/* KWin - the KDE window manager This file is part of the KDE project. SPDX-FileCopyrightText: 2016 Martin Gräßlin SPDX-License-Identifier: GPL-2.0-or-later */ #include #include "backends/libinput/device.h" #include "mock_libinput.h" #include #include #include #include #include using namespace KWin::LibInput; class TestLibinputDevice : public QObject { Q_OBJECT private Q_SLOTS: void initTestCase(); void testDeviceType_data(); void testDeviceType(); void testGestureSupport_data(); void testGestureSupport(); void testNames_data(); void testNames(); void testProduct(); void testVendor(); void testTapFingerCount(); void testSize_data(); void testSize(); void testDefaultPointerAcceleration_data(); void testDefaultPointerAcceleration(); void testDefaultPointerAccelerationProfileFlat_data(); void testDefaultPointerAccelerationProfileFlat(); void testDefaultPointerAccelerationProfileAdaptive_data(); void testDefaultPointerAccelerationProfileAdaptive(); void testDefaultClickMethodAreas_data(); void testDefaultClickMethodAreas(); void testDefaultClickMethodClickfinger_data(); void testDefaultClickMethodClickfinger(); void testLeftHandedEnabledByDefault_data(); void testLeftHandedEnabledByDefault(); void testTapEnabledByDefault_data(); void testTapEnabledByDefault(); void testMiddleEmulationEnabledByDefault_data(); void testMiddleEmulationEnabledByDefault(); void testNaturalScrollEnabledByDefault_data(); void testNaturalScrollEnabledByDefault(); void testScrollTwoFingerEnabledByDefault_data(); void testScrollTwoFingerEnabledByDefault(); void testScrollEdgeEnabledByDefault_data(); void testScrollEdgeEnabledByDefault(); void testScrollOnButtonDownEnabledByDefault_data(); void testScrollOnButtonDownEnabledByDefault(); void testDisableWhileTypingEnabledByDefault_data(); void testDisableWhileTypingEnabledByDefault(); void testLmrTapButtonMapEnabledByDefault_data(); void testLmrTapButtonMapEnabledByDefault(); void testSupportsDisableWhileTyping_data(); void testSupportsDisableWhileTyping(); void testSupportsPointerAcceleration_data(); void testSupportsPointerAcceleration(); void testSupportsLeftHanded_data(); void testSupportsLeftHanded(); void testSupportsCalibrationMatrix_data(); void testSupportsCalibrationMatrix(); void testSupportsDisableEvents_data(); void testSupportsDisableEvents(); void testSupportsDisableEventsOnExternalMouse_data(); void testSupportsDisableEventsOnExternalMouse(); void testSupportsMiddleEmulation_data(); void testSupportsMiddleEmulation(); void testSupportsNaturalScroll_data(); void testSupportsNaturalScroll(); void testSupportsScrollTwoFinger_data(); void testSupportsScrollTwoFinger(); void testSupportsScrollEdge_data(); void testSupportsScrollEdge(); void testSupportsScrollOnButtonDown_data(); void testSupportsScrollOnButtonDown(); void testDefaultScrollButton_data(); void testDefaultScrollButton(); void testPointerAcceleration_data(); void testPointerAcceleration(); void testLeftHanded_data(); void testLeftHanded(); void testSupportedButtons_data(); void testSupportedButtons(); void testAlphaNumericKeyboard_data(); void testAlphaNumericKeyboard(); void testEnabled_data(); void testEnabled(); void testTapToClick_data(); void testTapToClick(); void testTapAndDragEnabledByDefault_data(); void testTapAndDragEnabledByDefault(); void testTapAndDrag_data(); void testTapAndDrag(); void testTapDragLockEnabledByDefault_data(); void testTapDragLockEnabledByDefault(); void testTapDragLock_data(); void testTapDragLock(); void testMiddleEmulation_data(); void testMiddleEmulation(); void testNaturalScroll_data(); void testNaturalScroll(); void testScrollFactor(); void testScrollTwoFinger_data(); void testScrollTwoFinger(); void testScrollEdge_data(); void testScrollEdge(); void testScrollButtonDown_data(); void testScrollButtonDown(); void testScrollButton_data(); void testScrollButton(); void testDisableWhileTyping_data(); void testDisableWhileTyping(); void testLmrTapButtonMap_data(); void testLmrTapButtonMap(); void testLoadEnabled_data(); void testLoadEnabled(); void testLoadPointerAcceleration_data(); void testLoadPointerAcceleration(); void testLoadPointerAccelerationProfile_data(); void testLoadPointerAccelerationProfile(); void testLoadClickMethod_data(); void testLoadClickMethod(); void testLoadTapToClick_data(); void testLoadTapToClick(); void testLoadTapAndDrag_data(); void testLoadTapAndDrag(); void testLoadTapDragLock_data(); void testLoadTapDragLock(); void testLoadMiddleButtonEmulation_data(); void testLoadMiddleButtonEmulation(); void testLoadNaturalScroll_data(); void testLoadNaturalScroll(); void testLoadScrollMethod_data(); void testLoadScrollMethod(); void testLoadScrollButton_data(); void testLoadScrollButton(); void testLoadDisableWhileTyping_data(); void testLoadDisableWhileTyping(); void testLoadLmrTapButtonMap_data(); void testLoadLmrTapButtonMap(); void testLoadLeftHanded_data(); void testLoadLeftHanded(); void testOrientation_data(); void testOrientation(); void testCalibrationWithDefault(); void testSwitch_data(); void testSwitch(); }; namespace { template T dbusProperty(const QString &name, const char *property) { QDBusInterface interface { QStringLiteral("org.kde.kwin.tests.libinputdevice"), QStringLiteral("/org/kde/KWin/InputDevice/") + name, QStringLiteral("org.kde.KWin.InputDevice") }; return interface.property(property).value(); } } void TestLibinputDevice::initTestCase() { QDBusConnection::sessionBus().registerService(QStringLiteral("org.kde.kwin.tests.libinputdevice")); } void TestLibinputDevice::testDeviceType_data() { QTest::addColumn("keyboard"); QTest::addColumn("pointer"); QTest::addColumn("touch"); QTest::addColumn("tabletTool"); QTest::addColumn("switchDevice"); QTest::newRow("keyboard") << true << false << false << false << false; QTest::newRow("pointer") << false << true << false << false << false; QTest::newRow("touch") << false << false << true << false << false; QTest::newRow("keyboard/pointer") << true << true << false << false << false; QTest::newRow("keyboard/touch") << true << false << true << false << false; QTest::newRow("pointer/touch") << false << true << true << false << false; QTest::newRow("keyboard/pointer/touch") << true << true << true << false << false; QTest::newRow("tabletTool") << false << false << false << true << false; QTest::newRow("switch") << false << false << false << false << true; } void TestLibinputDevice::testDeviceType() { // this test verifies that the device type is recognized correctly QFETCH(bool, keyboard); QFETCH(bool, pointer); QFETCH(bool, touch); QFETCH(bool, tabletTool); QFETCH(bool, switchDevice); libinput_device device; device.keyboard = keyboard; device.pointer = pointer; device.touch = touch; device.tabletTool = tabletTool; device.switchDevice = switchDevice; Device d(&device); QCOMPARE(d.isKeyboard(), keyboard); QCOMPARE(d.property("keyboard").toBool(), keyboard); QCOMPARE(dbusProperty(d.sysName(), "keyboard"), keyboard); QCOMPARE(d.isPointer(), pointer); QCOMPARE(d.property("pointer").toBool(), pointer); QCOMPARE(dbusProperty(d.sysName(), "pointer"), pointer); QCOMPARE(d.isTouch(), touch); QCOMPARE(d.property("touch").toBool(), touch); QCOMPARE(dbusProperty(d.sysName(), "touch"), touch); QCOMPARE(d.isTabletPad(), false); QCOMPARE(d.property("tabletPad").toBool(), false); QCOMPARE(dbusProperty(d.sysName(), "tabletPad"), false); QCOMPARE(d.isTabletTool(), tabletTool); QCOMPARE(d.property("tabletTool").toBool(), tabletTool); QCOMPARE(dbusProperty(d.sysName(), "tabletTool"), tabletTool); QCOMPARE(d.isSwitch(), switchDevice); QCOMPARE(d.property("switchDevice").toBool(), switchDevice); QCOMPARE(dbusProperty(d.sysName(), "switchDevice"), switchDevice); QCOMPARE(d.device(), &device); } void TestLibinputDevice::testGestureSupport_data() { QTest::addColumn("supported"); QTest::newRow("supported") << true; QTest::newRow("not supported") << false; } void TestLibinputDevice::testGestureSupport() { // this test verifies whether the Device supports gestures QFETCH(bool, supported); libinput_device device; device.gestureSupported = supported; Device d(&device); QCOMPARE(d.supportsGesture(), supported); QCOMPARE(d.property("gestureSupport").toBool(), supported); QCOMPARE(dbusProperty(d.sysName(), "gestureSupport"), supported); } void TestLibinputDevice::testNames_data() { QTest::addColumn("name"); QTest::addColumn("sysName"); QTest::addColumn("outputName"); QTest::newRow("empty") << QByteArray() << QByteArrayLiteral("event1") << QByteArray(); QTest::newRow("set") << QByteArrayLiteral("awesome test device") << QByteArrayLiteral("event0") << QByteArrayLiteral("hdmi0"); } void TestLibinputDevice::testNames() { // this test verifies the various name properties of the Device QFETCH(QByteArray, name); QFETCH(QByteArray, sysName); QFETCH(QByteArray, outputName); libinput_device device; device.name = name; device.sysName = sysName; device.outputName = outputName; Device d(&device); QCOMPARE(d.name().toUtf8(), name); QCOMPARE(d.property("name").toString().toUtf8(), name); QCOMPARE(dbusProperty(d.sysName(), "name"), name); QCOMPARE(d.sysName().toUtf8(), sysName); QCOMPARE(d.property("sysName").toString().toUtf8(), sysName); QCOMPARE(dbusProperty(d.sysName(), "sysName"), sysName); QCOMPARE(d.outputName().toUtf8(), outputName); QCOMPARE(d.property("outputName").toString().toUtf8(), outputName); QCOMPARE(dbusProperty(d.sysName(), "outputName"), outputName); } void TestLibinputDevice::testProduct() { // this