/* KWin - the KDE window manager This file is part of the KDE project. SPDX-FileCopyrightText: 2018 David Edmundson SPDX-License-Identifier: GPL-2.0-or-later */ #include "kwin_wayland_test.h" #include "effect/anidata_p.h" #include "effect/effecthandler.h" #include "effect/effectloader.h" #include "scripting/scriptedeffect.h" #include "virtualdesktops.h" #include "wayland_server.h" #include "window.h" #include "workspace.h" #include #include #include #include #include #include #include #include #include using namespace KWin; using namespace std::chrono_literals; static const QString s_socketName = QStringLiteral("wayland_test_effects_scripts-0"); class ScriptedEffectsTest : public QObject { Q_OBJECT private Q_SLOTS: void initTestCase(); void init(); void cleanup(); void testEffectsHandler(); void testEffectsContext(); void testShortcuts(); void testAnimations_data(); void testAnimations(); void testScreenEdge(); void testScreenEdgeTouch(); void testFullScreenEffect_data(); void testFullScreenEffect(); void testKeepAlive_data(); void testKeepAlive(); void testGrab(); void testGrabAlreadyGrabbedWindow(); void testGrabAlreadyGrabbedWindowForced(); void testUngrab(); void testRedirect_data(); void testRedirect(); void testComplete(); private: ScriptedEffect *loadEffect(const QString &name); }; class ScriptedEffectWithDebugSpy : public KWin::ScriptedEffect { Q_OBJECT public: ScriptedEffectWithDebugSpy(); bool load(const QString &name); using AnimationEffect::AniMap; using AnimationEffect::state; Q_INVOKABLE void sendTestResponse(const QString &out); // proxies triggers out from the tests QList actions(); // returns any QActions owned by the ScriptEngine Q_SIGNALS: void testOutput(const QString &data); }; void ScriptedEffectWithDebugSpy::sendTestResponse(const QString &out) { Q_EMIT testOutput(out); } QList ScriptedEffectWithDebugSpy::actions() { return findChildren(QString(), Qt::FindDirectChildrenOnly); } ScriptedEffectWithDebugSpy::ScriptedEffectWithDebugSpy() : ScriptedEffect() { } bool ScriptedEffectWithDebugSpy::load(const QString &name) { auto selfContext = engine()->newQObject(this); QQmlEngine::setObjectOwnership(this, QQmlEngine::CppOwnership); const QString path = QFINDTESTDATA("./scripts/" + name + ".js"); engine()->globalObject().setProperty("sendTestResponse", selfContext.property("sendTestResponse")); if (!init(name, path)) { return false; } // inject our newly created effect to be registered with the EffectsHandler::loaded_effects // this is private API so some horrible code is used to find the internal effectloader // and register ourselves auto children = effects->children(); for (auto it = children.begin(); it != children.end(); ++it) { if (qstrcmp((*it)->metaObject()->className(), "KWin::EffectLoader") != 0) { continue; } QMetaObject::invokeMethod(*it, "effectLoaded", Q_ARG(KWin::Effect *, this), Q_ARG(QString, name)); break; } return effects->isEffectLoaded(name); } void ScriptedEffectsTest::initTestCase() { if (!Test::renderNodeAvailable()) { QSKIP("no render node available"); return; } qRegisterMetaType(); qRegisterMetaType(); QSignalSpy applicationStartedSpy(kwinApp(), &Application::started); QVERIFY(waylandServer()->init(s_socketName)); Test::setOutputConfig({QRect(0, 0, 1280, 1024)}); // disable all effects - we don't want to have it interact with the rendering auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig); KConfigGroup plugins(config, QStringLiteral("Plugins")); const auto builtinNames = EffectLoader().listOfKnownEffects(); for (QString name : builtinNames) { plugins.writeEntry(name + QStringLiteral("Enabled"), false); } config->sync(); kwinApp()->setConfig(config); qputenv("KWIN_COMPOSE", QByteArrayLiteral("O2")); qputenv("KWIN_EFFECTS_FORCE_ANIMATIONS", "1"); kwinApp()->start(); QVERIFY(applicationStartedSpy.wait()); KWin::VirtualDesktopManager::self()->setCount(2); } void ScriptedEffectsTest::init() { QVERIFY(Test::setupWaylandConnection()); } void ScriptedEffectsTest::cleanup() { Test::destroyWaylandConnection(); effects->unloadAllEffects(); QVERIFY(effects->loadedEffects().isEmpty()); KWin::VirtualDesktopManager::self()->setCurrent(1); } void