qgeopolygon.cpp source code [qtlocation/src/positioning/qgeopolygon.cpp]

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39
40	#include "qgeopolygon.h"
41	#include "qgeopolygon_p.h"
42	#include "qgeopath_p.h"
43	#include "qgeocircle.h"
44
45	#include "qgeocoordinate.h"
46	#include "qnumeric.h"
47	#include "qlocationutils_p.h"
48	#include "qwebmercator_p.h"
49
50	#include "qdoublevector2d_p.h"
51	#include "qdoublevector3d_p.h"
52	#include "qwebmercator_p.h"
53
54	QT_BEGIN_NAMESPACE
55
56	/!*
57	\class QGeoPolygon
58	\inmodule QtPositioning
59	\ingroup QtPositioning-positioning
60	\since 5.10
61
62	\brief The QGeoPolygon class defines a geographic polygon.
63
64	The polygon is defined by an ordered list of QGeoCoordinates representing its perimeter.
65
66	Each two adjacent elements in this list are intended to be connected
67	together by the shortest line segment of constant bearing passing
68	through both elements.
69	This type of connection can cross the date line in the longitudinal direction,
70	but never crosses the poles.
71
72	This is relevant for the calculation of the bounding box returned by
73	\l QGeoShape::boundingGeoRectangle() for this shape, which will have the latitude of
74	the top left corner set to the maximum latitude in the path point set.
75	Similarly, the latitude of the bottom right corner will be the minimum latitude
76	in the path point set.
77
78	This class is a \l Q_GADGET.
79	It can be \l{Cpp_value_integration_positioning}{directly used from C++ and QML}.
80	*/
81
82	/*
83	\property QGeoPolygon::path
84	\brief This property holds the list of coordinates for the geo polygon.
85
86	The polygon is both invalid and empty if it contains no coordinate.
87
88	A default constructed QGeoPolygon is therefore invalid.
89	*/
90
91	inline QGeoPolygonPrivate *QGeoPolygon::d_func()
92	{
93	return static_cast<QGeoPolygonPrivate *>(d_ptr.data());
94	}
95
96	inline const QGeoPolygonPrivate QGeoPolygon::d_func() const*
97	{
98	return static_cast<const QGeoPolygonPrivate *>(d_ptr.constData());
99	}
100
101	struct PolygonVariantConversions
102	{
103	PolygonVariantConversions()
104	{
105	QMetaType::registerConverter<QGeoShape, QGeoPolygon>();
106	QMetaType::registerConverter<QGeoPolygon, QGeoShape>();
107	}
108	};
109
110	Q_GLOBAL_STATIC(PolygonVariantConversions, initPolygonConversions)
111
112	/!*
113	Constructs a new, empty geo polygon.
114	*/
115	QGeoPolygon::QGeoPolygon()
116	: QGeoShape (new QGeoPolygonPrivate ())
117	{
118	initPolygonConversions ();
119	}
120
121	/!*
122	Constructs a new geo polygon from the coordinates specified
123	in \a path.
124	*/
125	QGeoPolygon::QGeoPolygon(const QList<QGeoCoordinate> &path)
126	: QGeoShape (new QGeoPolygonPrivate (path))
127	{
128	initPolygonConversions ();
