kwin/autotests/test_screen_edges.cpp
Vlad Zahorodnii 1b2c7b248b Run clazy with qt-keywords fixit
In C++20, there will be emit() class member, which can conflict with the
emit keyword. Given that, there are plans to enable QT_NO_KEYWORDS by
default in the future.

See also
https://lists.qt-project.org/pipermail/development/2020-February/038812.html
2021-06-08 10:49:42 +03:00

1087 lines
39 KiB
C++

/*
KWin - the KDE window manager
This file is part of the KDE project.
SPDX-FileCopyrightText: 2014 Martin Gräßlin <mgraesslin@kde.org>
SPDX-License-Identifier: GPL-2.0-or-later
*/
// kwin
#include "atoms.h"
#include "cursor.h"
#include "input.h"
#include "gestures.h"
#include "main.h"
#include "screenedge.h"
#include "screens.h"
#include "utils.h"
#include "virtualdesktops.h"
#include "xcbutils.h"
#include "platform.h"
#include "mock_screens.h"
#include "mock_workspace.h"
#include "mock_x11client.h"
#include "testutils.h"
// Frameworks
#include <KConfigGroup>
// Qt
#include <QtTest>
#include <QX11Info>
// xcb
#include <xcb/xcb.h>
Q_DECLARE_METATYPE(KWin::ElectricBorder)
Q_LOGGING_CATEGORY(KWIN_CORE, "kwin_core")
namespace KWin
{
Atoms* atoms;
int screen_number = 0;
InputRedirection *InputRedirection::s_self = nullptr;
void InputRedirection::registerShortcut(const QKeySequence &shortcut, QAction *action)
{
Q_UNUSED(shortcut)
Q_UNUSED(action)
}
void InputRedirection::registerAxisShortcut(Qt::KeyboardModifiers modifiers, PointerAxisDirection axis, QAction *action)
{
Q_UNUSED(modifiers)
Q_UNUSED(axis)
Q_UNUSED(action)
}
void InputRedirection::registerTouchpadSwipeShortcut(SwipeDirection, QAction*)
{
}
void updateXTime()
{
}
class TestObject : public QObject
{
Q_OBJECT
public Q_SLOTS:
bool callback(ElectricBorder border);
Q_SIGNALS:
void gotCallback(KWin::ElectricBorder);
};
bool TestObject::callback(KWin::ElectricBorder border)
{
Q_EMIT gotCallback(border);
return true;
}
}
class TestScreenEdges : public QObject
{
Q_OBJECT
private Q_SLOTS:
void initTestCase();
void cleanupTestCase();
void init();
void cleanup();
void testInit();
void testCreatingInitialEdges();
void testCallback();
void testCallbackWithCheck();
void testOverlappingEdges_data();
void testOverlappingEdges();
void testPushBack_data();
void testPushBack();
void testFullScreenBlocking();
void testClientEdge();
void testTouchEdge();
void testTouchCallback_data();
void testTouchCallback();
};
void TestScreenEdges::initTestCase()
{
qApp->setProperty("x11RootWindow", QVariant::fromValue<quint32>(QX11Info::appRootWindow()));
qApp->setProperty("x11Connection", QVariant::fromValue<void*>(QX11Info::connection()));
KWin::atoms = new KWin::Atoms;
qRegisterMetaType<KWin::ElectricBorder>();
}
void TestScreenEdges::cleanupTestCase()
{
delete KWin::atoms;
}
void TestScreenEdges::init()
{
KWin::Cursors::self()->setMouse(new KWin::Cursor(this));
using namespace KWin;
new MockWorkspace(this);
auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig);
Screens::create();
QSignalSpy sp(screens(), &MockScreens::changed);
QVERIFY(sp.wait());
auto vd = VirtualDesktopManager::create();
vd->setConfig(config);
vd->load();
auto s = ScreenEdges::create();
s->setConfig(config);
}
void TestScreenEdges::cleanup()
{
using namespace KWin;
delete ScreenEdges::self();
delete VirtualDesktopManager::self();
delete Screens::self();
delete workspace();
}
void TestScreenEdges::testInit()
{
using namespace KWin;
auto s = ScreenEdges::self();
s->init();
QCOMPARE(s->isDesktopSwitching(), false);
QCOMPARE(s->isDesktopSwitchingMovingClients(), false);
QCOMPARE(s->timeThreshold(), 150);
QCOMPARE(s->reActivationThreshold(), 350);
