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GPXSee/src/data/kmlparser.cpp

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#include "kmlparser.h"
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qreal KMLParser::number()
{
bool res;
qreal ret = _reader.readElementText().toDouble(&res);
if (!res)
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_reader.raiseError(QString("Invalid %1").arg(
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_reader.name().toString()));
return ret;
}
QDateTime KMLParser::time()
{
QDateTime d = QDateTime::fromString(_reader.readElementText(),
Qt::ISODate);
if (!d.isValid())
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_reader.raiseError(QString("Invalid %1").arg(
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_reader.name().toString()));
return d;
}
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bool KMLParser::coord(Trackpoint &trackpoint)
{
QString data = _reader.readElementText();
const QChar *sp, *ep, *cp, *vp;
int c = 0;
qreal val[3];
bool res;
sp = data.constData();
ep = sp + data.size();
for (cp = sp; cp < ep; cp++)
if (!cp->isSpace())
break;
for (vp = cp; cp <= ep; cp++) {
if (cp->isSpace() || cp->isNull()) {
if (c > 2)
return false;
val[c] = QString(vp, cp - vp).toDouble(&res);
if (!res)
return false;
if (c == 1) {
trackpoint.setCoordinates(Coordinates(val[0], val[1]));
if (!trackpoint.coordinates().isValid())
return false;
} else if (c == 2)
trackpoint.setElevation(val[2]);
while (cp->isSpace())
cp++;
vp = cp;
c++;
}
}
return true;
}
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bool KMLParser::pointCoordinates(Waypoint &waypoint)
{
QString data = _reader.readElementText();
const QChar *sp, *ep, *cp, *vp;
int c = 0;
qreal val[3];
bool res;
sp = data.constData();
ep = sp + data.size();
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for (cp = sp; cp < ep; cp++)
if (!cp->isSpace())
break;
for (vp = cp; cp <= ep; cp++) {
if (*cp == ',') {
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if (c > 1)
return false;
val[c] = QString(vp, cp - vp).toDouble(&res);
if (!res)
return false;
c++;
vp = cp + 1;
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} else if (cp->isSpace() || cp->isNull()) {
if (c < 1)
return false;
val[c] = QString(vp, cp - vp).toDouble(&res);
if (!res)
return false;
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waypoint.setCoordinates(Coordinates(val[0], val[1]));
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if (!waypoint.coordinates().isValid())
return false;
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if (c == 2)
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waypoint.setElevation(val[2]);
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while (cp->isSpace())
cp++;
c = 3;
}
}
return true;
}
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bool KMLParser::lineCoordinates(SegmentData &segment)
{
QString data = _reader.readElementText();
const QChar *sp, *ep, *cp, *vp;
int c = 0;
qreal val[3];
bool res;
sp = data.constData();
ep = sp + data.size();
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for (cp = sp; cp < ep; cp++)
if (!cp->isSpace())
break;
for (vp = cp; cp <= ep; cp++) {
if (*cp == ',') {
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if (c > 1)
return false;
val[c] = QString(vp, cp - vp).toDouble(&res);
if (!res)
return false;
c++;
vp = cp + 1;
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} else if (cp->isSpace() || cp->isNull()) {
if (c < 1 || c > 2)
return false;
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val[c] = QString(vp, cp - vp).toDouble(&res);
if (!res)
return false;
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segment.append(Trackpoint(Coordinates(val[0], val[1])));
if (!segment.last().coordinates().isValid())
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return false;
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if (c == 2)
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segment.last().setElevation(val[2]);
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while (cp->isSpace())
cp++;
c = 0;
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vp = cp;
}
}
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return true;
}
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bool KMLParser::polygonCoordinates(QVector<Coordinates> &points)
{
QString data = _reader.readElementText();
const QChar *sp, *ep, *cp, *vp;
int c = 0;
qreal val[3];
bool res;
sp = data.constData();
ep = sp + data.size();
for (cp = sp; cp < ep; cp++)
if (!cp->isSpace())
break;
for (vp = cp; cp <= ep; cp++) {
if (*cp == ',') {
if (c > 1)
return false;
val[c] = QString(vp, cp - vp).toDouble(&res);
if (!res)
return false;
c++;
vp = cp + 1;
} else if (cp->isSpace() || cp->isNull()) {
if (c < 1 || c > 2)
return false;
val[c] = QString(vp, cp - vp).toDouble(&res);
if (!res)
return false;
points.append(Coordinates(val[0], val[1]));
if (!points.last().isValid())
return false;
while (cp->isSpace())
cp++;
c = 0;
vp = cp;
}
}
return true;
}
QDateTime KMLParser::timeStamp()
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{
QDateTime ts;
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while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("when"))
ts = time();
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else
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_reader.skipCurrentElement();
}
return ts;
}
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void KMLParser::lineString(SegmentData &segment)
{
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("coordinates")) {
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if (!lineCoordinates(segment))
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_reader.raiseError("Invalid coordinates");
} else
_reader.skipCurrentElement();
}
}
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void KMLParser::linearRing(QVector<Coordinates> &coordinates)
{
while (_reader.readNextStartElement()) {
if (_reader.name() == QLatin1String("coordinates")) {
if (!polygonCoordinates(coordinates))
_reader.raiseError("Invalid coordinates");
} else
_reader.skipCurrentElement();
}
}
void KMLParser::boundary(QVector<Coordinates> &coordinates)
{
while (_reader.readNextStartElement()) {
if (_reader.name() == QLatin1String("LinearRing"))
linearRing(coordinates);
else
_reader.skipCurrentElement();
}
}
void KMLParser::polygon(Area &area)
{
Polygon polygon;
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while (_reader.readNextStartElement()) {
if (_reader.name() == QLatin1String("outerBoundaryIs")) {