test verifies the product property libinput_device device; device.product = 100u; Device d(&device); QCOMPARE(d.product(), 100u); QCOMPARE(d.property("product").toUInt(), 100u); QCOMPARE(dbusProperty(d.sysName(), "product"), 100u); } void TestLibinputDevice::testVendor() { // this test verifies the vendor property libinput_device device; device.vendor = 200u; Device d(&device); QCOMPARE(d.vendor(), 200u); QCOMPARE(d.property("vendor").toUInt(), 200u); QCOMPARE(dbusProperty(d.sysName(), "vendor"), 200u); } void TestLibinputDevice::testTapFingerCount() { // this test verifies the tap finger count property libinput_device device; device.tapFingerCount = 3; Device d(&device); QCOMPARE(d.tapFingerCount(), 3); QCOMPARE(d.property("tapFingerCount").toInt(), 3); QCOMPARE(dbusProperty(d.sysName(), "tapFingerCount"), 3); } void TestLibinputDevice::testSize_data() { QTest::addColumn("setSize"); QTest::addColumn("returnValue"); QTest::addColumn("expectedSize"); QTest::newRow("10/20") << QSizeF(10.5, 20.2) << 0 << QSizeF(10.5, 20.2); QTest::newRow("failure") << QSizeF(10, 20) << 1 << QSizeF(); } void TestLibinputDevice::testSize() { // this test verifies that getting the size works correctly including failures QFETCH(QSizeF, setSize); QFETCH(int, returnValue); libinput_device device; device.deviceSize = setSize; device.deviceSizeReturnValue = returnValue; Device d(&device); QTEST(d.size(), "expectedSize"); QTEST(d.property("size").toSizeF(), "expectedSize"); QTEST(dbusProperty(d.sysName(), "size"), "expectedSize"); } void TestLibinputDevice::testLeftHandedEnabledByDefault_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testLeftHandedEnabledByDefault() { QFETCH(bool, enabled); libinput_device device; device.leftHandedEnabledByDefault = enabled; Device d(&device); QCOMPARE(d.leftHandedEnabledByDefault(), enabled); QCOMPARE(d.property("leftHandedEnabledByDefault").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "leftHandedEnabledByDefault"), enabled); } void TestLibinputDevice::testTapEnabledByDefault_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testTapEnabledByDefault() { QFETCH(bool, enabled); libinput_device device; device.tapEnabledByDefault = enabled; Device d(&device); QCOMPARE(d.tapToClickEnabledByDefault(), enabled); QCOMPARE(d.property("tapToClickEnabledByDefault").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "tapToClickEnabledByDefault"), enabled); } void TestLibinputDevice::testMiddleEmulationEnabledByDefault_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testMiddleEmulationEnabledByDefault() { QFETCH(bool, enabled); libinput_device device; device.middleEmulationEnabledByDefault = enabled; Device d(&device); QCOMPARE(d.middleEmulationEnabledByDefault(), enabled); QCOMPARE(d.property("middleEmulationEnabledByDefault").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "middleEmulationEnabledByDefault"), enabled); } void TestLibinputDevice::testNaturalScrollEnabledByDefault_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testNaturalScrollEnabledByDefault() { QFETCH(bool, enabled); libinput_device device; device.naturalScrollEnabledByDefault = enabled; Device d(&device); QCOMPARE(d.naturalScrollEnabledByDefault(), enabled); QCOMPARE(d.property("naturalScrollEnabledByDefault").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "naturalScrollEnabledByDefault"), enabled); } void TestLibinputDevice::testScrollTwoFingerEnabledByDefault_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testScrollTwoFingerEnabledByDefault() { QFETCH(bool, enabled); libinput_device device; device.defaultScrollMethod = enabled ? LIBINPUT_CONFIG_SCROLL_2FG : LIBINPUT_CONFIG_SCROLL_NO_SCROLL; Device d(&device); QCOMPARE(d.scrollTwoFingerEnabledByDefault(), enabled); QCOMPARE(d.property("scrollTwoFingerEnabledByDefault").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "scrollTwoFingerEnabledByDefault"), enabled); } void TestLibinputDevice::testScrollEdgeEnabledByDefault_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testScrollEdgeEnabledByDefault() { QFETCH(bool, enabled); libinput_device device; device.defaultScrollMethod = enabled ? LIBINPUT_CONFIG_SCROLL_EDGE : LIBINPUT_CONFIG_SCROLL_NO_SCROLL; Device d(&device); QCOMPARE(d.scrollEdgeEnabledByDefault(), enabled); QCOMPARE(d.property("scrollEdgeEnabledByDefault").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "scrollEdgeEnabledByDefault"), enabled); } void TestLibinputDevice::testDefaultPointerAccelerationProfileFlat_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testDefaultPointerAccelerationProfileFlat() { QFETCH(bool, enabled); libinput_device device; device.defaultPointerAccelerationProfile = enabled ? LIBINPUT_CONFIG_ACCEL_PROFILE_FLAT : LIBINPUT_CONFIG_ACCEL_PROFILE_NONE; Device d(&device); QCOMPARE(d.defaultPointerAccelerationProfileFlat(), enabled); QCOMPARE(d.property("defaultPointerAccelerationProfileFlat").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "defaultPointerAccelerationProfileFlat"), enabled); } void TestLibinputDevice::testDefaultPointerAccelerationProfileAdaptive_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testDefaultPointerAccelerationProfileAdaptive() { QFETCH(bool, enabled); libinput_device device; device.defaultPointerAccelerationProfile = enabled ? LIBINPUT_CONFIG_ACCEL_PROFILE_ADAPTIVE : LIBINPUT_CONFIG_ACCEL_PROFILE_NONE; Device d(&device); QCOMPARE(d.defaultPointerAccelerationProfileAdaptive(), enabled); QCOMPARE(d.property("defaultPointerAccelerationProfileAdaptive").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "defaultPointerAccelerationProfileAdaptive"), enabled); } void TestLibinputDevice::testDefaultClickMethodAreas_data() { QTest::addColumn("enabled"); QTest::addRow("enabled") << true; QTest::addRow("disabled") << false; } void TestLibinputDevice::testDefaultClickMethodAreas() { QFETCH(bool, enabled); libinput_device device; device.defaultClickMethod = enabled ? LIBINPUT_CONFIG_CLICK_METHOD_BUTTON_AREAS : LIBINPUT_CONFIG_CLICK_METHOD_CLICKFINGER; Device d(&device); QCOMPARE(d.defaultClickMethodAreas(), enabled); QCOMPARE(d.property("defaultClickMethodAreas").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "defaultClickMethodAreas"), enabled); } void TestLibinputDevice::testDefaultClickMethodClickfinger_data() { QTest::addColumn("enabled"); QTest::addRow("enabled") << true; QTest::addRow("disabled") << false; } void TestLibinputDevice::testDefaultClickMethodClickfinger() { QFETCH(bool, enabled); libinput_device device; device.defaultClickMethod = enabled ? LIBINPUT_CONFIG_CLICK_METHOD_CLICKFINGER : LIBINPUT_CONFIG_CLICK_METHOD_BUTTON_AREAS; Device d(&device); QCOMPARE(d.defaultClickMethodClickfinger(), enabled); QCOMPARE(d.property("defaultClickMethodClickfinger").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "defaultClickMethodClickfinger"), enabled); } void TestLibinputDevice::testScrollOnButtonDownEnabledByDefault_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testScrollOnButtonDownEnabledByDefault() { QFETCH(bool, enabled); libinput_device device; device.defaultScrollMethod = enabled ? LIBINPUT_CONFIG_SCROLL_ON_BUTTON_DOWN : LIBINPUT_CONFIG_SCROLL_NO_SCROLL; Device d(&device); QCOMPARE(d.scrollOnButtonDownEnabledByDefault(), enabled); QCOMPARE(d.property("scrollOnButtonDownEnabledByDefault").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "scrollOnButtonDownEnabledByDefault"), enabled); } void TestLibinputDevice::testDefaultScrollButton_data() { QTest::addColumn("button"); QTest::newRow("0") << 0u; QTest::newRow("BTN_LEFT") << quint32(BTN_LEFT); QTest::newRow("BTN_RIGHT") << quint32(BTN_RIGHT); QTest::newRow("BTN_MIDDLE") << quint32(BTN_MIDDLE); QTest::newRow("BTN_SIDE") << quint32(BTN_SIDE); QTest::newRow("BTN_EXTRA") << quint32(BTN_EXTRA); QTest::newRow("BTN_FORWARD") << quint32(BTN_FORWARD); QTest::newRow("BTN_BACK") << quint32(BTN_BACK); QTest::newRow("BTN_TASK") << quint32(BTN_TASK); } void TestLibinputDevice::testDefaultScrollButton() { libinput_device device; QFETCH(quint32, button); device.defaultScrollButton = button; Device d(&device); QCOMPARE(d.defaultScrollButton(), button); QCOMPARE(d.property("defaultScrollButton").value(), button); QCOMPARE(dbusProperty(d.sysName(), "defaultScrollButton"), button); } void TestLibinputDevice::testSupportsDisableWhileTyping_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testSupportsDisableWhileTyping() { QFETCH(bool, enabled); libinput_device device; device.supportsDisableWhileTyping = enabled; Device d(&device); QCOMPARE(d.supportsDisableWhileTyping(), enabled); QCOMPARE(d.property("supportsDisableWhileTyping").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "supportsDisableWhileTyping"), enabled); } void TestLibinputDevice::testSupportsPointerAcceleration_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testSupportsPointerAcceleration() { QFETCH(bool, enabled); libinput_device device; device.supportsPointerAcceleration = enabled; Device d(&device); QCOMPARE(d.supportsPointerAcceleration(), enabled); QCOMPARE(d.property("supportsPointerAcceleration").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "supportsPointerAcceleration"), enabled); } void TestLibinputDevice::testSupportsLeftHanded_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testSupportsLeftHanded() { QFETCH(bool, enabled); libinput_device device; device.supportsLeftHanded = enabled; Device d(&device); QCOMPARE(d.supportsLeftHanded(), enabled); QCOMPARE(d.property("supportsLeftHanded").