ScriptedEffectsTest::testEffectsHandler() { // this triggers and tests some of the signals in EffectHandler, which is exposed to JS as context property "effects" auto *effect = new ScriptedEffectWithDebugSpy; // cleaned up in ::clean QSignalSpy effectOutputSpy(effect, &ScriptedEffectWithDebugSpy::testOutput); auto waitFor = [&effectOutputSpy](const QString &expected) { QVERIFY(effectOutputSpy.count() > 0 || effectOutputSpy.wait()); QCOMPARE(effectOutputSpy.first().first(), expected); effectOutputSpy.removeFirst(); }; QVERIFY(effect->load("effectsHandler")); // trigger windowAdded signal // create a window std::unique_ptr surface = Test::createSurface(); QVERIFY(surface); std::unique_ptr shellSurface = Test::createXdgToplevelSurface(surface.get()); QVERIFY(shellSurface); shellSurface->set_title("WindowA"); auto *c = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue); QVERIFY(c); QCOMPARE(workspace()->activeWindow(), c); waitFor("windowAdded - WindowA"); waitFor("stackingOrder - 1 WindowA"); // windowMinimsed c->setMinimized(true); waitFor("windowMinimized - WindowA"); c->setMinimized(false); waitFor("windowUnminimized - WindowA"); surface.reset(); waitFor("windowClosed - WindowA"); // desktop management KWin::VirtualDesktopManager::self()->setCurrent(2); waitFor("desktopChanged - 1 2"); } void ScriptedEffectsTest::testEffectsContext() { // this tests misc non-objects exposed to the script engine: animationTime, displaySize, use of external enums auto *effect = new ScriptedEffectWithDebugSpy; // cleaned up in ::clean QSignalSpy effectOutputSpy(effect, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(effect->load("effectContext")); QCOMPARE(effectOutputSpy[0].first(), "1280x1024"); QCOMPARE(effectOutputSpy[1].first(), "100"); QCOMPARE(effectOutputSpy[2].first(), "2"); QCOMPARE(effectOutputSpy[3].first(), "0"); } void ScriptedEffectsTest::testShortcuts() { #if !KWIN_BUILD_GLOBALSHORTCUTS QSKIP("Can't test shortcuts without shortcuts"); return; #endif // this tests method registerShortcut auto *effect = new ScriptedEffectWithDebugSpy; // cleaned up in ::clean QSignalSpy effectOutputSpy(effect, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(effect->load("shortcutsTest")); QCOMPARE(effect->actions().count(), 1); auto action = effect->actions()[0]; QCOMPARE(action->objectName(), "testShortcut"); QCOMPARE(action->text(), "Test Shortcut"); QCOMPARE(KGlobalAccel::self()->shortcut(action).first(), QKeySequence("Meta+Shift+Y")); action->trigger(); QCOMPARE(effectOutputSpy[0].first(), "shortcutTriggered"); } void ScriptedEffectsTest::testAnimations_data() { QTest::addColumn("file"); QTest::addColumn("animationCount"); QTest::newRow("single") << "animationTest" << 1; QTest::newRow("multi") << "animationTestMulti" << 2; } void ScriptedEffectsTest::testAnimations() { // this tests animate/set/cancel // methods take either an int or an array, as forced in the data above // also splits animate vs effects.animate(..) QFETCH(QString, file); QFETCH(int, animationCount); auto *effect = new ScriptedEffectWithDebugSpy; QSignalSpy effectOutputSpy(effect, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(effect->load(file)); // animated after window added connect std::unique_ptr surface = Test::createSurface(); QVERIFY(surface); std::unique_ptr shellSurface = Test::createXdgToplevelSurface(surface.get()); QVERIFY(shellSurface); shellSurface->set_title("Window 1"); auto *c = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue); QVERIFY(c); QCOMPARE(workspace()->activeWindow(), c); { const auto &state = effect->state(); QCOMPARE(state.size(), 1); QVERIFY(state.contains(c->effectWindow())); const auto &animationsForWindow = state.at(c->effectWindow()).first; QCOMPARE(animationsForWindow.size(), animationCount); QCOMPARE(animationsForWindow[0].timeLine.duration(), 100ms); QCOMPARE(animationsForWindow[0].to, FPx2(1.4)); QCOMPARE(animationsForWindow[0].attribute, AnimationEffect::Scale); QCOMPARE(animationsForWindow[0].timeLine.easingCurve().type(), QEasingCurve::OutCubic); QCOMPARE(animationsForWindow[0].terminationFlags, AnimationEffect::TerminateAtSource | AnimationEffect::TerminateAtTarget); if (animationCount == 2) { QCOMPARE(animationsForWindow[1].timeLine.duration(), 100ms); QCOMPARE(animationsForWindow[1].to, FPx2(0.0)); QCOMPARE(animationsForWindow[1].attribute, AnimationEffect::Opacity); QCOMPARE(animationsForWindow[1].terminationFlags, AnimationEffect::TerminateAtSource | AnimationEffect::TerminateAtTarget); } } QCOMPARE(effectOutputSpy[0].first(), "true"); // window state changes, scale should be retargetted c->setMinimized(true); { const auto &state = effect->state(); QCOMPARE(state.size(), 1); const auto &animationsForWindow = state.at(c->effectWindow()).first; QCOMPARE(animationsForWindow.size(), animationCount); QCOMPARE(animationsForWindow[0].timeLine.duration(), 200ms); QCOMPARE(animationsForWindow[0].to, FPx2(1.5)); QCOMPARE(animationsForWindow[0].attribute, AnimationEffect::Scale); QCOMPARE(animationsForWindow[0].terminationFlags, AnimationEffect::TerminateAtSource | AnimationEffect::TerminateAtTarget); if (animationCount == 2) { QCOMPARE(animationsForWindow[1].timeLine.duration(), 200ms); QCOMPARE(animationsForWindow[1].to, FPx2(1.5)); QCOMPARE(animationsForWindow[1].attribute, AnimationEffect::Opacity); QCOMPARE(animationsForWindow[1].terminationFlags, AnimationEffect::TerminateAtSource | AnimationEffect::TerminateAtTarget); } } c->setMinimized(false); { const auto &state = effect->state(); QCOMPARE(state.size(), 0); } } void ScriptedEffectsTest::testScreenEdge() { // this test checks registerScreenEdge functions auto *effect = new ScriptedEffectWithDebugSpy; // cleaned up in ::clean QSignalSpy effectOutputSpy(effect, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(effect->load("screenEdgeTest")); effect->borderActivated(KWin::ElectricTopRight); QCOMPARE(effectOutputSpy.count(), 1); } void ScriptedEffectsTest::testScreenEdgeTouch() { // this test checks registerTouchScreenEdge functions auto *effect = new ScriptedEffectWithDebugSpy; // cleaned up in ::clean QSignalSpy effectOutputSpy(effect, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(effect->load("screenEdgeTouchTest")); effect->actions()[0]->trigger(); QCOMPARE(effectOutputSpy.count(), 1); } void ScriptedEffectsTest::testFullScreenEffect_data() { QTest::addColumn("file"); QTest::newRow("single") << "fullScreenEffectTest"; QTest::newRow("multi") << "fullScreenEffectTestMulti"; QTest::newRow("global") << "fullScreenEffectTestGlobal"; } void ScriptedEffectsTest::testFullScreenEffect() { QFETCH(QString, file); auto *effectMain = new ScriptedEffectWithDebugSpy; // cleaned up in ::clean QSignalSpy effectOutputSpy(effectMain, &ScriptedEffectWithDebugSpy::testOutput); QSignalSpy fullScreenEffectActiveSpy(effects, &EffectsHandler::hasActiveFullScreenEffectChanged); QSignalSpy isActiveFullScreenEffectSpy(effectMain, &ScriptedEffect::isActiveFullScreenEffectChanged); QVERIFY(effectMain->load(file)); // load any random effect from another test to confirm fullscreen effect state is correctly // shown as being someone else auto effectOther = new ScriptedEffectWithDebugSpy(); QVERIFY(effectOther->load("screenEdgeTouchTest")); QSignalSpy isActiveFullScreenEffectSpyOther(effectOther, &ScriptedEffect::isActiveFullScreenEffectChanged); std::unique_ptr surface = Test::createSurface(); QVERIFY(surface); std::unique_ptr shellSurface = Test::createXdgToplevelSurface(surface.get()); QVERIFY(shellSurface); shellSurface->set_title("Window 1"); auto *c = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue); QVERIFY(c); QCOMPARE(workspace()->activeWindow(), c); QCOMPARE(effects->hasActiveFullScreenEffect(), false); QCOMPARE(effectMain->isActiveFullScreenEffect(), false); // trigger animation KWin::VirtualDesktopManager::self()->setCurrent(2); QCOMPARE(effects->activeFullScreenEffect(), effectMain); QCOMPARE(effects->hasActiveFullScreenEffect(), true); QCOMPARE(fullScreenEffectActiveSpy.count(), 1); QCOMPARE(effectMain->isActiveFullScreenEffect(), true); QCOMPARE(isActiveFullScreenEffectSpy.count(), 1); QCOMPARE(effectOther->isActiveFullScreenEffect(), false); QCOMPARE(isActiveFullScreenEffectSpyOther.count(), 0); // after 