QCOMPARE(s->cursorPushBackDistance(), QSize(1, 1));
QCOMPARE(s->actionTopLeft(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionTop(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionTopRight(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionRight(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionBottomRight(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionBottom(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionBottomLeft(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionLeft(), ElectricBorderAction::ElectricActionNone);
QList<Edge*> edges = s->findChildren<Edge*>(QString(), Qt::FindDirectChildrenOnly);
QCOMPARE(edges.size(), 8);
for (auto e : edges) {
QVERIFY(!e->isReserved());
QVERIFY(e->inherits("KWin::WindowBasedEdge"));
QVERIFY(!e->inherits("KWin::AreaBasedEdge"));
QVERIFY(!e->client());
QVERIFY(!e->isApproaching());
}
Edge *te = edges.at(0);
QVERIFY(te->isCorner());
QVERIFY(!te->isScreenEdge());
QVERIFY(te->isLeft());
QVERIFY(te->isTop());
QVERIFY(!te->isRight());
QVERIFY(!te->isBottom());
QCOMPARE(te->border(), ElectricBorder::ElectricTopLeft);
te = edges.at(1);
QVERIFY(te->isCorner());
QVERIFY(!te->isScreenEdge());
QVERIFY(te->isLeft());
QVERIFY(!te->isTop());
QVERIFY(!te->isRight());
QVERIFY(te->isBottom());
QCOMPARE(te->border(), ElectricBorder::ElectricBottomLeft);
te = edges.at(2);
QVERIFY(!te->isCorner());
QVERIFY(te->isScreenEdge());
QVERIFY(te->isLeft());
QVERIFY(!te->isTop());
QVERIFY(!te->isRight());
QVERIFY(!te->isBottom());
QCOMPARE(te->border(), ElectricBorder::ElectricLeft);
te = edges.at(3);
QVERIFY(te->isCorner());
QVERIFY(!te->isScreenEdge());
QVERIFY(!te->isLeft());
QVERIFY(te->isTop());
QVERIFY(te->isRight());
QVERIFY(!te->isBottom());
QCOMPARE(te->border(), ElectricBorder::ElectricTopRight);
te = edges.at(4);
QVERIFY(te->isCorner());
QVERIFY(!te->isScreenEdge());
QVERIFY(!te->isLeft());
QVERIFY(!te->isTop());
QVERIFY(te->isRight());
QVERIFY(te->isBottom());
QCOMPARE(te->border(), ElectricBorder::ElectricBottomRight);
te = edges.at(5);
QVERIFY(!te->isCorner());
QVERIFY(te->isScreenEdge());
QVERIFY(!te->isLeft());
QVERIFY(!te->isTop());
QVERIFY(te->isRight());
QVERIFY(!te->isBottom());
QCOMPARE(te->border(), ElectricBorder::ElectricRight);
te = edges.at(6);
QVERIFY(!te->isCorner());
QVERIFY(te->isScreenEdge());
QVERIFY(!te->isLeft());
QVERIFY(te->isTop());
QVERIFY(!te->isRight());
QVERIFY(!te->isBottom());
QCOMPARE(te->border(), ElectricBorder::ElectricTop);
te = edges.at(7);
QVERIFY(!te->isCorner());
QVERIFY(te->isScreenEdge());
QVERIFY(!te->isLeft());
QVERIFY(!te->isTop());
QVERIFY(!te->isRight());
QVERIFY(te->isBottom());
QCOMPARE(te->border(), ElectricBorder::ElectricBottom);
// we shouldn't have any x windows, though
QCOMPARE(s->windows().size(), 0);
}
void TestScreenEdges::testCreatingInitialEdges()
{
using namespace KWin;
auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig);
config->group("Windows").writeEntry("ElectricBorders", 2/*ElectricAlways*/);
config->sync();
auto s = ScreenEdges::self();
s->setConfig(config);
s->init();
// we don't have multiple desktops, so it's returning false
QCOMPARE(s->isDesktopSwitching(), true);
QCOMPARE(s->isDesktopSwitchingMovingClients(), true);
QCOMPARE(s->actionTopLeft(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionTop(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionTopRight(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionRight(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionBottomRight(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionBottom(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionBottomLeft(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionLeft(), ElectricBorderAction::ElectricActionNone);
