qt-everywhere-src-5.15.1/qtlocation/tests/auto/qgeopath/tst_qgeopath.cpp - orbit - Git at Google

 /****************************************************************************
 **
 ** Copyright (C) 2016 The Qt Company Ltd.
 ** Contact: https://www.qt.io/licensing/
 **
 ** This file is part of the test suite of the Qt Toolkit.
 **
 ** $QT_BEGIN_LICENSE:GPL-EXCEPT$
 ** Commercial License Usage
 ** Licensees holding valid commercial Qt licenses may use this file in
 ** accordance with the commercial license agreement provided with the
 ** Software or, alternatively, in accordance with the terms contained in
 ** a written agreement between you and The Qt Company. For licensing terms
 ** and conditions see https://www.qt.io/terms-conditions. For further
 ** information use the contact form at https://www.qt.io/contact-us.
 **
 ** GNU General Public License Usage
 ** Alternatively, this file may be used under the terms of the GNU
 ** General Public License version 3 as published by the Free Software
 ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
 ** included in the packaging of this file. Please review the following
 ** information to ensure the GNU General Public License requirements will
 ** be met: https://www.gnu.org/licenses/gpl-3.0.html.
 **
 ** $QT_END_LICENSE$
 **
 ****************************************************************************/

 #include <QtTest/QtTest>
 #include <QtPositioning/QGeoCoordinate>
 #include <QtPositioning/QGeoRectangle>
 #include <QtPositioning/QGeoPath>

 QT_USE_NAMESPACE

 class tst_QGeoPath : public QObject
 {
     Q_OBJECT

 private slots:
     void defaultConstructor();
     void listConstructor();
     void assignment();

     void comparison();
     void type();

     void path();
     void width();
     void size();

     void translate_data();
     void translate();

     void valid_data();
     void valid();

     void contains_data();
     void contains();

     void boundingGeoRectangle_data();
     void boundingGeoRectangle();

     void extendShape();
     void extendShape_data();
 };

 void tst_QGeoPath::defaultConstructor()
 {
     QGeoPath p;
     QVERIFY(!p.path().size());
     QCOMPARE(p.width(), qreal(0.0));
     QCOMPARE(p.length(), double(0.0));
 }

 void tst_QGeoPath::listConstructor()
 {
     QList<QGeoCoordinate> coords;
     coords.append(QGeoCoordinate(1,1));
     coords.append(QGeoCoordinate(2,2));
     coords.append(QGeoCoordinate(3,0));

     QGeoPath p(coords, 1.0);
     QCOMPARE(p.width(), qreal(1.0));
     QCOMPARE(p.path().size(), 3);

     for (const QGeoCoordinate &c : coords) {
         QCOMPARE(p.path().contains(c), true);
     }
 }

 void tst_QGeoPath::assignment()
 {
     QGeoPath p1;
     QList<QGeoCoordinate> coords;
     coords.append(QGeoCoordinate(1,1));
     coords.append(QGeoCoordinate(2,2));
     coords.append(QGeoCoordinate(3,0));
     QGeoPath p2(coords, 1.0);

     QVERIFY(p1 != p2);

     p1 = p2;
     QCOMPARE(p1.path(), coords);
     QCOMPARE(p1.width(), 1.0);
     QCOMPARE(p1, p2);

     // Assign c1 to an area
     QGeoShape area = p1;
     QCOMPARE(area.type(), p1.type());
     QVERIFY(area == p1);

     // Assign the area back to a bounding circle
     QGeoPath p3 = area;
     QCOMPARE(p3.path(), coords);
     QCOMPARE(p3.width(), 1.0);

     // Check that the copy is not modified when modifying the original.
     p1.setWidth(2.0);
     QVERIFY(p3.width() != p1.width());
     QVERIFY(p3 != p1);
 }

 void tst_QGeoPath::comparison()
 {
     QList<QGeoCoordinate> coords;
     coords.append(QGeoCoordinate(1,1));
     coords.append(QGeoCoordinate(2,2));
     coords.append(QGeoCoordinate(3,0));
     QList<QGeoCoordinate> coords2;
     coords2.append(QGeoCoordinate(3,1));
     coords2.append(QGeoCoordinate(4,2));
     coords2.append(QGeoCoordinate(3,0));
     QGeoPath c1(coords, qreal(50.0));
     QGeoPath c2(coords, qreal(50.0));
     QGeoPath c3(coords, qreal(35.0));
     QGeoPath c4(coords2, qreal(50.0));