500ms trigger another full screen animation QTest::qWait(500); KWin::VirtualDesktopManager::self()->setCurrent(1); QCOMPARE(effects->activeFullScreenEffect(), effectMain); // after 1000ms (+a safety margin for time based tests) we should still be the active full screen effect // despite first animation expiring QTest::qWait(500 + 100); QCOMPARE(effects->activeFullScreenEffect(), effectMain); // after 1500ms (+a safetey margin) we should have no full screen effect QTest::qWait(500 + 100); QCOMPARE(effects->activeFullScreenEffect(), nullptr); } void ScriptedEffectsTest::testKeepAlive_data() { QTest::addColumn("file"); QTest::addColumn("keepAlive"); QTest::newRow("keep") << "keepAliveTest" << true; QTest::newRow("don't keep") << "keepAliveTestDontKeep" << false; } void ScriptedEffectsTest::testKeepAlive() { // this test checks whether closed windows are kept alive // when keepAlive property is set to true(false) QFETCH(QString, file); QFETCH(bool, keepAlive); auto *effect = new ScriptedEffectWithDebugSpy; QSignalSpy effectOutputSpy(effect, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(effect->load(file)); // create a window std::unique_ptr surface = Test::createSurface(); QVERIFY(surface); std::unique_ptr shellSurface = Test::createXdgToplevelSurface(surface.get()); QVERIFY(shellSurface); auto *c = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue); QVERIFY(c); QCOMPARE(workspace()->activeWindow(), c); // no active animations at the beginning QCOMPARE(effect->state().size(), 0); // trigger windowClosed signal QSignalSpy deletedRemovedSpy(workspace(), &Workspace::deletedRemoved); surface.reset(); QVERIFY(effectOutputSpy.count() == 1 || effectOutputSpy.wait()); if (keepAlive) { QCOMPARE(effect->state().size(), 1); QCOMPARE(deletedRemovedSpy.count(), 0); QTest::qWait(500); QCOMPARE(effect->state().size(), 1); QCOMPARE(deletedRemovedSpy.count(), 0); QTest::qWait(500 + 100); // 100ms is extra safety margin QCOMPARE(deletedRemovedSpy.count(), 1); QCOMPARE(effect->state().size(), 0); } else { // the test effect doesn't keep the window alive, so it should be // removed immediately QVERIFY(deletedRemovedSpy.count() == 1 || deletedRemovedSpy.wait(100)); // 100ms is less than duration of the animation QCOMPARE(effect->state().size(), 0); } } void ScriptedEffectsTest::testGrab() { // this test verifies that scripted effects can grab windows that are // not already grabbed // load the test effect auto effect = new ScriptedEffectWithDebugSpy; QSignalSpy effectOutputSpy(effect, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(effect->load(QStringLiteral("grabTest"))); // create test window std::unique_ptr surface = Test::createSurface(); QVERIFY(surface); std::unique_ptr shellSurface = Test::createXdgToplevelSurface(surface.get()); QVERIFY(shellSurface); Window *window = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue); QVERIFY(window); QCOMPARE(workspace()->activeWindow(), window); // the test effect should grab the test window successfully QCOMPARE(effectOutputSpy.count(), 1); QCOMPARE(effectOutputSpy.first().first(), QStringLiteral("ok")); QCOMPARE(window->effectWindow()->data(WindowAddedGrabRole).value(), effect); } void ScriptedEffectsTest::testGrabAlreadyGrabbedWindow() { // this test verifies that scripted effects cannot grab already grabbed // windows (unless force is set to true of course) // load effect that will hold the window grab auto owner = new ScriptedEffectWithDebugSpy; QSignalSpy ownerOutputSpy(owner, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(owner->load(QStringLiteral("grabAlreadyGrabbedWindowTest_owner"))); // load effect that will try to grab already grabbed window auto grabber = new ScriptedEffectWithDebugSpy; QSignalSpy grabberOutputSpy(grabber, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(grabber->load(QStringLiteral("grabAlreadyGrabbedWindowTest_grabber"))); // create test window std::unique_ptr surface = Test::createSurface(); QVERIFY(surface); std::unique_ptr shellSurface = Test::createXdgToplevelSurface(surface.get()); QVERIFY(shellSurface); Window *window = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue); QVERIFY(window); QCOMPARE(workspace()->activeWindow(), window); // effect that initially held the grab should still hold the grab QCOMPARE(ownerOutputSpy.count(), 1); QCOMPARE(ownerOutputSpy.first().first(), QStringLiteral("ok")); QCOMPARE(window->effectWindow()->data(WindowAddedGrabRole).value(), owner); // effect that tried to grab already grabbed window should fail miserably QCOMPARE(grabberOutputSpy.count(), 1); QCOMPARE(grabberOutputSpy.first().first(), QStringLiteral("fail")); } void ScriptedEffectsTest::testGrabAlreadyGrabbedWindowForced() { // this test verifies that scripted effects can steal window grabs when // they forcefully try to grab windows // load effect that initially will be holding the window grab auto owner = new ScriptedEffectWithDebugSpy; QSignalSpy ownerOutputSpy(owner, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(owner->load(QStringLiteral("grabAlreadyGrabbedWindowForcedTest_owner"))); // load effect that will try to steal the window grab auto thief = new ScriptedEffectWithDebugSpy; QSignalSpy thiefOutputSpy(thief, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(thief->load(QStringLiteral("grabAlreadyGrabbedWindowForcedTest_thief"))); // create test window std::unique_ptr surface = Test::createSurface(); QVERIFY(surface); std::unique_ptr shellSurface = Test::createXdgToplevelSurface(surface.get()); QVERIFY(shellSurface); Window *window = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue); QVERIFY(window); QCOMPARE(workspace()->activeWindow(), window); // verify that the owner in fact held the grab QCOMPARE(ownerOutputSpy.count(), 1); QCOMPARE(ownerOutputSpy.first().first(), QStringLiteral("ok")); // effect that grabbed the test window forcefully should now hold the grab QCOMPARE(thiefOutputSpy.count(), 1); QCOMPARE(thiefOutputSpy.first().first(), QStringLiteral("ok")); QCOMPARE(window->effectWindow()->data(WindowAddedGrabRole).value(), thief); } void ScriptedEffectsTest::testUngrab() { // this test verifies that scripted effects can ungrab windows that they // are previously grabbed // load the test effect auto effect = new ScriptedEffectWithDebugSpy; QSignalSpy effectOutputSpy(effect, &ScriptedEffectWithDebugSpy::testOutput); QVERIFY(effect->load(QStringLiteral("ungrabTest"))); // create test window std::unique_ptr surface = Test::createSurface(); QVERIFY(surface); std::unique_ptr shellSurface = Test::createXdgToplevelSurface(surface.get()); QVERIFY(shellSurface); Window *window = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue); QVERIFY(window); QCOMPARE(workspace()->activeWindow(), window); // the test effect should grab the test window successfully QCOMPARE(effectOutputSpy.count(), 1); QCOMPARE(effectOutputSpy.first().first(), QStringLiteral("ok")); QCOMPARE(window->effectWindow()->data(WindowAddedGrabRole).value(), effect); // when the test effect sees that a window was minimized, it will try to ungrab it effectOutputSpy.clear(); window->setMinimized(true); QCOMPARE(effectOutputSpy.count(), 1); QCOMPARE(effectOutputSpy.first().first(), QStringLiteral("ok")); QCOMPARE(window->effectWindow()->data(WindowAddedGrabRole).value(), nullptr); } void ScriptedEffectsTest::testRedirect_data() { QTest::addColumn("file"); QTest::addColumn("shouldTerminate"); QTest::newRow("animate/DontTerminateAtSource") << "redirectAnimateDontTerminateTest" << false; QTest::newRow("animate/TerminateAtSource") << "redirectAnimateTerminateTest" << true; QTest::newRow("set/DontTerminate") << "redirectSetDontTerminateTest" << false; QTest::newRow("set/Terminate") << "redirectSetTerminateTest" << true; } void ScriptedEffectsTest::testRedirect() { // this test verifies that redirect() works // load the test effect auto effect = new ScriptedEffectWithDebugSpy; QFETCH(QString, file); QVERIFY(effect->load(file)); // create test window std::unique_ptr surface = Test::createSurface(); QVERIFY(surface); std::unique_ptr shellSurface = Test::createXdgToplevelSurface(surface.get()); QVERIFY(shellSurface); Window *window = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue); QVERIFY(window); QCOMPARE(workspace()->activeWindow(), window); auto