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "supportsLeftHanded"), enabled); } void TestLibinputDevice::testSupportsCalibrationMatrix_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testSupportsCalibrationMatrix() { QFETCH(bool, enabled); libinput_device device; device.supportsCalibrationMatrix = enabled; Device d(&device); QCOMPARE(d.supportsCalibrationMatrix(), enabled); QCOMPARE(d.property("supportsCalibrationMatrix").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "supportsCalibrationMatrix"), enabled); } void TestLibinputDevice::testSupportsDisableEvents_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testSupportsDisableEvents() { QFETCH(bool, enabled); libinput_device device; device.supportsDisableEvents = enabled; Device d(&device); QCOMPARE(d.supportsDisableEvents(), enabled); QCOMPARE(d.property("supportsDisableEvents").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "supportsDisableEvents"), enabled); } void TestLibinputDevice::testSupportsDisableEventsOnExternalMouse_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testSupportsDisableEventsOnExternalMouse() { QFETCH(bool, enabled); libinput_device device; device.supportsDisableEventsOnExternalMouse = enabled; Device d(&device); QCOMPARE(d.supportsDisableEventsOnExternalMouse(), enabled); QCOMPARE(d.property("supportsDisableEventsOnExternalMouse").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "supportsDisableEventsOnExternalMouse"), enabled); } void TestLibinputDevice::testSupportsMiddleEmulation_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testSupportsMiddleEmulation() { QFETCH(bool, enabled); libinput_device device; device.supportsMiddleEmulation = enabled; Device d(&device); QCOMPARE(d.supportsMiddleEmulation(), enabled); QCOMPARE(d.property("supportsMiddleEmulation").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "supportsMiddleEmulation"), enabled); } void TestLibinputDevice::testSupportsNaturalScroll_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testSupportsNaturalScroll() { QFETCH(bool, enabled); libinput_device device; device.supportsNaturalScroll = enabled; Device d(&device); QCOMPARE(d.supportsNaturalScroll(), enabled); QCOMPARE(d.property("supportsNaturalScroll").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "supportsNaturalScroll"), enabled); } void TestLibinputDevice::testSupportsScrollTwoFinger_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testSupportsScrollTwoFinger() { QFETCH(bool, enabled); libinput_device device; device.supportedScrollMethods = enabled ? LIBINPUT_CONFIG_SCROLL_2FG : LIBINPUT_CONFIG_SCROLL_NO_SCROLL; Device d(&device); QCOMPARE(d.supportsScrollTwoFinger(), enabled); QCOMPARE(d.property("supportsScrollTwoFinger").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "supportsScrollTwoFinger"), enabled); } void TestLibinputDevice::testSupportsScrollEdge_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testSupportsScrollEdge() { QFETCH(bool, enabled); libinput_device device; device.supportedScrollMethods = enabled ? LIBINPUT_CONFIG_SCROLL_EDGE : LIBINPUT_CONFIG_SCROLL_NO_SCROLL; Device d(&device); QCOMPARE(d.supportsScrollEdge(), enabled); QCOMPARE(d.property("supportsScrollEdge").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "supportsScrollEdge"), enabled); } void TestLibinputDevice::testSupportsScrollOnButtonDown_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testSupportsScrollOnButtonDown() { QFETCH(bool, enabled); libinput_device device; device.supportedScrollMethods = enabled ? LIBINPUT_CONFIG_SCROLL_ON_BUTTON_DOWN : LIBINPUT_CONFIG_SCROLL_NO_SCROLL; Device d(&device); QCOMPARE(d.supportsScrollOnButtonDown(), enabled); QCOMPARE(d.property("supportsScrollOnButtonDown").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "supportsScrollOnButtonDown"), enabled); } void TestLibinputDevice::testDefaultPointerAcceleration_data() { QTest::addColumn("accel"); QTest::newRow("-1.0") << -1.0; QTest::newRow("-0.5") << -0.5; QTest::newRow("0.0") << 0.0; QTest::newRow("0.3") << 0.3; QTest::newRow("1.0") << 1.0; } void TestLibinputDevice::testDefaultPointerAcceleration() { QFETCH(qreal, accel); libinput_device device; device.defaultPointerAcceleration = accel; Device d(&device); QCOMPARE(d.defaultPointerAcceleration(), accel); QCOMPARE(d.property("defaultPointerAcceleration").toReal(), accel); QCOMPARE(dbusProperty(d.sysName(), "defaultPointerAcceleration"), accel); } void TestLibinputDevice::testPointerAcceleration_data() { QTest::addColumn("supported"); QTest::addColumn("setShouldFail"); QTest::addColumn("accel"); QTest::addColumn("setAccel"); QTest::addColumn("expectedAccel"); QTest::addColumn("expectedChanged"); QTest::newRow("-1 -> 2.0") << true << false << -1.0 << 2.0 << 1.0 << true; QTest::newRow("0 -> -1.0") << true << false << 0.0 << -1.0 << -1.0 << true; QTest::newRow("1 -> 1") << true << false << 1.0 << 1.0 << 1.0 << false; QTest::newRow("unsupported") << false << false << 0.0 << 1.0 << 0.0 << false; QTest::newRow("set fails") << true << true << -1.0 << 1.0 << -1.0 << false; } void TestLibinputDevice::testPointerAcceleration() { QFETCH(bool, supported); QFETCH(bool, setShouldFail); QFETCH(qreal, accel); libinput_device device; device.supportsPointerAcceleration = supported; device.pointerAcceleration = accel; device.setPointerAccelerationReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.pointerAcceleration(), accel); QCOMPARE(d.property("pointerAcceleration").toReal(), accel); QCOMPARE(dbusProperty(d.sysName(), "pointerAcceleration"), accel); QSignalSpy pointerAccelChangedSpy(&d, &Device::pointerAccelerationChanged); QFETCH(qreal, setAccel); d.setPointerAcceleration(setAccel); QTEST(d.pointerAcceleration(), "expectedAccel"); QTEST(!pointerAccelChangedSpy.isEmpty(), "expectedChanged"); QTEST(dbusProperty(d.sysName(), "pointerAcceleration"), "expectedAccel"); } void TestLibinputDevice::testLeftHanded_data() { QTest::addColumn("supported"); QTest::addColumn("setShouldFail"); QTest::addColumn("initValue"); QTest::addColumn("setValue"); QTest::addColumn("expectedValue"); QTest::newRow("unsupported/true") << false << false << true << false << false; QTest::newRow("unsupported/false") << false << false << false << true << false; QTest::newRow("true -> false") << true << false << true << false << false; QTest::newRow("false -> true") << true << false << false << true << true; QTest::newRow("set fails") << true << true << true << false << true; QTest::newRow("true -> true") << true << false << true << true << true; QTest::newRow("false -> false") << true << false << false << false << false; } void TestLibinputDevice::testLeftHanded() { QFETCH(bool, supported); QFETCH(bool, setShouldFail); QFETCH(bool, initValue); libinput_device device; device.supportsLeftHanded = supported; device.leftHanded = initValue; device.setLeftHandedReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.isLeftHanded(), supported && initValue); QCOMPARE(d.property("leftHanded").toBool(), supported && initValue); QCOMPARE(dbusProperty(d.sysName(), "leftHanded"), supported && initValue); QSignalSpy leftHandedChangedSpy(&d, &Device::leftHandedChanged); QFETCH(bool, setValue); d.setLeftHanded(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.isLeftHanded(), expectedValue); QCOMPARE(leftHandedChangedSpy.isEmpty(), (supported && initValue) == expectedValue); QCOMPARE(dbusProperty(d.sysName(), "leftHanded"), expectedValue); } void TestLibinputDevice::testSupportedButtons_data() { QTest::addColumn("isPointer"); QTest::addColumn("setButtons"); QTest::addColumn("expectedButtons"); QTest::newRow("left") << true << Qt::MouseButtons(Qt::LeftButton) << Qt::MouseButtons(Qt::LeftButton); QTest::newRow("right") << true << Qt::MouseButtons(Qt::RightButton) << Qt::MouseButtons(Qt::RightButton); QTest::newRow("middle") << true << Qt::MouseButtons(Qt::MiddleButton) << Qt::MouseButtons(Qt::MiddleButton); QTest::newRow("extra1") << true << Qt::MouseButtons(Qt::ExtraButton1) << Qt::MouseButtons(Qt::ExtraButton1); QTest::newRow("extra2") << true << Qt::MouseButtons(Qt::ExtraButton2) << Qt::MouseButtons(Qt::ExtraButton2); QTest::newRow("back") << true << Qt::MouseButtons(Qt::BackButton) << Qt::MouseButtons(Qt::BackButton); QTest::newRow("forward") << true << Qt::MouseButtons(Qt::ForwardButton) << Qt::MouseButtons(Qt::ForwardButton); QTest::newRow("task") << true << Qt::MouseButtons(Qt::TaskButton) << Qt::MouseButtons(Qt::TaskButton); QTest::newRow("no pointer/left") << false << Qt::MouseButtons(Qt::LeftButton) << Qt::MouseButtons(); QTest::newRow("no pointer/right") << false << Qt::MouseButtons(Qt::RightButton) << Qt::MouseButtons(); QTest::newRow("no pointer/middle") << false << Qt::MouseButtons(Qt::MiddleButton) << Qt::MouseButtons(); QTest::newRow("no pointer/extra1") << false << Qt::MouseButtons(Qt::ExtraButton1) << Qt::MouseButtons(); QTest::newRow("no pointer/extra2") << false << Qt::MouseButtons(Qt::ExtraButton2) << Qt::MouseButtons(); QTest::newRow("no pointer/back") << false << Qt::MouseButtons(Qt::BackButton) << Qt::MouseButtons(); QTest::newRow("no pointer/forward") << false << Qt::MouseButtons(Qt::ForwardButton) << Qt::MouseButtons(); QTest::newRow("no pointer/task") << false << Qt::MouseButtons(Qt::TaskButton) << Qt::MouseButtons(); QTest::newRow("all") << true << Qt::MouseButtons(Qt::LeftButton | Qt::RightButton | Qt::MiddleButton | Qt::ExtraButton1 | Qt::ExtraButton2 | Qt::BackButton | Qt::ForwardButton | Qt::TaskButton) << Qt::MouseButtons(Qt::LeftButton | Qt::RightButton | Qt::MiddleButton | Qt::ExtraButton1 | Qt::ExtraButton2 | Qt::BackButton | Qt::ForwardButton | Qt::TaskButton); } void TestLibinputDevice::testSupportedButtons() { libinput_device device; QFETCH(bool, isPointer); device.pointer = isPointer; QFETCH(Qt::MouseButtons, setButtons); device.supportedButtons = setButtons; Device d(&device); QCOMPARE(d.isPointer(), isPointer); QTEST(d.supportedButtons(), "expectedButtons"); QTEST(Qt::MouseButtons(dbusProperty(d.sysName(), "supportedButtons")), "expectedButtons"); } void TestLibinputDevice::testAlphaNumericKeyboard_data() { QTest::addColumn>("supportedKeys"); QTest::addColumn("isAlpha"); QVector keys; for (int i = KEY_1; i <= KEY_0; i++) { keys << i; QByteArray row = QByteArrayLiteral("number"); row.append(QByteArray::number(i)); QTest::newRow(row.constData()) << keys << false; } for (int i = KEY_Q; i <= KEY_P; i++) { keys << i; QByteArray row = QByteArrayLiteral("alpha"); row.append(QByteArray::number(i)); QTest::newRow(row.constData()) << keys << false; } for (int i = KEY_A; i <= KEY_L; i++) { keys << i; QByteArray row = QByteArrayLiteral("alpha"); row.append(QByteArray::number(i)); QTest::newRow(row.constData()) << keys << false; } for (int i = KEY_Z; i < KEY_M; i++) { keys << i; QByteArray row = QByteArrayLiteral("alpha"); row.append(QByteArray::number(i)); QTest::newRow(row.constData()) << keys << false; } // adding a different key should not result in it becoming alphanumeric keyboard keys << KEY_SEMICOLON; QTest::newRow("semicolon") << keys << false; // last but not least the M which should turn everything on keys << KEY_M; QTest::newRow("alphanumeric") << keys << true; } void TestLibinputDevice::testAlphaNumericKeyboard() { QFETCH(QVector, supportedKeys); libinput_device device; device.keyboard = true; device.keys = supportedKeys; Device d(&device); QCOMPARE(d.isKeyboard(), true); QTEST(d.isAlphaNumericKeyboard(), "isAlpha"); QTEST(dbusProperty(d.sysName(), "alphaNumericKeyboard"), "isAlpha"); } void TestLibinputDevice::testEnabled_data() { QTest::addColumn("supported"); QTest::addColumn("setShouldFail"); QTest::addColumn("initValue"); QTest::addColumn("setValue"); QTest::addColumn("expectedValue"); QTest::newRow("unsupported/true") << false << false << true << false << true; QTest::newRow("unsupported/false") << false << false << false << true << true; QTest::newRow("true -> false") << true << false << true << false << false; QTest::newRow("false -> true") << true << false << false << true << true; QTest::newRow("set fails") << true << true << true << false << true; QTest::newRow("true -> true") << true << false << true << true << true; QTest::newRow("false -> false") << true << false << false << false << false; } void TestLibinputDevice::testEnabled() { libinput_device device; QFETCH(bool, supported); QFETCH(bool, setShouldFail); QFETCH(bool, initValue); device.supportsDisableEvents = supported; device.enabled = initValue; device.setEnableModeReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.isEnabled(), !supported || initValue); QCOMPARE(d.property("enabled").toBool(), !supported || initValue); QCOMPARE(dbusProperty(d.sysName(), "enabled"), !supported || initValue); QSignalSpy enabledChangedSpy(&d, &Device::enabledChanged); QFETCH(bool, setValue); d.setEnabled(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.isEnabled(), expectedValue); QCOMPARE(dbusProperty(d.sysName(), "enabled"), expectedValue); } void TestLibinputDevice::testTapToClick_data() { QTest::addColumn("fingerCount"); QTest::addColumn("initValue"); QTest::addColumn("setValue"); QTest::addColumn("setShouldFail"); QTest::addColumn("expectedValue"); QTest::newRow("unsupported") << 0 << false << true << true << false; QTest::newRow("true -> false") << 1 << true << false << false << false; QTest::newRow("false -> true") << 2 << false << true << false << true; QTest::newRow("set fails") << 3 << true << false << true << true; QTest::newRow("true -> true") << 2 << true << true << false << true; QTest::newRow("false -> false") << 1 << false << false << false << false; } void TestLibinputDevice::testTapToClick() { libinput_device device; QFETCH(int, fingerCount); QFETCH(bool, initValue); QFETCH(bool, setShouldFail); device.tapFingerCount = fingerCount; device.tapToClick = initValue; device.setTapToClickReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.tapFingerCount(), fingerCount); QCOMPARE(d.isTapToClick(), initValue); QCOMPARE(d.property("tapToClick").toBool(), initValue); QCOMPARE(dbusProperty(d.sysName(), "tapToClick"), initValue); QSignalSpy tapToClickChangedSpy(&d, &Device::tapToClickChanged); QFETCH(bool, setValue); d.setTapToClick(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.isTapToClick(), expectedValue); QCOMPARE(tapToClickChangedSpy.isEmpty(), initValue == expectedValue); QCOMPARE(dbusProperty(d.sysName(), "tapToClick"), expectedValue); } void TestLibinputDevice::testTapAndDragEnabledByDefault_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testTapAndDragEnabledByDefault() { QFETCH(bool, enabled); libinput_device device; device.tapAndDragEnabledByDefault = enabled; Device d(&device); QCOMPARE(d.tapAndDragEnabledByDefault(), enabled); QCOMPARE(d.property("tapAndDragEnabledByDefault").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "tapAndDragEnabledByDefault"), enabled); } void TestLibinputDevice::testTapAndDrag_data() { QTest::addColumn("initValue"); QTest::addColumn("setValue"); QTest::addColumn("setShouldFail"); QTest::addColumn("expectedValue"); QTest::newRow("true -> false") << true << false << false << false; QTest::newRow("false -> true") << false << true << false << true; QTest::newRow("set fails") << true << false << true << true; QTest::newRow("true -> true") << true << true << false << true; QTest::newRow("false -> false") << false << false << false << false; } void TestLibinputDevice::testTapAndDrag() { libinput_device device; QFETCH(bool, initValue); QFETCH(bool, setShouldFail); device.tapAndDrag = initValue; device.setTapAndDragReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.isTapAndDrag(), initValue); QCOMPARE(d.property("tapAndDrag").toBool(), initValue); QCOMPARE(dbusProperty(d.sysName(), "tapAndDrag"), initValue); QSignalSpy tapAndDragChangedSpy(&d, &Device::tapAndDragChanged); QFETCH(bool, setValue); d.setTapAndDrag(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.isTapAndDrag(), expectedValue); QCOMPARE(tapAndDragChangedSpy.isEmpty(), initValue == expectedValue); QCOMPARE(dbusProperty(d.sysName(), "tapAndDrag"), expectedValue); } void TestLibinputDevice::testTapDragLockEnabledByDefault_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testTapDragLockEnabledByDefault() { QFETCH(bool, enabled); libinput_device device; device.tapDragLockEnabledByDefault = enabled; Device d(&device); QCOMPARE(d.tapDragLockEnabledByDefault(), enabled); QCOMPARE(d.property("tapDragLockEnabledByDefault").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "tapDragLockEnabledByDefault"), enabled); } void TestLibinputDevice::testTapDragLock_data() { QTest::addColumn("initValue"); QTest::addColumn("setValue"); QTest::addColumn("setShouldFail"); QTest::addColumn("expectedValue"); QTest::newRow("true -> false") << true << false << false << false; QTest::newRow("false -> true") << false << true << false << true; QTest::newRow("set fails") << true << false << true << true; QTest::newRow("true -> true") << true << true << false << true; QTest::newRow("false -> false") << false << false << false << false; } void TestLibinputDevice::testTapDragLock() { libinput_device device; QFETCH(bool, initValue); QFETCH(bool, setShouldFail); device.tapDragLock = initValue; device.setTapDragLockReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.isTapDragLock(), initValue); QCOMPARE(d.property("tapDragLock").toBool(), initValue); QCOMPARE(dbusProperty(d.sysName(), "tapDragLock"), initValue); QSignalSpy tapDragLockChangedSpy(&d, &Device::tapDragLockChanged); QFETCH(bool, setValue); d.setTapDragLock(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.isTapDragLock(), expectedValue); QCOMPARE(tapDragLockChangedSpy.isEmpty(), initValue == expectedValue); QCOMPARE(dbusProperty(d.sysName(), "tapDragLock"), expectedValue); } void TestLibinputDevice::testMiddleEmulation_data() { QTest::addColumn("initValue"); QTest::addColumn("setValue"); QTest::addColumn("setShouldFail"); QTest::addColumn("expectedValue"); QTest::addColumn("supportsMiddleButton"); QTest::newRow("true -> false") << true << false << false << false << true; QTest::newRow("false -> true") << false << true << false << true << true; QTest::newRow("set fails") << true << false << true << true << true; QTest::newRow("true -> true") << true << true << false << true << true; QTest::newRow("false -> false") << false << false << false << false << true; QTest::newRow("false -> true, unsupported") << false << true << true << false << false; } void TestLibinputDevice::testMiddleEmulation() { libinput_device device; QFETCH(bool, initValue); QFETCH(bool, setShouldFail); QFETCH(bool, supportsMiddleButton); device.supportsMiddleEmulation = supportsMiddleButton; device.middleEmulation = initValue; device.setMiddleEmulationReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.isMiddleEmulation(), initValue); QCOMPARE(d.property("middleEmulation").toBool(), initValue); QCOMPARE(dbusProperty(d.sysName(), "middleEmulation"), initValue); QSignalSpy