     QVERIFY(c1 == c2);
     QVERIFY(!(c1 != c2));

     QVERIFY(!(c1 == c3));
     QVERIFY(c1 != c3);

     QVERIFY(!(c1 == c4));
     QVERIFY(c1 != c4);

     QVERIFY(!(c2 == c3));
     QVERIFY(c2 != c3);

     QGeoRectangle b1(QGeoCoordinate(20,20),QGeoCoordinate(10,30));
     QVERIFY(!(c1 == b1));
     QVERIFY(c1 != b1);

     QGeoShape *c2Ptr = &c2;
     QVERIFY(c1 == *c2Ptr);
     QVERIFY(!(c1 != *c2Ptr));

     QGeoShape *c3Ptr = &c3;
     QVERIFY(!(c1 == *c3Ptr));
     QVERIFY(c1 != *c3Ptr);
 }

 void tst_QGeoPath::type()
 {
     QGeoPath c;
     QCOMPARE(c.type(), QGeoShape::PathType);
 }

 void tst_QGeoPath::path()
 {
     QList<QGeoCoordinate> coords;
     coords.append(QGeoCoordinate(1,1));
     coords.append(QGeoCoordinate(2,2));
     coords.append(QGeoCoordinate(3,0));

     QGeoPath p;
     p.setPath(coords);
     QCOMPARE(p.path().size(), 3);

     for (const QGeoCoordinate &c : coords) {
         QCOMPARE(p.path().contains(c), true);
     }

     p.clearPath();
     QCOMPARE(p.path().size(), 0);
     QVERIFY(p.boundingGeoRectangle().isEmpty());
 }

 void tst_QGeoPath::width()
 {
     QGeoPath p;
     p.setWidth(10.0);
     QCOMPARE(p.width(), qreal(10.0));
 }

 void tst_QGeoPath::size()
 {
     QList<QGeoCoordinate> coords;

     QGeoPath p1(coords, 3);
     QCOMPARE(p1.size(), coords.size());

     coords.append(QGeoCoordinate(1,1));
     QGeoPath p2(coords, 3);
     QCOMPARE(p2.size(), coords.size());

     coords.append(QGeoCoordinate(2,2));
     QGeoPath p3(coords, 3);
     QCOMPARE(p3.size(), coords.size());

     coords.append(QGeoCoordinate(3,0));
     QGeoPath p4(coords, 3);
     QCOMPARE(p4.size(), coords.size());

     p4.removeCoordinate(2);
     QCOMPARE(p4.size(), coords.size() - 1);

     p4.removeCoordinate(coords.first());
     QCOMPARE(p4.size(), coords.size() - 2);
 }

 void tst_QGeoPath::translate_data()
 {
     QTest::addColumn<QGeoCoordinate>("c1");
     QTest::addColumn<QGeoCoordinate>("c2");
     QTest::addColumn<QGeoCoordinate>("c3");
     QTest::addColumn<double>("lat");
     QTest::addColumn<double>("lon");

     QTest::newRow("Simple") << QGeoCoordinate(1,1) << QGeoCoordinate(2,2) <<
                                  QGeoCoordinate(3,0) << 5.0 << 4.0;
     QTest::newRow("Backward") << QGeoCoordinate(1,1) << QGeoCoordinate(2,2) <<
                                  QGeoCoordinate(3,0) << -5.0 << -4.0;
 }

 void tst_QGeoPath::translate()
 {
     QFETCH(QGeoCoordinate, c1);
     QFETCH(QGeoCoordinate, c2);
     QFETCH(QGeoCoordinate, c3);
     QFETCH(double, lat);
     QFETCH(double, lon);

     QList<QGeoCoordinate> coords;
     coords.append(c1);
     coords.append(c2);
     coords.append(c3);
     QGeoPath p(coords);

     p.translate(lat, lon);

     for (int i = 0; i < p.path().size(); i++) {
         QCOMPARE(coords[i].latitude(), p.path()[i].latitude() - lat );
         QCOMPARE(coords[i].longitude(), p.path()[i].longitude() - lon );
     }
 }

 void tst_QGeoPath::valid_data()
 {
     QTest::addColumn<QGeoCoordinate>("c1");
     QTest::addColumn<QGeoCoordinate>("c2");
     QTest::addColumn<QGeoCoordinate>("c3");
     QTest::addColumn<qreal>("width");
     QTest::addColumn<bool>("valid");