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if (!polygon.isEmpty()) {
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_reader.raiseError("Multiple polygon outerBoundaryIss");
return;
}
polygon.append(QVector<Coordinates>());
boundary(polygon.last());
} else if (_reader.name() == QLatin1String("innerBoundaryIs")) {
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if (polygon.isEmpty()) {
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_reader.raiseError("Missing polygon outerBoundaryIs");
return;
}
polygon.append(QVector<Coordinates>());
boundary(polygon.last());
} else
_reader.skipCurrentElement();
}
area.append(polygon);
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}
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void KMLParser::point(Waypoint &waypoint)
{
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("coordinates")) {
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if (!pointCoordinates(waypoint))
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_reader.raiseError("Invalid coordinates");
} else
_reader.skipCurrentElement();
}
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if (waypoint.coordinates().isNull())
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_reader.raiseError("Missing Point coordinates");
}
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void KMLParser::heartRate(SegmentData &segment, int start)
{
int i = start;
const char error[] = "Heartrate data count mismatch";
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("value")) {
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if (i < segment.size())
segment[i++].setHeartRate(number());
else {
_reader.raiseError(error);
return;
}
} else
_reader.skipCurrentElement();
}
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if (i != segment.size())
_reader.raiseError(error);
}
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void KMLParser::cadence(SegmentData &segment, int start)
{
int i = start;
const char error[] = "Cadence data count mismatch";
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("value")) {
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if (i < segment.size())
segment[i++].setCadence(number());
else {
_reader.raiseError(error);
return;
}
} else
_reader.skipCurrentElement();
}
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if (i != segment.size())
_reader.raiseError(error);
}
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void KMLParser::speed(SegmentData &segment, int start)
{
int i = start;
const char error[] = "Speed data count mismatch";
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("value")) {
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if (i < segment.size())
segment[i++].setSpeed(number());
else {
_reader.raiseError(error);
return;
}
} else
_reader.skipCurrentElement();
}
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if (i != segment.size())
_reader.raiseError(error);
}
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void KMLParser::temperature(SegmentData &segment, int start)
{
int i = start;
const char error[] = "Temperature data count mismatch";
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("value")) {
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if (i < segment.size())
segment[i++].setTemperature(number());
else {
_reader.raiseError(error);
return;
}
} else
_reader.skipCurrentElement();
}
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if (i != segment.size())
_reader.raiseError(error);
}
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void KMLParser::schemaData(SegmentData &segment, int start)
{
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("SimpleArrayData")) {
QXmlStreamAttributes attr = _reader.attributes();
QString name(attr.value("name").toString());
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if (name == QLatin1String("Heartrate"))
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heartRate(segment, start);
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else if (name == QLatin1String("Cadence"))
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cadence(segment, start);
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else if (name == QLatin1String("Speed"))
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speed(segment, start);
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else if (name == QLatin1String("Temperature"))
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temperature(segment, start);
else
_reader.skipCurrentElement();
} else
_reader.skipCurrentElement();
}
}
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void KMLParser::extendedData(SegmentData &segment, int start)
{
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("SchemaData"))
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schemaData(segment, start);
else
_reader.skipCurrentElement();
}
}
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void KMLParser::track(SegmentData &segment)
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{
const char error[] = "gx:coord/when element count mismatch";
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int first = segment.size();
int i = first;
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while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("when")) {
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segment.append(Trackpoint());
segment.last().setTimestamp(time());
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} else if (_reader.name() == QLatin1String("coord")) {
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if (i == segment.size()) {
_reader.raiseError(error);
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return;
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} else if (!coord(segment[i])) {
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_reader.raiseError("Invalid coordinates");
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return;
}
i++;
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} else if (_reader.name() == QLatin1String("ExtendedData"))
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extendedData(segment, first);
else
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_reader.skipCurrentElement();
}
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if (i != segment.size())
_reader.raiseError(error);
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}
void KMLParser::multiTrack(TrackData &t)
{
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("Track")) {
t.append(SegmentData());
track(t.last());
} else
_reader.skipCurrentElement();
}
}