129	}
130
131	/!*
132	Constructs a new geo polygon from the contents of \a other.
133	*/
134	QGeoPolygon::QGeoPolygon(const QGeoPolygon &other)
135	: QGeoShape (other)
136	{
137	initPolygonConversions ();
138	}
139
140	static void calculatePeripheralPoints(QList<QGeoCoordinate> &path,
141	const QGeoCircle &circle,
142	int steps)
143	{
144	const QGeoCoordinate &center = circle.center();
145	const qreal distance = circle.radius();
146	// Calculate points based on great-circle distance
147	// Calculation is the same as GeoCoordinate's atDistanceAndAzimuth function
148	// but tweaked here for computing multiple points
149
150	// pre-calculations
151	steps = qMax(a: steps, b: `3`);
152	qreal centerLon = center.longitude();
153	qreal latRad = QLocationUtils::radians(degrees: center.latitude());
154	qreal lonRad = QLocationUtils::radians(degrees: centerLon);
155	qreal cosLatRad = std::cos(x: latRad);
156	qreal sinLatRad = std::sin(x: latRad);
157	qreal ratio = (distance / QLocationUtils::earthMeanRadius());
158	qreal cosRatio = std::cos(x: ratio);
159	qreal sinRatio = std::sin(x: ratio);
160	qreal sinLatRad_x_cosRatio = sinLatRad * cosRatio;
161	qreal cosLatRad_x_sinRatio = cosLatRad * sinRatio;
162	for (int i = `0`; i < steps; ++i) {
163	qreal azimuthRad = `2` * M_PI * i / steps;
164	qreal resultLatRad = std::asin(x: sinLatRad_x_cosRatio
165	+ cosLatRad_x_sinRatio * std::cos(x: azimuthRad));
166	qreal resultLonRad = lonRad + std::atan2(y: std::sin(x: azimuthRad) * cosLatRad_x_sinRatio,
167	x: cosRatio - sinLatRad * std::sin(x: resultLatRad));
168	qreal lat2 = QLocationUtils::degrees(radians: resultLatRad);
169	qreal lon2 = QLocationUtils::wrapLong(lng: QLocationUtils::degrees(radians: resultLonRad));
170
171	path << QGeoCoordinate (lat2, lon2, center.altitude());
172	}
173	}
174
175	/!*
176	Constructs a new geo polygon from the contents of \a other.
177	*/
178	QGeoPolygon::QGeoPolygon(const QGeoShape &other)
179	: QGeoShape (other)
180	{
181	initPolygonConversions ();
182	if (type() != QGeoShape::PolygonType) {
183	QGeoPolygonPrivate poly = new* QGeoPolygonPrivate ();
184	if (type() == QGeoShape::CircleType) {
185	const QGeoCircle &circle = static_cast<const QGeoCircle &>(other);
186	QList<QGeoCoordinate> perimeter;
187	calculatePeripheralPoints(path&: perimeter, circle, steps: `128`);
188	poly->setPath(perimeter);
189	} else if (type() == QGeoShape::RectangleType) {
190	const QGeoRectangle &rect = static_cast<const QGeoRectangle &>(other);
191	QList<QGeoCoordinate> perimeter;
192	perimeter << rect.topLeft() << rect.topRight()
193	<< rect.bottomRight() << rect.bottomLeft();
194	poly->setPath(perimeter);
195	}
196	d_ptr = poly;
197	}
198	}
199
200	/!*
201	Destroys this polygon.
202	*/
203	QGeoPolygon::~QGeoPolygon() {}
204
205	/!*
206	Assigns \a other to this geo polygon and returns a reference to this geo polygon.
207	*/
208	QGeoPolygon &QGeoPolygon::operator=(const QGeoPolygon &other)
209	{
210	QGeoShape::operator=(other);
211	return *this;
212	}
213
214	/!*
215	Returns whether this geo polygon is equal to \a other.
216	*/
217	bool QGeoPolygon::operator==(const QGeoPolygon &other) const
218	{
219	Q_D(const QGeoPolygon);
220	return d == other.d_func();
221	}
222
223	/!*
224	Returns whether this geo polygon is not equal to \a other.
225	*/
226	bool QGeoPolygon::operator!=(const QGeoPolygon &other) const
227	{
228	Q_D(const QGeoPolygon);
229	return !(d == other.d_func());
230	}
231
232	/!*
233	Sets the \a path for the polygon.
234	*/
235	void QGeoPolygon::setPath(const QList<QGeoCoordinate> &path)
236	{
237	Q_D(QGeoPolygon);
238	return d->setPath(path);
239	}
240
241	/!*
242	Returns all the elements of the polygon's boundary.
243	*/
244	const QList<QGeoCoordinate> &QGeoPolygon::path() const
245	{
246	Q_D(const QGeoPolygon);
247	return d->path();
248	}
249
250	/!*
251	Sets all the elements of the polygon's perimeter
252	based on a list of coordinates (\a path).
253	.