around = [](std::chrono::milliseconds elapsed, std::chrono::milliseconds pivot, std::chrono::milliseconds margin) { return std::abs(elapsed.count() - pivot.count()) < margin.count(); }; // initially, the test animation is at the source position { const auto &state = effect->state(); QCOMPARE(state.size(), 1); QVERIFY(state.contains(window->effectWindow())); const auto &animations = state.at(window->effectWindow()).first; QCOMPARE(animations.size(), 1); QCOMPARE(animations[0].timeLine.direction(), TimeLine::Forward); QVERIFY(around(animations[0].timeLine.elapsed(), 0ms, 50ms)); } // minimize the test window after 250ms, when the test effect sees that // a window was minimized, it will try to reverse animation for it QTest::qWait(250); QSignalSpy effectOutputSpy(effect, &ScriptedEffectWithDebugSpy::testOutput); window->setMinimized(true); QCOMPARE(effectOutputSpy.count(), 1); QCOMPARE(effectOutputSpy.first().first(), QStringLiteral("ok")); { const auto &state = effect->state(); QCOMPARE(state.size(), 1); QVERIFY(state.contains(window->effectWindow())); const auto &animations = state.at(window->effectWindow()).first; QCOMPARE(animations.size(), 1); QCOMPARE(animations[0].timeLine.direction(), TimeLine::Backward); QVERIFY(around(animations[0].timeLine.elapsed(), 1000ms - 250ms, 50ms)); } // wait for the animation to reach the start position, 100ms is an extra // safety margin QTest::qWait(250 + 100); QFETCH(bool, shouldTerminate); if (shouldTerminate) { const auto &state = effect->state(); QCOMPARE(state.size(), 0); } else { const auto &state = effect->state(); QCOMPARE(state.size(), 1); QVERIFY(state.contains(window->effectWindow())); const auto &animations = state.at(window->effectWindow()).first; QCOMPARE(animations.size(), 1); QCOMPARE(animations[0].timeLine.direction(), TimeLine::Backward); QCOMPARE(animations[0].timeLine.elapsed(), 1000ms); QCOMPARE(animations[0].timeLine.value(), 0.0); } } void ScriptedEffectsTest::testComplete() { // this test verifies that complete works // load the test effect auto effect = new ScriptedEffectWithDebugSpy; QVERIFY(effect->load(QStringLiteral("completeTest"))); // create test window std::unique_ptr surface = Test::createSurface(); QVERIFY(surface); std::unique_ptr shellSurface = Test::createXdgToplevelSurface(surface.get()); QVERIFY(shellSurface); Window *window = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue); QVERIFY(window); QCOMPARE(workspace()->activeWindow(), window); auto around = [](std::chrono::milliseconds elapsed, std::chrono::milliseconds pivot, std::chrono::milliseconds margin) { return std::abs(elapsed.count() - pivot.count()) < margin.count(); }; // initially, the test animation should be at the start position { const auto &state = effect->state(); QCOMPARE(state.size(), 1); QVERIFY(state.contains(window->effectWindow())); const auto &animations = state.at(window->effectWindow()).first; QCOMPARE(animations.size(), 1); QVERIFY(around(animations[0].timeLine.elapsed(), 0ms, 50ms)); QVERIFY(!animations[0].timeLine.done()); } // wait for 250ms QTest::qWait(250); { const auto &state = effect->state(); QCOMPARE(state.size(), 1); QVERIFY(state.contains(window->effectWindow())); const auto &animations = state.at(window->effectWindow()).first; QCOMPARE(animations.size(), 1); QVERIFY(around(animations[0].timeLine.elapsed(), 250ms, 50ms)); QVERIFY(!animations[0].timeLine.done()); } // minimize the test window, when the test effect sees that a window was // minimized, it will try to complete animation for it QSignalSpy effectOutputSpy(effect, &ScriptedEffectWithDebugSpy::testOutput); window->setMinimized(true); QCOMPARE(effectOutputSpy.count(), 1); QCOMPARE(effectOutputSpy.first().first(), QStringLiteral("ok")); { const auto &state = effect->state(); QCOMPARE(state.size(), 1); QVERIFY(state.contains(window->effectWindow())); const auto &animations = state.at(window->effectWindow()).first; QCOMPARE(animations.size(), 1); QCOMPARE(animations[0].timeLine.elapsed(), 1000ms); QVERIFY(animations[0].timeLine.done()); } } WAYLANDTEST_MAIN(ScriptedEffectsTest) #include "scripted_effects_test.moc"