kwin/autotests/integration/maximize_test.cpp

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2020-08-02 22:22:19 +00:00
/*
KWin - the KDE window manager
This file is part of the KDE project.
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SPDX-FileCopyrightText: 2016 Martin Gräßlin <mgraesslin@kde.org>
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SPDX-License-Identifier: GPL-2.0-or-later
*/
#include "kwin_wayland_test.h"
#include "core/output.h"
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#include "core/outputbackend.h"
#include "decorations/decorationbridge.h"
#include "decorations/settings.h"
#include "pointer_input.h"
#include "wayland_server.h"
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#include "window.h"
#include "workspace.h"
#include <KWayland/Client/compositor.h>
#include <KWayland/Client/plasmashell.h>
#include <KWayland/Client/shm_pool.h>
#include <KWayland/Client/surface.h>
#include <KDecoration2/DecoratedClient>
#include <KDecoration2/Decoration>
#include <KDecoration2/DecorationSettings>
using namespace KWin;
static const QString s_socketName = QStringLiteral("wayland_test_kwin_maximized-0");
class TestMaximized : public QObject
{
Q_OBJECT
private Q_SLOTS:
void initTestCase();
void init();
void cleanup();
void testMaximizedPassedToDeco();
void testInitiallyMaximizedBorderless();
void testBorderlessMaximizedWindow();
void testMaximizedGainFocusAndBeActivated();
};
void TestMaximized::initTestCase()
{
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qRegisterMetaType<KWin::Window *>();
QSignalSpy applicationStartedSpy(kwinApp(), &Application::started);
QVERIFY(waylandServer()->init(s_socketName));
QMetaObject::invokeMethod(kwinApp()->outputBackend(), "setVirtualOutputs", Qt::DirectConnection, Q_ARG(QVector<QRect>, QVector<QRect>() << QRect(0, 0, 1280, 1024) << QRect(1280, 0, 1280, 1024)));
kwinApp()->setConfig(KSharedConfig::openConfig(QString(), KConfig::SimpleConfig));
kwinApp()->start();
QVERIFY(applicationStartedSpy.wait());
const auto outputs = workspace()->outputs();
QCOMPARE(outputs.count(), 2);
QCOMPARE(outputs[0]->geometry(), QRect(0, 0, 1280, 1024));
QCOMPARE(outputs[1]->geometry(), QRect(1280, 0, 1280, 1024));
}
void TestMaximized::init()
{
QVERIFY(Test::setupWaylandConnection(Test::AdditionalWaylandInterface::XdgDecorationV1 | Test::AdditionalWaylandInterface::PlasmaShell));
workspace()->setActiveOutput(QPoint(640, 512));
KWin::input()->pointer()->warp(QPoint(640, 512));
}
void TestMaximized::cleanup()
{
Test::destroyWaylandConnection();
// adjust config
auto group = kwinApp()->config()->group("Windows");
group.writeEntry("BorderlessMaximizedWindows", false);
group.sync();
Workspace::self()->slotReconfigure();
QCOMPARE(options->borderlessMaximizedWindows(), false);
}
void TestMaximized::testMaximizedPassedToDeco()
{
// this test verifies that when a XdgShellClient gets maximized the Decoration receives the signal
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// Create the test window.
std::unique_ptr<KWayland::Client::Surface> surface(Test::createSurface());
std::unique_ptr<Test::XdgToplevel> shellSurface(Test::createXdgToplevelSurface(surface.get(), Test::CreationSetup::CreateOnly));
std::unique_ptr<Test::XdgToplevelDecorationV1> xdgDecoration(Test::createXdgToplevelDecorationV1(shellSurface.get()));
QSignalSpy toplevelConfigureRequestedSpy(shellSurface.get(), &Test::XdgToplevel::configureRequested);
wayland: Properly handle async xdg-decoration updates Currently, if a window switches between SSD and CSD, it is possible to encounter a "corrupted" state where the server-side decoration is wrapped around the window while it still has the client-side decoration. The xdg-decoration protocol fixes this problem by saying that decoration updates are bound to xdg_surface configure events. At the moment, kwin sort of applies decoration updates immediately. With this change, decoration updates will be done according to the spec. If the compositor wants to create a decoration, it will send a configure event and apply the decoration when the configure event is acked by the client. In order to send the configure event with a good window geometry size, kwin will create the decoration to query the border size but not assign it to the client yet. As is, KDecoration api doesn't make querying the border size ahead of time easy. The decoration plugin can assign arbitrary border sizes to windows as it pleases it. We could change that, but it effectively means starting KDecoration3 and setting existing window deco ecosystem around kwin on fire the second time, that's off the table. If the compositor wants to remove the decoration, it will send a configure event. When the configure event is acked and the surface is committed, the window decoration will be destroyed. Sync'ing decoration updates to configure events ensures that we cannot end up with having both client-side and server-side decoration. It also helps us to fix a bunch of geometry related issues caused by creating and destroying the decoration without any surface buffer attached yet. BUG: 445259
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QSignalSpy surfaceConfigureRequestedSpy(shellSurface->xdgSurface(), &Test::XdgSurface::configureRequested);
surface->commit(KWayland::Client::Surface::CommitFlag::None);
QVERIFY(surfaceConfigureRequestedSpy.wait());
shellSurface->xdgSurface()->ack_configure(surfaceConfigureRequestedSpy.last().at(0).value<quint32>());
auto window = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue);
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QVERIFY(window);
QVERIFY(window->isDecorated());
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auto decoration = window->decoration();
QVERIFY(decoration);
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QCOMPARE(window->maximizeMode(), MaximizeMode::MaximizeRestore);
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// Wait for configure event that signals the window is active now.
