trackpoint) { qreal gh = NAN; while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("ele")) trackpoint.setElevation(number()); else if (_reader.name() == QLatin1String("time")) trackpoint.setTimestamp(time()); else if (_reader.name() == QLatin1String("geoidheight")) gh = number(); // GPX 1.0 else if (_reader.name() == QLatin1String("speed")) trackpoint.setSpeed(number()); else if (_reader.name() == QLatin1String("extensions")) trkptExtensions(trackpoint); else _reader.skipCurrentElement(); } if (!std::isnan(gh) && !std::isnan(trackpoint.elevation())) trackpoint.setElevation(trackpoint.elevation() - gh); } void GPXParser::waypointData(Waypoint &waypoint, SegmentData *autoRoute) { qreal gh = NAN; while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("name")) waypoint.setName(_reader.readElementText()); else if (_reader.name() == QLatin1String("desc")) waypoint.setDescription(_reader.readElementText()); else if (_reader.name() == QLatin1String("ele")) waypoint.setElevation(number()); else if (_reader.name() == QLatin1String("geoidheight")) gh = number(); else if (_reader.name() == QLatin1String("time")) waypoint.setTimestamp(time()); else if (autoRoute && _reader.name() == QLatin1String("extensions")) rteptExtensions(autoRoute); else _reader.skipCurrentElement(); } if (!std::isnan(gh) && !std::isnan(waypoint.elevation())) waypoint.setElevation(waypoint.elevation() - gh); } void GPXParser::trackpoints(SegmentData &segment) { while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("trkpt")) { segment.append(Trackpoint(coordinates())); trackpointData(segment.last()); } else _reader.skipCurrentElement(); } } void GPXParser::routepoints(RouteData &route, QList &tracks) { TrackData autoRoute; autoRoute.append(SegmentData()); SegmentData &autoRouteSegment = autoRoute.last(); while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("rtept")) { route.append(Waypoint(coordinates())); waypointData(route.last(), &autoRouteSegment); } else if (_reader.name() == QLatin1String("name")) route.setName(_reader.readElementText()); else if (_reader.name() == QLatin1String("desc")) route.setDescription(_reader.readElementText()); else _reader.skipCurrentElement(); } if (!autoRouteSegment.isEmpty()) { autoRoute.setName(route.name()); autoRoute.setDescription(route.description()); tracks.append(autoRoute); } } void GPXParser::track(TrackData &track) { while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("trkseg")) { track.append(SegmentData()); trackpoints(track.last()); } else if (_reader.name() == QLatin1String("name")) track.setName(_reader.readElementText()); else if (_reader.name() == QLatin1String("desc")) track.setDescription(_reader.readElementText()); else _reader.skipCurrentElement(); } } void GPXParser::area(Area &area) { area.append(Polygon()); area.last().append(QVector()); QVector &points = area.last().last(); while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("point")) { Coordinates c(coordinates()); _reader.readElementText(); if (c.isValid()) points.append(c); else return; } else if (_reader.name() == QLatin1String("name")) area.setName(_reader.readElementText()); else if (_reader.name() == QLatin1String("desc")) area.setDescription(_reader.readElementText()); else _reader.skipCurrentElement(); } } void GPXParser::gpxExtensions(QList &areas) { while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("area")) { areas.append(Area()); area(areas.last()); } else _reader.skipCurrentElement(); } } void GPXParser::gpx(QList &tracks, QList &routes, QList &areas, QVector &waypoints) { while (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("trk")) { tracks.append(TrackData()); track(tracks.back()); } else if (_reader.name() == QLatin1String("rte")) { routes.append(RouteData()); routepoints(routes.back(), tracks); } else if (_reader.name() == QLatin1String("wpt")) { waypoints.append(Waypoint(coordinates())); waypointData(waypoints.last()); } else if (_reader.name() == QLatin1String("extensions")) gpxExtensions(areas); else _reader.skipCurrentElement(); } } bool GPXParser::parse(QFile *file, QList &tracks, QList &routes, QList &areas, QVector &waypoints) { _reader.clear(); _reader.setDevice(file); _reader.setNamespaceProcessing(false); if (_reader.readNextStartElement()) { if (_reader.name() == QLatin1String("gpx")) gpx(tracks, routes, areas, waypoints); else _reader.raiseError("Not a GPX file"); } return !_reader.error(); }