     QTest::newRow("empty coords") << QGeoCoordinate() << QGeoCoordinate() << QGeoCoordinate() << qreal(5.0) << false;
     QTest::newRow("invalid coord") << QGeoCoordinate(50, 50) << QGeoCoordinate(60, 60) << QGeoCoordinate(700, 700) << qreal(5.0) << false;
     QTest::newRow("bad width") << QGeoCoordinate(10, 10) << QGeoCoordinate(11, 11) << QGeoCoordinate(10, 12) << qreal(-5.0) << true;
     QTest::newRow("NaN width") << QGeoCoordinate(10, 10) << QGeoCoordinate(11, 11) << QGeoCoordinate(10, 12) << qreal(qQNaN()) << true;
     QTest::newRow("zero width") << QGeoCoordinate(10, 10) << QGeoCoordinate(11, 11) << QGeoCoordinate(10, 12) << qreal(0) << true;
     QTest::newRow("good") << QGeoCoordinate(10, 10) << QGeoCoordinate(11, 11) << QGeoCoordinate(10, 12) << qreal(5) << true;
 }

 void tst_QGeoPath::valid()
 {
     QFETCH(QGeoCoordinate, c1);
     QFETCH(QGeoCoordinate, c2);
     QFETCH(QGeoCoordinate, c3);
     QFETCH(qreal, width);
     QFETCH(bool, valid);

     QList<QGeoCoordinate> coords;
     coords.append(c1);
     coords.append(c2);
     coords.append(c3);
     QGeoPath p(coords, width);

     QCOMPARE(p.isValid(), valid);

     QGeoShape area = p;
     QCOMPARE(area.isValid(), valid);
 }

 void tst_QGeoPath::contains_data()
 {
     QTest::addColumn<QGeoCoordinate>("c1");
     QTest::addColumn<QGeoCoordinate>("c2");
     QTest::addColumn<QGeoCoordinate>("c3");
     QTest::addColumn<qreal>("width");
     QTest::addColumn<QGeoCoordinate>("probe");
     QTest::addColumn<bool>("result");

     QList<QGeoCoordinate> c;
     c.append(QGeoCoordinate(1,1));
     c.append(QGeoCoordinate(2,2));
     c.append(QGeoCoordinate(3,0));

     QTest::newRow("One of the points") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(2, 2) << true;
     QTest::newRow("Not so far away") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(0.8, 0.8) << false;
     QTest::newRow("Not so far away and large line") << c[0] << c[1] << c[2] << 100000.0 << QGeoCoordinate(0.8, 0.8) << true;
 }

 void tst_QGeoPath::contains()
 {
     QFETCH(QGeoCoordinate, c1);
     QFETCH(QGeoCoordinate, c2);
     QFETCH(QGeoCoordinate, c3);
     QFETCH(qreal, width);
     QFETCH(QGeoCoordinate, probe);
     QFETCH(bool, result);

     QList<QGeoCoordinate> coords;
     coords.append(c1);
     coords.append(c2);
     coords.append(c3);
     QGeoPath p(coords, width);

     QCOMPARE(p.contains(probe), result);

     QGeoShape area = p;
     QCOMPARE(area.contains(probe), result);
 }

 void tst_QGeoPath::boundingGeoRectangle_data()
 {
     QTest::addColumn<QGeoCoordinate>("c1");
     QTest::addColumn<QGeoCoordinate>("c2");
     QTest::addColumn<QGeoCoordinate>("c3");
     QTest::addColumn<qreal>("width");
     QTest::addColumn<QGeoCoordinate>("probe");
     QTest::addColumn<bool>("result");

     QList<QGeoCoordinate> c;
     c.append(QGeoCoordinate(1,1));
     c.append(QGeoCoordinate(2,2));
     c.append(QGeoCoordinate(3,0));

     QTest::newRow("One of the points") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(2, 2) << true;
     QTest::newRow("Not so far away") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(0, 0) << false;
     QTest::newRow("Inside the bounds") << c[0] << c[1] << c[2] << 100.0 << QGeoCoordinate(1, 0) << true;
     QTest::newRow("Inside the bounds") << c[0] << c[1] << c[2] << 100.0 << QGeoCoordinate(1.1, 0.1) << true;
 }

 void tst_QGeoPath::boundingGeoRectangle()
 {
     QFETCH(QGeoCoordinate, c1);
     QFETCH(QGeoCoordinate, c2);
     QFETCH(QGeoCoordinate, c3);
     QFETCH(qreal, width);
     QFETCH(QGeoCoordinate, probe);
     QFETCH(bool, result);

