/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part 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. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ //TESTED_COMPONENT=src/multimedia #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "mockcameraservice.h" #include "mockmediaserviceprovider.h" #include "mockvideosurface.h" #include "mockvideorenderercontrol.h" #include "mockvideowindowcontrol.h" QT_USE_NAMESPACE class tst_QCamera: public QObject { Q_OBJECT public slots: void initTestCase(); void init(); void cleanup(); private slots: void testSimpleCamera(); void testSimpleCameraWhiteBalance(); void testSimpleCameraExposure(); void testSimpleCameraFocus(); void testSimpleCameraCapture(); void testSimpleCameraLock(); void testSimpleCaptureDestination(); void testSimpleCaptureFormat(); void testCameraWhiteBalance(); void testCameraExposure(); void testCameraFocus(); void testCameraCapture(); void testCameraCaptureMetadata(); void testImageSettings(); void testViewfinderSettings(); void testViewfinderSettingsChange(); void testSupportedViewfinderSettings_data(); void testSupportedViewfinderSettings(); void testSupportedViewfinderResolutions_data(); void testSupportedViewfinderResolutions(); void testSupportedViewfinderFrameRateRanges_data(); void testSupportedViewfinderFrameRateRanges(); void testSupportedViewfinderPixelFormats_data(); void testSupportedViewfinderPixelFormats(); void testCameraLock(); void testCameraLockCancel(); void testCameraEncodingProperyChange(); void testCaptureDestination(); void testCaptureFormat(); void testConstructor(); void testCaptureMode(); void testIsCaptureModeSupported(); void testRequestedLocks(); void testSupportedLocks(); void testQCameraIsAvailable(); void testQCameraIsNotAvailable(); void testSearchAndLockWithLockTypes(); void testSetCaptureMode(); void testUnlockWithType(); void testCaptureModeChangedSignal(); void testLockStatusChangedWithTypesSignal(); void testErrorSignal(); void testError(); void testErrorString(); void testStatus(); void testLockType(); void testLockChangeReason(); // Test cases to for QCameraFocus void testCameraFocusIsAvailable(); void testFocusModes(); void testOpticalAndDigitalZoomChanged(); void testMaxOpticalZoomChangedSignal(); void testMaxDigitalZoomChangedSignal(); void testfocusZonesChangedSignal(); // Test cases for QCameraControl class. void testCameraControl(); void testCaptureModeChanged_signal(); void testEnumsOfQCameraControl(); // Test case for QCameraImageProcessing class void testContrast(); void testDenoisingLevel(); void testIsAvailable(); void testSaturation(); void testSharpeningLevel(); void testEnumOfQCameraImageProcessing(); void testSetVideoOutput(); void testSetVideoOutputNoService(); void testSetVideoOutputNoControl(); void testSetVideoOutputDestruction(); void testEnumDebug(); // constructor for QCameraImageProceesing void testImageProcessingControl(); // Signals test cases for QCameraExposure void testSignalApertureChanged(); void testSignalExposureCompensationChanged(); void testSignalIsoSensitivityChanged(); void testSignalShutterSpeedChanged(); void testSignalFlashReady(); // test constructor void testExposureControlConstructor(); private: MockSimpleCameraService *mockSimpleCameraService; MockCameraService *mockCameraService; MockMediaServiceProvider *provider; }; Q_DECLARE_METATYPE(QCamera::FrameRateRange) void tst_QCamera::initTestCase() { qRegisterMetaType("FrameRateRange"); } void tst_QCamera::init() { provider = new MockMediaServiceProvider; mockSimpleCameraService = new MockSimpleCameraService; mockCameraService = new MockCameraService; provider->service = mockCameraService; QMediaServiceProvider::setDefaultServiceProvider(provider); } void tst_QCamera::cleanup() { delete provider; delete mockCameraService; delete mockSimpleCameraService; } void tst_QCamera::testSimpleCamera() { provider->service = mockSimpleCameraService; QCamera camera; QCOMPARE(camera.service(), (QMediaService*)mockSimpleCameraService); QCOMPARE(camera.state(), QCamera::UnloadedState); camera.start(); QCOMPARE(camera.state(), QCamera::ActiveState); camera.stop(); QCOMPARE(camera.state(), QCamera::LoadedState); camera.unload(); QCOMPARE(camera.state(), QCamera::UnloadedState); camera.load(); QCOMPARE(camera.state(), QCamera::LoadedState); } void tst_QCamera::testSimpleCameraWhiteBalance() { provider->service = mockSimpleCameraService; QCamera camera; //only WhiteBalanceAuto is supported QVERIFY(!camera.imageProcessing()->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceAuto)); QVERIFY(!camera.imageProcessing()->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceCloudy)); QCOMPARE(camera.imageProcessing()->whiteBalanceMode(), QCameraImageProcessing::WhiteBalanceAuto); camera.imageProcessing()->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceCloudy); QCOMPARE(camera.imageProcessing()->whiteBalanceMode(), QCameraImageProcessing::WhiteBalanceAuto); QCOMPARE(camera.imageProcessing()->manualWhiteBalance()+1.0, 1.0); camera.imageProcessing()->setManualWhiteBalance(5000); QCOMPARE(camera.imageProcessing()->manualWhiteBalance()+1.0, 1.0); } void tst_QCamera::testSimpleCameraExposure() { provider->service = mockSimpleCameraService; QCamera camera; QCameraExposure *cameraExposure = camera.exposure(); QVERIFY(cameraExposure != 0); QVERIFY(!cameraExposure->isExposureModeSupported(QCameraExposure::ExposureAuto)); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureAuto); cameraExposure->setExposureMode(QCameraExposure::ExposureManual);//should be ignored QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureAuto); QVERIFY(!cameraExposure->isFlashModeSupported(QCameraExposure::FlashOff)); QCOMPARE(cameraExposure->flashMode(), QCameraExposure::FlashOff); QCOMPARE(cameraExposure->isFlashReady(), false); cameraExposure->setFlashMode(QCameraExposure::FlashOn); QCOMPARE(cameraExposure->flashMode(), QCameraExposure::FlashOff); QVERIFY(!cameraExposure->isMeteringModeSupported(QCameraExposure::MeteringAverage)); QVERIFY(!cameraExposure->isMeteringModeSupported(QCameraExposure::MeteringSpot)); QVERIFY(!cameraExposure->isMeteringModeSupported(QCameraExposure::MeteringMatrix)); QCOMPARE(cameraExposure->meteringMode(), QCameraExposure::MeteringMatrix); cameraExposure->setMeteringMode(QCameraExposure::MeteringSpot); QCOMPARE(cameraExposure->meteringMode(), QCameraExposure::MeteringMatrix); QCOMPARE(cameraExposure->spotMeteringPoint(), QPointF()); cameraExposure->setSpotMeteringPoint(QPointF(0.5f, 0.5f)); QCOMPARE(cameraExposure->spotMeteringPoint(), QPointF()); QCOMPARE(cameraExposure->exposureCompensation(), 0.0); cameraExposure->setExposureCompensation(2.0); QCOMPARE(cameraExposure->exposureCompensation(), 0.0); QCOMPARE(cameraExposure->isoSensitivity(), -1); QVERIFY(cameraExposure->supportedIsoSensitivities().isEmpty()); cameraExposure->setManualIsoSensitivity(100); QCOMPARE(cameraExposure->isoSensitivity(), -1); cameraExposure->setAutoIsoSensitivity(); QCOMPARE(cameraExposure->isoSensitivity(), -1); QVERIFY(cameraExposure->aperture() < 0); QVERIFY(cameraExposure->supportedApertures().isEmpty()); cameraExposure->setAutoAperture(); QVERIFY(cameraExposure->aperture() < 0); cameraExposure->setManualAperture(5.6); QVERIFY(cameraExposure->aperture() < 0); QVERIFY(cameraExposure->shutterSpeed() < 0); QVERIFY(cameraExposure->supportedShutterSpeeds().isEmpty()); cameraExposure->setAutoShutterSpeed(); QVERIFY(cameraExposure->shutterSpeed() < 0); cameraExposure->setManualShutterSpeed(1/128.0); QVERIFY(cameraExposure->shutterSpeed() < 0); } void tst_QCamera::testSimpleCameraFocus() { provider->service = mockSimpleCameraService; QCamera camera; QCameraFocus *cameraFocus = camera.focus(); QVERIFY(cameraFocus != 0); QVERIFY(!cameraFocus->isFocusModeSupported(QCameraFocus::AutoFocus)); QVERIFY(!cameraFocus->isFocusModeSupported(QCameraFocus::ContinuousFocus)); QVERIFY(!cameraFocus->isFocusModeSupported(QCameraFocus::InfinityFocus)); QCOMPARE(cameraFocus->focusMode(), QCameraFocus::AutoFocus); QTest::ignoreMessage(QtWarningMsg, "Focus mode selection is not supported"); cameraFocus->setFocusMode(QCameraFocus::ContinuousFocus); QCOMPARE(cameraFocus->focusMode(), QCameraFocus::AutoFocus); QCOMPARE(cameraFocus->maximumOpticalZoom(), 1.0); QCOMPARE(cameraFocus->maximumDigitalZoom(), 1.0); QCOMPARE(cameraFocus->opticalZoom(), 1.0); QCOMPARE(cameraFocus->digitalZoom(), 1.0); QTest::ignoreMessage(QtWarningMsg, "The camera doesn't support zooming."); cameraFocus->zoomTo(100.0, 100.0); QCOMPARE(cameraFocus->opticalZoom(), 1.0); QCOMPARE(cameraFocus->digitalZoom(), 1.0); QVERIFY(!cameraFocus->isFocusPointModeSupported(QCameraFocus::FocusPointAuto)); QCOMPARE(cameraFocus->focusPointMode(), QCameraFocus::FocusPointAuto); QTest::ignoreMessage(QtWarningMsg, "Focus points mode selection is not supported"); cameraFocus->setFocusPointMode( QCameraFocus::FocusPointCenter ); QCOMPARE(cameraFocus->focusPointMode(), QCameraFocus::FocusPointAuto); QCOMPARE(cameraFocus->customFocusPoint(), QPointF(0.5, 0.5)); QTest::ignoreMessage(QtWarningMsg, "Focus points selection is not supported"); cameraFocus->setCustomFocusPoint(QPointF(1.0, 1.0)); QCOMPARE(cameraFocus->customFocusPoint(), QPointF(0.5, 0.5)); } void tst_QCamera::testSimpleCameraCapture() { provider->service = mockSimpleCameraService; QCamera camera; QCameraImageCapture imageCapture(&camera); QVERIFY(!imageCapture.isReadyForCapture()); QVERIFY(!imageCapture.isAvailable()); QCOMPARE(imageCapture.error(), QCameraImageCapture::NoError); QVERIFY(imageCapture.errorString().isEmpty()); QSignalSpy errorSignal(&imageCapture, SIGNAL(error(int,QCameraImageCapture::Error,QString))); imageCapture.capture(QString::fromLatin1("/dev/null")); QCOMPARE(errorSignal.size(), 1); QCOMPARE(imageCapture.error(), QCameraImageCapture::NotSupportedFeatureError); QVERIFY(!imageCapture.errorString().isEmpty()); } void tst_QCamera::testSimpleCameraLock() { provider->service = mockSimpleCameraService; QCamera camera; QCOMPARE(camera.lockStatus(), QCamera::Unlocked); QCOMPARE(camera.lockStatus(QCamera::LockExposure), QCamera::Unlocked); QCOMPARE(camera.lockStatus(QCamera::LockFocus), QCamera::Unlocked); QCOMPARE(camera.lockStatus(QCamera::LockWhiteBalance), QCamera::Unlocked); QSignalSpy lockedSignal(&camera, SIGNAL(locked())); QSignalSpy lockFailedSignal(&camera, SIGNAL(lockFailed())); QSignalSpy lockStatusChangedSignal(&camera, SIGNAL(lockStatusChanged(QCamera::LockStatus,QCamera::LockChangeReason))); camera.searchAndLock(); QCOMPARE(camera.lockStatus(), QCamera::Unlocked); QCOMPARE(camera.lockStatus(QCamera::LockExposure), QCamera::Unlocked); QCOMPARE(camera.lockStatus(QCamera::LockFocus), QCamera::Unlocked); QCOMPARE(camera.lockStatus(QCamera::LockWhiteBalance), QCamera::Unlocked); QCOMPARE(lockedSignal.count(), 0); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 