QVERIFY(surfaceConfigureRequestedSpy.wait());
wayland: Properly handle async xdg-decoration updates Currently, if a window switches between SSD and CSD, it is possible to encounter a "corrupted" state where the server-side decoration is wrapped around the window while it still has the client-side decoration. The xdg-decoration protocol fixes this problem by saying that decoration updates are bound to xdg_surface configure events. At the moment, kwin sort of applies decoration updates immediately. With this change, decoration updates will be done according to the spec. If the compositor wants to create a decoration, it will send a configure event and apply the decoration when the configure event is acked by the client. In order to send the configure event with a good window geometry size, kwin will create the decoration to query the border size but not assign it to the client yet. As is, KDecoration api doesn't make querying the border size ahead of time easy. The decoration plugin can assign arbitrary border sizes to windows as it pleases it. We could change that, but it effectively means starting KDecoration3 and setting existing window deco ecosystem around kwin on fire the second time, that's off the table. If the compositor wants to remove the decoration, it will send a configure event. When the configure event is acked and the surface is committed, the window decoration will be destroyed. Sync'ing decoration updates to configure events ensures that we cannot end up with having both client-side and server-side decoration. It also helps us to fix a bunch of geometry related issues caused by creating and destroying the decoration without any surface buffer attached yet. BUG: 445259
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QCOMPARE(surfaceConfigureRequestedSpy.count(), 2);
// When there are no borders, there is no change to them when maximizing.
// TODO: we should test both cases with fixed fake decoration for autotests.
const bool hasBorders = Workspace::self()->decorationBridge()->settings()->borderSize() != KDecoration2::BorderSize::None;
// now maximize
QSignalSpy bordersChangedSpy(decoration, &KDecoration2::Decoration::bordersChanged);
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QSignalSpy maximizedChangedSpy(decoration->client(), &KDecoration2::DecoratedClient::maximizedChanged);
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QSignalSpy frameGeometryChangedSpy(window, &Window::frameGeometryChanged);
workspace()->slotWindowMaximize();
QVERIFY(surfaceConfigureRequestedSpy.wait());
wayland: Properly handle async xdg-decoration updates Currently, if a window switches between SSD and CSD, it is possible to encounter a "corrupted" state where the server-side decoration is wrapped around the window while it still has the client-side decoration. The xdg-decoration protocol fixes this problem by saying that decoration updates are bound to xdg_surface configure events. At the moment, kwin sort of applies decoration updates immediately. With this change, decoration updates will be done according to the spec. If the compositor wants to create a decoration, it will send a configure event and apply the decoration when the configure event is acked by the client. In order to send the configure event with a good window geometry size, kwin will create the decoration to query the border size but not assign it to the client yet. As is, KDecoration api doesn't make querying the border size ahead of time easy. The decoration plugin can assign arbitrary border sizes to windows as it pleases it. We could change that, but it effectively means starting KDecoration3 and setting existing window deco ecosystem around kwin on fire the second time, that's off the table. If the compositor wants to remove the decoration, it will send a configure event. When the configure event is acked and the surface is committed, the window decoration will be destroyed. Sync'ing decoration updates to configure events ensures that we cannot end up with having both client-side and server-side decoration. It also helps us to fix a bunch of geometry related issues caused by creating and destroying the decoration without any surface buffer attached yet. BUG: 445259
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QCOMPARE(surfaceConfigureRequestedSpy.count(), 3);
QCOMPARE(toplevelConfigureRequestedSpy.last().at(0).toSize(), QSize(1280, 1024 - decoration->borderTop()));
shellSurface->xdgSurface()->ack_configure(surfaceConfigureRequestedSpy.last().at(0).value<quint32>());
Test::render(surface.get(), toplevelConfigureRequestedSpy.last().at(0).toSize(), Qt::red);
QVERIFY(frameGeometryChangedSpy.wait());
// If no borders, there is only the initial geometry shape change, but none through border resizing.
