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#include <QTest>
#include <QMetaType>
#include <QSignalSpy>
#include <QDebug>
#include <QTimer>
#include <limits.h>
#include <qnumeric.h>
#include <qgeopositioninfosource.h>
#include <qgeopositioninfo.h>
#include "testqgeopositioninfosource_p.h"
#include "qlocationtestutils_p.h"
Q_DECLARE_METATYPE(QGeoPositionInfoSource::PositioningMethod)
Q_DECLARE_METATYPE(QGeoPositionInfoSource::PositioningMethods)
Q_DECLARE_METATYPE(QGeoPositionInfo)
#define MAX_WAITING_TIME 50000
// Must provide a valid source, unless testing the source
// returned by QGeoPositionInfoSource::createDefaultSource() on a system
// that has no default source
#define CHECK_SOURCE_VALID { \
if (!m_source) { \
if (m_testingDefaultSource && QGeoPositionInfoSource::createDefaultSource(0) == 0) \
QSKIP("No default position source on this system", SkipAll); \
else \
QFAIL("createTestSource() must return a valid source!"); \
} \
}
class MyPositionSource : public QGeoPositionInfoSource
{
Q_OBJECT
public:
MyPositionSource(QObject *parent = 0)
: QGeoPositionInfoSource(parent) {
}
QGeoPositionInfo lastKnownPosition(bool /*fromSatellitePositioningMethodsOnly = false*/) const {
return QGeoPositionInfo();
}
void setSupportedPositioningMethods(PositioningMethods methods) {
m_methods = methods;
}
virtual PositioningMethods supportedPositioningMethods() const {
return m_methods;
}
virtual int minimumUpdateInterval() const {
return 0;
}
virtual void startUpdates() {}
virtual void stopUpdates() {}
virtual void requestUpdate(int) {}
private:
PositioningMethods m_methods;
};
class DefaultSourceTest : public TestQGeoPositionInfoSource
{
Q_OBJECT
protected:
QGeoPositionInfoSource *createTestSource() {
return QGeoPositionInfoSource::createDefaultSource(0);
}
};
TestQGeoPositionInfoSource::TestQGeoPositionInfoSource(QObject *parent)
: QObject(parent)
{
m_testingDefaultSource = false;
}
TestQGeoPositionInfoSource *TestQGeoPositionInfoSource::createDefaultSourceTest()
{
DefaultSourceTest *test = new DefaultSourceTest;
test->m_testingDefaultSource = true;
return test;
}
void TestQGeoPositionInfoSource::test_slot1()
{
}
void TestQGeoPositionInfoSource::test_slot2()
{
m_testSlot2Called = true;
}
void TestQGeoPositionInfoSource::base_initTestCase()
{
qRegisterMetaType<QGeoPositionInfo>();
}
void TestQGeoPositionInfoSource::base_init()
{
m_source = createTestSource();
m_testSlot2Called = false;
}
void TestQGeoPositionInfoSource::base_cleanup()
{
delete m_source;
m_source = 0;
}
void TestQGeoPositionInfoSource::base_cleanupTestCase()
{
}
void TestQGeoPositionInfoSource::initTestCase()
{
base_initTestCase();
}
void TestQGeoPositionInfoSource::init()
{
base_init();
}
void TestQGeoPositionInfoSource::cleanup()
{
base_cleanup();
}
void TestQGeoPositionInfoSource::cleanupTestCase()
{
base_cleanupTestCase();
}
// TC_ID_3_x_1
void TestQGeoPositionInfoSource::constructor_withParent()
{
//QLocationTestUtils::uheap_mark();
QObject *parent = new QObject();
new MyPositionSource(parent);
delete parent;
//QLocationTestUtils::uheap_mark_end();
}
// TC_ID_3_x_2
void TestQGeoPositionInfoSource::constructor_noParent()
{
//QLocationTestUtils::uheap_mark();