254
255	\since QtPositioning 5.12
256	*/
257	void QGeoPolygon::setPerimeter(const QVariantList &path)
258	{
259	Q_D(QGeoPolygon);
260	QList<QGeoCoordinate> p;
261	for (const auto &c: path) {
262	if (c.canConvert<QGeoCoordinate>())
263	p << c.value<QGeoCoordinate>();
264	}
265	d->setPath(p);
266	}
267
268	/!*
269	Returns all the elements of the polygon's perimeter.
270
271	\since QtPositioning 5.12
272	*/
273	QVariantList QGeoPolygon::perimeter() const
274	{
275	Q_D(const QGeoPolygon);
276	QVariantList p;
277	for (const auto &c: d->path())
278	p << QVariant::fromValue(value: c);
279	return p;
280	}
281
282	/!*
283	Translates this geo polygon by \a degreesLatitude northwards and \a degreesLongitude eastwards.
284
285	Negative values of \a degreesLatitude and \a degreesLongitude correspond to
286	southward and westward translation respectively.
287	*/
288	void QGeoPolygon::translate(double degreesLatitude, double degreesLongitude)
289	{
290	Q_D(QGeoPolygon);
291	d->translate(degreesLatitude, degreesLongitude);
292	}
293
294	/!*
295	Returns a copy of this geo polygon translated by \a degreesLatitude northwards and
296	\a degreesLongitude eastwards.
297
298	Negative values of \a degreesLatitude and \a degreesLongitude correspond to
299	southward and westward translation respectively.
300
301	\sa translate()
302	*/
303	QGeoPolygon QGeoPolygon::translated(double degreesLatitude, double degreesLongitude) const
304	{
305	QGeoPolygon result(*this);
306	result.translate(degreesLatitude, degreesLongitude);
307	return result;
308	}
309
310	/!*
311	Returns the length of the polygon's perimeter, in meters, from the element \a indexFrom to the element \a indexTo.
312	The length is intended to be the sum of the shortest distances for each pair of adjacent points.
313	*/
314	double QGeoPolygon::length(int indexFrom, int indexTo) const
315	{
316	Q_D(const QGeoPolygon);
317	return d->length(indexFrom, indexTo);
318	}
319
320	/!*
321	Returns the number of elements in the polygon.
322
323	\since 5.10
324	*/
325	int QGeoPolygon::size() const
326	{
327	Q_D(const QGeoPolygon);
328	return d->size();
329	}
330
331	/!*
332	Appends \a coordinate to the polygon.
333	*/
334	void QGeoPolygon::addCoordinate(const QGeoCoordinate &coordinate)
335	{
336	Q_D(QGeoPolygon);
337	d->addCoordinate(coordinate);
338	}
339
340	/!*
341	Inserts \a coordinate at the specified \a index.
342	*/
343	void QGeoPolygon::insertCoordinate(int index, const QGeoCoordinate &coordinate)
344	{
345	Q_D(QGeoPolygon);
346	d->insertCoordinate(index, coordinate);
347	}
348
349	/!*
350	Replaces the path element at the specified \a index with \a coordinate.
351	*/
352	void QGeoPolygon::replaceCoordinate(int index, const QGeoCoordinate &coordinate)
353	{
354	Q_D(QGeoPolygon);
355	d->replaceCoordinate(index, coordinate);
356	}
357
358	/!*
359	Returns the coordinate at \a index .
360	*/
361	QGeoCoordinate QGeoPolygon::coordinateAt(int index) const
362	{
363	Q_D(const QGeoPolygon);
364	return d->coordinateAt(index);
365	}
366
367	/!*
368	Returns true if the polygon's perimeter contains \a coordinate as one of the elements.
369	*/
370	bool QGeoPolygon::containsCoordinate(const QGeoCoordinate &coordinate) const
371	{
372	Q_D(const QGeoPolygon);
373	return d->containsCoordinate(coordinate);
374	}
375
376	/!*
377	Removes the last occurrence of \a coordinate from the polygon.
378	*/
379	void QGeoPolygon::removeCoordinate(const QGeoCoordinate &coordinate)
380	{
381	Q_D(QGeoPolygon);
382	d->removeCoordinate(coordinate);
383	}
384
385	/!*
386	Removes element at position \a index from the polygon.
387	*/
388	void QGeoPolygon::removeCoordinate(int index)
389	{
390	Q_D(QGeoPolygon);
391	d->removeCoordinate(index);