0); lockedSignal.clear(); lockFailedSignal.clear(); lockStatusChangedSignal.clear(); camera.unlock(); QCOMPARE(camera.lockStatus(), QCamera::Unlocked); QCOMPARE(camera.lockStatus(QCamera::LockExposure), QCamera::Unlocked); QCOMPARE(camera.lockStatus(QCamera::LockFocus), QCamera::Unlocked); QCOMPARE(camera.lockStatus(QCamera::LockWhiteBalance), QCamera::Unlocked); QCOMPARE(lockedSignal.count(), 0); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 0); } void tst_QCamera::testSimpleCaptureDestination() { provider->service = mockSimpleCameraService; QCamera camera; QCameraImageCapture imageCapture(&camera); QVERIFY(imageCapture.isCaptureDestinationSupported(QCameraImageCapture::CaptureToFile)); QVERIFY(!imageCapture.isCaptureDestinationSupported(QCameraImageCapture::CaptureToBuffer)); QVERIFY(!imageCapture.isCaptureDestinationSupported( QCameraImageCapture::CaptureToBuffer | QCameraImageCapture::CaptureToFile)); QCOMPARE(imageCapture.captureDestination(), QCameraImageCapture::CaptureToFile); imageCapture.setCaptureDestination(QCameraImageCapture::CaptureToBuffer); QCOMPARE(imageCapture.captureDestination(), QCameraImageCapture::CaptureToFile); } void tst_QCamera::testSimpleCaptureFormat() { provider->service = mockSimpleCameraService; QCamera camera; QCameraImageCapture imageCapture(&camera); QCOMPARE(imageCapture.bufferFormat(), QVideoFrame::Format_Invalid); QVERIFY(imageCapture.supportedBufferFormats().isEmpty()); imageCapture.setBufferFormat(QVideoFrame::Format_AdobeDng); QCOMPARE(imageCapture.bufferFormat(), QVideoFrame::Format_Invalid); } void tst_QCamera::testCaptureDestination() { QCamera camera; QCameraImageCapture imageCapture(&camera); QVERIFY(imageCapture.isCaptureDestinationSupported(QCameraImageCapture::CaptureToFile)); QVERIFY(imageCapture.isCaptureDestinationSupported(QCameraImageCapture::CaptureToBuffer)); QVERIFY(!imageCapture.isCaptureDestinationSupported( QCameraImageCapture::CaptureToBuffer | QCameraImageCapture::CaptureToFile)); QSignalSpy destinationChangedSignal(&imageCapture, SIGNAL(captureDestinationChanged(QCameraImageCapture::CaptureDestinations))); QCOMPARE(imageCapture.captureDestination(), QCameraImageCapture::CaptureToFile); imageCapture.setCaptureDestination(QCameraImageCapture::CaptureToBuffer); QCOMPARE(imageCapture.captureDestination(), QCameraImageCapture::CaptureToBuffer); QCOMPARE(destinationChangedSignal.size(), 1); QCOMPARE(destinationChangedSignal.first().first().value(), QCameraImageCapture::CaptureToBuffer); //not supported combination imageCapture.setCaptureDestination(QCameraImageCapture::CaptureToBuffer | QCameraImageCapture::CaptureToFile); QCOMPARE(imageCapture.captureDestination(), QCameraImageCapture::CaptureToBuffer); QCOMPARE(destinationChangedSignal.size(), 1); } void tst_QCamera::testCaptureFormat() { QCamera camera; QCameraImageCapture imageCapture(&camera); QSignalSpy formatChangedSignal(&imageCapture, SIGNAL(bufferFormatChanged(QVideoFrame::PixelFormat))); QCOMPARE(imageCapture.bufferFormat(), QVideoFrame::Format_Jpeg); QCOMPARE(imageCapture.supportedBufferFormats().size(), 3); imageCapture.setBufferFormat(QVideoFrame::Format_AdobeDng); QCOMPARE(imageCapture.bufferFormat(), QVideoFrame::Format_AdobeDng); QCOMPARE(formatChangedSignal.size(), 1); QCOMPARE(formatChangedSignal.first().first().value(), QVideoFrame::Format_AdobeDng); imageCapture.setBufferFormat(QVideoFrame::Format_Y16); QCOMPARE(imageCapture.bufferFormat(), QVideoFrame::Format_AdobeDng); QCOMPARE(formatChangedSignal.size(), 1); } void tst_QCamera::testCameraCapture() { QCamera camera; QCameraImageCapture imageCapture(&camera); QVERIFY(!imageCapture.isReadyForCapture()); QSignalSpy capturedSignal(&imageCapture, SIGNAL(imageCaptured(int,QImage))); QSignalSpy errorSignal(&imageCapture, SIGNAL(error(int,QCameraImageCapture::Error,QString))); imageCapture.capture(QString::fromLatin1("/dev/null")); QCOMPARE(capturedSignal.size(), 0); QCOMPARE(errorSignal.size(), 1); QCOMPARE(imageCapture.error(), QCameraImageCapture::NotReadyError); errorSignal.clear(); camera.start(); QVERIFY(imageCapture.isReadyForCapture()); QCOMPARE(errorSignal.size(), 0); imageCapture.capture(QString::fromLatin1("/dev/null")); QTRY_COMPARE(capturedSignal.size(), 1); QCOMPARE(errorSignal.size(), 0); QCOMPARE(imageCapture.error(), QCameraImageCapture::NoError); } void tst_QCamera::testCameraCaptureMetadata() { QCamera camera; QCameraImageCapture imageCapture(&camera); QSignalSpy metadataSignal(&imageCapture, SIGNAL(imageMetadataAvailable(int,QString,QVariant))); QSignalSpy savedSignal(&imageCapture, SIGNAL(imageSaved(int,QString))); camera.start(); int id = imageCapture.capture(QString::fromLatin1("/dev/null")); QTRY_COMPARE(savedSignal.size(), 1); QCOMPARE(metadataSignal.size(), 3); QVariantList metadata = metadataSignal[0]; QCOMPARE(metadata[0].toInt(), id); QCOMPARE(metadata[1].toString(), QMediaMetaData::FocalLengthIn35mmFilm); QCOMPARE(metadata[2].value().toInt(), 50); metadata = metadataSignal[1]; QCOMPARE(metadata[0].toInt(), id); QCOMPARE(metadata[1].toString(), QMediaMetaData::DateTimeOriginal); QDateTime captureTime = metadata[2].value().value(); const qint64 dt = captureTime.secsTo(QDateTime::currentDateTime()); QVERIFY2(qAbs(dt) < 5, QByteArray::number(dt).constData()); // it should not take more than 5 seconds for signal to arrive here metadata = metadataSignal[2]; QCOMPARE(metadata[0].toInt(), id); QCOMPARE(metadata[1].toString(), QLatin1String("Answer to the Ultimate Question of Life, the Universe, and Everything")); QCOMPARE(metadata[2].value().toInt(), 42); } void tst_QCamera::testCameraWhiteBalance() { QSet whiteBalanceModes; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceAuto; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceFlash; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceTungsten; MockCameraService service; service.mockImageProcessingControl->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceFlash); service.mockImageProcessingControl->setSupportedWhiteBalanceModes(whiteBalanceModes); service.mockImageProcessingControl->setParameter( QCameraImageProcessingControl::ColorTemperature, QVariant(34)); provider->service = &service; QCamera camera; QCameraImageProcessing *cameraImageProcessing = camera.imageProcessing(); QCOMPARE(cameraImageProcessing->whiteBalanceMode(), QCameraImageProcessing::WhiteBalanceFlash); QVERIFY(camera.imageProcessing()->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceAuto)); QVERIFY(camera.imageProcessing()->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceFlash)); QVERIFY(camera.imageProcessing()->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceTungsten)); QVERIFY(!camera.imageProcessing()->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceCloudy)); cameraImageProcessing->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceTungsten); QCOMPARE(cameraImageProcessing->whiteBalanceMode(), QCameraImageProcessing::WhiteBalanceTungsten); cameraImageProcessing->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceManual); QCOMPARE(cameraImageProcessing->whiteBalanceMode(), QCameraImageProcessing::WhiteBalanceManual); QCOMPARE(cameraImageProcessing->manualWhiteBalance(), 34.0); cameraImageProcessing->setManualWhiteBalance(432.0); QCOMPARE(cameraImageProcessing->manualWhiteBalance(), 432.0); } void tst_QCamera::testCameraExposure() { QCamera camera; QCameraExposure *cameraExposure = camera.exposure(); QVERIFY(cameraExposure != 0); QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposureAuto)); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureAuto); // Test Cases For QCameraExposure QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposureManual)); cameraExposure->setExposureMode(QCameraExposure::ExposureManual); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureManual); QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposureNight)); cameraExposure->setExposureMode(QCameraExposure::ExposureNight); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureNight); QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposureBacklight)); cameraExposure->setExposureMode(QCameraExposure::ExposureBacklight); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureBacklight); QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposureSpotlight )); cameraExposure->setExposureMode(QCameraExposure::ExposureSpotlight); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureSpotlight); QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposureSports )); cameraExposure->setExposureMode(QCameraExposure::ExposureSports); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureSports); QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposureSnow )); cameraExposure->setExposureMode(QCameraExposure::ExposureSnow); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureSnow); QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposureBeach )); cameraExposure->setExposureMode(QCameraExposure::ExposureBeach); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureBeach); QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposureLargeAperture )); cameraExposure->setExposureMode(QCameraExposure::ExposureLargeAperture); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureLargeAperture); QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposureSmallAperture )); cameraExposure->setExposureMode(QCameraExposure::ExposureSmallAperture); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureSmallAperture); QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposurePortrait )); cameraExposure->setExposureMode(QCameraExposure::ExposurePortrait); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposurePortrait); QVERIFY(cameraExposure->isExposureModeSupported(QCameraExposure::ExposureModeVendor )); cameraExposure->setExposureMode(QCameraExposure::ExposureModeVendor); QCOMPARE(cameraExposure->exposureMode(), QCameraExposure::ExposureModeVendor); cameraExposure->setFlashMode(QCameraExposure::FlashAuto); QCOMPARE(cameraExposure->flashMode(), QCameraExposure::FlashAuto); QCOMPARE(cameraExposure->isFlashReady(), true); cameraExposure->setFlashMode(QCameraExposure::FlashRedEyeReduction); QCOMPARE(cameraExposure->flashMode(), QCameraExposure::FlashRedEyeReduction); cameraExposure->setFlashMode(QCameraExposure::FlashOn); QCOMPARE(cameraExposure->flashMode(), QCameraExposure::FlashOn); cameraExposure->setFlashMode(QCameraExposure::FlashFill); QCOMPARE(cameraExposure->flashMode(), QCameraExposure::FlashFill); cameraExposure->setFlashMode(QCameraExposure::FlashTorch); QCOMPARE(cameraExposure->flashMode(), QCameraExposure::FlashTorch); cameraExposure->setFlashMode(QCameraExposure::FlashSlowSyncFrontCurtain); QCOMPARE(cameraExposure->flashMode(), QCameraExposure::FlashSlowSyncFrontCurtain); QVERIFY(!cameraExposure->isMeteringModeSupported(QCameraExposure::MeteringAverage)); QVERIFY(cameraExposure->isMeteringModeSupported(QCameraExposure::MeteringSpot)); QVERIFY(cameraExposure->isMeteringModeSupported(QCameraExposure::MeteringMatrix)); cameraExposure->setMeteringMode(QCameraExposure::MeteringMatrix); QCOMPARE(cameraExposure->meteringMode(), QCameraExposure::MeteringMatrix); //MeteringAverage