MyPositionSource *obj = new MyPositionSource();
delete obj;
//QLocationTestUtils::uheap_mark_end();
}
void TestQGeoPositionInfoSource::updateInterval()
{
MyPositionSource s;
QCOMPARE(s.updateInterval(), 0);
}
void TestQGeoPositionInfoSource::setPreferredPositioningMethods()
{
QFETCH(int, supported);
QFETCH(int, preferred);
QFETCH(int, resulting);
MyPositionSource s;
s.setSupportedPositioningMethods(
static_cast<QGeoPositionInfoSource::PositioningMethods>(supported));
s.setPreferredPositioningMethods(
static_cast<QGeoPositionInfoSource::PositioningMethods>(preferred));
QCOMPARE(s.preferredPositioningMethods(),
static_cast<QGeoPositionInfoSource::PositioningMethods>(resulting));
}
void TestQGeoPositionInfoSource::setPreferredPositioningMethods_data()
{
QTest::addColumn<int>("supported");
QTest::addColumn<int>("preferred");
QTest::addColumn<int>("resulting");
QTest::newRow("Sat supported, Sat preferred")
<< int(QGeoPositionInfoSource::SatellitePositioningMethods)
<< int(QGeoPositionInfoSource::SatellitePositioningMethods)
<< int(QGeoPositionInfoSource::SatellitePositioningMethods);
QTest::newRow("Sat supported, Non-Sat prefered")
<< int(QGeoPositionInfoSource::SatellitePositioningMethods)
<< int(QGeoPositionInfoSource::NonSatellitePositioningMethods)
<< int(QGeoPositionInfoSource::SatellitePositioningMethods);
QTest::newRow("Sat supported, All prefered")
<< int(QGeoPositionInfoSource::SatellitePositioningMethods)
<< int(QGeoPositionInfoSource::AllPositioningMethods)
<< int(QGeoPositionInfoSource::SatellitePositioningMethods);
QTest::newRow("Non-Sat supported, Sat preferred")
<< int(QGeoPositionInfoSource::NonSatellitePositioningMethods)
<< int(QGeoPositionInfoSource::SatellitePositioningMethods)
<< int(QGeoPositionInfoSource::NonSatellitePositioningMethods);
QTest::newRow("Non-Sat supported, Non-Sat prefered")
<< int(QGeoPositionInfoSource::NonSatellitePositioningMethods)
<< int(QGeoPositionInfoSource::NonSatellitePositioningMethods)
<< int(QGeoPositionInfoSource::NonSatellitePositioningMethods);
QTest::newRow("Non-Sat supported, All prefered")
<< int(QGeoPositionInfoSource::NonSatellitePositioningMethods)
<< int(QGeoPositionInfoSource::AllPositioningMethods)
<< int(QGeoPositionInfoSource::NonSatellitePositioningMethods);
QTest::newRow("All supported, Sat preferred")
<< int(QGeoPositionInfoSource::AllPositioningMethods)
<< int(QGeoPositionInfoSource::SatellitePositioningMethods)
<< int(QGeoPositionInfoSource::SatellitePositioningMethods);
QTest::newRow("All supported, Non-Sat prefered")
<< int(QGeoPositionInfoSource::AllPositioningMethods)
<< int(QGeoPositionInfoSource::NonSatellitePositioningMethods)
<< int(QGeoPositionInfoSource::NonSatellitePositioningMethods);
QTest::newRow("All supported, All prefered")
<< int(QGeoPositionInfoSource::AllPositioningMethods)
<< int(QGeoPositionInfoSource::AllPositioningMethods)
<< int(QGeoPositionInfoSource::AllPositioningMethods);
}
void TestQGeoPositionInfoSource::preferredPositioningMethods()
{
MyPositionSource s;
QCOMPARE(s.preferredPositioningMethods(), 0);
}
//TC_ID_3_x_1 : Create a position source with the given parent that reads from the system's default
// sources of location data