392	}
393
394	/!*
395	Returns the geo polygon properties as a string.
396	*/
397	QString QGeoPolygon::toString() const
398	{
399	if (type() != QGeoShape::PolygonType) {
400	qWarning(msg: "Not a polygon");
401	return QStringLiteral("QGeoPolygon(not a polygon)");
402	}
403
404	QString pathString;
405	for (const auto &p : path())
406	pathString += p.toString() + QLatin1Char (`','`);
407
408	return QStringLiteral("QGeoPolygon([ %1 ])").arg(a: pathString);
409	}
410
411	/!*
412	Sets the \a holePath for a hole inside the polygon. The hole is a
413	QVariant containing a QList<QGeoCoordinate>.
414
415	\since 5.12
416	*/
417	void QGeoPolygon::addHole(const QVariant &holePath)
418	{
419	Q_D(QGeoPolygon);
420	QList<QGeoCoordinate> qgcHolePath;
421	if (holePath.canConvert<QVariantList>()) {
422	const QVariantList qvlHolePath = holePath.toList();
423	for (const QVariant &vertex : qvlHolePath) {
424	if (vertex.canConvert<QGeoCoordinate>())
425	qgcHolePath << vertex.value<QGeoCoordinate>();
426	}
427	}
428	//ToDo: add QGeoShape support
429	return d->addHole(holePath: qgcHolePath);
430	}
431
432	/!*
433	Overloaded method. Sets the \a holePath for a hole inside the polygon. The hole is a QList<QGeoCoordinate>.
434
435	\since 5.12
436	*/
437	void QGeoPolygon::addHole(const QList<QGeoCoordinate> &holePath)
438	{
439	Q_D(QGeoPolygon);
440	return d->addHole(holePath);
441	}
442
443	/!*
444	Returns a QVariant containing a QVariant containing a QList<QGeoCoordinate>
445	which represents the hole at \a index.
446
447	\since 5.12
448	*/
449	const QVariantList QGeoPolygon::hole(int index) const
450	{
451	Q_D(const QGeoPolygon);
452	QVariantList holeCoordinates;
453	for (const QGeoCoordinate &coords: d->holePath(index))
454	holeCoordinates << QVariant::fromValue(value: coords);
455	return holeCoordinates;
456	}
457
458	/!*
459	Returns a QList<QGeoCoordinate> which represents the hole at \a index.
460
461	\since 5.12
462	*/
463	const QList<QGeoCoordinate> QGeoPolygon::holePath(int index) const
464	{
465	Q_D(const QGeoPolygon);
466	return d->holePath(index);
467	}
468
469	/!*
470	Removes element at position \a index from the holes QList.
471
472	\since 5.12
473	*/
474	void QGeoPolygon::removeHole(int index)
475	{
476	Q_D(QGeoPolygon);
477	return d->removeHole(index);
478	}
479
480	/!*
481	Returns the number of holes.
482
483	\since 5.12
484	*/
485	int QGeoPolygon::holesCount() const
486	{
487	Q_D(const QGeoPolygon);
488	return d->holesCount();
489	}
490
491	/*******************************************************************************
492	*
493	* QGeoPathPrivate & friends
494	*
495	*******************************************************************************/
496
497	QGeoPolygonPrivate::QGeoPolygonPrivate()
498	: QGeoPathPrivate ()
499	{
500	type = QGeoShape::PolygonType;
501	}
502
503	QGeoPolygonPrivate::QGeoPolygonPrivate(const QList<QGeoCoordinate> &path)
504	: QGeoPathPrivate (path)
505	{
506	type = QGeoShape::PolygonType;
507	}
508
509	QGeoPolygonPrivate::~QGeoPolygonPrivate() {}
510
511	QGeoShapePrivate QGeoPolygonPrivate::clone() const*
512	{
513	return new QGeoPolygonPrivate (*this);
514	}
515
516	bool QGeoPolygonPrivate::isValid() const
517	{
518	return path().size() > `2`;
519	}
520
521	bool QGeoPolygonPrivate::contains(const QGeoCoordinate &coordinate) const
522	{
523	return polygonContains(coordinate);
524	}
525
526	inline static void translatePoly( QList<QGeoCoordinate> &m_path,
527	QList<QList<QGeoCoordinate>> &m_holesList,