middleEmulationChangedSpy(&d, &Device::middleEmulationChanged); QFETCH(bool, setValue); d.setMiddleEmulation(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.isMiddleEmulation(), expectedValue); QCOMPARE(d.property("middleEmulation").toBool(), expectedValue); QCOMPARE(middleEmulationChangedSpy.isEmpty(), initValue == expectedValue); QCOMPARE(dbusProperty(d.sysName(), "middleEmulation"), expectedValue); } void TestLibinputDevice::testNaturalScroll_data() { QTest::addColumn("initValue"); QTest::addColumn("setValue"); QTest::addColumn("setShouldFail"); QTest::addColumn("expectedValue"); QTest::addColumn("supportsNaturalScroll"); QTest::newRow("true -> false") << true << false << false << false << true; QTest::newRow("false -> true") << false << true << false << true << true; QTest::newRow("set fails") << true << false << true << true << true; QTest::newRow("true -> true") << true << true << false << true << true; QTest::newRow("false -> false") << false << false << false << false << true; QTest::newRow("false -> true, unsupported") << false << true << true << false << false; } void TestLibinputDevice::testNaturalScroll() { libinput_device device; QFETCH(bool, initValue); QFETCH(bool, setShouldFail); QFETCH(bool, supportsNaturalScroll); device.supportsNaturalScroll = supportsNaturalScroll; device.naturalScroll = initValue; device.setNaturalScrollReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.isNaturalScroll(), initValue); QCOMPARE(d.property("naturalScroll").toBool(), initValue); QCOMPARE(dbusProperty(d.sysName(), "naturalScroll"), initValue); QSignalSpy naturalScrollChangedSpy(&d, &Device::naturalScrollChanged); QFETCH(bool, setValue); d.setNaturalScroll(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.isNaturalScroll(), expectedValue); QCOMPARE(d.property("naturalScroll").toBool(), expectedValue); QCOMPARE(naturalScrollChangedSpy.isEmpty(), initValue == expectedValue); QCOMPARE(dbusProperty(d.sysName(), "naturalScroll"), expectedValue); } void TestLibinputDevice::testScrollFactor() { libinput_device device; qreal initValue = 1.0; Device d(&device); QCOMPARE(d.scrollFactor(), initValue); QCOMPARE(d.property("scrollFactor").toReal(), initValue); QCOMPARE(dbusProperty(d.sysName(), "scrollFactor"), initValue); QSignalSpy scrollFactorChangedSpy(&d, &Device::scrollFactorChanged); qreal expectedValue = 2.0; d.setScrollFactor(expectedValue); QCOMPARE(d.scrollFactor(), expectedValue); QCOMPARE(d.property("scrollFactor").toReal(), expectedValue); QCOMPARE(scrollFactorChangedSpy.isEmpty(), false); QCOMPARE(dbusProperty(d.sysName(), "scrollFactor"), expectedValue); } void TestLibinputDevice::testScrollTwoFinger_data() { QTest::addColumn("initValue"); QTest::addColumn("otherValue"); QTest::addColumn("setValue"); QTest::addColumn("setShouldFail"); QTest::addColumn("expectedValue"); QTest::addColumn("supportsScrollTwoFinger"); QTest::newRow("true -> false") << true << false << false << false << false << true; QTest::newRow("other -> false") << false << true << false << false << false << true; QTest::newRow("false -> true") << false << false << true << false << true << true; QTest::newRow("set fails") << true << false << false << true << true << true; QTest::newRow("true -> true") << true << false << true << false << true << true; QTest::newRow("false -> false") << false << false << false << false << false << true; QTest::newRow("false -> true, unsupported") << false << false << true << true << false << false; } void TestLibinputDevice::testScrollTwoFinger() { libinput_device device; QFETCH(bool, initValue); QFETCH(bool, otherValue); QFETCH(bool, setShouldFail); QFETCH(bool, supportsScrollTwoFinger); device.supportedScrollMethods = (supportsScrollTwoFinger ? LIBINPUT_CONFIG_SCROLL_2FG : LIBINPUT_CONFIG_SCROLL_NO_SCROLL) | LIBINPUT_CONFIG_SCROLL_EDGE; device.scrollMethod = initValue ? LIBINPUT_CONFIG_SCROLL_2FG : otherValue ? LIBINPUT_CONFIG_SCROLL_EDGE : LIBINPUT_CONFIG_SCROLL_NO_SCROLL; device.setScrollMethodReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.isScrollTwoFinger(), initValue); QCOMPARE(d.property("scrollTwoFinger").toBool(), initValue); QCOMPARE(d.property("scrollEdge").toBool(), otherValue); QCOMPARE(dbusProperty(d.sysName(), "scrollTwoFinger"), initValue); QCOMPARE(dbusProperty(d.sysName(), "scrollEdge"), otherValue); QSignalSpy scrollMethodChangedSpy(&d, &Device::scrollMethodChanged); QFETCH(bool, setValue); d.setScrollTwoFinger(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.isScrollTwoFinger(), expectedValue); QCOMPARE(d.property("scrollTwoFinger").toBool(), expectedValue); QCOMPARE(scrollMethodChangedSpy.isEmpty(), initValue == expectedValue); QCOMPARE(dbusProperty(d.sysName(), "scrollTwoFinger"), expectedValue); } void TestLibinputDevice::testScrollEdge_data() { QTest::addColumn("initValue"); QTest::addColumn("otherValue"); QTest::addColumn("setValue"); QTest::addColumn("setShouldFail"); QTest::addColumn("expectedValue"); QTest::addColumn("supportsScrollEdge"); QTest::newRow("true -> false") << true << false << false << false << false << true; QTest::newRow("other -> false") << false << true << false << false << false << true; QTest::newRow("false -> true") << false << false << true << false << true << true; QTest::newRow("set fails") << true << false << false << true << true << true; QTest::newRow("true -> true") << true << false << true << false << true << true; QTest::newRow("false -> false") << false << false << false << false << false << true; QTest::newRow("false -> true, unsupported") << false << false << true << true << false << false; } void TestLibinputDevice::testScrollEdge() { libinput_device device; QFETCH(bool, initValue); QFETCH(bool, otherValue); QFETCH(bool, setShouldFail); QFETCH(bool, supportsScrollEdge); device.supportedScrollMethods = (supportsScrollEdge ? LIBINPUT_CONFIG_SCROLL_EDGE : LIBINPUT_CONFIG_SCROLL_NO_SCROLL) | LIBINPUT_CONFIG_SCROLL_2FG; device.scrollMethod = initValue ? LIBINPUT_CONFIG_SCROLL_EDGE : otherValue ? LIBINPUT_CONFIG_SCROLL_2FG : LIBINPUT_CONFIG_SCROLL_NO_SCROLL; device.setScrollMethodReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.isScrollEdge(), initValue); QCOMPARE(d.property("scrollEdge").toBool(), initValue); QCOMPARE(d.property("scrollTwoFinger").toBool(), otherValue); QCOMPARE(dbusProperty(d.sysName(), "scrollEdge"), initValue); QCOMPARE(dbusProperty(d.sysName(), "scrollTwoFinger"), otherValue); QSignalSpy scrollMethodChangedSpy(&d, &Device::scrollMethodChanged); QFETCH(bool, setValue); d.setScrollEdge(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.isScrollEdge(), expectedValue); QCOMPARE(d.property("scrollEdge").toBool(), expectedValue); QCOMPARE(scrollMethodChangedSpy.isEmpty(), initValue == expectedValue); QCOMPARE(dbusProperty(d.sysName(), "scrollEdge"), expectedValue); } void TestLibinputDevice::testScrollButtonDown_data() { QTest::addColumn("initValue"); QTest::addColumn("otherValue"); QTest::addColumn("setValue"); QTest::addColumn("setShouldFail"); QTest::addColumn("expectedValue"); QTest::addColumn("supportsScrollButtonDown"); QTest::newRow("true -> false") << true << false << false << false << false << true; QTest::newRow("other -> false") << false << true << false << false << false << true; QTest::newRow("false -> true") << false << false << true << false << true << true; QTest::newRow("set fails") << true << false << false << true << true << true; QTest::newRow("true -> true") << true << false << true << false << true << true; QTest::newRow("false -> false") << false << false << false << false << false << true; QTest::newRow("false -> true, unsupported") << false << false << true << true << false << false; } void TestLibinputDevice::testScrollButtonDown() { libinput_device device; QFETCH(bool, initValue); QFETCH(bool, otherValue); QFETCH(bool, setShouldFail); QFETCH(bool, supportsScrollButtonDown); device.supportedScrollMethods = (supportsScrollButtonDown ? LIBINPUT_CONFIG_SCROLL_ON_BUTTON_DOWN : LIBINPUT_CONFIG_SCROLL_NO_SCROLL) | LIBINPUT_CONFIG_SCROLL_2FG; device.scrollMethod = initValue ? LIBINPUT_CONFIG_SCROLL_ON_BUTTON_DOWN : otherValue ? LIBINPUT_CONFIG_SCROLL_2FG : LIBINPUT_CONFIG_SCROLL_NO_SCROLL; device.setScrollMethodReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.isScrollOnButtonDown(), initValue); QCOMPARE(d.property("scrollOnButtonDown").toBool(), initValue); QCOMPARE(d.property("scrollTwoFinger").toBool(), otherValue); QCOMPARE(dbusProperty(d.sysName(), "scrollOnButtonDown"), initValue); QCOMPARE(dbusProperty(d.sysName(), "scrollTwoFinger"), otherValue); QSignalSpy scrollMethodChangedSpy(&d, &Device::scrollMethodChanged); QFETCH(bool, setValue); d.setScrollOnButtonDown(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.isScrollOnButtonDown(), expectedValue); QCOMPARE(d.property("scrollOnButtonDown").toBool(), expectedValue); QCOMPARE(scrollMethodChangedSpy.isEmpty(), initValue == expectedValue); QCOMPARE(dbusProperty(d.sysName(), "scrollOnButtonDown"), expectedValue); } void TestLibinputDevice::testScrollButton_data() { QTest::addColumn("initValue"); QTest::addColumn("setValue"); QTest::addColumn("expectedValue"); QTest::addColumn("setShouldFail"); QTest::addColumn("scrollOnButton"); QTest::newRow("BTN_LEFT -> BTN_RIGHT") << quint32(BTN_LEFT) << quint32(BTN_RIGHT) << quint32(BTN_RIGHT) << false << true; QTest::newRow("BTN_LEFT -> BTN_LEFT") << quint32(BTN_LEFT) << quint32(BTN_LEFT) << quint32(BTN_LEFT) << false << true; QTest::newRow("set should fail") << quint32(BTN_LEFT) << quint32(BTN_RIGHT) << quint32(BTN_LEFT) << true << true; QTest::newRow("not scroll on button") << quint32(BTN_LEFT) << quint32(BTN_RIGHT) << quint32(BTN_LEFT) << false << false; } void TestLibinputDevice::testScrollButton() { libinput_device device; QFETCH(quint32, initValue); QFETCH(bool, setShouldFail); QFETCH(bool, scrollOnButton); device.scrollButton = initValue; device.supportedScrollMethods = scrollOnButton ? LIBINPUT_CONFIG_SCROLL_ON_BUTTON_DOWN : LIBINPUT_CONFIG_SCROLL_NO_SCROLL; device.setScrollButtonReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.scrollButton(), initValue); QCOMPARE(d.property("scrollButton").value(), initValue); QCOMPARE(dbusProperty(d.sysName(), "scrollButton"), initValue); QSignalSpy scrollButtonChangedSpy(&d, &Device::scrollButtonChanged); QFETCH(quint32, setValue); d.setScrollButton(setValue); QFETCH(quint32, expectedValue); QCOMPARE(d.scrollButton(), expectedValue); QCOMPARE(d.property("scrollButton").value(), expectedValue); QCOMPARE(scrollButtonChangedSpy.isEmpty(), initValue == expectedValue); QCOMPARE(dbusProperty(d.sysName(), "scrollButton"), expectedValue); } void TestLibinputDevice::testDisableWhileTypingEnabledByDefault_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testDisableWhileTypingEnabledByDefault() { QFETCH(bool, enabled); libinput_device device; device.disableWhileTypingEnabledByDefault = enabled ? LIBINPUT_CONFIG_DWT_ENABLED : LIBINPUT_CONFIG_DWT_DISABLED; Device d(&device); QCOMPARE(d.disableWhileTypingEnabledByDefault(), enabled); QCOMPARE(d.property("disableWhileTypingEnabledByDefault").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "disableWhileTypingEnabledByDefault"), enabled); } void TestLibinputDevice::testLmrTapButtonMapEnabledByDefault_data() { QTest::addColumn("enabled"); QTest::newRow("enabled") << true; QTest::newRow("disabled") << false; } void TestLibinputDevice::testLmrTapButtonMapEnabledByDefault() { QFETCH(bool, enabled); libinput_device device; device.defaultTapButtonMap = enabled ? LIBINPUT_CONFIG_TAP_MAP_LMR : LIBINPUT_CONFIG_TAP_MAP_LRM; Device d(&device); QCOMPARE(d.lmrTapButtonMapEnabledByDefault(), enabled); QCOMPARE(d.property("lmrTapButtonMapEnabledByDefault").toBool(), enabled); QCOMPARE(dbusProperty(d.sysName(), "lmrTapButtonMapEnabledByDefault"), enabled); } void TestLibinputDevice::testLmrTapButtonMap_data() { QTest::addColumn("initValue"); QTest::addColumn("setValue"); QTest::addColumn("setShouldFail"); QTest::addColumn("expectedValue"); QTest::addColumn("fingerCount"); QTest::newRow("true -> false") << true << false << false << false << 3; QTest::newRow("false -> true") << false << true << false << true << 3; QTest::newRow("true -> false") << true << false << false << false << 2; QTest::newRow("false -> true") << false << true << false << true << 2; QTest::newRow("set fails") << true << false << true << true << 3; QTest::newRow("true -> true") << true << true << false << true << 3; QTest::newRow("false -> false") << false << false << false << false << 3; QTest::newRow("true -> true") << true << true << false << true << 2; QTest::newRow("false -> false") << false << false << false << false << 2; QTest::newRow("false -> true, fingerCount 0") << false << true << true << false << 0; // TODO: is this a fail in libinput? // QTest::newRow("false -> true, fingerCount 1") << false << true << true << false << 1; } void TestLibinputDevice::testLmrTapButtonMap() { libinput_device device; QFETCH(bool, initValue); QFETCH(bool, setShouldFail); QFETCH(int, fingerCount); device.tapFingerCount = fingerCount; device.tapButtonMap = initValue ? LIBINPUT_CONFIG_TAP_MAP_LMR : LIBINPUT_CONFIG_TAP_MAP_LRM; device.setTapButtonMapReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.lmrTapButtonMap(), initValue); QCOMPARE(d.property("lmrTapButtonMap").toBool(), initValue); QSignalSpy tapButtonMapChangedSpy(&d, &Device::tapButtonMapChanged); QFETCH(bool, setValue); d.setLmrTapButtonMap(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.lmrTapButtonMap(), expectedValue); QCOMPARE(d.property("lmrTapButtonMap").toBool(), expectedValue); QCOMPARE(tapButtonMapChangedSpy.isEmpty(), initValue == expectedValue); } void TestLibinputDevice::testDisableWhileTyping_data() { QTest::addColumn("initValue"); QTest::addColumn("setValue"); QTest::addColumn("setShouldFail"); QTest::addColumn("expectedValue"); QTest::addColumn("supportsDisableWhileTyping"); QTest::newRow("true -> false") << true << false << false << false << true; QTest::newRow("false -> true") << false << true << false << true << true; QTest::newRow("set fails") << true << false << true << true << true; QTest::newRow("true -> true") << true << true << false << true << true; QTest::newRow("false -> false") << false << false << false << false << true; QTest::newRow("false -> true, unsupported") << false << true << true << false << false; } void TestLibinputDevice::testDisableWhileTyping() { libinput_device device; QFETCH(bool, initValue); QFETCH(bool, setShouldFail); QFETCH(bool, supportsDisableWhileTyping); device.supportsDisableWhileTyping = supportsDisableWhileTyping; device.disableWhileTyping = initValue ? LIBINPUT_CONFIG_DWT_ENABLED : LIBINPUT_CONFIG_DWT_DISABLED; device.setDisableWhileTypingReturnValue = setShouldFail; Device d(&device); QCOMPARE(d.isDisableWhileTyping(), initValue); QCOMPARE(d.property("disableWhileTyping").toBool(), initValue); QCOMPARE(dbusProperty(d.sysName(), "disableWhileTyping"), initValue); QSignalSpy disableWhileTypingChangedSpy(&d, &Device::disableWhileTypingChanged); QFETCH(bool, setValue); d.setDisableWhileTyping(setValue); QFETCH(bool, expectedValue); QCOMPARE(d.isDisableWhileTyping(), expectedValue); QCOMPARE(d.property("disableWhileTyping").toBool(), expectedValue); QCOMPARE(disableWhileTypingChangedSpy.isEmpty(), initValue == expectedValue); QCOMPARE(dbusProperty(d.sysName(), "disableWhileTyping"), expectedValue); } void TestLibinputDevice::testLoadEnabled_data() { QTest::addColumn("initValue"); QTest::addColumn("configValue"); QTest::newRow("false -> true") << false << true; QTest::newRow("true -> false") << true << false; QTest::newRow("true -> true") << true << true; QTest::newRow("false -> false") << false << false; } void TestLibinputDevice::testLoadEnabled() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(bool, configValue); QFETCH(bool, initValue); inputConfig.writeEntry("Enabled", configValue); libinput_device device; device.supportsDisableEvents = true; device.enabled = initValue; device.setEnableModeReturnValue = false; Device d(&device); QCOMPARE(d.isEnabled(), initValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.isEnabled(), initValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.isEnabled(), configValue); // and try to store if (configValue != initValue) { d.setEnabled(initValue); QCOMPARE(inputConfig.readEntry("Enabled", configValue), initValue); } } void TestLibinputDevice::testLoadPointerAcceleration_data() { QTest::addColumn("initValue"); QTest::addColumn("configValue"); QTest::newRow("-0.2 -> 0.9") << -0.2 << 0.9; QTest::newRow("0.0 -> -1.0") << 0.0 << -1.0; QTest::newRow("0.123 -> -0.456") << 0.123 << -0.456; QTest::newRow("0.7 -> 0.7") << 0.7 << 0.7; } void TestLibinputDevice::testLoadPointerAcceleration() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(qreal, configValue); QFETCH(qreal, initValue); inputConfig.writeEntry("PointerAcceleration", configValue); libinput_device device; device.supportsPointerAcceleration = true; device.pointerAcceleration = initValue; device.setPointerAccelerationReturnValue = false; Device d(&device); QCOMPARE(d.pointerAcceleration(), initValue); QCOMPARE(d.property("pointerAcceleration").toReal(), initValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.pointerAcceleration(), initValue); QCOMPARE(d.property("pointerAcceleration").toReal(), initValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.pointerAcceleration(), configValue); QCOMPARE(d.property("pointerAcceleration").toReal(), configValue); // and try to store if (configValue != initValue) { d.setPointerAcceleration(initValue); QCOMPARE(inputConfig.readEntry("PointerAcceleration", configValue), initValue); } } void TestLibinputDevice::testLoadPointerAccelerationProfile_data() { QTest::addColumn("initValue"); QTest::addColumn("initValuePropNameString"); QTest::addColumn("configValue"); QTest::addColumn("configValuePropNameString"); QTest::newRow("pointerAccelerationProfileFlat -> pointerAccelerationProfileAdaptive") << (quint32)LIBINPUT_CONFIG_ACCEL_PROFILE_FLAT << "pointerAccelerationProfileFlat" << (quint32)LIBINPUT_CONFIG_ACCEL_PROFILE_ADAPTIVE << "pointerAccelerationProfileAdaptive"; QTest::newRow("pointerAccelerationProfileAdaptive -> pointerAccelerationProfileFlat") << (quint32)LIBINPUT_CONFIG_ACCEL_PROFILE_ADAPTIVE << "pointerAccelerationProfileAdaptive" << (quint32)LIBINPUT_CONFIG_ACCEL_PROFILE_FLAT << "pointerAccelerationProfileFlat"; QTest::newRow("pointerAccelerationProfileAdaptive -> pointerAccelerationProfileAdaptive") << (quint32)LIBINPUT_CONFIG_ACCEL_PROFILE_ADAPTIVE << "pointerAccelerationProfileAdaptive" << (quint32)LIBINPUT_CONFIG_ACCEL_PROFILE_ADAPTIVE << "pointerAccelerationProfileAdaptive"; } void