     QList<QGeoCoordinate> coords;
     coords.append(c1);
     coords.append(c2);
     coords.append(c3);
     QGeoPath p(coords, width);

     QGeoRectangle box = p.boundingGeoRectangle();
     QCOMPARE(box.contains(probe), result);
 }

 void tst_QGeoPath::extendShape()
 {
     QFETCH(QGeoCoordinate, c1);
     QFETCH(QGeoCoordinate, c2);
     QFETCH(QGeoCoordinate, c3);
     QFETCH(qreal, width);
     QFETCH(QGeoCoordinate, probe);
     QFETCH(bool, before);
     QFETCH(bool, after);

     QList<QGeoCoordinate> coords;
     coords.append(c1);
     coords.append(c2);
     coords.append(c3);
     QGeoPath p(coords, width);


     QCOMPARE(p.contains(probe), before);
     p.extendShape(probe);
     QCOMPARE(p.contains(probe), after);
 }

 void tst_QGeoPath::extendShape_data()
 {
     QTest::addColumn<QGeoCoordinate>("c1");
     QTest::addColumn<QGeoCoordinate>("c2");
     QTest::addColumn<QGeoCoordinate>("c3");
     QTest::addColumn<qreal>("width");
     QTest::addColumn<QGeoCoordinate>("probe");
     QTest::addColumn<bool>("before");
     QTest::addColumn<bool>("after");

     QList<QGeoCoordinate> c;
     c.append(QGeoCoordinate(1,1));
     c.append(QGeoCoordinate(2,2));
     c.append(QGeoCoordinate(3,0));

     QTest::newRow("One of the points") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(2, 2) << true << true;
     QTest::newRow("Not so far away") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(0, 0) << false << true;
     QTest::newRow("Not so far away and large line") << c[0] << c[1] << c[2] << 100000.0 << QGeoCoordinate(0.8, 0.8) << true << true;
 }

 QTEST_MAIN(tst_QGeoPath)
 #include "tst_qgeopath.moc"
	/****************************************************************************
	**
	** Copyright (C) 2016 The Qt Company Ltd.
	** Contact: https://www.qt.io/licensing/
	**
	** This file is part of the test suite of the Qt Toolkit.
	**
	** $QT_BEGIN_LICENSE:GPL-EXCEPT$
	** Commercial License Usage
	** Licensees holding valid commercial Qt licenses may use this file in
	** accordance with the commercial license agreement provided with the
	** Software or, alternatively, in accordance with the terms contained in
	** a written agreement between you and The Qt Company. For licensing terms
	** and conditions see https://www.qt.io/terms-conditions. For further
	** information use the contact form at https://www.qt.io/contact-us.
	**
	** GNU General Public License Usage
	** Alternatively, this file may be used under the terms of the GNU
	** General Public License version 3 as published by the Free Software
	** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
	** included in the packaging of this file. Please review the following
	** information to ensure the GNU General Public License requirements will
	** be met: https://www.gnu.org/licenses/gpl-3.0.html.
	**
	** $QT_END_LICENSE$
	**
	****************************************************************************/

	#include <QtTest/QtTest>
	#include <QtPositioning/QGeoCoordinate>
	#include <QtPositioning/QGeoRectangle>
	#include <QtPositioning/QGeoPath>

	QT_USE_NAMESPACE

	class tst_QGeoPath : public QObject
	{
	Q_OBJECT

	private slots:
	void defaultConstructor();
	void listConstructor();
	void assignment();

	void comparison();
	void type();

	void path();
	void width();
	void size();

	void translate_data();
	void translate();

	void valid_data();
	void valid();

	void contains_data();
	void contains();

	void boundingGeoRectangle_data();
	void boundingGeoRectangle();

	void extendShape();
	void extendShape_data();
	};

	void tst_QGeoPath::defaultConstructor()
	{
	QGeoPath p;
	QVERIFY(!p.path().size());
	QCOMPARE(p.width(), qreal(0.0));
	QCOMPARE(p.length(), double(0.0));
	}

	void tst_QGeoPath::listConstructor()
	{
	QList<QGeoCoordinate> coords;
	coords.append(QGeoCoordinate(1,1));
	coords.append(QGeoCoordinate(2,2));
	coords.append(QGeoCoordinate(3,0));