QCOMPARE(frameGeometryChangedSpy.count(), hasBorders ? 2 : 1);
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QCOMPARE(window->maximizeMode(), MaximizeMode::MaximizeFull);
QCOMPARE(maximizedChangedSpy.count(), 1);
QCOMPARE(maximizedChangedSpy.last().first().toBool(), true);
QCOMPARE(bordersChangedSpy.count(), hasBorders ? 1 : 0);
QCOMPARE(decoration->borderLeft(), 0);
QCOMPARE(decoration->borderBottom(), 0);
QCOMPARE(decoration->borderRight(), 0);
QVERIFY(decoration->borderTop() != 0);
// now unmaximize again
workspace()->slotWindowMaximize();
QVERIFY(surfaceConfigureRequestedSpy.wait());
wayland: Properly handle async xdg-decoration updates Currently, if a window switches between SSD and CSD, it is possible to encounter a "corrupted" state where the server-side decoration is wrapped around the window while it still has the client-side decoration. The xdg-decoration protocol fixes this problem by saying that decoration updates are bound to xdg_surface configure events. At the moment, kwin sort of applies decoration updates immediately. With this change, decoration updates will be done according to the spec. If the compositor wants to create a decoration, it will send a configure event and apply the decoration when the configure event is acked by the client. In order to send the configure event with a good window geometry size, kwin will create the decoration to query the border size but not assign it to the client yet. As is, KDecoration api doesn't make querying the border size ahead of time easy. The decoration plugin can assign arbitrary border sizes to windows as it pleases it. We could change that, but it effectively means starting KDecoration3 and setting existing window deco ecosystem around kwin on fire the second time, that's off the table. If the compositor wants to remove the decoration, it will send a configure event. When the configure event is acked and the surface is committed, the window decoration will be destroyed. Sync'ing decoration updates to configure events ensures that we cannot end up with having both client-side and server-side decoration. It also helps us to fix a bunch of geometry related issues caused by creating and destroying the decoration without any surface buffer attached yet. BUG: 445259
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QCOMPARE(surfaceConfigureRequestedSpy.count(), 4);
QCOMPARE(toplevelConfigureRequestedSpy.last().at(0).toSize(), QSize(100, 50));
shellSurface->xdgSurface()->ack_configure(surfaceConfigureRequestedSpy.last().at(0).value<quint32>());
Test::render(surface.get(), QSize(100, 50), Qt::red);
QVERIFY(frameGeometryChangedSpy.wait());
QCOMPARE(frameGeometryChangedSpy.count(), hasBorders ? 4 : 2);
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QCOMPARE(window->maximizeMode(), MaximizeMode::MaximizeRestore);
QCOMPARE(maximizedChangedSpy.count(), 2);
QCOMPARE(maximizedChangedSpy.last().first().toBool(), false);
QCOMPARE(bordersChangedSpy.count(), hasBorders ? 2 : 0);
QVERIFY(decoration->borderTop() != 0);
QVERIFY(decoration->borderLeft() != !hasBorders);
QVERIFY(decoration->borderRight() != !hasBorders);
QVERIFY(decoration->borderBottom() != !hasBorders);
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// Destroy the test window.
shellSurface.reset();
QVERIFY(Test::waitForWindowClosed(window));
}
void TestMaximized::testInitiallyMaximizedBorderless()
{
// This test verifies that a window created as maximized, will be maximized and without Border with BorderlessMaximizedWindows
// adjust config
auto group = kwinApp()->config()->group("Windows");
group.writeEntry("BorderlessMaximizedWindows", true);
group.sync();
Workspace::self()->slotReconfigure();
QCOMPARE(options->borderlessMaximizedWindows(), true);
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// Create the test window.
std::unique_ptr<KWayland::Client::Surface> surface(Test::createSurface());
std::unique_ptr<Test::XdgToplevel> shellSurface(Test::createXdgToplevelSurface(surface.get(), Test::CreationSetup::CreateOnly));
std::unique_ptr<Test::XdgToplevelDecorationV1> decoration(Test::createXdgToplevelDecorationV1(shellSurface.get()));
QSignalSpy toplevelConfigureRequestedSpy(shellSurface.get(), &Test::XdgToplevel::configureRequested);
QSignalSpy surfaceConfigureRequestedSpy(shellSurface->xdgSurface(), &Test::XdgSurface::configureRequested);
shellSurface->set_maximized();
QSignalSpy decorationConfigureRequestedSpy(decoration.get(), &Test::XdgToplevelDecorationV1::configureRequested);
decoration->set_mode(Test::XdgToplevelDecorationV1::mode_server_side);
surface->commit(KWayland::Client::Surface::CommitFlag::None);
// Wait for the initial configure event.