528	QGeoRectangle &m_bbox,
529	double degreesLatitude,
530	double degreesLongitude,
531	double m_maxLati,
532	double m_minLati)
533	{
534	if (degreesLatitude > `0.0`)
535	degreesLatitude = qMin(a: degreesLatitude, b: `90.0` - m_maxLati);
536	else
537	degreesLatitude = qMax(a: degreesLatitude, b: -`90.0` - m_minLati);
538	for (QGeoCoordinate &p: m_path) {
539	p.setLatitude(p.latitude() + degreesLatitude);
540	p.setLongitude(QLocationUtils::wrapLong(lng: p.longitude() + degreesLongitude));
541	}
542	if (!m_holesList.isEmpty()){
543	for (QList<QGeoCoordinate> &hole: m_holesList){
544	for (QGeoCoordinate &holeVertex: hole){
545	holeVertex.setLatitude(holeVertex.latitude() + degreesLatitude);
546	holeVertex.setLongitude(QLocationUtils::wrapLong(lng: holeVertex.longitude() + degreesLongitude));
547	}
548	}
549	}
550	m_bbox.translate(degreesLatitude, degreesLongitude);
551	}
552
553	void QGeoPolygonPrivate::translate(double degreesLatitude, double degreesLongitude)
554	{
555	// Need min/maxLati, so update bbox
556	QVector<double> m_deltaXs;
557	double m_minX, m_maxX, m_minLati, m_maxLati;
558	m_bboxDirty = false; // Updated in translatePoly
559	computeBBox(m_path, m_deltaXs, m_minX, m_maxX, m_minLati, m_maxLati, m_bbox);
560	translatePoly(m_path, m_holesList, m_bbox, degreesLatitude, degreesLongitude, m_maxLati, m_minLati);
561	m_leftBoundWrapped = QWebMercator::coordToMercator(coord: m_bbox.topLeft()).x();
562	m_clipperDirty = true;
563	}
564
565	bool QGeoPolygonPrivate::operator==(const QGeoShapePrivate &other) const
566	{
567	if (!QGeoShapePrivate::operator==(other)) // checks type
568	return false;
569
570	const QGeoPolygonPrivate &otherPath = static_cast<const QGeoPolygonPrivate &>(other);
571	if (m_path.size() != otherPath.m_path.size()
572	\|\| m_holesList.size() != otherPath.m_holesList.size())
573	return false;
574	return m_path == otherPath.m_path && m_holesList == otherPath.m_holesList;
575	}
576
577	void QGeoPolygonPrivate::addHole(const QList<QGeoCoordinate> &holePath)
578	{
579	for (const QGeoCoordinate &holeVertex: holePath)
580	if (!holeVertex.isValid())
581	return;
582
583	m_holesList << holePath;
584	// ToDo: mark clipper dirty when hole caching gets added
585	}
586
587	const QList<QGeoCoordinate> QGeoPolygonPrivate::holePath(int index) const
588	{
589	return m_holesList.at(i: index);
590	}
591
592	void QGeoPolygonPrivate::removeHole(int index)
593	{
594	if (index < `0` \|\| index >= m_holesList.size())
595	return;
596
597	m_holesList.removeAt(i: index);
598	// ToDo: mark clipper dirty when hole caching gets added
599	}
600
601	int QGeoPolygonPrivate::holesCount() const
602	{
603	return m_holesList.size();
604	}
605
606	bool QGeoPolygonPrivate::polygonContains(const QGeoCoordinate &coordinate) const
607	{
608	if (m_clipperDirty)
609	const_cast<QGeoPolygonPrivate >(this)->updateClipperPath(); // this one updates bbox too if needed*
610
611	QDoubleVector2D coord = QWebMercator::coordToMercator(coord: coordinate);
612
613	if (coord.x() < m_leftBoundWrapped)
614	coord.setX(coord.x() + `1.0`);
615
616
617	IntPoint intCoord = QClipperUtils::toIntPoint(p: coord);
618	if (!c2t::clip2tri::pointInPolygon(pt: intCoord, path: m_clipperPath))
619	return false;
620
621	// else iterates the holes List checking whether the point is contained inside the holes
622	for (const QList<QGeoCoordinate> &holePath : qAsConst(t: m_holesList)) {
623	// ToDo: cache these
624	QGeoPolygon holePolygon;
625	holePolygon.setPath(holePath);