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void KMLParser::multiGeometry(QList<TrackData> &tracks, QList<Area> &areas,
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QVector<Waypoint> &waypoints, const QString &name, const QString &desc,
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const QDateTime &timestamp)
{
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("Point")) {
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waypoints.append(Waypoint());
Waypoint &w = waypoints.last();
w.setName(name);
w.setDescription(desc);
w.setTimestamp(timestamp);
point(w);
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} else if (_reader.name() == QLatin1String("LineString")) {
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tracks.append(TrackData());
TrackData &t = tracks.last();
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t.append(SegmentData());
t.setName(name);
t.setDescription(desc);
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lineString(t.last());
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} else if (_reader.name() == QLatin1String("Polygon")) {
areas.append(Area());
Area &a = areas.last();
a.setName(name);
a.setDescription(desc);
polygon(a);
} else
_reader.skipCurrentElement();
}
}
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void KMLParser::placemark(QList<TrackData> &tracks, QList<Area> &areas,
QVector<Waypoint> &waypoints)
{
QString name, desc;
QDateTime timestamp;
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while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("name"))
name = _reader.readElementText();
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else if (_reader.name() == QLatin1String("description"))
desc = _reader.readElementText();
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else if (_reader.name() == QLatin1String("TimeStamp"))
timestamp = timeStamp();
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else if (_reader.name() == QLatin1String("MultiGeometry"))
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multiGeometry(tracks, areas, waypoints, name, desc, timestamp);
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else if (_reader.name() == QLatin1String("Point")) {
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waypoints.append(Waypoint());
Waypoint &w = waypoints.last();
w.setName(name);
w.setDescription(desc);
w.setTimestamp(timestamp);
point(w);
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} else if (_reader.name() == QLatin1String("LineString")
|| _reader.name() == QLatin1String("LinearRing")) {
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tracks.append(TrackData());
TrackData &t = tracks.last();
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t.append(SegmentData());
t.setName(name);
t.setDescription(desc);
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lineString(t.last());
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} else if (_reader.name() == QLatin1String("Track")) {
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tracks.append(TrackData());
TrackData &t = tracks.last();
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t.append(SegmentData());
t.setName(name);
t.setDescription(desc);
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track(t.last());
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} else if (_reader.name() == QLatin1String("MultiTrack")) {
tracks.append(TrackData());
TrackData &t = tracks.last();
t.setName(name);
t.setDescription(desc);
multiTrack(t);
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} else if (_reader.name() == QLatin1String("Polygon")) {
areas.append(Area());
Area &a = areas.last();
a.setName(name);
a.setDescription(desc);
polygon(a);
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} else
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_reader.skipCurrentElement();
}
}
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void KMLParser::folder(QList<TrackData> &tracks, QList<Area> &areas,
QVector<Waypoint> &waypoints)
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{
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("Placemark"))
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placemark(tracks, areas, waypoints);
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else if (_reader.name() == QLatin1String("Folder"))
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folder(tracks, areas, waypoints);
else
_reader.skipCurrentElement();
}
}
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void KMLParser::document(QList<TrackData> &tracks, QList<Area> &areas,
QVector<Waypoint> &waypoints)
{
while (_reader.readNextStartElement()) {
if (_reader.name() == QLatin1String("Document"))
document(tracks, areas, waypoints);
else if (_reader.name() == QLatin1String("Placemark"))
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placemark(tracks, areas, waypoints);
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else if (_reader.name() == QLatin1String("Folder"))
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folder(tracks, areas, waypoints);
else
_reader.skipCurrentElement();
}
}
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void KMLParser::kml(QList<TrackData> &tracks, QList<Area> &areas,
QVector<Waypoint> &waypoints)
{
while (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("Document"))
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document(tracks, areas, waypoints);
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else if (_reader.name() == QLatin1String("Placemark"))
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placemark(tracks, areas, waypoints);
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else if (_reader.name() == QLatin1String("Folder"))
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folder(tracks, areas, waypoints);
else
_reader.skipCurrentElement();
}
}
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bool KMLParser::parse(QFile *file, QList<TrackData> &tracks,
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QList<RouteData> &routes, QList<Area> &areas, QVector<Waypoint> &waypoints)
{
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Q_UNUSED(routes);
_reader.clear();
_reader.setDevice(file);
if (_reader.readNextStartElement()) {
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if (_reader.name() == QLatin1String("kml"))
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kml(tracks, areas, waypoints);
else
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_reader.raiseError("Not a KML file");
}
return !_reader.error();
}