is not supported, metering mode should not be changed cameraExposure->setMeteringMode(QCameraExposure::MeteringAverage); QCOMPARE(cameraExposure->meteringMode(), QCameraExposure::MeteringMatrix); cameraExposure->setMeteringMode(QCameraExposure::MeteringSpot); QCOMPARE(cameraExposure->meteringMode(), QCameraExposure::MeteringSpot); cameraExposure->setSpotMeteringPoint(QPointF(0.5f, 0.25f)); QCOMPARE(cameraExposure->spotMeteringPoint(), QPointF(0.5f, 0.25f)); cameraExposure->setSpotMeteringPoint(QPointF(0.25f, 56.3f)); QCOMPARE(cameraExposure->spotMeteringPoint(), QPointF(0.5f, 0.25f)); cameraExposure->setSpotMeteringPoint(QPointF(0, 0)); QCOMPARE(cameraExposure->spotMeteringPoint(), QPointF(0, 0)); cameraExposure->setSpotMeteringPoint(QPointF(1, 1)); QCOMPARE(cameraExposure->spotMeteringPoint(), QPointF(1, 1)); QCOMPARE(cameraExposure->exposureCompensation(), 0.0); cameraExposure->setExposureCompensation(2.0); QCOMPARE(cameraExposure->exposureCompensation(), 2.0); int minIso = cameraExposure->supportedIsoSensitivities().first(); int maxIso = cameraExposure->supportedIsoSensitivities().last(); QVERIFY(cameraExposure->isoSensitivity() > 0); QCOMPARE(cameraExposure->requestedIsoSensitivity(), -1); QVERIFY(minIso > 0); QVERIFY(maxIso > 0); cameraExposure->setManualIsoSensitivity(minIso); QCOMPARE(cameraExposure->isoSensitivity(), minIso); cameraExposure->setManualIsoSensitivity(maxIso*10); QCOMPARE(cameraExposure->isoSensitivity(), maxIso); QCOMPARE(cameraExposure->requestedIsoSensitivity(), maxIso*10); cameraExposure->setManualIsoSensitivity(-10); QCOMPARE(cameraExposure->isoSensitivity(), minIso); QCOMPARE(cameraExposure->requestedIsoSensitivity(), -10); cameraExposure->setAutoIsoSensitivity(); QCOMPARE(cameraExposure->isoSensitivity(), 100); QCOMPARE(cameraExposure->requestedIsoSensitivity(), -1); QCOMPARE(cameraExposure->requestedAperture(), -1.0); qreal minAperture = cameraExposure->supportedApertures().first(); qreal maxAperture = cameraExposure->supportedApertures().last(); QVERIFY(minAperture > 0); QVERIFY(maxAperture > 0); QVERIFY(cameraExposure->aperture() >= minAperture); QVERIFY(cameraExposure->aperture() <= maxAperture); cameraExposure->setAutoAperture(); QVERIFY(cameraExposure->aperture() >= minAperture); QVERIFY(cameraExposure->aperture() <= maxAperture); QCOMPARE(cameraExposure->requestedAperture(), -1.0); cameraExposure->setManualAperture(0); QCOMPARE(cameraExposure->aperture(), minAperture); QCOMPARE(cameraExposure->requestedAperture()+1.0, 1.0); cameraExposure->setManualAperture(10000); QCOMPARE(cameraExposure->aperture(), maxAperture); QCOMPARE(cameraExposure->requestedAperture(), 10000.0); cameraExposure->setAutoAperture(); QCOMPARE(cameraExposure->requestedAperture(), -1.0); QCOMPARE(cameraExposure->requestedShutterSpeed(), -1.0); qreal minShutterSpeed = cameraExposure->supportedShutterSpeeds().first(); qreal maxShutterSpeed = cameraExposure->supportedShutterSpeeds().last(); QVERIFY(minShutterSpeed > 0); QVERIFY(maxShutterSpeed > 0); QVERIFY(cameraExposure->shutterSpeed() >= minShutterSpeed); QVERIFY(cameraExposure->shutterSpeed() <= maxShutterSpeed); cameraExposure->setAutoShutterSpeed(); QVERIFY(cameraExposure->shutterSpeed() >= minShutterSpeed); QVERIFY(cameraExposure->shutterSpeed() <= maxShutterSpeed); QCOMPARE(cameraExposure->requestedShutterSpeed(), -1.0); cameraExposure->setManualShutterSpeed(0); QCOMPARE(cameraExposure->shutterSpeed(), minShutterSpeed); QCOMPARE(cameraExposure->requestedShutterSpeed()+1.0, 1.0); cameraExposure->setManualShutterSpeed(10000); QCOMPARE(cameraExposure->shutterSpeed(), maxShutterSpeed); QCOMPARE(cameraExposure->requestedShutterSpeed(), 10000.0); cameraExposure->setAutoShutterSpeed(); QCOMPARE(cameraExposure->requestedShutterSpeed(), -1.0); } void tst_QCamera::testCameraFocus() { QCamera camera; QCameraFocus *cameraFocus = camera.focus(); QVERIFY(cameraFocus != 0); QVERIFY(cameraFocus->isFocusModeSupported(QCameraFocus::AutoFocus)); QVERIFY(cameraFocus->isFocusModeSupported(QCameraFocus::ContinuousFocus)); QVERIFY(!cameraFocus->isFocusModeSupported(QCameraFocus::InfinityFocus)); QCOMPARE(cameraFocus->focusMode(), QCameraFocus::AutoFocus); cameraFocus->setFocusMode(QCameraFocus::ManualFocus); QCOMPARE(cameraFocus->focusMode(), QCameraFocus::AutoFocus); cameraFocus->setFocusMode(QCameraFocus::ContinuousFocus); QCOMPARE(cameraFocus->focusMode(), QCameraFocus::ContinuousFocus); QVERIFY(cameraFocus->maximumOpticalZoom() >= 1.0); QVERIFY(cameraFocus->maximumDigitalZoom() >= 1.0); QCOMPARE(cameraFocus->opticalZoom(), 1.0); QCOMPARE(cameraFocus->digitalZoom(), 1.0); cameraFocus->zoomTo(0.5, 1.0); QCOMPARE(cameraFocus->opticalZoom(), 1.0); QCOMPARE(cameraFocus->digitalZoom(), 1.0); cameraFocus->zoomTo(2.0, 0.5); QCOMPARE(cameraFocus->opticalZoom(), 2.0); QCOMPARE(cameraFocus->digitalZoom(), 1.0); cameraFocus->zoomTo(2.0, 2.5); QCOMPARE(cameraFocus->opticalZoom(), 2.0); QCOMPARE(cameraFocus->digitalZoom(), 2.5); cameraFocus->zoomTo(2000000.0, 1000000.0); QVERIFY(qFuzzyCompare(cameraFocus->opticalZoom(), cameraFocus->maximumOpticalZoom())); QVERIFY(qFuzzyCompare(cameraFocus->digitalZoom(), cameraFocus->maximumDigitalZoom())); QVERIFY(cameraFocus->isFocusPointModeSupported(QCameraFocus::FocusPointAuto)); QVERIFY(cameraFocus->isFocusPointModeSupported(QCameraFocus::FocusPointCenter)); QVERIFY(cameraFocus->isFocusPointModeSupported(QCameraFocus::FocusPointCustom)); QCOMPARE(cameraFocus->focusPointMode(), QCameraFocus::FocusPointAuto); cameraFocus->setFocusPointMode( QCameraFocus::FocusPointCenter ); QCOMPARE(cameraFocus->focusPointMode(), QCameraFocus::FocusPointCenter); cameraFocus->setFocusPointMode( QCameraFocus::FocusPointFaceDetection ); QCOMPARE(cameraFocus->focusPointMode(), QCameraFocus::FocusPointCenter); QCOMPARE(cameraFocus->customFocusPoint(), QPointF(0.5, 0.5)); cameraFocus->setCustomFocusPoint(QPointF(1.0, 1.0)); QCOMPARE(cameraFocus->customFocusPoint(), QPointF(1.0, 1.0)); } void tst_QCamera::testImageSettings() { QImageEncoderSettings settings; QVERIFY(settings.isNull()); QVERIFY(settings == QImageEncoderSettings()); QCOMPARE(settings.codec(), QString()); settings.setCodec(QLatin1String("codecName")); QCOMPARE(settings.codec(), QLatin1String("codecName")); QVERIFY(!settings.isNull()); QVERIFY(settings != QImageEncoderSettings()); settings = QImageEncoderSettings(); QCOMPARE(settings.quality(), QMultimedia::NormalQuality); settings.setQuality(QMultimedia::HighQuality); QCOMPARE(settings.quality(), QMultimedia::HighQuality); QVERIFY(!settings.isNull()); settings = QImageEncoderSettings(); QCOMPARE(settings.resolution(), QSize()); settings.setResolution(QSize(320,240)); QCOMPARE(settings.resolution(), QSize(320,240)); settings.setResolution(800,600); QCOMPARE(settings.resolution(), QSize(800,600)); QVERIFY(!settings.isNull()); settings = QImageEncoderSettings(); settings.setEncodingOption(QLatin1Literal("encoderOption"), QVariant(1)); QCOMPARE(settings.encodingOption(QLatin1Literal("encoderOption")), QVariant(1)); QVariantMap options; options.insert(QLatin1Literal("encoderOption"), QVariant(1)); QCOMPARE(settings.encodingOptions(), options); options.insert(QLatin1Literal("encoderOption2"), QVariant(2)); options.remove(QLatin1Literal("encoderOption")); settings.setEncodingOptions(options); QCOMPARE(settings.encodingOption(QLatin1Literal("encoderOption")), QVariant()); QCOMPARE(settings.encodingOption(QLatin1Literal("encoderOption2")), QVariant(2)); QVERIFY(!settings.isNull()); QVERIFY(settings != QImageEncoderSettings()); settings = QImageEncoderSettings(); QVERIFY(settings.isNull()); QCOMPARE(settings.codec(), QString()); QCOMPARE(settings.quality(), QMultimedia::NormalQuality); QCOMPARE(settings.resolution(), QSize()); QVERIFY(settings.encodingOptions().isEmpty()); { QImageEncoderSettings settings1; QImageEncoderSettings settings2; QCOMPARE(settings2, settings1); settings2 = settings1; QCOMPARE(settings2, settings1); QVERIFY(settings2.isNull()); settings1.setQuality(QMultimedia::HighQuality); QVERIFY(settings2.isNull()); QVERIFY(!settings1.isNull()); QVERIFY(settings1 != settings2); } { QImageEncoderSettings settings1; QImageEncoderSettings settings2(settings1); QCOMPARE(settings2, settings1); settings2 = settings1; QCOMPARE(settings2, settings1); QVERIFY(settings2.isNull()); settings1.setQuality(QMultimedia::HighQuality); QVERIFY(settings2.isNull()); QVERIFY(!settings1.isNull()); QVERIFY(settings1 != settings2); } QImageEncoderSettings settings1; QImageEncoderSettings settings2; settings1 = QImageEncoderSettings(); settings1.setResolution(800,600); settings2 = QImageEncoderSettings(); settings2.setResolution(QSize(800,600)); QVERIFY(settings1 == settings2); settings2.setResolution(QSize(400,300)); QVERIFY(settings1 != settings2); settings1 = QImageEncoderSettings(); settings1.setCodec("codec1"); settings2 = QImageEncoderSettings(); settings2.setCodec("codec1"); QVERIFY(settings1 == settings2); settings2.setCodec("codec2"); QVERIFY(settings1 != settings2); settings1 = QImageEncoderSettings(); settings1.setQuality(QMultimedia::NormalQuality); settings2 = QImageEncoderSettings(); settings2.setQuality(QMultimedia::NormalQuality); QVERIFY(settings1 == settings2); settings2.setQuality(QMultimedia::LowQuality); QVERIFY(settings1 != settings2); settings1 = QImageEncoderSettings(); settings1.setEncodingOption(QLatin1Literal("encoderOption"), QVariant(1)); settings2 = QImageEncoderSettings(); settings2.setEncodingOption(QLatin1Literal("encoderOption"), QVariant(1)); QVERIFY(settings1 == settings2); settings2.setEncodingOption(QLatin1Literal("encoderOption"), QVariant(2)); QVERIFY(settings1 != settings2); } void tst_QCamera::testViewfinderSettings() { QCameraViewfinderSettings settings; QVERIFY(settings.isNull()); QVERIFY(settings == QCameraViewfinderSettings()); QCOMPARE(settings.resolution(), QSize()); settings.setResolution(QSize(640, 480)); QCOMPARE(settings.resolution(), QSize(640, 480)); settings.setResolution(1280, 720); QCOMPARE(settings.resolution(), QSize(1280, 720)); QVERIFY(!settings.isNull()); QVERIFY(settings != QCameraViewfinderSettings()); settings = QCameraViewfinderSettings(); QVERIFY(qFuzzyIsNull(settings.minimumFrameRate())); settings.setMinimumFrameRate(10.0); QVERIFY(qFuzzyCompare(settings.minimumFrameRate(), 10.0)); QVERIFY(qFuzzyIsNull(settings.maximumFrameRate())); settings.setMaximumFrameRate(20.0); QVERIFY(qFuzzyCompare(settings.maximumFrameRate(), 20.0)); QVERIFY(!settings.isNull()); settings = QCameraViewfinderSettings(); QCOMPARE(settings.pixelFormat(), QVideoFrame::Format_Invalid); settings.setPixelFormat(QVideoFrame::Format_RGB32); QCOMPARE(settings.pixelFormat(), QVideoFrame::Format_RGB32); QVERIFY(!settings.isNull()); settings = QCameraViewfinderSettings(); QCOMPARE(settings.pixelAspectRatio(), QSize()); settings.setPixelAspectRatio(QSize(2, 1)); QCOMPARE(settings.pixelAspectRatio(), QSize(2, 1)); settings.setPixelAspectRatio(3, 2); QCOMPARE(settings.pixelAspectRatio(), QSize(3, 2)); QVERIFY(!settings.isNull()); settings = QCameraViewfinderSettings(); { QCameraViewfinderSettings settings1; QCameraViewfinderSettings settings2; QCOMPARE(settings2, settings1); settings2 = settings1; QCOMPARE(settings2, settings1); QVERIFY(settings2.isNull()); settings1.setResolution(800, 600); QVERIFY(settings2.isNull()); QVERIFY(!settings1.isNull()); QVERIFY(settings1 != settings2); } { QCameraViewfinderSettings settings1; QCameraViewfinderSettings settings2(settings1); QCOMPARE(settings2, settings1); settings2 = settings1; QCOMPARE(settings2, settings1); QVERIFY(settings2.isNull()); settings1.setResolution(800, 600); QVERIFY(settings2.isNull()); QVERIFY(!settings1.isNull()); QVERIFY(settings1 != settings2); } QCameraViewfinderSettings settings1; QCameraViewfinderSettings settings2; settings1 = QCameraViewfinderSettings(); settings1.setResolution(800,600); settings2 = QCameraViewfinderSettings(); settings2.setResolution(QSize(800,600)); QVERIFY(settings1 == settings2); settings2.setResolution(QSize(400,300)); QVERIFY(settings1 != settings2); settings1 = QCameraViewfinderSettings(); settings1.setMinimumFrameRate(10.0); settings2 = QCameraViewfinderSettings(); settings2.setMinimumFrameRate(10.0); QVERIFY(settings1 == settings2); settings2.setMinimumFrameRate(15.0); QVERIFY(settings1 != settings2); settings1 = QCameraViewfinderSettings(); settings1.setMaximumFrameRate(30.0); settings2 = QCameraViewfinderSettings(); settings2.setMaximumFrameRate(30.0); QVERIFY(settings1 == settings2); settings2.setMaximumFrameRate(15.0); QVERIFY(settings1 != settings2); settings1 = QCameraViewfinderSettings(); settings1.setPixelFormat(QVideoFrame::Format_YV12); settings2 = QCameraViewfinderSettings(); settings2.setPixelFormat(QVideoFrame::Format_YV12); QVERIFY(settings1 == settings2); settings2.setPixelFormat(QVideoFrame::Format_NV21); QVERIFY(settings1 != settings2); settings1 = QCameraViewfinderSettings(); settings1.setPixelAspectRatio(2,1); settings2 = QCameraViewfinderSettings(); settings2.setPixelAspectRatio(QSize(2,1)); QVERIFY(settings1 == settings2); settings2.setPixelAspectRatio(QSize(1,2)); QVERIFY(settings1 != settings2); } void tst_QCamera::testViewfinderSettingsChange() { QCamera camera; QSignalSpy stateChangedSignal(&camera, SIGNAL(stateChanged(QCamera::State))); QSignalSpy statusChangedSignal(&camera, SIGNAL(statusChanged(QCamera::Status))); camera.start(); QCOMPARE(camera.state(), QCamera::ActiveState); QCOMPARE(camera.status(), QCamera::ActiveStatus); QCOMPARE(stateChangedSignal.count(), 1); QCOMPARE(statusChangedSignal.count(), 1); stateChangedSignal.clear(); statusChangedSignal.clear(); //the settings change should trigger camera stop/start camera.setViewfinderSettings(QCameraViewfinderSettings()); QCOMPARE(camera.state(), QCamera::ActiveState); QCOMPARE(camera.status(), QCamera::LoadedStatus); QCOMPARE(stateChangedSignal.count(), 0); QCOMPARE(statusChangedSignal.count(), 1); stateChangedSignal.clear(); statusChangedSignal.clear(); QCOMPARE(camera.state(), QCamera::ActiveState); QTRY_COMPARE(camera.status(), QCamera::ActiveStatus); QCOMPARE(stateChangedSignal.count(), 0); QCOMPARE(statusChangedSignal.count(), 1); stateChangedSignal.clear(); statusChangedSignal.clear(); //the settings change should trigger camera stop/start only once camera.setViewfinderSettings(QCameraViewfinderSettings()); camera.setViewfinderSettings(QCameraViewfinderSettings()); QCOMPARE(camera.state(), QCamera::ActiveState); QCOMPARE(camera.status(), QCamera::LoadedStatus); QCOMPARE(stateChangedSignal.count(), 0); QCOMPARE(statusChangedSignal.count(), 1); stateChangedSignal.clear(); statusChangedSignal.clear(); QCOMPARE(camera.state(), QCamera::ActiveState); QTRY_COMPARE(camera.status(), QCamera::ActiveStatus); QCOMPARE(stateChangedSignal.count(), 0); QCOMPARE(statusChangedSignal.count(), 1); } class ViewfinderSettingsBuilder { public: ViewfinderSettingsBuilder &setResolution(int width, int height) { m_settings.setResolution(width, height); return *this; } ViewfinderSettingsBuilder &setMinimumFrameRate(qreal r) { m_settings.setMinimumFrameRate(r); return *this; } ViewfinderSettingsBuilder &setMaximumFrameRate(qreal r) { m_settings.setMaximumFrameRate(r); return *this; } ViewfinderSettingsBuilder &setPixelFormat(QVideoFrame::PixelFormat f) { m_settings.setPixelFormat(f); return *this; } ViewfinderSettingsBuilder &setPixelAspectRatio(int h, int v) { m_settings.setPixelAspectRatio(h, v); return *this; } QCameraViewfinderSettings build() { QCameraViewfinderSettings s = m_settings; m_settings = QCameraViewfinderSettings(); return s; } private: QCameraViewfinderSettings m_settings; }; void tst_QCamera::testSupportedViewfinderSettings_data() { // see mockcameraviewfindersettingscontrol.h for expected values ViewfinderSettingsBuilder builder; QTest::addColumn("settings"); QTest::addColumn< QList >("expectedSupportedSettings"); QTest::newRow("all supported settings") << QCameraViewfinderSettings() << (QList() << 0 << 1 << 2 << 3 << 4 << 5); QTest::newRow("invalid resolution") << builder.setResolution(452472, 44453).build() << QList(); QTest::newRow("resolution (1)") << builder.setResolution(640, 480).build() << (QList() << 0); QTest::newRow("resolution (2)") << builder.setResolution(1280, 720).build() << (QList() << 1 << 3 << 4); QTest::newRow("invalid minimum frame rate") << builder.setMinimumFrameRate(2).build() << QList(); QTest::newRow("minimum frame rate (1)") << builder.setMinimumFrameRate(5).build() << (QList() << 2); QTest::newRow("minimum frame rate (2)") << builder.setMinimumFrameRate(10).build() << (QList() << 1 << 3); QTest::newRow("minimum frame rate (3)") << builder.setMinimumFrameRate(30).build() << (QList() << 0 << 4 << 5); QTest::newRow("invalid maximum frame rate") << builder.setMaximumFrameRate(2).build() << QList(); QTest::newRow("maximum frame rate (1)") << builder.setMaximumFrameRate(10).build() << (QList() << 1 << 2 << 3); QTest::newRow("maximum frame rate (2)") << builder.setMaximumFrameRate(30).build() << (QList() << 0 << 4 << 5); QTest::newRow("invalid pixel format") << builder.setPixelFormat(QVideoFrame::Format_CameraRaw).build() << QList(); QTest::newRow("pixel format (1)") << builder.setPixelFormat(QVideoFrame::Format_BGR32).build() << (QList() << 2); QTest::newRow("pixel format (2)") << builder.setPixelFormat(QVideoFrame::Format_YV12).build() << (QList() << 3 << 4); QTest::newRow("pixel format (3)") << builder.setPixelFormat(QVideoFrame::Format_NV12).build() << (QList() << 0 << 1 << 5); QTest::newRow("invalid pixel aspect ratio") << builder.setPixelAspectRatio(5, 3).build() << QList(); QTest::newRow("pixel aspect ratio (1)") << builder.setPixelAspectRatio(2, 1).build() << (QList() << 2); QTest::newRow("pixel aspect ratio (2)") << builder.setPixelAspectRatio(1, 1).build() << (QList() << 0 << 1 << 3 << 4 << 5); QTest::newRow("invalid multi settings") << builder.setResolution(640, 480) .setMinimumFrameRate(10) .setMaximumFrameRate(10) .build() << QList(); QTest::newRow("multi settings (1)") << builder.setResolution(640, 480) .setMinimumFrameRate(30) .setMaximumFrameRate(30) .build() << (QList() << 0); QTest::newRow("multi settings (2)") << builder.setResolution(1280, 720) .setMinimumFrameRate(10) .setMaximumFrameRate(10) .build() << (QList() << 1 << 3); QTest::newRow("multi settings (3)") << builder.setPixelFormat(QVideoFrame::Format_NV12) .setMinimumFrameRate(30) .build() << (QList() << 0 << 5); QTest::newRow("multi settings (4)") << builder.setPixelAspectRatio(1, 1) .setMaximumFrameRate(10) .build() << (QList() << 1 << 3); } void tst_QCamera::testSupportedViewfinderSettings() { QFETCH(QCameraViewfinderSettings, settings); QFETCH(QList, expectedSupportedSettings); QList actualSupportedSettings = QCamera().supportedViewfinderSettings(settings); QCOMPARE(actualSupportedSettings.size(), expectedSupportedSettings.size()); for (int i = 0; i < expectedSupportedSettings.size(); ++i) { QCameraViewfinderSettings expectedSettings = mockCameraService->mockViewfinderSettingsControl->supportedSettings.at(expectedSupportedSettings.at(i)); QCOMPARE(actualSupportedSettings.at(i), expectedSettings); } } void tst_QCamera::testSupportedViewfinderResolutions_data() { // see mockcameraviewfindersettingscontrol.h for expected values typedef QList SizeList; ViewfinderSettingsBuilder builder; QTest::addColumn("settings"); QTest::addColumn("expectedResolutions"); QTest::newRow("empty settings") << QCameraViewfinderSettings() << (SizeList() << QSize(320, 240) << QSize(640, 480) << QSize(1280, 720) << QSize(1920, 1080)); QTest::newRow("invalid minimum frame rate") << builder.setMinimumFrameRate(2).build() << SizeList(); QTest::newRow("minimum frame rate (1)") << builder.setMinimumFrameRate(5).build() << (SizeList() << QSize(1920, 1080)); QTest::newRow("minimum frame rate (2)") << builder.setMinimumFrameRate(10).build() << (SizeList() << QSize(1280, 720)); QTest::newRow("minimum frame rate (3)") << builder.setMinimumFrameRate(30).build() << (SizeList() << QSize(320, 240) << QSize(640, 480) << QSize(1280, 720)); QTest::newRow("invalid maximum frame rate") << builder.setMaximumFrameRate(2).build() << SizeList(); QTest::newRow("maximum frame rate") << builder.setMaximumFrameRate(10).build() << (SizeList() << QSize(1280, 720) << QSize(1920, 1080)); QTest::newRow("invalid pixel format") << builder.setPixelFormat(QVideoFrame::Format_CameraRaw).build() << SizeList(); QTest::newRow("pixel format (1)") << builder.setPixelFormat(QVideoFrame::Format_BGR32).build() << (SizeList() << QSize(1920, 1080)); QTest::newRow("pixel format (2)") << builder.setPixelFormat(QVideoFrame::Format_YV12).build() << (SizeList() << QSize(1280, 720)); QTest::newRow("pixel format (3)") << builder.setPixelFormat(QVideoFrame::Format_NV12).build() << (SizeList() << QSize(320, 240) << QSize(640, 480) << QSize(1280, 720)); QTest::newRow("invalid pixel aspect ratio") << builder.setPixelAspectRatio(7, 2).build() << SizeList(); QTest::newRow("pixel aspect ratio (1") << builder.setPixelAspectRatio(2, 1).build() << (SizeList() << QSize(1920, 1080)); QTest::newRow("pixel aspect ratio (2") << builder.setPixelAspectRatio(1, 1).build() << (SizeList() << QSize(320, 240) << QSize(640, 480) << QSize(1280, 720)); QTest::newRow("invalid multi settings (1)") << builder.setMinimumFrameRate(2) .setMaximumFrameRate(3) .build() << SizeList(); QTest::newRow("invalid multi settings (2)") << builder.setMinimumFrameRate(5) .setMaximumFrameRate(11) .build() << SizeList(); QTest::newRow("multi settings (1)") << builder.setMinimumFrameRate(10) .setMaximumFrameRate(10) .build() << (SizeList() << QSize(1280, 720)); QTest::newRow("multi settings (2)") << builder.setMinimumFrameRate(30) .setMaximumFrameRate(30) .build() << (SizeList() << QSize(320, 240) << QSize(640, 480) << QSize(1280, 720)); QTest::newRow("multi settings (3)") << builder.setPixelFormat(QVideoFrame::Format_NV12) .setMinimumFrameRate(30) .build() << (SizeList() << QSize(320, 240) << QSize(640, 480)); QTest::newRow("multi settings (4)") << builder.setPixelAspectRatio(1, 1) .setMaximumFrameRate(10) .build() << (SizeList() << QSize(1280, 720)); } void tst_QCamera::testSupportedViewfinderResolutions() { QFETCH(QCameraViewfinderSettings, settings); QFETCH(QList, expectedResolutions); QList actualResolutions = QCamera().supportedViewfinderResolutions(settings); QCOMPARE(actualResolutions.size(), expectedResolutions.size()); for (int i = 0; i < actualResolutions.size(); ++i) QCOMPARE(actualResolutions.at(i), expectedResolutions.at(i)); } void tst_QCamera::testSupportedViewfinderFrameRateRanges_data() { // see mockcameraviewfindersettingscontrol.h for expected values typedef QList RangeList; ViewfinderSettingsBuilder builder; QTest::addColumn("settings"); QTest::addColumn("expectedFrameRateRanges"); QTest::newRow("empty settings") << QCameraViewfinderSettings() << (RangeList() << QCamera::FrameRateRange(5, 10) << QCamera::FrameRateRange(10, 10) << QCamera::FrameRateRange(30, 30)); QTest::newRow("invalid resolution") << builder.setResolution(452472, 444534).build() << RangeList(); QTest::newRow("resolution (1)") << builder.setResolution(320, 240).build() << (RangeList() << QCamera::FrameRateRange(30, 30)); QTest::newRow("resolution (2)") << builder.setResolution(1280, 720).build() << (RangeList() << QCamera::FrameRateRange(10, 10) << QCamera::FrameRateRange(30, 30)); QTest::newRow("resolution (3)") << builder.setResolution(1920, 1080).build() << (RangeList() << QCamera::FrameRateRange(5, 10)); QTest::newRow("invalid minimum frame rate") << builder.setMinimumFrameRate(2).build() << RangeList(); QTest::newRow("minimum frame rate (1)") << builder.setMinimumFrameRate(5).build() << (RangeList() << QCamera::FrameRateRange(5, 10)); QTest::newRow("minimum frame rate (2)") << builder.setMinimumFrameRate(10).build() << (RangeList() << QCamera::FrameRateRange(10, 10)); QTest::newRow("invalid maximum frame rate") << builder.setMaximumFrameRate(2).build() << RangeList(); QTest::newRow("maximum frame rate (1)") << builder.setMaximumFrameRate(10).build() << (RangeList() << QCamera::FrameRateRange(5, 10) << QCamera::FrameRateRange(10, 10)); QTest::newRow("maximum frame rate (2)") << builder.setMaximumFrameRate(30).build() << (RangeList() << QCamera::FrameRateRange(30, 30)); QTest::newRow("invalid pixel format") << builder.setPixelFormat(QVideoFrame::Format_IMC1).build() << RangeList(); QTest::newRow("pixel format (1)") << builder.setPixelFormat(QVideoFrame::Format_BGR32).build() << (RangeList() << QCamera::FrameRateRange(5, 10)); QTest::newRow("pixel format (2)") << builder.setPixelFormat(QVideoFrame::Format_NV12).build() << (RangeList() << QCamera::FrameRateRange(10, 10) << QCamera::FrameRateRange(30, 30)); QTest::newRow("invalid pixel aspect ratio") << builder.setPixelAspectRatio(2, 3).build() << RangeList(); QTest::newRow("pixel aspect ratio (1)") << builder.setPixelAspectRatio(2, 1).build() << (RangeList() << QCamera::FrameRateRange(5, 10)); QTest::newRow("pixel aspect ratio (2)") << builder.setPixelAspectRatio(1, 1).build() << (RangeList() << QCamera::FrameRateRange(10, 10) << QCamera::FrameRateRange(30, 30)); } void tst_QCamera::testSupportedViewfinderFrameRateRanges() { QFETCH(QCameraViewfinderSettings, settings); QFETCH(QList, expectedFrameRateRanges); QList actualFrameRateRanges = QCamera().supportedViewfinderFrameRateRanges(settings); QCOMPARE(actualFrameRateRanges.size(), expectedFrameRateRanges.size()); for (int i = 0; i < actualFrameRateRanges.size(); ++i) QCOMPARE(actualFrameRateRanges.at(i), expectedFrameRateRanges.at(i)); } void tst_QCamera::testSupportedViewfinderPixelFormats_data() { // see mockcameraviewfindersettingscontrol.h for expected values typedef QList FormatList; ViewfinderSettingsBuilder builder; QTest::addColumn("settings"); QTest::addColumn("expectedPixelFormats"); QTest::newRow("empty settings") << QCameraViewfinderSettings() << (FormatList() << QVideoFrame::Format_NV12 << QVideoFrame::Format_BGR32 << QVideoFrame::Format_YV12); QTest::newRow("invalid resolution") << builder.setResolution(452472, 444534).build() << FormatList(); QTest::newRow("resolution (1)") << builder.setResolution(640, 480).build() << (FormatList() << QVideoFrame::Format_NV12); QTest::newRow("resolution (2)") << builder.setResolution(1280, 720).build() << (FormatList() << QVideoFrame::Format_NV12 << QVideoFrame::Format_YV12); QTest::newRow("invalid minimum frame rate") << builder.setMinimumFrameRate(2).build() << FormatList(); QTest::newRow("minimum frame rate (1)") << builder.setMinimumFrameRate(5).build() << (FormatList() << QVideoFrame::Format_BGR32); QTest::newRow("minimum frame rate (2)") << builder.setMinimumFrameRate(10).build() << (FormatList() << QVideoFrame::Format_NV12 << QVideoFrame::Format_YV12); QTest::newRow("invalid maximum frame rate") << builder.setMaximumFrameRate(2).build() << FormatList(); QTest::newRow("maximum frame rate (1)") << builder.setMaximumFrameRate(10).build() << (FormatList() << QVideoFrame::Format_NV12 << QVideoFrame::Format_BGR32 << QVideoFrame::Format_YV12); QTest::newRow("maximum frame rate (2)") << builder.setMinimumFrameRate(30).build() << (FormatList() << QVideoFrame::Format_NV12 << QVideoFrame::Format_YV12); QTest::newRow("invalid pixel aspect ratio") << builder.setPixelAspectRatio(2, 3).build() << FormatList(); QTest::newRow("pixel aspect ratio (1)") << builder.setPixelAspectRatio(2, 1).build() << (FormatList() << QVideoFrame::Format_BGR32); QTest::newRow("pixel aspect ratio (2)") << builder.setPixelAspectRatio(1, 1).build() << (FormatList() << QVideoFrame::Format_NV12 << QVideoFrame::Format_YV12); } void tst_QCamera::testSupportedViewfinderPixelFormats() { QFETCH(QCameraViewfinderSettings, settings); QFETCH(QList, expectedPixelFormats); QList actualPixelFormats = QCamera().supportedViewfinderPixelFormats(settings); QCOMPARE(actualPixelFormats.size(), expectedPixelFormats.size()); for (int i = 0; i < actualPixelFormats.size(); ++i) QCOMPARE(actualPixelFormats.at(i), expectedPixelFormats.at(i)); } void tst_QCamera::testCameraLock() { QCamera camera; camera.focus()->setFocusMode(QCameraFocus::AutoFocus); QCOMPARE(camera.lockStatus(), QCamera::Unlocked); QSignalSpy lockedSignal(&camera, SIGNAL(locked())); QSignalSpy lockFailedSignal(&camera, SIGNAL(lockFailed())); QSignalSpy lockStatusChangedSignal(&camera, SIGNAL(lockStatusChanged(QCamera::LockStatus,QCamera::LockChangeReason))); camera.searchAndLock(); QCOMPARE(camera.lockStatus(), QCamera::Searching); QCOMPARE(lockedSignal.count(), 0); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 1); lockedSignal.clear(); lockFailedSignal.clear(); lockStatusChangedSignal.clear(); QTRY_COMPARE(camera.lockStatus(), QCamera::Locked); QCOMPARE(lockedSignal.count(), 1); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 1); lockedSignal.clear(); lockFailedSignal.clear(); lockStatusChangedSignal.clear(); camera.searchAndLock(); QCOMPARE(camera.lockStatus(), QCamera::Searching); QCOMPARE(lockedSignal.count(), 0); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 1); lockedSignal.clear(); lockFailedSignal.clear(); lockStatusChangedSignal.clear(); camera.unlock(); QCOMPARE(camera.lockStatus(), QCamera::Unlocked); QCOMPARE(lockedSignal.count(), 0); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 1); } void tst_QCamera::testCameraLockCancel() { MockCameraService service; provider->service = &service; QCamera camera(0, provider); camera.focus()->setFocusMode(QCameraFocus::AutoFocus); QCOMPARE(camera.lockStatus(), QCamera::Unlocked); QSignalSpy lockedSignal(&camera, SIGNAL(locked())); QSignalSpy lockFailedSignal(&camera, SIGNAL(lockFailed())); QSignalSpy lockStatusChangedSignal(&camera, SIGNAL(lockStatusChanged(QCamera::LockStatus,QCamera::LockChangeReason))); camera.searchAndLock(); QCOMPARE(camera.lockStatus(), QCamera::Searching); QCOMPARE(lockedSignal.count(), 0); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 1); lockedSignal.clear(); lockFailedSignal.clear(); lockStatusChangedSignal.clear(); camera.unlock(); QCOMPARE(camera.lockStatus(), QCamera::Unlocked); QCOMPARE(lockedSignal.count(), 0); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 1); } void tst_QCamera::testCameraEncodingProperyChange() { QCamera camera; QCameraImageCapture imageCapture(&camera); QSignalSpy stateChangedSignal(&camera, SIGNAL(stateChanged(QCamera::State))); QSignalSpy statusChangedSignal(&camera, SIGNAL(statusChanged(QCamera::Status))); camera.start(); QCOMPARE(camera.state(), QCamera::ActiveState); QCOMPARE(camera.status(), QCamera::ActiveStatus); QCOMPARE(stateChangedSignal.count(), 1); QCOMPARE(statusChangedSignal.count(), 1); stateChangedSignal.clear(); statusChangedSignal.clear(); camera.setCaptureMode(QCamera::CaptureVideo); QCOMPARE(camera.state(), QCamera::ActiveState); QCOMPARE(camera.status(), QCamera::LoadedStatus); QCOMPARE(stateChangedSignal.count(), 0); QCOMPARE(statusChangedSignal.count(), 1); stateChangedSignal.clear(); statusChangedSignal.clear(); QCOMPARE(camera.state(), QCamera::ActiveState); QTRY_COMPARE(camera.status(), QCamera::ActiveStatus); QCOMPARE(stateChangedSignal.count(), 0); QCOMPARE(statusChangedSignal.count(), 1); stateChangedSignal.clear(); statusChangedSignal.clear(); //backens should not be stopped since the capture mode is Video imageCapture.setEncodingSettings(QImageEncoderSettings()); QCOMPARE(stateChangedSignal.count(), 0); QCOMPARE(statusChangedSignal.count(), 0); camera.setCaptureMode(QCamera::CaptureStillImage); QCOMPARE(camera.state(), QCamera::ActiveState); QTRY_COMPARE(camera.status(), QCamera::ActiveStatus); stateChangedSignal.clear(); statusChangedSignal.clear(); //the settings change should trigger camera stop/start imageCapture.setEncodingSettings(QImageEncoderSettings()); QCOMPARE(camera.state(), QCamera::ActiveState); QCOMPARE(camera.status(), QCamera::LoadedStatus); QCOMPARE(stateChangedSignal.count(), 0); QCOMPARE(statusChangedSignal.count(), 1); stateChangedSignal.clear(); statusChangedSignal.clear(); QCOMPARE(camera.state(), QCamera::ActiveState); QTRY_COMPARE(camera.status(), QCamera::ActiveStatus); QCOMPARE(stateChangedSignal.count(), 0); QCOMPARE(statusChangedSignal.count(), 1); stateChangedSignal.clear(); statusChangedSignal.clear(); //the settings change should trigger camera stop/start only once