626	if (holePolygon.contains(coordinate))
627	return false;
628	}
629	return true;
630	}
631
632	void QGeoPolygonPrivate::markDirty()
633	{
634	m_bboxDirty = m_clipperDirty = true;
635	}
636
637	void QGeoPolygonPrivate::updateClipperPath()
638	{
639	if (m_bboxDirty)
640	computeBoundingBox();
641	m_clipperDirty = false;
642
643	QList<QDoubleVector2D> preservedPath;
644	for (const QGeoCoordinate &c : m_path) {
645	QDoubleVector2D crd = QWebMercator::coordToMercator(coord: c);
646	if (crd.x() < m_leftBoundWrapped)
647	crd.setX(crd.x() + `1.0`);
648	preservedPath << crd;
649	}
650	m_clipperPath = QClipperUtils::qListToPath(list: preservedPath);
651	}
652
653	QGeoPolygonPrivateEager::QGeoPolygonPrivateEager() : QGeoPolygonPrivate ()
654	{
655	m_bboxDirty = false; // never dirty on the eager version
656	}
657
658	QGeoPolygonPrivateEager::QGeoPolygonPrivateEager(const QList<QGeoCoordinate> &path) : QGeoPolygonPrivate (path)
659	{
660	m_bboxDirty = false; // never dirty on the eager version
661	}
662
663	QGeoPolygonPrivateEager::~QGeoPolygonPrivateEager()
664	{
665
666	}
667
668	QGeoShapePrivate QGeoPolygonPrivateEager::clone() const*
669	{
670	return new QGeoPolygonPrivate (*this);
671	}
672
673	void QGeoPolygonPrivateEager::translate(double degreesLatitude, double degreesLongitude)
674	{
675	translatePoly(m_path, m_holesList, m_bbox, degreesLatitude, degreesLongitude, m_maxLati, m_minLati);
676	m_leftBoundWrapped = QWebMercator::coordToMercator(coord: m_bbox.topLeft()).x();
677	m_clipperDirty = true;
678	}
679
680	void QGeoPolygonPrivateEager::markDirty()
681	{
682	m_clipperDirty = true;
683	computeBoundingBox();
684	}
685
686	void QGeoPolygonPrivateEager::addCoordinate(const QGeoCoordinate &coordinate)
687	{
688	if (!coordinate.isValid())
689	return;
690	m_path.append(t: coordinate);
691	m_clipperDirty = true;
692	updateBoundingBox(); // do not markDirty as it uses computeBoundingBox instead
693	}
694
695	void QGeoPolygonPrivateEager::computeBoundingBox()
696	{
697	computeBBox(m_path, m_deltaXs, m_minX, m_maxX, m_minLati, m_maxLati, m_bbox);
698	m_leftBoundWrapped = QWebMercator::coordToMercator(coord: m_bbox.topLeft()).x();
699	}
700
701	void QGeoPolygonPrivateEager::updateBoundingBox()
702	{
703	updateBBox(m_path, m_deltaXs, m_minX, m_maxX, m_minLati, m_maxLati, m_bbox);
704	}
705
706	QGeoPolygonEager::QGeoPolygonEager() : QGeoPolygon ()
707	{
708	initPolygonConversions ();
709	d_ptr = new QGeoPolygonPrivateEager;
710	}
711
712	QGeoPolygonEager::QGeoPolygonEager(const QList<QGeoCoordinate> &path) : QGeoPolygon ()
713	{
714	initPolygonConversions ();
715	d_ptr = new QGeoPolygonPrivateEager (path);
716	}
717
718	QGeoPolygonEager::QGeoPolygonEager(const QGeoPolygon &other) : QGeoPolygon ()
719	{
720	initPolygonConversions ();
721	// without being able to dynamic_cast the d_ptr, only way to be sure is to reconstruct a new QGeoPolygonPrivateEager
722	d_ptr = new QGeoPolygonPrivateEager;
723	setPath(other.path());
724	for (int i = `0`; i < other.holesCount(); i++)
725	addHole(holePath: other.holePath(index: i));
726	}
727
728	QGeoPolygonEager::QGeoPolygonEager(const QGeoShape &other) : QGeoPolygon ()
729	{
730	initPolygonConversions ();
731	if (other.type() == QGeoShape::PolygonType)
732	*this = QGeoPolygonEager (QGeoPolygon (other));
733	else
734	d_ptr = new QGeoPolygonPrivateEager;
735	}
736
737	QGeoPolygonEager::~QGeoPolygonEager()
738	{
739
740	}
741
742	QT_END_NAMESPACE
743

source code of qtlocation/src/positioning/qgeopolygon.cpp