	QGeoPath p(coords, 1.0);
	QCOMPARE(p.width(), qreal(1.0));
	QCOMPARE(p.path().size(), 3);

	for (const QGeoCoordinate &c : coords) {
	QCOMPARE(p.path().contains(c), true);
	}
	}

	void tst_QGeoPath::assignment()
	{
	QGeoPath p1;
	QList<QGeoCoordinate> coords;
	coords.append(QGeoCoordinate(1,1));
	coords.append(QGeoCoordinate(2,2));
	coords.append(QGeoCoordinate(3,0));
	QGeoPath p2(coords, 1.0);

	QVERIFY(p1 != p2);

	p1 = p2;
	QCOMPARE(p1.path(), coords);
	QCOMPARE(p1.width(), 1.0);
	QCOMPARE(p1, p2);

	// Assign c1 to an area
	QGeoShape area = p1;
	QCOMPARE(area.type(), p1.type());
	QVERIFY(area == p1);

	// Assign the area back to a bounding circle
	QGeoPath p3 = area;
	QCOMPARE(p3.path(), coords);
	QCOMPARE(p3.width(), 1.0);

	// Check that the copy is not modified when modifying the original.
	p1.setWidth(2.0);
	QVERIFY(p3.width() != p1.width());
	QVERIFY(p3 != p1);
	}

	void tst_QGeoPath::comparison()
	{
	QList<QGeoCoordinate> coords;
	coords.append(QGeoCoordinate(1,1));
	coords.append(QGeoCoordinate(2,2));
	coords.append(QGeoCoordinate(3,0));
	QList<QGeoCoordinate> coords2;
	coords2.append(QGeoCoordinate(3,1));
	coords2.append(QGeoCoordinate(4,2));
	coords2.append(QGeoCoordinate(3,0));
	QGeoPath c1(coords, qreal(50.0));
	QGeoPath c2(coords, qreal(50.0));
	QGeoPath c3(coords, qreal(35.0));
	QGeoPath c4(coords2, qreal(50.0));

	QVERIFY(c1 == c2);
	QVERIFY(!(c1 != c2));

	QVERIFY(!(c1 == c3));
	QVERIFY(c1 != c3);

	QVERIFY(!(c1 == c4));
	QVERIFY(c1 != c4);

	QVERIFY(!(c2 == c3));
	QVERIFY(c2 != c3);

	QGeoRectangle b1(QGeoCoordinate(20,20),QGeoCoordinate(10,30));
	QVERIFY(!(c1 == b1));
	QVERIFY(c1 != b1);

	QGeoShape *c2Ptr = &c2;
	QVERIFY(c1 == *c2Ptr);
	QVERIFY(!(c1 != *c2Ptr));

	QGeoShape *c3Ptr = &c3;
	QVERIFY(!(c1 == *c3Ptr));
	QVERIFY(c1 != *c3Ptr);
	}

	void tst_QGeoPath::type()
	{
	QGeoPath c;
	QCOMPARE(c.type(), QGeoShape::PathType);
	}

	void tst_QGeoPath::path()
	{
	QList<QGeoCoordinate> coords;
	coords.append(QGeoCoordinate(1,1));
	coords.append(QGeoCoordinate(2,2));
	coords.append(QGeoCoordinate(3,0));

	QGeoPath p;
	p.setPath(coords);
	QCOMPARE(p.path().size(), 3);

	for (const QGeoCoordinate &c : coords) {
	QCOMPARE(p.path().contains(c), true);
	}

	p.clearPath();
	QCOMPARE(p.path().size(), 0);
	QVERIFY(p.boundingGeoRectangle().isEmpty());
	}

	void tst_QGeoPath::width()
	{
	QGeoPath p;
	p.setWidth(10.0);
	QCOMPARE(p.width(), qreal(10.0));
	}

	void tst_QGeoPath::size()
	{
	QList<QGeoCoordinate> coords;