camera.setCaptureMode(QCamera::CaptureVideo); camera.setCaptureMode(QCamera::CaptureStillImage); imageCapture.setEncodingSettings(QImageEncoderSettings()); imageCapture.setEncodingSettings(QImageEncoderSettings()); QCOMPARE(camera.state(), QCamera::ActiveState); QCOMPARE(camera.status(), QCamera::LoadedStatus); QCOMPARE(stateChangedSignal.count(), 0); QCOMPARE(statusChangedSignal.count(), 1); stateChangedSignal.clear(); statusChangedSignal.clear(); QCOMPARE(camera.state(), QCamera::ActiveState); QTRY_COMPARE(camera.status(), QCamera::ActiveStatus); QCOMPARE(stateChangedSignal.count(), 0); QCOMPARE(statusChangedSignal.count(), 1); } void tst_QCamera::testSetVideoOutput() { MockVideoSurface surface; QCamera camera; camera.setViewfinder(reinterpret_cast(0)); camera.setViewfinder(reinterpret_cast(0)); QCOMPARE(mockCameraService->rendererRef, 0); camera.setViewfinder(&surface); QVERIFY(mockCameraService->rendererControl->surface() == &surface); QCOMPARE(mockCameraService->rendererRef, 1); camera.setViewfinder(reinterpret_cast(0)); QVERIFY(mockCameraService->rendererControl->surface() == 0); //rendererControl is released QCOMPARE(mockCameraService->rendererRef, 0); camera.setViewfinder(&surface); QVERIFY(mockCameraService->rendererControl->surface() == &surface); QCOMPARE(mockCameraService->rendererRef, 1); camera.setViewfinder(reinterpret_cast(0)); QVERIFY(mockCameraService->rendererControl->surface() == 0); //rendererControl is released QCOMPARE(mockCameraService->rendererRef, 0); camera.setViewfinder(&surface); QVERIFY(mockCameraService->rendererControl->surface() == &surface); QCOMPARE(mockCameraService->rendererRef, 1); } void tst_QCamera::testSetVideoOutputNoService() { MockVideoSurface surface; provider->service = 0; QCamera camera; camera.setViewfinder(&surface); // Nothing we can verify here other than it doesn't assert. } void tst_QCamera::testSetVideoOutputNoControl() { MockVideoSurface surface; MockCameraService service; service.rendererRef = 1; provider->service = &service; QCamera camera; camera.setViewfinder(&surface); QVERIFY(service.rendererControl->surface() == 0); } void tst_QCamera::testSetVideoOutputDestruction() { MockVideoSurface surface; MockCameraService service; provider->service = &service; { QCamera camera; camera.setViewfinder(&surface); QVERIFY(service.rendererControl->surface() == &surface); QCOMPARE(service.rendererRef, 1); } QVERIFY(service.rendererControl->surface() == 0); QCOMPARE(service.rendererRef, 0); } void tst_QCamera::testEnumDebug() { QTest::ignoreMessage(QtDebugMsg, "QCamera::ActiveState"); qDebug() << QCamera::ActiveState; QTest::ignoreMessage(QtDebugMsg, "QCamera::ActiveStatus"); qDebug() << QCamera::ActiveStatus; QTest::ignoreMessage(QtDebugMsg, "QCamera::CaptureVideo"); qDebug() << QCamera::CaptureVideo; QTest::ignoreMessage(QtDebugMsg, "QCamera::CameraError"); qDebug() << QCamera::CameraError; QTest::ignoreMessage(QtDebugMsg, "QCamera::Unlocked"); qDebug() << QCamera::Unlocked; QTest::ignoreMessage(QtDebugMsg, "QCamera::LockAcquired"); qDebug() << QCamera::LockAcquired; QTest::ignoreMessage(QtDebugMsg, "QCamera::NoLock"); qDebug() << QCamera::NoLock; QTest::ignoreMessage(QtDebugMsg, "QCamera::LockExposure"); qDebug() << QCamera::LockExposure; QTest::ignoreMessage(QtDebugMsg, "QCamera::FrontFace "); qDebug() << QCamera::FrontFace; } void tst_QCamera::testCameraControl() { MockCameraControl *m_cameraControl=new MockCameraControl(this); QVERIFY(m_cameraControl != NULL); } void tst_QCamera::testConstructor() { // Service doesn't implement QVideoDeviceSelectorControl provider->service = mockSimpleCameraService; { QCamera camera; QCOMPARE(camera.availability(), QMultimedia::Available); QCOMPARE(camera.error(), QCamera::NoError); } { // Requesting a camera at a specific position from a service which doesn't implement // the QVideoDeviceSelectorControl should result in loading the default camera QCamera camera(QCamera::FrontFace); QCOMPARE(camera.availability(), QMultimedia::Available); QCOMPARE(camera.error(), QCamera::NoError); } // Service implements QVideoDeviceSelectorControl provider->service = mockCameraService; { QCamera camera; QCOMPARE(camera.availability(), QMultimedia::Available); QCOMPARE(camera.error(), QCamera::NoError); QCOMPARE(mockCameraService->mockVideoDeviceSelectorControl->selectedDevice(), 1); // default is 1 } { QCamera camera(QCameraInfo::defaultCamera()); QCOMPARE(camera.availability(), QMultimedia::Available); QCOMPARE(camera.error(), QCamera::NoError); QCOMPARE(mockCameraService->mockVideoDeviceSelectorControl->selectedDevice(), 1); QCOMPARE(QCameraInfo(camera), QCameraInfo::defaultCamera()); } { QCameraInfo cameraInfo = QCameraInfo::availableCameras().at(0); QCamera camera(cameraInfo); QCOMPARE(camera.availability(), QMultimedia::Available); QCOMPARE(camera.error(), QCamera::NoError); QCOMPARE(mockCameraService->mockVideoDeviceSelectorControl->selectedDevice(), 0); QCOMPARE(QCameraInfo(camera), cameraInfo); } { // Requesting a camera at a position which is not available should result in // loading the default camera QCamera camera(QCamera::FrontFace); QCOMPARE(camera.availability(), QMultimedia::Available); QCOMPARE(camera.error(), QCamera::NoError); QCOMPARE(mockCameraService->mockVideoDeviceSelectorControl->selectedDevice(), 1); } { QCamera camera(QCamera::BackFace); QCOMPARE(camera.availability(), QMultimedia::Available); QCOMPARE(camera.error(), QCamera::NoError); QCOMPARE(mockCameraService->mockVideoDeviceSelectorControl->selectedDevice(), 0); } { // Should load the default camera when UnspecifiedPosition is requested QCamera camera(QCamera::UnspecifiedPosition); QCOMPARE(camera.availability(), QMultimedia::Available); QCOMPARE(camera.error(), QCamera::NoError); QCOMPARE(mockCameraService->mockVideoDeviceSelectorControl->selectedDevice(), 1); } } /* captureModeChanged Signal test case. */ void tst_QCamera::testCaptureModeChanged_signal() { MockCameraControl *m_cameraControl= new MockCameraControl(this); QSignalSpy spy(m_cameraControl, SIGNAL(captureModeChanged(QCamera::CaptureModes))); QVERIFY(spy.size() == 0); m_cameraControl->setCaptureMode(QCamera::CaptureVideo); QVERIFY(spy.size() == 1); m_cameraControl->setCaptureMode(QCamera::CaptureStillImage); QVERIFY(spy.size() == 2); } /* Test case for captureMode */ void tst_QCamera::testCaptureMode() { QCamera camera; QVERIFY(camera.captureMode() == QCamera::CaptureStillImage); camera.setCaptureMode(QCamera::CaptureVideo); QVERIFY(camera.captureMode() == QCamera::CaptureVideo); } /* Test case for isCaptureModeSupported */ void tst_QCamera::testIsCaptureModeSupported() { QCamera camera; QVERIFY(camera.isCaptureModeSupported(QCamera::CaptureStillImage) == true); QVERIFY(camera.isCaptureModeSupported(QCamera::CaptureVideo) == true); } /* Test case for requestedLocks. LockType is stored in OR combination so all types of combinations are verified here.*/ void tst_QCamera::testRequestedLocks() { QCamera camera; QCOMPARE(camera.requestedLocks(),QCamera::NoLock); camera.searchAndLock(QCamera::LockExposure); QCOMPARE(camera.requestedLocks(),QCamera::LockExposure); camera.unlock(); camera.searchAndLock(QCamera::LockFocus); QCOMPARE(camera.requestedLocks(),QCamera::LockFocus ); camera.unlock(); camera.searchAndLock(QCamera::LockWhiteBalance); QCOMPARE(camera.requestedLocks(),QCamera::NoLock); camera.unlock(); camera.searchAndLock(QCamera::LockExposure |QCamera::LockFocus ); QCOMPARE(camera.requestedLocks(),QCamera::LockExposure |QCamera::LockFocus ); camera.searchAndLock(QCamera::LockWhiteBalance); QCOMPARE(camera.requestedLocks(),QCamera::LockExposure |QCamera::LockFocus); camera.unlock(QCamera::LockExposure); QCOMPARE(camera.requestedLocks(),QCamera::LockFocus); camera.unlock(QCamera::LockFocus); camera.searchAndLock(QCamera::LockExposure |QCamera::LockWhiteBalance ); QCOMPARE(camera.requestedLocks(),QCamera::LockExposure); } /* Test case for supportedLocks() */ void tst_QCamera::testSupportedLocks() { QCamera camera; QCOMPARE(camera.supportedLocks(),QCamera::LockExposure | QCamera::LockFocus); } /* Test case for isAvailable */ void tst_QCamera::testQCameraIsAvailable() { QCamera camera; QVERIFY(camera.isAvailable()); QVERIFY(camera.availability() == QMultimedia::Available); } void tst_QCamera::testQCameraIsNotAvailable() { provider->service = 0; QCamera camera("random"); QCOMPARE(camera.error(), QCamera::ServiceMissingError); QVERIFY(!camera.isAvailable()); QCOMPARE(camera.availability(), QMultimedia::ServiceMissing); } /* Test case for searchAndLock ( QCamera::LockTypes locks ) */ void tst_QCamera::testSearchAndLockWithLockTypes() { QCamera camera; QCOMPARE(camera.lockStatus(), QCamera::Unlocked); /* Spy the signals */ QSignalSpy lockedSignal(&camera, SIGNAL(locked())); QSignalSpy lockFailedSignal(&camera, SIGNAL(lockFailed())); QSignalSpy lockStatusChangedSignal(&camera, SIGNAL(lockStatusChanged(QCamera::LockStatus,QCamera::LockChangeReason))); QSignalSpy lockStatusChangedSignalWithType(&camera, SIGNAL(lockStatusChanged(QCamera::LockType,QCamera::LockStatus,QCamera::LockChangeReason))); /* search and lock the camera with QCamera::LockExposure and verify if the signal is emitted correctly */ camera.searchAndLock(QCamera::LockExposure); QCOMPARE(camera.lockStatus(), QCamera::Locked); QCOMPARE(lockedSignal.count(), 1); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 1); QCOMPARE(lockStatusChangedSignalWithType.count(), 1); } /* Test case for setCaptureMode() */ void tst_QCamera::testSetCaptureMode() { QCamera camera; /* Set the capture mode and verify if it set correctly */ camera.setCaptureMode(QCamera::CaptureVideo); QVERIFY(camera.captureMode() == QCamera::CaptureVideo); camera.setCaptureMode(QCamera::CaptureStillImage); QVERIFY(camera.captureMode() == QCamera::CaptureStillImage); } /* Test case for unlock (QCamera::LockTypes) */ void tst_QCamera::testUnlockWithType() { QCamera camera; QCOMPARE(camera.lockStatus(), QCamera::Unlocked); /* Spy the signal */ QSignalSpy lockedSignal(&camera, SIGNAL(locked())); QSignalSpy lockFailedSignal(&camera, SIGNAL(lockFailed())); QSignalSpy lockStatusChangedSignal(&camera, SIGNAL(lockStatusChanged(QCamera::LockStatus,QCamera::LockChangeReason))); QSignalSpy lockStatusChangedSignalWithType(&camera, SIGNAL(lockStatusChanged(QCamera::LockType,QCamera::LockStatus,QCamera::LockChangeReason))); /* lock the camera with QCamera::LockExposure and Verify if the signal is emitted correctly */ camera.searchAndLock(QCamera::LockExposure); QCOMPARE(camera.lockStatus(), QCamera::Locked); QCOMPARE(lockedSignal.count(), 1); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 1); QCOMPARE(lockStatusChangedSignalWithType.count(), 1); /* Clear the signal */ lockedSignal.clear(); lockFailedSignal.clear(); lockStatusChangedSignal.clear(); lockStatusChangedSignalWithType.clear(); /* Unlock the camera and verify if the signal is emitted correctly */ camera.unlock(QCamera::LockExposure); QCOMPARE(camera.lockStatus(), QCamera::Unlocked); QCOMPARE(lockedSignal.count(), 0); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 1); QCOMPARE(lockStatusChangedSignalWithType.count(), 1); QCamera::LockType lockType = qvariant_cast(lockStatusChangedSignalWithType.at(0).at(0)); QCamera::LockStatus lockStatus = qvariant_cast(lockStatusChangedSignalWithType.at(0).at(1)); QVERIFY(lockType == QCamera::LockExposure); QVERIFY(lockStatus == QCamera::Unlocked); lockedSignal.clear(); lockFailedSignal.clear(); lockStatusChangedSignal.clear(); lockStatusChangedSignalWithType.clear(); /* Lock the camera with QCamera::LockFocus */ camera.searchAndLock(QCamera::LockFocus); lockedSignal.clear(); lockFailedSignal.clear(); lockStatusChangedSignal.clear(); lockStatusChangedSignalWithType.clear(); /* Unlock the camera and Verify if the signal is emitted correctly */ camera.unlock(QCamera::LockFocus); QCOMPARE(camera.lockStatus(), QCamera::Unlocked); QCOMPARE(lockedSignal.count(), 0); QCOMPARE(lockFailedSignal.count(), 0); QCOMPARE(lockStatusChangedSignal.count(), 1); QCOMPARE(lockStatusChangedSignalWithType.count(), 1); lockType = qvariant_cast(lockStatusChangedSignalWithType.at(0).at(0)); lockStatus = qvariant_cast(lockStatusChangedSignalWithType.at(0).at(1)); QVERIFY(lockType == QCamera::LockFocus); QVERIFY(lockStatus == QCamera::Unlocked); } /* Test case for signal captureModeChanged(QCamera::CaptureModes) */ void tst_QCamera::testCaptureModeChangedSignal() { QCamera camera; QVERIFY(camera.captureMode() == QCamera::CaptureStillImage); qRegisterMetaType("QCamera::CaptureModes"); /* Spy the signal */ QSignalSpy lockCaptureModeChangedSignal(&camera, SIGNAL(captureModeChanged(QCamera::CaptureModes))); /* set the capture mode and Verify if the signal is emitted */ camera.setCaptureMode(QCamera::CaptureVideo); QVERIFY(camera.captureMode() == QCamera::CaptureVideo); QCOMPARE(lockCaptureModeChangedSignal.count(), 1); QCamera::CaptureModes lockCaptureMode = qvariant_cast(lockCaptureModeChangedSignal.at(0).at(0)); QVERIFY(lockCaptureMode == QCamera::CaptureVideo); } /* Test case for signal lockStatusChanged(QCamera::LockType,QCamera::LockStatus, QCamera::LockChangeReason) */ void tst_QCamera::testLockStatusChangedWithTypesSignal() { QCamera camera; QCOMPARE(camera.lockStatus(), QCamera::Unlocked); /* Spy the signal lockStatusChanged(QCamera::LockType,QCamera::LockStatus, QCamera::LockChangeReason) */ QSignalSpy lockStatusChangedSignalWithType(&camera, SIGNAL(lockStatusChanged(QCamera::LockType,QCamera::LockStatus,QCamera::LockChangeReason))); /* Lock the camera with type QCamera::LockExposure */ camera.searchAndLock(QCamera::LockExposure); /* Verify if the signal is emitted and lock status is set correclty */ QCOMPARE(camera.lockStatus(), QCamera::Locked); QCOMPARE(lockStatusChangedSignalWithType.count(), 1); QCamera::LockType lockType = qvariant_cast(lockStatusChangedSignalWithType.at(0).at(0)); QCamera::LockStatus lockStatus = qvariant_cast(lockStatusChangedSignalWithType.at(0).at(1)); QVERIFY(lockType == QCamera::LockExposure); QVERIFY(lockStatus == QCamera::Locked); lockStatusChangedSignalWithType.clear(); /* Unlock the camera */ camera.unlock(); /* Verify if the signal is emitted and lock status is set correclty */ QCOMPARE(camera.lockStatus(), QCamera::Unlocked); QCOMPARE(lockStatusChangedSignalWithType.count(), 1); lockType = qvariant_cast(lockStatusChangedSignalWithType.at(0).at(0)); lockStatus = qvariant_cast(lockStatusChangedSignalWithType.at(0).at(1)); QVERIFY(lockType == QCamera::LockExposure); QVERIFY(lockStatus == QCamera::Unlocked); } /* Test case for verifying if error signal generated correctly */ void tst_QCamera::testErrorSignal() { MockCameraService service; provider->service = &service; QCamera camera; QSignalSpy spyError(&camera, SIGNAL(error(QCamera::Error))); /* Set the QCameraControl error and verify if the signal is emitted correctly in QCamera */ service.mockControl->setError(QCamera::CameraError,QString("Camera Error")); QVERIFY(spyError.count() == 1); QCamera::Error err = qvariant_cast(spyError.at(0).at(0)); QVERIFY(err == QCamera::CameraError); spyError.clear(); /* Set the QCameraControl error and verify if the signal is emitted correctly in QCamera */ service.mockControl->setError(QCamera::InvalidRequestError,QString("InvalidRequestError Error")); QVERIFY(spyError.count() == 1); err = qvariant_cast(spyError.at(0).at(0)); QVERIFY(err == QCamera::InvalidRequestError); spyError.clear(); /* Set the QCameraControl error and verify if the signal is emitted correctly in QCamera */ service.mockControl->setError(QCamera::NotSupportedFeatureError,QString("NotSupportedFeatureError Error")); QVERIFY(spyError.count() == 1); err = qvariant_cast(spyError.at(0).at(0)); QVERIFY(err == QCamera::NotSupportedFeatureError); } /* Test case for verifying the QCamera error */ void tst_QCamera::testError() { MockCameraService service; provider->service = &service; QCamera camera; /* Set the QCameraControl error and verify if it is set correctly in QCamera */ service.mockControl->setError(QCamera::CameraError,QString("Camera Error")); QVERIFY(camera.error() == QCamera::CameraError); /* Set the QCameraControl error and verify if it is set correctly in QCamera */ service.mockControl->setError(QCamera::InvalidRequestError,QString("InvalidRequestError Error")); QVERIFY(camera.error() == QCamera::InvalidRequestError); /* Set the QCameraControl error and verify if it is set correctly in QCamera */ service.mockControl->setError(QCamera::NotSupportedFeatureError,QString("NotSupportedFeatureError Error")); QVERIFY(camera.error() == QCamera::NotSupportedFeatureError); } /* Test the error strings for QCamera class */ void tst_QCamera::testErrorString() { MockCameraService service; provider->service = &service; QCamera camera; /* Set the QCameraControl error and verify if it is set correctly in QCamera */ service.mockControl->setError(QCamera::CameraError,QString("Camera Error")); QVERIFY(camera.errorString() == QString("Camera Error")); /* Set the QCameraControl error and verify if it is set correctly in QCamera */ service.mockControl->setError(QCamera::InvalidRequestError,QString("InvalidRequestError Error")); QVERIFY(camera.errorString() == QString("InvalidRequestError Error")); /* Set the QCameraControl error and verify if it is set correctly in QCamera */ service.mockControl->setError(QCamera::NotSupportedFeatureError,QString("NotSupportedFeatureError Error")); QVERIFY(camera.errorString() == QString("NotSupportedFeatureError Error")); } /* Test case for verifying Status of QCamera. */ void tst_QCamera::testStatus() { MockCameraService service; provider->service = &service; QCamera camera; /* Set the QCameraControl status and verify if it is set correctly in QCamera */ service.mockControl->setStatus(QCamera::StartingStatus); QVERIFY(camera.status() == QCamera::StartingStatus); /* Set the QCameraControl status and verify if it is set correctly in QCamera */ service.mockControl->setStatus(QCamera::StandbyStatus); QVERIFY(camera.status() == QCamera::StandbyStatus); /* Set the QCameraControl status and verify if it is set correctly in QCamera */ service.mockControl->setStatus(QCamera::LoadingStatus); QVERIFY(camera.status() == QCamera::LoadingStatus); /* Set the QCameraControl status and verify if it is set correctly in QCamera */ service.mockControl->setStatus(QCamera::UnavailableStatus); QVERIFY(camera.status() == QCamera::UnavailableStatus); } /* Test case for verifying default locktype QCamera::NoLock */ void tst_QCamera::testLockType() { QCamera camera; QCOMPARE(camera.requestedLocks(),QCamera::NoLock); } /* Test case for QCamera::LockChangeReason with QCamera::LockAcquired */ void tst_QCamera::testLockChangeReason() { MockCameraService service; provider->service = &service; QCamera camera; QSignalSpy lockStatusChangedSignalWithType(&camera, SIGNAL(lockStatusChanged(QCamera::LockType,QCamera::LockStatus,QCamera::LockChangeReason))); /* Set the lockChangeReason */ service.mockLocksControl->setLockChangeReason(QCamera::LockAcquired); /* Verify if lockChangeReson is eqaul toQCamera::LockAcquired */ QCOMPARE(lockStatusChangedSignalWithType.count(), 1); QCamera::LockChangeReason LockChangeReason = qvariant_cast(lockStatusChangedSignalWithType.at(0).at(2)); QVERIFY(LockChangeReason == QCamera::LockAcquired); } /* All the enums test case for QCameraControl class*/ void tst_QCamera::testEnumsOfQCameraControl() { MockCameraControl *m_cameraControl = new MockCameraControl(this); bool result; // In still mode, can't change much QVERIFY(m_cameraControl->captureMode() == QCamera::CaptureStillImage); result = m_cameraControl->canChangeProperty(MockCameraControl::CaptureMode, QCamera::ActiveStatus); QVERIFY(!result); result = m_cameraControl->canChangeProperty(MockCameraControl::ImageEncodingSettings, QCamera::ActiveStatus); QVERIFY(!result); result = m_cameraControl->canChangeProperty(MockCameraControl::VideoEncodingSettings, QCamera::ActiveStatus); QVERIFY(result); result = m_cameraControl->canChangeProperty(MockCameraControl::Viewfinder, QCamera::ActiveStatus); QVERIFY(!result); // In video mode can change image encoding settings m_cameraControl->setCaptureMode(QCamera::CaptureVideo); result = m_cameraControl->canChangeProperty(MockCameraControl::ImageEncodingSettings, QCamera::ActiveStatus); QVERIFY(result); result = m_cameraControl->canChangeProperty(MockCameraControl::VideoEncodingSettings, QCamera::ActiveStatus); QVERIFY(result); result = m_cameraControl->canChangeProperty(MockCameraControl::Viewfinder, QCamera::ActiveStatus); QVERIFY(!result); // Flip the allow everything bit m_cameraControl->m_propertyChangesSupported = true; result = m_cameraControl->canChangeProperty(MockCameraControl::CaptureMode, QCamera::ActiveStatus); QVERIFY(result); result = m_cameraControl->canChangeProperty(MockCameraControl::ImageEncodingSettings, QCamera::ActiveStatus); QVERIFY(result); result = m_cameraControl->canChangeProperty(MockCameraControl::VideoEncodingSettings, QCamera::ActiveStatus); QVERIFY(result); result = m_cameraControl->canChangeProperty(MockCameraControl::Viewfinder, QCamera::ActiveStatus); QVERIFY(result); } // Test case for QCameraImageProcessing class void tst_QCamera::testContrast() { QCamera camera; QCameraImageProcessing *cameraImageProcessing = camera.imageProcessing(); QVERIFY(cameraImageProcessing->contrast() ==0); cameraImageProcessing->setContrast(0.123); QCOMPARE(cameraImageProcessing->contrast(), 0.123); cameraImageProcessing->setContrast(4.56); QCOMPARE(cameraImageProcessing->contrast(), 4.56); } void tst_QCamera::testDenoisingLevel() { QCamera camera; QCameraImageProcessing *cameraImageProcessing = camera.imageProcessing(); QCOMPARE(cameraImageProcessing->denoisingLevel()+1 , 1.0); cameraImageProcessing->setDenoisingLevel(-0.3); QCOMPARE(cameraImageProcessing->denoisingLevel() , -0.3); cameraImageProcessing->setDenoisingLevel(0.3); QCOMPARE(cameraImageProcessing->denoisingLevel() , 