/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the Qt Mobility Components. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "tst_qradiotuner_xa.h" QT_USE_NAMESPACE #define QTEST_MAIN_S60(TestObject) \ int main(int argc, char *argv[]) { \ char *new_argv[3]; \ QApplication app(argc, argv); \ \ QString str = "C:\\data\\" + QFileInfo(QCoreApplication::applicationFilePath()).baseName() + ".log"; \ QByteArray bytes = str.toAscii(); \ \ char arg1[] = "-o"; \ \ new_argv[0] = argv[0]; \ new_argv[1] = arg1; \ new_argv[2] = bytes.data(); \ \ TestObject tc; \ return QTest::qExec(&tc, 3, new_argv); \ } #define QTRY_COMPARE(a,e) \ for (int _i = 0; _i < 5000; _i += 100) { \ if ((a) == (e)) break; \ QTest::qWait(100); \ } \ // QCOMPARE(a, e) void tst_QXARadio_xa::initTestCase() { qRegisterMetaType("QRadioTuner::State"); radio = new QRadioTuner(0); // QVERIFY(radio->service() != 0); // QSignalSpy stateSpy(radio, SIGNAL(stateChanged(QRadioTuner::State))); radio->start(); // QTRY_COMPARE(stateSpy.count(), 1); // wait for callbacks to complete in symbian API // QCOMPARE(radio->state(), QRadioTuner::ActiveState); } void tst_QXARadio_xa::cleanupTestCase() { QVERIFY(radio->service() != 0); } void tst_QXARadio_xa::testBand() { qRegisterMetaType("QRadioTuner::Band"); QVERIFY(radio->isBandSupported(QRadioTuner::FM)); QVERIFY(!radio->isBandSupported(QRadioTuner::SW)); radio->setBand(QRadioTuner::FM); QVERIFY(radio->band() == QRadioTuner::FM); if(radio->isBandSupported(QRadioTuner::AM)) { QSignalSpy readSignal(radio, SIGNAL(bandChanged(QRadioTuner::Band))); radio->setBand(QRadioTuner::AM); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(radio->band() == QRadioTuner::AM); } } void tst_QXARadio_xa::testFrequency() { QSignalSpy readSignal(radio, SIGNAL(frequencyChanged(int))); radio->setFrequency(90900000); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(radio->frequency() == 90900000); // frequencyStep for FM radio is 100kHz (100000Hz) QVERIFY(radio->frequencyStep(QRadioTuner::FM) == 100000); QPair test = radio->frequencyRange(QRadioTuner::FM); // frequency range for FM radio is 87,5MHz - 108MHz QVERIFY(test.first == 87500000); QVERIFY(test.second == 108000000); } void tst_QXARadio_xa::testMute() { QSignalSpy readSignal(radio, SIGNAL(mutedChanged(bool))); radio->setMuted(true); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(radio->isMuted()); QVERIFY(readSignal.count() == 1); } void tst_QXARadio_xa::testSearch() { QSignalSpy readSignal(radio, SIGNAL(searchingChanged(bool))); QVERIFY(!radio->isSearching()); radio->searchForward(); // Note: DON'T wait for callback to complete in symbian API QVERIFY(radio->isSearching()); radio->cancelSearch(); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(!radio->isSearching()); radio->searchBackward(); // Note: DON'T wait for callbacks to complete in symbian API QVERIFY(radio->isSearching()); radio->cancelSearch(); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(!radio->isSearching()); } void tst_QXARadio_xa::testVolume() { QSignalSpy readSignal(radio, SIGNAL(volumeChanged(int))); radio->setVolume(50); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(radio->volume() == 50); } void tst_QXARadio_xa::testSignal() { QVERIFY(radio->signalStrength() != 0); // There is no set of this only a get, do nothing else. } void tst_QXARadio_xa::testStereo() { // Default = Auto. Testing transition from auto to mono: QVERIFY(radio->isStereo()); QSignalSpy readSignal(radio, SIGNAL(stereoStatusChanged(bool))); radio->setStereoMode(QRadioTuner::ForceMono); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(radio->stereoMode() == QRadioTuner::ForceMono); // QVERIFY(readSignal.count() == 1); // testing transition from mono to stereo: radio->setStereoMode(QRadioTuner::ForceStereo); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(radio->stereoMode() == QRadioTuner::ForceStereo); // QVERIFY(readSignal.count() == 1); // testing transition from stereo to auto: radio->setStereoMode(QRadioTuner::Auto); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(radio->stereoMode() == QRadioTuner::Auto); // QVERIFY(readSignal.count() == 1); // testing transition from auto to stereo: radio->setStereoMode(QRadioTuner::ForceStereo); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(radio->stereoMode() == QRadioTuner::ForceStereo); // QVERIFY(readSignal.count() == 1); // testing transition from stereo to mono: radio->setStereoMode(QRadioTuner::ForceMono); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(radio->stereoMode() == QRadioTuner::ForceMono); // QVERIFY(readSignal.count() == 1); // testing transition from mono to auto: radio->setStereoMode(QRadioTuner::Auto); QTRY_COMPARE(readSignal.count(), 1); // wait for callbacks to complete in symbian API QVERIFY(radio->stereoMode() == QRadioTuner::Auto); // QVERIFY(readSignal.count() == 1); } void tst_QXARadio_xa::testAvailability() { QVERIFY(radio->isAvailable()); QVERIFY(radio->availabilityError() == QtMultimediaKit::NoError); } void tst_QXARadio_xa::testStopRadio() { QVERIFY(radio->service() != 0); QVERIFY(radio->error() == QRadioTuner::NoError); QVERIFY(radio->errorString().isEmpty()); QSignalSpy stateSpy(radio, SIGNAL(stateChanged(QRadioTuner::State))); radio->stop(); QTRY_COMPARE(stateSpy.count(), 1); // wait for callbacks to complete in symbian API QCOMPARE(radio->state(), QRadioTuner::StoppedState); // delete radio; }