	QGeoPath p1(coords, 3);
	QCOMPARE(p1.size(), coords.size());

	coords.append(QGeoCoordinate(1,1));
	QGeoPath p2(coords, 3);
	QCOMPARE(p2.size(), coords.size());

	coords.append(QGeoCoordinate(2,2));
	QGeoPath p3(coords, 3);
	QCOMPARE(p3.size(), coords.size());

	coords.append(QGeoCoordinate(3,0));
	QGeoPath p4(coords, 3);
	QCOMPARE(p4.size(), coords.size());

	p4.removeCoordinate(2);
	QCOMPARE(p4.size(), coords.size() - 1);

	p4.removeCoordinate(coords.first());
	QCOMPARE(p4.size(), coords.size() - 2);
	}

	void tst_QGeoPath::translate_data()
	{
	QTest::addColumn<QGeoCoordinate>("c1");
	QTest::addColumn<QGeoCoordinate>("c2");
	QTest::addColumn<QGeoCoordinate>("c3");
	QTest::addColumn<double>("lat");
	QTest::addColumn<double>("lon");

	QTest::newRow("Simple") << QGeoCoordinate(1,1) << QGeoCoordinate(2,2) <<
	QGeoCoordinate(3,0) << 5.0 << 4.0;
	QTest::newRow("Backward") << QGeoCoordinate(1,1) << QGeoCoordinate(2,2) <<
	QGeoCoordinate(3,0) << -5.0 << -4.0;
	}

	void tst_QGeoPath::translate()
	{
	QFETCH(QGeoCoordinate, c1);
	QFETCH(QGeoCoordinate, c2);
	QFETCH(QGeoCoordinate, c3);
	QFETCH(double, lat);
	QFETCH(double, lon);

	QList<QGeoCoordinate> coords;
	coords.append(c1);
	coords.append(c2);
	coords.append(c3);
	QGeoPath p(coords);

	p.translate(lat, lon);

	for (int i = 0; i < p.path().size(); i++) {
	QCOMPARE(coords[i].latitude(), p.path()[i].latitude() - lat );
	QCOMPARE(coords[i].longitude(), p.path()[i].longitude() - lon );
	}
	}

	void tst_QGeoPath::valid_data()
	{
	QTest::addColumn<QGeoCoordinate>("c1");
	QTest::addColumn<QGeoCoordinate>("c2");
	QTest::addColumn<QGeoCoordinate>("c3");
	QTest::addColumn<qreal>("width");
	QTest::addColumn<bool>("valid");

	QTest::newRow("empty coords") << QGeoCoordinate() << QGeoCoordinate() << QGeoCoordinate() << qreal(5.0) << false;
	QTest::newRow("invalid coord") << QGeoCoordinate(50, 50) << QGeoCoordinate(60, 60) << QGeoCoordinate(700, 700) << qreal(5.0) << false;
	QTest::newRow("bad width") << QGeoCoordinate(10, 10) << QGeoCoordinate(11, 11) << QGeoCoordinate(10, 12) << qreal(-5.0) << true;
	QTest::newRow("NaN width") << QGeoCoordinate(10, 10) << QGeoCoordinate(11, 11) << QGeoCoordinate(10, 12) << qreal(qQNaN()) << true;
	QTest::newRow("zero width") << QGeoCoordinate(10, 10) << QGeoCoordinate(11, 11) << QGeoCoordinate(10, 12) << qreal(0) << true;
	QTest::newRow("good") << QGeoCoordinate(10, 10) << QGeoCoordinate(11, 11) << QGeoCoordinate(10, 12) << qreal(5) << true;
	}

	void tst_QGeoPath::valid()
	{
	QFETCH(QGeoCoordinate, c1);
	QFETCH(QGeoCoordinate, c2);
	QFETCH(QGeoCoordinate, c3);
	QFETCH(qreal, width);
	QFETCH(bool, valid);

	QList<QGeoCoordinate> coords;
	coords.append(c1);
	coords.append(c2);
	coords.append(c3);
	QGeoPath p(coords, width);

	QCOMPARE(p.isValid(), valid);

	QGeoShape area = p;
	QCOMPARE(area.isValid(), valid);
	}

	void tst_QGeoPath::contains_data()
	{
	QTest::addColumn<QGeoCoordinate>("c1");
	QTest::addColumn<QGeoCoordinate>("c2");
	QTest::addColumn<QGeoCoordinate>("c3");
	QTest::addColumn<qreal>("width");
	QTest::addColumn<QGeoCoordinate>("probe");
	QTest::addColumn<bool>("result");

	QList<QGeoCoordinate> c;
	c.append(QGeoCoordinate(1,1));
	c.append(QGeoCoordinate(2,2));
	c.append(QGeoCoordinate(3,0));