TestLibinputDevice::testLoadPointerAccelerationProfile() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(quint32, initValue); QFETCH(quint32, configValue); QFETCH(QString, initValuePropNameString); QFETCH(QString, configValuePropNameString); QByteArray initValuePropName = initValuePropNameString.toLatin1(); QByteArray configValuePropName = configValuePropNameString.toLatin1(); inputConfig.writeEntry("PointerAccelerationProfile", configValue); libinput_device device; device.supportedPointerAccelerationProfiles = LIBINPUT_CONFIG_ACCEL_PROFILE_FLAT | LIBINPUT_CONFIG_ACCEL_PROFILE_ADAPTIVE; device.pointerAccelerationProfile = (libinput_config_accel_profile)initValue; device.setPointerAccelerationProfileReturnValue = false; Device d(&device); QCOMPARE(d.property(initValuePropName).toBool(), true); QCOMPARE(d.property(configValuePropName).toBool(), initValue == configValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.property(initValuePropName).toBool(), true); QCOMPARE(d.property(configValuePropName).toBool(), initValue == configValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.property(initValuePropName).toBool(), initValue == configValue); QCOMPARE(d.property(configValuePropName).toBool(), true); QCOMPARE(dbusProperty(d.sysName(), initValuePropName), initValue == configValue); QCOMPARE(dbusProperty(d.sysName(), configValuePropName), true); // and try to store if (configValue != initValue) { d.setProperty(initValuePropName, true); QCOMPARE(inputConfig.readEntry("PointerAccelerationProfile", configValue), initValue); } } void TestLibinputDevice::testLoadClickMethod_data() { QTest::addColumn("initValue"); QTest::addColumn("initValuePropNameString"); QTest::addColumn("configValue"); QTest::addColumn("configValuePropNameString"); QTest::newRow("clickMethodAreas -> clickMethodClickfinger") << static_cast(LIBINPUT_CONFIG_CLICK_METHOD_BUTTON_AREAS) << "clickMethodAreas" << static_cast(LIBINPUT_CONFIG_CLICK_METHOD_CLICKFINGER) << "clickMethodClickfinger"; QTest::newRow("clickMethodClickfinger -> clickMethodAreas") << static_cast(LIBINPUT_CONFIG_CLICK_METHOD_CLICKFINGER) << "clickMethodClickfinger" << static_cast(LIBINPUT_CONFIG_CLICK_METHOD_BUTTON_AREAS) << "clickMethodAreas"; QTest::newRow("clickMethodAreas -> clickMethodAreas") << static_cast(LIBINPUT_CONFIG_CLICK_METHOD_BUTTON_AREAS) << "clickMethodAreas" << static_cast(LIBINPUT_CONFIG_CLICK_METHOD_BUTTON_AREAS) << "clickMethodAreas"; QTest::newRow("clickMethodClickfinger -> clickMethodClickfinger") << static_cast(LIBINPUT_CONFIG_CLICK_METHOD_CLICKFINGER) << "clickMethodClickfinger" << static_cast(LIBINPUT_CONFIG_CLICK_METHOD_CLICKFINGER) << "clickMethodClickfinger"; } void TestLibinputDevice::testLoadClickMethod() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(quint32, initValue); QFETCH(quint32, configValue); QFETCH(QString, initValuePropNameString); QFETCH(QString, configValuePropNameString); QByteArray initValuePropName = initValuePropNameString.toLatin1(); QByteArray configValuePropName = configValuePropNameString.toLatin1(); inputConfig.writeEntry("ClickMethod", configValue); libinput_device device; device.supportedClickMethods = LIBINPUT_CONFIG_CLICK_METHOD_BUTTON_AREAS | LIBINPUT_CONFIG_CLICK_METHOD_CLICKFINGER; device.clickMethod = (libinput_config_click_method)initValue; device.setClickMethodReturnValue = false; Device d(&device); QCOMPARE(d.property(initValuePropName).toBool(), true); QCOMPARE(d.property(configValuePropName).toBool(), initValue == configValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.property(initValuePropName).toBool(), true); QCOMPARE(d.property(configValuePropName).toBool(), initValue == configValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.property(initValuePropName).toBool(), initValue == configValue); QCOMPARE(d.property(configValuePropName).toBool(), true); QCOMPARE(dbusProperty(d.sysName(), initValuePropName), initValue == configValue); QCOMPARE(dbusProperty(d.sysName(), configValuePropName), true); // and try to store if (configValue != initValue) { d.setProperty(initValuePropName, true); QCOMPARE(inputConfig.readEntry("ClickMethod", configValue), initValue); } } void TestLibinputDevice::testLoadTapToClick_data() { QTest::addColumn("initValue"); QTest::addColumn("configValue"); QTest::newRow("false -> true") << false << true; QTest::newRow("true -> false") << true << false; QTest::newRow("true -> true") << true << true; QTest::newRow("false -> false") << false << false; } void TestLibinputDevice::testLoadTapToClick() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(bool, configValue); QFETCH(bool, initValue); inputConfig.writeEntry("TapToClick", configValue); libinput_device device; device.tapFingerCount = 2; device.tapToClick = initValue; device.setTapToClickReturnValue = false; Device d(&device); QCOMPARE(d.isTapToClick(), initValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.isTapToClick(), initValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.isTapToClick(), configValue); // and try to store if (configValue != initValue) { d.setTapToClick(initValue); QCOMPARE(inputConfig.readEntry("TapToClick", configValue), initValue); } } void TestLibinputDevice::testLoadTapAndDrag_data() { QTest::addColumn("initValue"); QTest::addColumn("configValue"); QTest::newRow("false -> true") << false << true; QTest::newRow("true -> false") << true << false; QTest::newRow("true -> true") << true << true; QTest::newRow("false -> false") << false << false; } void TestLibinputDevice::testLoadTapAndDrag() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(bool, configValue); QFETCH(bool, initValue); inputConfig.writeEntry("TapAndDrag", configValue); libinput_device device; device.tapAndDrag = initValue; device.setTapAndDragReturnValue = false; Device d(&device); QCOMPARE(d.isTapAndDrag(), initValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.isTapAndDrag(), initValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.isTapAndDrag(), configValue); // and try to store if (configValue != initValue) { d.setTapAndDrag(initValue); QCOMPARE(inputConfig.readEntry("TapAndDrag", configValue), initValue); } } void TestLibinputDevice::testLoadTapDragLock_data() { QTest::addColumn("initValue"); QTest::addColumn("configValue"); QTest::newRow("false -> true") << false << true; QTest::newRow("true -> false") << true << false; QTest::newRow("true -> true") << true << true; QTest::newRow("false -> false") << false << false; } void TestLibinputDevice::testLoadTapDragLock() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(bool, configValue); QFETCH(bool, initValue); inputConfig.writeEntry("TapDragLock", configValue); libinput_device device; device.tapDragLock = initValue; device.setTapDragLockReturnValue = false; Device d(&device); QCOMPARE(d.isTapDragLock(), initValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.isTapDragLock(), initValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.isTapDragLock(), configValue); // and try to store if (configValue != initValue) { d.setTapDragLock(initValue); QCOMPARE(inputConfig.readEntry("TapDragLock", configValue), initValue); } } void TestLibinputDevice::testLoadMiddleButtonEmulation_data() { QTest::addColumn("initValue"); QTest::addColumn("configValue"); QTest::newRow("false -> true") << false << true; QTest::newRow("true -> false") << true << false; QTest::newRow("true -> true") << true << true; QTest::newRow("false -> false") << false << false; } void TestLibinputDevice::testLoadMiddleButtonEmulation() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(bool, configValue); QFETCH(bool, initValue); inputConfig.writeEntry("MiddleButtonEmulation", configValue); libinput_device device; device.supportsMiddleEmulation = true; device.middleEmulation = initValue; device.setMiddleEmulationReturnValue = false; Device d(&device); QCOMPARE(d.isMiddleEmulation(), initValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.isMiddleEmulation(), initValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.isMiddleEmulation(), configValue); // and try to store if (configValue != initValue) { d.setMiddleEmulation(initValue); QCOMPARE(inputConfig.readEntry("MiddleButtonEmulation", configValue), initValue); } } void TestLibinputDevice::testLoadNaturalScroll_data() { QTest::addColumn("initValue"); QTest::addColumn("configValue"); QTest::newRow("false -> true") << false << true; QTest::newRow("true -> false") << true << false; QTest::newRow("true -> true") << true << true; QTest::newRow("false -> false") << false << false; } void TestLibinputDevice::testLoadNaturalScroll() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(bool, configValue); QFETCH(bool, initValue); inputConfig.writeEntry("NaturalScroll", configValue); libinput_device device; device.supportsNaturalScroll = true; device.naturalScroll = initValue; device.setNaturalScrollReturnValue = false; Device d(&device); QCOMPARE(d.isNaturalScroll(), initValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.isNaturalScroll(), initValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.isNaturalScroll(), configValue); // and try to store if (configValue != initValue) { d.setNaturalScroll(initValue); QCOMPARE(inputConfig.readEntry("NaturalScroll", configValue), initValue); } } void TestLibinputDevice::testLoadScrollMethod_data() { QTest::addColumn("initValue"); QTest::addColumn("initValuePropNameString"); QTest::addColumn("configValue"); QTest::addColumn("configValuePropNameString"); QTest::newRow("scrollTwoFinger -> scrollEdge") << (quint32)LIBINPUT_CONFIG_SCROLL_2FG << "scrollTwoFinger" << (quint32)LIBINPUT_CONFIG_SCROLL_EDGE << "scrollEdge"; QTest::newRow("scrollOnButtonDown -> scrollTwoFinger") << (quint32)LIBINPUT_CONFIG_SCROLL_ON_BUTTON_DOWN << "scrollOnButtonDown" << (quint32)LIBINPUT_CONFIG_SCROLL_2FG << "scrollTwoFinger"; QTest::newRow("scrollEdge -> scrollEdge") << (quint32)LIBINPUT_CONFIG_SCROLL_EDGE << "scrollEdge" << (quint32)LIBINPUT_CONFIG_SCROLL_EDGE << "scrollEdge"; } void TestLibinputDevice::testLoadScrollMethod() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(quint32, initValue); QFETCH(quint32, configValue); QFETCH(QString, initValuePropNameString); QFETCH(QString, configValuePropNameString); QByteArray initValuePropName = initValuePropNameString.toLatin1(); QByteArray configValuePropName = configValuePropNameString.toLatin1(); inputConfig.writeEntry("ScrollMethod", configValue); libinput_device device; device.supportedScrollMethods = LIBINPUT_CONFIG_SCROLL_2FG | LIBINPUT_CONFIG_SCROLL_EDGE | LIBINPUT_CONFIG_SCROLL_ON_BUTTON_DOWN; device.scrollMethod = (libinput_config_scroll_method)initValue; device.setScrollMethodReturnValue = false; Device d(&device); QCOMPARE(d.property(initValuePropName).toBool(), true); QCOMPARE(d.property(configValuePropName).toBool(), initValue == configValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.property(initValuePropName).toBool(), true); QCOMPARE(d.property(configValuePropName).toBool(), initValue == configValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.property(initValuePropName).toBool(), initValue == configValue); QCOMPARE(d.property(configValuePropName).toBool(), true); // and try to store if (configValue != initValue) { d.setProperty(initValuePropName, true); QCOMPARE(inputConfig.readEntry("ScrollMethod", configValue), initValue); } } void TestLibinputDevice::testLoadScrollButton_data() { QTest::addColumn("initValue"); QTest::addColumn("configValue"); QTest::newRow("BTN_LEFT -> BTN_RIGHT") << quint32(BTN_LEFT) << quint32(BTN_RIGHT); QTest::newRow("BTN_LEFT -> BTN_LEFT") << quint32(BTN_LEFT) << quint32(BTN_LEFT); } void TestLibinputDevice::testLoadScrollButton() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(quint32, configValue); QFETCH(quint32, initValue); inputConfig.writeEntry("ScrollButton", configValue); libinput_device device; device.supportedScrollMethods = LIBINPUT_CONFIG_SCROLL_ON_BUTTON_DOWN; device.scrollMethod = LIBINPUT_CONFIG_SCROLL_ON_BUTTON_DOWN; device.scrollButton = initValue; device.setScrollButtonReturnValue = false; Device d(&device); QCOMPARE(d.isScrollOnButtonDown(), true); QCOMPARE(d.scrollButton(), initValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.isScrollOnButtonDown(), true); QCOMPARE(d.scrollButton(), initValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.isScrollOnButtonDown(), true); QCOMPARE(d.scrollButton(), configValue); // and try to store if (configValue != initValue) { d.setScrollButton(initValue); QCOMPARE(inputConfig.readEntry("ScrollButton", configValue), initValue); } } void TestLibinputDevice::testLoadLeftHanded_data() { QTest::addColumn("initValue"); QTest::addColumn("configValue"); QTest::newRow("false -> true") << false << true; QTest::newRow("true -> false") << true << false; QTest::newRow("true -> true") << true << true; QTest::newRow("false -> false") << false << false; } void TestLibinputDevice::testLoadLeftHanded() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(bool, configValue); QFETCH(bool, initValue); inputConfig.writeEntry("LeftHanded", configValue); libinput_device device; device.supportsLeftHanded = true; device.leftHanded = initValue; device.setLeftHandedReturnValue = false; Device d(&device); QCOMPARE(d.isLeftHanded(), initValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.isLeftHanded(), initValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.isLeftHanded(), configValue); // and try to store if (configValue != initValue) { d.setLeftHanded(initValue); QCOMPARE(inputConfig.readEntry("LeftHanded", configValue), initValue); } } void TestLibinputDevice::testLoadDisableWhileTyping_data() { QTest::addColumn("initValue"); QTest::addColumn("configValue"); QTest::newRow("false -> true") << false << true; QTest::newRow("true -> false") << true << false; QTest::newRow("true -> true") << true << true; QTest::newRow("false -> false") << false << false; } void TestLibinputDevice::testLoadDisableWhileTyping() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(bool, configValue); QFETCH(bool, initValue); inputConfig.writeEntry("DisableWhileTyping", configValue); libinput_device device; device.supportsDisableWhileTyping = true; device.disableWhileTyping = initValue ? LIBINPUT_CONFIG_DWT_ENABLED : LIBINPUT_CONFIG_DWT_DISABLED; device.setDisableWhileTypingReturnValue = false; Device d(&device); QCOMPARE(d.isDisableWhileTyping(), initValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.isDisableWhileTyping(), initValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.isDisableWhileTyping(), configValue); // and try to store if (configValue != initValue) { d.setDisableWhileTyping(initValue); QCOMPARE(inputConfig.readEntry("DisableWhileTyping", configValue), initValue); } } void TestLibinputDevice::testLoadLmrTapButtonMap_data() { QTest::addColumn("initValue"); QTest::addColumn("configValue"); QTest::newRow("false -> true") << false << true; QTest::newRow("true -> false") << true << false; QTest::newRow("true -> true") << true << true; QTest::newRow("false -> false") << false << false; } void TestLibinputDevice::testLoadLmrTapButtonMap() { auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup inputConfig(config, QStringLiteral("Test")); QFETCH(bool, configValue); QFETCH(bool, initValue); inputConfig.writeEntry("LmrTapButtonMap", configValue); libinput_device device; device.tapFingerCount = 3; device.tapButtonMap = initValue ? LIBINPUT_CONFIG_TAP_MAP_LMR : LIBINPUT_CONFIG_TAP_MAP_LRM; device.setTapButtonMapReturnValue = false; Device d(&device); QCOMPARE(d.lmrTapButtonMap(), initValue); // no config group set, should not change d.loadConfiguration(); QCOMPARE(d.lmrTapButtonMap(), initValue); QCOMPARE(dbusProperty(d.sysName(), "lmrTapButtonMap"), initValue); // set the group d.setConfig(inputConfig); d.loadConfiguration(); QCOMPARE(d.lmrTapButtonMap(), configValue); QCOMPARE(dbusProperty(d.sysName(), "lmrTapButtonMap"), configValue); // and try to store if (configValue != initValue) { d.setLmrTapButtonMap(initValue); QCOMPARE(inputConfig.readEntry("LmrTapButtonMap", configValue), initValue); } } void TestLibinputDevice::testOrientation_data() { QTest::addColumn("orientation"); QTest::addColumn("m11"); QTest::addColumn("m12"); QTest::addColumn("m13"); QTest::addColumn("m21"); QTest::addColumn("m22"); QTest::addColumn("m23"); QTest::addColumn("defaultIsIdentity"); QTest::newRow("Primary") << Qt::PrimaryOrientation << 1.0f << 2.0f << 3.0f << 4.0f << 5.0f << 6.0f << false; QTest::newRow("Landscape") << Qt::LandscapeOrientation << 1.0f << 2.0f << 3.0f << 4.0f << 5.0f << 6.0f << false; QTest::newRow("Portrait") << Qt::PortraitOrientation << 0.0f << -1.0f << 1.0f << 1.0f << 0.0f << 0.0f << true; QTest::newRow("InvertedLandscape") << Qt::InvertedLandscapeOrientation << -1.0f << 0.0f << 1.0f << 0.0f << -1.0f << 1.0f << true; QTest::newRow("InvertedPortrait") << Qt::InvertedPortraitOrientation << 0.0f << 1.0f << 0.0f << -1.0f << 0.0f << 1.0f << true; } void TestLibinputDevice::testOrientation() { libinput_device device; device.supportsCalibrationMatrix = true; device.defaultCalibrationMatrix = std::array{{1.0, 2.0, 3.0, 4.0, 5.0, 6.0}}; QFETCH(bool, defaultIsIdentity); device.defaultCalibrationMatrixIsIdentity = defaultIsIdentity; Device d(&device); QFETCH(Qt::ScreenOrientation, orientation); d.setOrientation(orientation); QTEST(device.calibrationMatrix[0], "m11"); QTEST(device.calibrationMatrix[1], "m12"); QTEST(device.calibrationMatrix[2], "m13"); QTEST(device.calibrationMatrix[3], "m21"); QTEST(device.calibrationMatrix[4], "m22"); QTEST(device.calibrationMatrix[5], "m23"); } void TestLibinputDevice::testCalibrationWithDefault() { libinput_device device; device.supportsCalibrationMatrix = true; device.defaultCalibrationMatrix = std::array{{2.0, 3.0, 0.0, 4.0, 5.0, 0.0}}; device.defaultCalibrationMatrixIsIdentity = false; Device d(&device); d.setOrientation(Qt::PortraitOrientation); QCOMPARE(device.calibrationMatrix[0], 3.0f); QCOMPARE(device.calibrationMatrix[1], -2.0f); QCOMPARE(device.calibrationMatrix[2], 2.0f); QCOMPARE(device.calibrationMatrix[3], 5.0f); QCOMPARE(device.calibrationMatrix[4], -4.0f); QCOMPARE(device.calibrationMatrix[5], 4.0f); } void TestLibinputDevice::testSwitch_data() { QTest::addColumn("lid"); QTest::addColumn("tablet"); QTest::newRow("lid") << true << false; QTest::newRow("tablet") << false << true; } void TestLibinputDevice::testSwitch() { libinput_device device; device.switchDevice = true; QFETCH(bool, lid); QFETCH(bool, tablet); device.lidSwitch = lid; device.tabletModeSwitch = tablet; Device d(&device); QCOMPARE(d.isSwitch(), true); QCOMPARE(d.isLidSwitch(), lid); QCOMPARE(d.property("lidSwitch").toBool(), lid); QCOMPARE(dbusProperty(d.sysName(), "lidSwitch"), lid); QCOMPARE(d.isTabletModeSwitch(), tablet); QCOMPARE(d.property("tabletModeSwitch").toBool(), tablet); QCOMPARE(dbusProperty(d.sysName(), "tabletModeSwitch"), tablet); } QTEST_GUILESS_MAIN(TestLibinputDevice) #include "device_test.moc"