void TestQGeoPositionInfoSource::createDefaultSource()
{
//QLocationTestUtils::uheap_mark();
QObject *parent = new QObject;
QGeoPositionInfoSource *source = QGeoPositionInfoSource::createDefaultSource(parent);
#if defined(Q_OS_SYMBIAN)
QVERIFY(source != 0);
#elif defined(Q_OS_WINCE)
QVERIFY(source != 0);
#elif defined(Q_WS_MAEMO_5)
QVERIFY(source != 0);
#else
QVERIFY(source == 0);
#endif
delete parent;
//QLocationTestUtils::uheap_mark_end();
}
void TestQGeoPositionInfoSource::setUpdateInterval()
{
CHECK_SOURCE_VALID;
QFETCH(int, interval);
QFETCH(int, expectedInterval);
m_source->setUpdateInterval(interval);
QCOMPARE(m_source->updateInterval(), expectedInterval);
}
void TestQGeoPositionInfoSource::setUpdateInterval_data()
{
QTest::addColumn<int>("interval");
QTest::addColumn<int>("expectedInterval");
QGeoPositionInfoSource *source = createTestSource();
int minUpdateInterval = source ? source->minimumUpdateInterval() : -1;
if (source)
delete source;
QTest::newRow("0") << 0 << 0;
if (minUpdateInterval > -1) {
QTest::newRow("INT_MIN") << INT_MIN << minUpdateInterval;
QTest::newRow("-1") << -1 << minUpdateInterval;
}
if (minUpdateInterval > 0) {
QTest::newRow("more than minInterval") << minUpdateInterval + 1 << minUpdateInterval + 1;
QTest::newRow("equal to minInterval") << minUpdateInterval << minUpdateInterval;
}
if (minUpdateInterval > 1) {
QTest::newRow("less then minInterval") << minUpdateInterval - 1 << minUpdateInterval;
QTest::newRow("in btw zero and minInterval") << 1 << minUpdateInterval;
}
// Fails on S60, should investigate
//QTest::newRow("INT_MAX") << INT_MAX << INT_MAX;
}
void TestQGeoPositionInfoSource::lastKnownPosition()
{
CHECK_SOURCE_VALID;
QFETCH(int, positioningMethod);
QFETCH(bool, lastKnownPositionArgument);
QFETCH(bool, positionValid);
QGeoPositionInfoSource::PositioningMethods method
= static_cast<QGeoPositionInfoSource::PositioningMethods>(positioningMethod);
if ((m_source->supportedPositioningMethods() & method) == 0)
QSKIP("Not a supported positioning method for this position source", SkipSingle);
m_source->setPreferredPositioningMethods(method);
QSignalSpy spy(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy timeout(m_source, SIGNAL(updateTimeout()));
int time_out = 7000;
m_source->setUpdateInterval(time_out);
m_source->startUpdates();
// Use QEventLoop instead of qWait() to ensure we stop as soon as a
// position is emitted (otherwise the lastKnownPosition() may have
// changed by the time it is checked)
QEventLoop loop;
QTimer timer;
timer.setInterval(9500);
connect(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)),
&loop, SLOT(quit()));
connect(&timer, SIGNAL(timeout()), &loop, SLOT(quit()));
timer.start();
loop.exec();
EXPECT_FAIL_WINCE_SEE_MOBILITY_337_ABORT;
QVERIFY((spy.count() > 0) && (timeout.count() == 0));
QList<QVariant> list = spy.takeFirst();
QGeoPositionInfo info;
info = list.at(0).value<QGeoPositionInfo>();
QGeoPositionInfo lastPositioninfo;
lastPositioninfo = m_source->lastKnownPosition(lastKnownPositionArgument);
QCOMPARE(lastPositioninfo.isValid(), positionValid);
if (positionValid) {
QCOMPARE(info.coordinate(), lastPositioninfo.coordinate());