QEXPECT_FAIL("", "needs fixing", Continue);
QCOMPARE(s->windows().size(), 0);
// set some reasonable virtual desktops
config->group("Desktops").writeEntry("Number", 4);
config->sync();
auto vd = VirtualDesktopManager::self();
vd->setConfig(config);
vd->load();
vd->updateLayout();
QCOMPARE(vd->count(), 4u);
QCOMPARE(vd->grid().width(), 2);
QCOMPARE(vd->grid().height(), 2);
// approach windows for edges not created as screen too small
s->updateLayout();
auto edgeWindows = s->windows();
QCOMPARE(edgeWindows.size(), 12);
auto testWindowGeometry = [&](int index) {
Xcb::WindowGeometry geo(edgeWindows[index]);
return geo.rect();
};
QRect sg = screens()->geometry();
const int co = s->cornerOffset();
QList<QRect> expectedGeometries{
QRect(0, 0, 1, 1),
QRect(0, 0, co, co),
QRect(0, sg.bottom(), 1, 1),
QRect(0, sg.height() - co, co, co),
QRect(0, co, 1, sg.height() - co*2),
// QRect(0, co * 2 + 1, co, sg.height() - co*4),
QRect(sg.right(), 0, 1, 1),
QRect(sg.right() - co + 1, 0, co, co),
QRect(sg.right(), sg.bottom(), 1, 1),
QRect(sg.right() - co + 1, sg.bottom() - co + 1, co, co),
QRect(sg.right(), co, 1, sg.height() - co*2),
// QRect(sg.right() - co + 1, co * 2, co, sg.height() - co*4),
QRect(co, 0, sg.width() - co * 2, 1),
// QRect(co * 2, 0, sg.width() - co * 4, co),
QRect(co, sg.bottom(), sg.width() - co * 2, 1),
// QRect(co * 2, sg.height() - co, sg.width() - co * 4, co)
};
for (int i = 0; i < 12; ++i) {
QCOMPARE(testWindowGeometry(i), expectedGeometries.at(i));
}
QList<Edge*> edges = s->findChildren<Edge*>(QString(), Qt::FindDirectChildrenOnly);
QCOMPARE(edges.size(), 8);
for (auto e : edges) {
QVERIFY(e->isReserved());
QCOMPARE(e->activatesForPointer(), true);
QCOMPARE(e->activatesForTouchGesture(), false);
}
static_cast<MockScreens*>(screens())->setGeometries(QList<QRect>{QRect{0, 0, 1024, 768}});
QSignalSpy changedSpy(screens(), &Screens::changed);
QVERIFY(changedSpy.isValid());
QVERIFY(changedSpy.wait());
// let's update the layout and verify that we have edges
s->recreateEdges();
edgeWindows = s->windows();
QCOMPARE(edgeWindows.size(), 16);
sg = screens()->geometry();
expectedGeometries = QList<QRect>{
QRect(0, 0, 1, 1),
QRect(0, 0, co, co),
QRect(0, sg.bottom(), 1, 1),
QRect(0, sg.height() - co, co, co),
QRect(0, co, 1, sg.height() - co*2),
QRect(0, co * 2 + 1, co, sg.height() - co*4),
QRect(sg.right(), 0, 1, 1),
QRect(sg.right() - co + 1, 0, co, co),
QRect(sg.right(), sg.bottom(), 1, 1),
QRect(sg.right() - co + 1, sg.bottom() - co + 1, co, co),
QRect(sg.right(), co, 1, sg.height() - co*2),
QRect(sg.right() - co + 1, co * 2, co, sg.height() - co*4),
QRect(co, 0, sg.width() - co * 2, 1),
QRect(co * 2, 0, sg.width() - co * 4, co),
QRect(co, sg.bottom(), sg.width() - co * 2, 1),
QRect(co * 2, sg.height() - co, sg.width() - co * 4, co)
};
for (int i = 0; i < 16; ++i) {
QCOMPARE(testWindowGeometry(i), expectedGeometries.at(i));
}
// disable desktop switching again
config->group("Windows").writeEntry("ElectricBorders", 1/*ElectricMoveOnly*/);
s->reconfigure();
QCOMPARE(s->isDesktopSwitching(), false);
QCOMPARE(s->isDesktopSwitchingMovingClients(), true);
QCOMPARE(s->windows().size(), 0);
edges = s->findChildren<Edge*>(QString(), Qt::FindDirectChildrenOnly);
QCOMPARE(edges.size(), 8);
for (int i = 0; i < 8; ++i) {
auto e = edges.at(i);
QVERIFY(!e->isReserved());
QCOMPARE(e->activatesForPointer(), false);
QCOMPARE(e->activatesForTouchGesture(), false);
QCOMPARE(e->approachGeometry(), expectedGeometries.at(i*2+1));
}
// let's start a move of window.