Test::XdgToplevel::States states;
QVERIFY(surfaceConfigureRequestedSpy.wait());
QCOMPARE(surfaceConfigureRequestedSpy.count(), 1);
QCOMPARE(toplevelConfigureRequestedSpy.last().at(0).toSize(), QSize(1280, 1024));
states = toplevelConfigureRequestedSpy.last().at(1).value<Test::XdgToplevel::States>();
QVERIFY(!states.testFlag(Test::XdgToplevel::State::Activated));
QVERIFY(states.testFlag(Test::XdgToplevel::State::Maximized));
shellSurface->xdgSurface()->ack_configure(surfaceConfigureRequestedSpy.last().at(0).value<quint32>());
Window *window = Test::renderAndWaitForShown(surface.get(), QSize(1280, 1024), Qt::blue);
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QVERIFY(window);
QVERIFY(!window->isDecorated());
QVERIFY(window->isActive());
QVERIFY(window->isMaximizable());
QCOMPARE(window->maximizeMode(), MaximizeMode::MaximizeFull);
QCOMPARE(window->requestedMaximizeMode(), MaximizeMode::MaximizeFull);
QCOMPARE(window->frameGeometry(), QRect(0, 0, 1280, 1024));
QCOMPARE(decorationConfigureRequestedSpy.last().at(0).value<Test::XdgToplevelDecorationV1::mode>(),
Test::XdgToplevelDecorationV1::mode_server_side);
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// Destroy the window.
shellSurface.reset();
surface.reset();
QVERIFY(Test::waitForWindowClosed(window));
}
void TestMaximized::testBorderlessMaximizedWindow()
{
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// This test verifies that a maximized window looses it's server-side
// decoration when the borderless maximized option is on.
// Enable the borderless maximized windows option.
auto group = kwinApp()->config()->group("Windows");
group.writeEntry("BorderlessMaximizedWindows", true);
group.sync();
Workspace::self()->slotReconfigure();
QCOMPARE(options->borderlessMaximizedWindows(), true);
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// Create the test window.
std::unique_ptr<KWayland::Client::Surface> surface(Test::createSurface());
std::unique_ptr<Test::XdgToplevel> shellSurface(Test::createXdgToplevelSurface(surface.get(), Test::CreationSetup::CreateOnly));
std::unique_ptr<Test::XdgToplevelDecorationV1> decoration(Test::createXdgToplevelDecorationV1(shellSurface.get()));
QSignalSpy toplevelConfigureRequestedSpy(shellSurface.get(), &Test::XdgToplevel::configureRequested);
QSignalSpy surfaceConfigureRequestedSpy(shellSurface->xdgSurface(), &Test::XdgSurface::configureRequested);
QSignalSpy decorationConfigureRequestedSpy(decoration.get(), &Test::XdgToplevelDecorationV1::configureRequested);
decoration->set_mode(Test::XdgToplevelDecorationV1::mode_server_side);
surface->commit(KWayland::Client::Surface::CommitFlag::None);
// Wait for the initial configure event.
Test::XdgToplevel::States states;
QVERIFY(surfaceConfigureRequestedSpy.wait());
QCOMPARE(surfaceConfigureRequestedSpy.count(), 1);
QCOMPARE(toplevelConfigureRequestedSpy.last().at(0).toSize(), QSize(0, 0));
states = toplevelConfigureRequestedSpy.last().at(1).value<Test::XdgToplevel::States>();
QVERIFY(!states.testFlag(Test::XdgToplevel::State::Activated));
QVERIFY(!states.testFlag(Test::XdgToplevel::State::Maximized));
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// Map the window.
shellSurface->xdgSurface()->ack_configure(surfaceConfigureRequestedSpy.last().at(0).value<quint32>());
Window *window = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue);
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QVERIFY(window);
QVERIFY(window->isActive());
QCOMPARE(window->maximizeMode(), MaximizeMode::MaximizeRestore);
QCOMPARE(window->requestedMaximizeMode(), MaximizeMode::MaximizeRestore);
QCOMPARE(window->isDecorated(), true);
// We should receive a configure event when the window becomes active.