QCOMPARE(info.timestamp(), lastPositioninfo.timestamp());
QCOMPARE(info.hasAttribute(QGeoPositionInfo::HorizontalAccuracy),
lastPositioninfo.hasAttribute(QGeoPositionInfo::HorizontalAccuracy));
if (info.hasAttribute(QGeoPositionInfo::HorizontalAccuracy)) {
bool isNaN1 = qIsNaN(info.attribute(QGeoPositionInfo::HorizontalAccuracy));
bool isNaN2 = qIsNaN(lastPositioninfo.attribute(QGeoPositionInfo::HorizontalAccuracy));
QCOMPARE(isNaN1, isNaN2);
if (!isNaN1) {
QCOMPARE(qFuzzyCompare(info.attribute(QGeoPositionInfo::HorizontalAccuracy),
lastPositioninfo.attribute(QGeoPositionInfo::HorizontalAccuracy)), TRUE);
}
}
QCOMPARE(info.hasAttribute(QGeoPositionInfo::VerticalAccuracy),
lastPositioninfo.hasAttribute(QGeoPositionInfo::VerticalAccuracy));
if (info.hasAttribute(QGeoPositionInfo::VerticalAccuracy)) {
bool isNaN1 = qIsNaN(info.attribute(QGeoPositionInfo::VerticalAccuracy));
bool isNaN2 = qIsNaN(lastPositioninfo.attribute(QGeoPositionInfo::VerticalAccuracy));
QCOMPARE(isNaN1, isNaN2);
if (!isNaN1) {
QCOMPARE(qFuzzyCompare(info.attribute(QGeoPositionInfo::VerticalAccuracy),
lastPositioninfo.attribute(QGeoPositionInfo::VerticalAccuracy)), TRUE);
}
}
}
m_source->stopUpdates();
}
void TestQGeoPositionInfoSource::lastKnownPosition_data()
{
QTest::addColumn<int>("positioningMethod");
QTest::addColumn<bool>("lastKnownPositionArgument");
QTest::addColumn<bool>("positionValid");
QTest::newRow("satellite - false") << int(QGeoPositionInfoSource::SatellitePositioningMethods) << false << true;
QTest::newRow("satellite - true") << int(QGeoPositionInfoSource::SatellitePositioningMethods) << true << true;
QTest::newRow("nonsatellite - false") << int(QGeoPositionInfoSource::NonSatellitePositioningMethods) << false << false;
QTest::newRow("nonsatellite - true") << int(QGeoPositionInfoSource::NonSatellitePositioningMethods) << true << true;
QTest::newRow("all - false") << int(QGeoPositionInfoSource::AllPositioningMethods) << false << true;
QTest::newRow("all - true") << int(QGeoPositionInfoSource::AllPositioningMethods) << true << true;
}
void TestQGeoPositionInfoSource::minimumUpdateInterval()
{
CHECK_SOURCE_VALID;
QVERIFY(m_source->minimumUpdateInterval() > 0);
}
//TC_ID_3_x_1
void TestQGeoPositionInfoSource::startUpdates_testIntervals()
{
CHECK_SOURCE_VALID;
QSignalSpy spy(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy timeout(m_source, SIGNAL(updateTimeout()));
m_source->setUpdateInterval(7000);
int interval = m_source->updateInterval();
m_source->startUpdates();
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_COMPARE_WITH_TIMEOUT(spy.count(), 1, 9500);
for (int i = 0; i < 6; i++) {
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 1) && (timeout.count() == 0), (interval*2));
spy.clear();
}
m_source->stopUpdates();
}
void TestQGeoPositionInfoSource::startUpdates_testIntervalChangesWhileRunning()
{
// There are two ways of dealing with an interval change, and we have left it system dependent.
// The interval can be changed will running or after the next update.
// WinCE uses the first method, S60 uses the second method.
// The minimum interval on the symbian emulator is 5000 msecs, which is why the times in
// this test are as high as they are.