	QTest::newRow("One of the points") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(2, 2) << true;
	QTest::newRow("Not so far away") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(0.8, 0.8) << false;
	QTest::newRow("Not so far away and large line") << c[0] << c[1] << c[2] << 100000.0 << QGeoCoordinate(0.8, 0.8) << true;
	}

	void tst_QGeoPath::contains()
	{
	QFETCH(QGeoCoordinate, c1);
	QFETCH(QGeoCoordinate, c2);
	QFETCH(QGeoCoordinate, c3);
	QFETCH(qreal, width);
	QFETCH(QGeoCoordinate, probe);
	QFETCH(bool, result);

	QList<QGeoCoordinate> coords;
	coords.append(c1);
	coords.append(c2);
	coords.append(c3);
	QGeoPath p(coords, width);

	QCOMPARE(p.contains(probe), result);

	QGeoShape area = p;
	QCOMPARE(area.contains(probe), result);
	}

	void tst_QGeoPath::boundingGeoRectangle_data()
	{
	QTest::addColumn<QGeoCoordinate>("c1");
	QTest::addColumn<QGeoCoordinate>("c2");
	QTest::addColumn<QGeoCoordinate>("c3");
	QTest::addColumn<qreal>("width");
	QTest::addColumn<QGeoCoordinate>("probe");
	QTest::addColumn<bool>("result");

	QList<QGeoCoordinate> c;
	c.append(QGeoCoordinate(1,1));
	c.append(QGeoCoordinate(2,2));
	c.append(QGeoCoordinate(3,0));

	QTest::newRow("One of the points") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(2, 2) << true;
	QTest::newRow("Not so far away") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(0, 0) << false;
	QTest::newRow("Inside the bounds") << c[0] << c[1] << c[2] << 100.0 << QGeoCoordinate(1, 0) << true;
	QTest::newRow("Inside the bounds") << c[0] << c[1] << c[2] << 100.0 << QGeoCoordinate(1.1, 0.1) << true;
	}

	void tst_QGeoPath::boundingGeoRectangle()
	{
	QFETCH(QGeoCoordinate, c1);
	QFETCH(QGeoCoordinate, c2);
	QFETCH(QGeoCoordinate, c3);
	QFETCH(qreal, width);
	QFETCH(QGeoCoordinate, probe);
	QFETCH(bool, result);

	QList<QGeoCoordinate> coords;
	coords.append(c1);
	coords.append(c2);
	coords.append(c3);
	QGeoPath p(coords, width);

	QGeoRectangle box = p.boundingGeoRectangle();
	QCOMPARE(box.contains(probe), result);
	}

	void tst_QGeoPath::extendShape()
	{
	QFETCH(QGeoCoordinate, c1);
	QFETCH(QGeoCoordinate, c2);
	QFETCH(QGeoCoordinate, c3);
	QFETCH(qreal, width);
	QFETCH(QGeoCoordinate, probe);
	QFETCH(bool, before);
	QFETCH(bool, after);

	QList<QGeoCoordinate> coords;
	coords.append(c1);
	coords.append(c2);
	coords.append(c3);
	QGeoPath p(coords, width);


	QCOMPARE(p.contains(probe), before);
	p.extendShape(probe);
	QCOMPARE(p.contains(probe), after);
	}

	void tst_QGeoPath::extendShape_data()
	{
	QTest::addColumn<QGeoCoordinate>("c1");
	QTest::addColumn<QGeoCoordinate>("c2");
	QTest::addColumn<QGeoCoordinate>("c3");
	QTest::addColumn<qreal>("width");
	QTest::addColumn<QGeoCoordinate>("probe");
	QTest::addColumn<bool>("before");
	QTest::addColumn<bool>("after");

	QList<QGeoCoordinate> c;
	c.append(QGeoCoordinate(1,1));
	c.append(QGeoCoordinate(2,2));
	c.append(QGeoCoordinate(3,0));

	QTest::newRow("One of the points") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(2, 2) << true << true;
	QTest::newRow("Not so far away") << c[0] << c[1] << c[2] << 0.0 << QGeoCoordinate(0, 0) << false << true;
	QTest::newRow("Not so far away and large line") << c[0] << c[1] << c[2] << 100000.0 << QGeoCoordinate(0.8, 0.8) << true << true;
	}

	QTEST_MAIN(tst_QGeoPath)
	#include "tst_qgeopath.moc"