QVERIFY(surfaceConfigureRequestedSpy.wait());
QCOMPARE(surfaceConfigureRequestedSpy.count(), 2);
states = toplevelConfigureRequestedSpy.last().at(1).value<Test::XdgToplevel::States>();
QVERIFY(states.testFlag(Test::XdgToplevel::State::Activated));
QVERIFY(!states.testFlag(Test::XdgToplevel::State::Maximized));
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// Maximize the window.
const QRectF maximizeRestoreGeometry = window->frameGeometry();
workspace()->slotWindowMaximize();
QVERIFY(surfaceConfigureRequestedSpy.wait());
QCOMPARE(surfaceConfigureRequestedSpy.count(), 3);
QCOMPARE(toplevelConfigureRequestedSpy.last().at(0).toSize(), QSize(1280, 1024));
states = toplevelConfigureRequestedSpy.last().at(1).value<Test::XdgToplevel::States>();
QVERIFY(states.testFlag(Test::XdgToplevel::State::Activated));
QVERIFY(states.testFlag(Test::XdgToplevel::State::Maximized));
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QSignalSpy frameGeometryChangedSpy(window, &Window::frameGeometryChanged);
shellSurface->xdgSurface()->ack_configure(surfaceConfigureRequestedSpy.last().at(0).value<quint32>());
Test::render(surface.get(), QSize(1280, 1024), Qt::blue);
QVERIFY(frameGeometryChangedSpy.wait());
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QCOMPARE(window->frameGeometry(), QRect(0, 0, 1280, 1024));
QCOMPARE(window->maximizeMode(), MaximizeMode::MaximizeFull);
QCOMPARE(window->requestedMaximizeMode(), MaximizeMode::MaximizeFull);
QCOMPARE(window->isDecorated(), false);
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// Restore the window.
workspace()->slotWindowMaximize();
QVERIFY(surfaceConfigureRequestedSpy.wait());
QCOMPARE(surfaceConfigureRequestedSpy.count(), 4);
QCOMPARE(toplevelConfigureRequestedSpy.last().at(0).toSize(), QSize(100, 50));
states = toplevelConfigureRequestedSpy.last().at(1).value<Test::XdgToplevel::States>();
QVERIFY(states.testFlag(Test::XdgToplevel::State::Activated));
QVERIFY(!states.testFlag(Test::XdgToplevel::State::Maximized));
shellSurface->xdgSurface()->ack_configure(surfaceConfigureRequestedSpy.last().at(0).value<quint32>());
Test::render(surface.get(), QSize(100, 50), Qt::red);
QVERIFY(frameGeometryChangedSpy.wait());
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QCOMPARE(window->frameGeometry(), maximizeRestoreGeometry);
QCOMPARE(window->maximizeMode(), MaximizeMode::MaximizeRestore);
QCOMPARE(window->requestedMaximizeMode(), MaximizeMode::MaximizeRestore);
QCOMPARE(window->isDecorated(), true);
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// Destroy the window.
shellSurface.reset();
QVERIFY(Test::waitForWindowClosed(window));
}
void TestMaximized::testMaximizedGainFocusAndBeActivated()
{
// This test verifies that a window will be raised and gain focus when it's maximized
std::unique_ptr<KWayland::Client::Surface> surface(Test::createSurface());
std::unique_ptr<Test::XdgToplevel> xdgShellSurface(Test::createXdgToplevelSurface(surface.get()));
auto window = Test::renderAndWaitForShown(surface.get(), QSize(100, 50), Qt::blue);
std::unique_ptr<KWayland::Client::Surface> surface2(Test::createSurface());
std::unique_ptr<Test::XdgToplevel> xdgShellSurface2(Test::createXdgToplevelSurface(surface2.get()));
auto window2 = Test::renderAndWaitForShown(surface2.get(), QSize(100, 50), Qt::blue);
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QVERIFY(!window->isActive());
QVERIFY(window2->isActive());
QCOMPARE(workspace()->stackingOrder(), (QList<Window *>{window, window2}));
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workspace()->performWindowOperation(window, Options::MaximizeOp);
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QVERIFY(window->isActive());
QVERIFY(!window2->isActive());
QCOMPARE(workspace()->stackingOrder(), (QList<Window *>{window2, window}));
xdgShellSurface.reset();
QVERIFY(Test::waitForWindowClosed(window));
xdgShellSurface2.reset();
QVERIFY(Test::waitForWindowClosed(window2));
}
WAYLANDTEST_MAIN(TestMaximized)
#include "maximize_test.moc"