CHECK_SOURCE_VALID;
QSignalSpy spy(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy timeout(m_source, SIGNAL(updateTimeout()));
m_source->setUpdateInterval(0);
m_source->startUpdates();
m_source->setUpdateInterval(0);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT(spy.count() > 0, 7000);
QCOMPARE(timeout.count(), 0);
spy.clear();
m_source->setUpdateInterval(5000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 2) && (timeout.count() == 0), 15000);
spy.clear();
m_source->setUpdateInterval(10000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 2) && (timeout.count() == 0), 30000);
spy.clear();
m_source->setUpdateInterval(5000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 2) && (timeout.count() == 0), 15000);
spy.clear();
m_source->setUpdateInterval(5000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 2) && (timeout.count() == 0), 15000);
spy.clear();
m_source->setUpdateInterval(0);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 1) && (timeout.count() == 0), 7000);
spy.clear();
m_source->setUpdateInterval(0);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 1) && (timeout.count() == 0), 7000);
spy.clear();
m_source->stopUpdates();
}
//TC_ID_3_x_2
void TestQGeoPositionInfoSource::startUpdates_testDefaultInterval()
{
CHECK_SOURCE_VALID;
QSignalSpy spy(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy timeout(m_source, SIGNAL(updateTimeout()));
m_source->startUpdates();
for (int i = 0; i < 3; i++) {
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spy.count() > 0) && (timeout.count() == 0), 7000);
spy.clear();
}
m_source->stopUpdates();
}
//TC_ID_3_x_3
void TestQGeoPositionInfoSource::startUpdates_testZeroInterval()
{
CHECK_SOURCE_VALID;
QSignalSpy spy(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy timeout(m_source, SIGNAL(updateTimeout()));
m_source->setUpdateInterval(0);
m_source->startUpdates();
for (int i = 0; i < 3; i++) {
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spy.count() > 0) && (timeout.count() == 0), 7000);
spy.clear();
}
m_source->stopUpdates();
}
void TestQGeoPositionInfoSource::startUpdates_moreThanOnce()
{
CHECK_SOURCE_VALID;
QSignalSpy spy(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy timeout(m_source, SIGNAL(updateTimeout()));
m_source->setUpdateInterval(0);
m_source->startUpdates();
m_source->startUpdates(); // check there is no crash
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spy.count() > 0) && (timeout.count() == 0), 7000);
m_source->startUpdates(); // check there is no crash
m_source->stopUpdates();
}
//TC_ID_3_x_1
void TestQGeoPositionInfoSource::stopUpdates()
{
CHECK_SOURCE_VALID;
QSignalSpy spy(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy timeout(m_source, SIGNAL(updateTimeout()));
m_source->setUpdateInterval(7000);
m_source->startUpdates();
for (int i = 0; i < 2; i++) {
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spy.count() > 0) && (timeout.count() == 0), 9500);
spy.clear();
}
m_source->stopUpdates();
QTest::qWait(9500);
QCOMPARE(spy.count(), 0);
spy.clear();
m_source->setUpdateInterval(0);
m_source->startUpdates();
m_source->stopUpdates();
QTRY_COMPARE_WITH_TIMEOUT(spy.count(), 0, 9500);
}
//TC_ID_3_x_2
void TestQGeoPositionInfoSource::stopUpdates_withoutStart()
{
CHECK_SOURCE_VALID;
m_source->stopUpdates(); // check there is no crash
}
void TestQGeoPositionInfoSource::requestUpdate()
{
CHECK_SOURCE_VALID;
QFETCH(int, timeout);
QSignalSpy spy(m_source, SIGNAL(updateTimeout()));
m_source->requestUpdate(timeout);
QTRY_COMPARE(spy.count(), 1);
}
void TestQGeoPositionInfoSource::requestUpdate_data()
{
QTest::addColumn<int>("timeout");
QTest::newRow("less than zero") << -1; //TC_ID_3_x_7
}
// TC_ID_3_x_1 : Create position source and call requestUpdate with valid timeout value
void TestQGeoPositionInfoSource::requestUpdate_validTimeout()
{
CHECK_SOURCE_VALID;
QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout()));
m_source->requestUpdate(7000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000);
}
void TestQGeoPositionInfoSource::requestUpdate_defaultTimeout()
{
CHECK_SOURCE_VALID;
QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout()));
m_source->requestUpdate(0);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
// S60 emulator fail
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000);
}