0.3); } void tst_QCamera::testIsAvailable() { QCamera camera; QCameraImageProcessing *cameraImageProcessing = camera.imageProcessing(); QVERIFY(cameraImageProcessing->isAvailable() == true); } void tst_QCamera::testSaturation() { QCamera camera; QCameraImageProcessing *cameraImageProcessing = camera.imageProcessing(); QCOMPARE(cameraImageProcessing->saturation()+1.0, 1.0); cameraImageProcessing->setSaturation(0.5); QCOMPARE(cameraImageProcessing->saturation(), 0.5); cameraImageProcessing->setSaturation(-0.5); QCOMPARE(cameraImageProcessing->saturation(), -0.5); } void tst_QCamera::testSharpeningLevel() { QCamera camera; QCameraImageProcessing *cameraImageProcessing = camera.imageProcessing(); QCOMPARE(cameraImageProcessing->sharpeningLevel()+1 , 1.0); cameraImageProcessing->setSharpeningLevel(-0.3); QCOMPARE(cameraImageProcessing->sharpeningLevel() , -0.3); cameraImageProcessing->setSharpeningLevel(0.3); QCOMPARE(cameraImageProcessing->sharpeningLevel() , 0.3); } void tst_QCamera::testEnumOfQCameraImageProcessing() { QSet whiteBalanceModes; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceManual; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceAuto; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceSunlight; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceCloudy; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceShade; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceTungsten; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceFluorescent; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceFlash; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceSunset; whiteBalanceModes << QCameraImageProcessing::WhiteBalanceVendor; MockCameraService service; service.mockImageProcessingControl->setSupportedWhiteBalanceModes(whiteBalanceModes); service.mockImageProcessingControl->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceManual); QVERIFY(service.mockImageProcessingControl->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceManual)); QVERIFY(service.mockImageProcessingControl->whiteBalanceMode() == QCameraImageProcessing::WhiteBalanceManual); service.mockImageProcessingControl->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceAuto); QVERIFY(service.mockImageProcessingControl->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceAuto)); QVERIFY(service.mockImageProcessingControl->whiteBalanceMode() == QCameraImageProcessing::WhiteBalanceAuto); service.mockImageProcessingControl->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceSunlight); QVERIFY(service.mockImageProcessingControl->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceSunlight)); QVERIFY(service.mockImageProcessingControl->whiteBalanceMode() == QCameraImageProcessing::WhiteBalanceSunlight); service.mockImageProcessingControl->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceCloudy); QVERIFY(service.mockImageProcessingControl->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceCloudy)); QVERIFY(service.mockImageProcessingControl->whiteBalanceMode() == QCameraImageProcessing::WhiteBalanceCloudy); service.mockImageProcessingControl->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceShade); QVERIFY(service.mockImageProcessingControl->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceShade)); QVERIFY(service.mockImageProcessingControl->whiteBalanceMode() == QCameraImageProcessing::WhiteBalanceShade); service.mockImageProcessingControl->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceTungsten); QVERIFY(service.mockImageProcessingControl->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceTungsten)); QVERIFY(service.mockImageProcessingControl->whiteBalanceMode() == QCameraImageProcessing::WhiteBalanceTungsten); service.mockImageProcessingControl->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceFluorescent); QVERIFY(service.mockImageProcessingControl->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceFluorescent)); QVERIFY(service.mockImageProcessingControl->whiteBalanceMode() == QCameraImageProcessing::WhiteBalanceFluorescent); service.mockImageProcessingControl->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceFlash); QVERIFY(service.mockImageProcessingControl->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceFlash)); QVERIFY(service.mockImageProcessingControl->whiteBalanceMode() == QCameraImageProcessing::WhiteBalanceFlash); service.mockImageProcessingControl->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceSunset); QVERIFY(service.mockImageProcessingControl->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceSunset)); QVERIFY(service.mockImageProcessingControl->whiteBalanceMode() == QCameraImageProcessing::WhiteBalanceSunset); service.mockImageProcessingControl->setWhiteBalanceMode(QCameraImageProcessing::WhiteBalanceVendor); QVERIFY(service.mockImageProcessingControl->isWhiteBalanceModeSupported(QCameraImageProcessing::WhiteBalanceVendor)); QVERIFY(service.mockImageProcessingControl->whiteBalanceMode() == QCameraImageProcessing::WhiteBalanceVendor); } //Added test cases for QCameraFocus void tst_QCamera::testCameraFocusIsAvailable() { QCamera camera; QCameraFocus *cameraFocus = camera.focus(); QVERIFY(cameraFocus != 0); QVERIFY(cameraFocus->isAvailable()); } //Added this code to cover QCameraFocus::HyperfocalFocus and QCameraFocus::MacroFocus //As the HyperfocalFocus and MacroFocus are not supported we can not set the focus mode to these Focus Modes void tst_QCamera::testFocusModes() { QCamera camera; QCameraFocus *cameraFocus = camera.focus(); QVERIFY(cameraFocus != 0); QVERIFY(!cameraFocus->isFocusModeSupported(QCameraFocus::HyperfocalFocus)); QVERIFY(!cameraFocus->isFocusModeSupported(QCameraFocus::MacroFocus)); QCOMPARE(cameraFocus->focusMode(), QCameraFocus::AutoFocus); cameraFocus->setFocusMode(QCameraFocus::HyperfocalFocus); QVERIFY(cameraFocus->focusMode()!= QCameraFocus::HyperfocalFocus); QCOMPARE(cameraFocus->focusMode(), QCameraFocus::AutoFocus); cameraFocus->setFocusMode(QCameraFocus::MacroFocus); QVERIFY(cameraFocus->focusMode()!= QCameraFocus::MacroFocus); QCOMPARE(cameraFocus->focusMode(), QCameraFocus::AutoFocus); } void tst_QCamera::testOpticalAndDigitalZoomChanged() { QCamera camera; QCameraFocus *cameraFocus = camera.focus(); QVERIFY(cameraFocus != 0); QSignalSpy spy1(cameraFocus,SIGNAL(digitalZoomChanged(qreal))); QSignalSpy spy2(cameraFocus,SIGNAL(opticalZoomChanged(qreal))); QVERIFY(spy1.count() == 0); QVERIFY(spy2.count() == 0); cameraFocus->zoomTo(2.0,3.0); QVERIFY(spy1.count() == 1); QVERIFY(spy2.count() == 1); } void tst_QCamera::testMaxDigitalZoomChangedSignal() { QCamera camera; QCameraFocus *cameraFocus = camera.focus(); QVERIFY(cameraFocus != 0); QSignalSpy spy(cameraFocus,SIGNAL(maximumDigitalZoomChanged(qreal))); QVERIFY(spy.count() == 0); cameraFocus->zoomTo(5.0,6.0); QVERIFY(spy.count() == 1); } void tst_QCamera::testMaxOpticalZoomChangedSignal() { QCamera camera; QCameraFocus *cameraFocus = camera.focus(); QVERIFY(cameraFocus != 0); QSignalSpy spy(cameraFocus,SIGNAL(maximumOpticalZoomChanged(qreal))); QVERIFY(spy.count() == 0); cameraFocus->zoomTo(5.0,6.0); QVERIFY(spy.count() == 1); } void tst_QCamera::testfocusZonesChangedSignal() { QCamera camera; QCameraFocus *cameraFocus = camera.focus(); QVERIFY(cameraFocus != 0); QSignalSpy spy(cameraFocus,SIGNAL(focusZonesChanged())); cameraFocus->setCustomFocusPoint(QPointF(0.1, 0.1)); QVERIFY(spy.count() == 1); } // test constructor for abstract class of ImageProcessingControl void tst_QCamera :: testImageProcessingControl() { QObject parent; MockImageProcessingControl processCtrl(&parent); } void tst_QCamera::testSignalApertureChanged() { QCamera camera; QCameraExposure *cameraExposure = camera.exposure(); //create camera expose instance QVERIFY(cameraExposure != 0); QSignalSpy spyApertureChanged(cameraExposure , SIGNAL(apertureChanged(qreal))); QSignalSpy spyApertureRangeChanged(cameraExposure , SIGNAL(apertureRangeChanged())); QVERIFY(spyApertureChanged.count() ==0); cameraExposure->setManualAperture(10.0);//set the ManualAperture to 10.0 QTest::qWait(100); QVERIFY(spyApertureChanged.count() ==1); QVERIFY(spyApertureRangeChanged.count() ==1); } void tst_QCamera::testSignalExposureCompensationChanged() { QCamera camera; QCameraExposure *cameraExposure = camera.exposure(); //create camera expose instance QVERIFY(cameraExposure != 0); QSignalSpy spyExposureCompensationChanged(cameraExposure , SIGNAL(exposureCompensationChanged(qreal))); QVERIFY(spyExposureCompensationChanged.count() ==0); QVERIFY(cameraExposure->exposureCompensation() != 800); cameraExposure->setExposureCompensation(2.0); QTest::qWait(100); QVERIFY(cameraExposure->exposureCompensation() == 2.0); QCOMPARE(spyExposureCompensationChanged.count(),1); // Setting the same should not result in a signal cameraExposure->setExposureCompensation(2.0); QTest::qWait(100); QVERIFY(cameraExposure->exposureCompensation() == 2.0); QCOMPARE(spyExposureCompensationChanged.count(),1); } void tst_QCamera::testSignalIsoSensitivityChanged() { QCamera camera; QCameraExposure *cameraExposure = camera.exposure(); //create camera expose instance QVERIFY(cameraExposure != 0); QSignalSpy spyisoSensitivityChanged(cameraExposure , SIGNAL(isoSensitivityChanged(int))); QVERIFY(spyisoSensitivityChanged.count() ==0); cameraExposure->setManualIsoSensitivity(800); //set the manualiso sentivity to 800 QTest::qWait(100); QVERIFY(spyisoSensitivityChanged.count() ==1); } void tst_QCamera::testSignalShutterSpeedChanged() { QCamera camera; QCameraExposure *cameraExposure = camera.exposure(); //create camera expose instance QVERIFY(cameraExposure != 0); QSignalSpy spySignalShutterSpeedChanged(cameraExposure , SIGNAL(shutterSpeedChanged(qreal))); QSignalSpy spySignalShutterSpeedRangeChanged(cameraExposure , SIGNAL(shutterSpeedRangeChanged())); QVERIFY(spySignalShutterSpeedChanged.count() ==0); cameraExposure->setManualShutterSpeed(2.0);//set the ManualShutterSpeed to 2.0 QTest::qWait(100); QVERIFY(spySignalShutterSpeedChanged.count() ==1); QVERIFY(spySignalShutterSpeedRangeChanged.count() ==1); } void tst_QCamera::testSignalFlashReady() { QCamera camera; QCameraExposure *cameraExposure = camera.exposure(); //create camera expose instance QVERIFY(cameraExposure != 0); QSignalSpy spyflashReady(cameraExposure,SIGNAL(flashReady(bool))); QVERIFY(spyflashReady.count() ==0); QVERIFY(cameraExposure->flashMode() ==QCameraExposure::FlashAuto); cameraExposure->setFlashMode(QCameraExposure::FlashOff);//set theFlashMode to QCameraExposure::FlashOff QVERIFY(cameraExposure->flashMode() ==QCameraExposure::FlashOff); QVERIFY(spyflashReady.count() ==1); } // test constructor void tst_QCamera::testExposureControlConstructor() { // To check changes in abstract classes's pure virtual functions MockCameraExposureControl obj; } QTEST_MAIN(tst_QCamera) #include "tst_qcamera.moc"