// TC_ID_3_x_2 : Create position source and call requestUpdate with a timeout less than
// minimumupdateInterval
void TestQGeoPositionInfoSource::requestUpdate_timeoutLessThanMinimumInterval()
{
CHECK_SOURCE_VALID;
QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout()));
m_source->requestUpdate(1);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_COMPARE_WITH_TIMEOUT(spyTimeout.count(), 1, 1000);
}
// TC_ID_3_x_3 : Call requestUpdate() with same value repeatedly
void TestQGeoPositionInfoSource::requestUpdate_repeatedCalls()
{
CHECK_SOURCE_VALID;
QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout()));
m_source->requestUpdate(7000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000);
spyUpdate.clear();
m_source->requestUpdate(7000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000);
}
void TestQGeoPositionInfoSource::requestUpdate_overlappingCalls()
{
CHECK_SOURCE_VALID;
QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout()));
m_source->requestUpdate(7000);
m_source->requestUpdate(7000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000);
}
//TC_ID_3_x_4
void TestQGeoPositionInfoSource::requestUpdateAfterStartUpdates_ZeroInterval()
{
CHECK_SOURCE_VALID;
QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout()));
m_source->setUpdateInterval(0);
m_source->startUpdates();
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000);
spyUpdate.clear();
m_source->requestUpdate(7000);
QTest::qWait(7000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QVERIFY((spyUpdate.count() > 0) && (spyTimeout.count() == 0));
spyUpdate.clear();
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), MAX_WAITING_TIME);
m_source->stopUpdates();
}
void TestQGeoPositionInfoSource::requestUpdateAfterStartUpdates_SmallInterval()
{
CHECK_SOURCE_VALID;
QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout()));
m_source->setUpdateInterval(10000);
m_source->startUpdates();
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() == 1) && (spyTimeout.count() == 0), 20000);
spyUpdate.clear();
m_source->requestUpdate(7000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() == 1) && (spyTimeout.count() == 0), 7000);
spyUpdate.clear();
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() == 1) && (spyTimeout.count() == 0), 20000);
m_source->stopUpdates();
}
void TestQGeoPositionInfoSource::requestUpdateBeforeStartUpdates_ZeroInterval()
{
CHECK_SOURCE_VALID;
QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout()));
m_source->requestUpdate(7000);
m_source->setUpdateInterval(0);
m_source->startUpdates();
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() >= 2) && (spyTimeout.count() == 0), 14000);
spyUpdate.clear();
QTest::qWait(7000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QCOMPARE(spyTimeout.count(), 0);
m_source->stopUpdates();
}
void TestQGeoPositionInfoSource::requestUpdateBeforeStartUpdates_SmallInterval()
{
CHECK_SOURCE_VALID;
QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo&)));
QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout()));
m_source->requestUpdate(7000);
m_source->setUpdateInterval(10000);
m_source->startUpdates();
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000);
spyUpdate.clear();
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 20000);
m_source->stopUpdates();
}
void TestQGeoPositionInfoSource::removeSlotForRequestTimeout()
{
CHECK_SOURCE_VALID;
bool i = connect(m_source, SIGNAL(updateTimeout()), this, SLOT(test_slot1()));
QVERIFY(i == true);
i = connect(m_source, SIGNAL(updateTimeout()), this, SLOT(test_slot2()));
QVERIFY(i == true);
i = disconnect(m_source, SIGNAL(updateTimeout()), this, SLOT(test_slot1()));
QVERIFY(i == true);
m_source->requestUpdate(-1);
QTRY_VERIFY_WITH_TIMEOUT((m_testSlot2Called == true), 1000);
}
void TestQGeoPositionInfoSource::removeSlotForPositionUpdated()
{
CHECK_SOURCE_VALID;
bool i = connect(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo &)), this, SLOT(test_slot1()));
QVERIFY(i == true);
i = connect(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo &)), this, SLOT(test_slot2()));
QVERIFY(i == true);
i = disconnect(m_source, SIGNAL(positionUpdated(const QGeoPositionInfo &)), this, SLOT(test_slot1()));
QVERIFY(i == true);
m_source->requestUpdate(7000);
EXPECT_FAIL_WINCE_SEE_MOBILITY_337;
QTRY_VERIFY_WITH_TIMEOUT((m_testSlot2Called == true), 7000);
}
#include "testqgeopositioninfosource.moc"