X11Client client(workspace());
workspace()->setMoveResizeClient(&client);
for (int i = 0; i < 8; ++i) {
auto e = edges.at(i);
QVERIFY(!e->isReserved());
QCOMPARE(e->activatesForPointer(), true);
QCOMPARE(e->activatesForTouchGesture(), false);
QCOMPARE(e->approachGeometry(), expectedGeometries.at(i*2+1));
}
// not for resize
client.setInteractiveResize(true);
for (int i = 0; i < 8; ++i) {
auto e = edges.at(i);
QVERIFY(!e->isReserved());
QCOMPARE(e->activatesForPointer(), false);
QCOMPARE(e->activatesForTouchGesture(), false);
QCOMPARE(e->approachGeometry(), expectedGeometries.at(i*2+1));
}
workspace()->setMoveResizeClient(nullptr);
}
void TestScreenEdges::testCallback()
{
using namespace KWin;
MockWorkspace ws;
static_cast<MockScreens*>(screens())->setGeometries(QList<QRect>{QRect{0, 0, 1024, 768}, QRect{200, 768, 1024, 768}});
QSignalSpy changedSpy(screens(), &Screens::changed);
QVERIFY(changedSpy.isValid());
// first is before it's updated
QVERIFY(changedSpy.wait());
// second is after it's updated
QVERIFY(changedSpy.wait());
auto s = ScreenEdges::self();
s->init();
TestObject callback;
QSignalSpy spy(&callback, &TestObject::gotCallback);
QVERIFY(spy.isValid());
s->reserve(ElectricLeft, &callback, "callback");
s->reserve(ElectricTopLeft, &callback, "callback");
s->reserve(ElectricTop, &callback, "callback");
s->reserve(ElectricTopRight, &callback, "callback");
s->reserve(ElectricRight, &callback, "callback");
s->reserve(ElectricBottomRight, &callback, "callback");
s->reserve(ElectricBottom, &callback, "callback");
s->reserve(ElectricBottomLeft, &callback, "callback");
QList<Edge*> edges = s->findChildren<Edge*>(QString(), Qt::FindDirectChildrenOnly);
QCOMPARE(edges.size(), 10);
for (auto e: edges) {
QVERIFY(e->isReserved());
QCOMPARE(e->activatesForPointer(), true);
QCOMPARE(e->activatesForTouchGesture(), false);
}
auto it = std::find_if(edges.constBegin(), edges.constEnd(), [](Edge *e) {
return e->isScreenEdge() && e->isLeft() && e->approachGeometry().bottom() < 768;
});
QVERIFY(it != edges.constEnd());
xcb_enter_notify_event_t event;
auto setPos = [&event] (const QPoint &pos) {
Cursors::self()->mouse()->setPos(pos);
event.root_x = pos.x();
event.root_y = pos.y();
event.event_x = pos.x();
event.event_y = pos.y();
};
event.root = XCB_WINDOW_NONE;
event.child = XCB_WINDOW_NONE;
event.event = (*it)->window();
event.same_screen_focus = 1;
event.time = QDateTime::currentMSecsSinceEpoch();
setPos(QPoint(0, 50));
auto isEntered = [s] (xcb_enter_notify_event_t *event) {
return s->handleEnterNotifiy(event->event, QPoint(event->root_x, event->root_y), QDateTime::fromMSecsSinceEpoch(event->time, Qt::UTC));
};
QVERIFY(isEntered(&event));
// doesn't trigger as the edge was not triggered yet
QVERIFY(spy.isEmpty());
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 50));
// test doesn't trigger due to too much offset
QTest::qWait(160);
setPos(QPoint(0, 100));
event.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event));
QVERIFY(spy.isEmpty());
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 100));
// doesn't trigger as we are waiting too long already
QTest::qWait(200);
setPos(QPoint(0, 101));
event.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event));
QVERIFY(spy.isEmpty());
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 101));
// doesn't activate as we are waiting too short
QTest::qWait(50);
setPos(QPoint(0, 100));
event.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event));
QVERIFY(spy.isEmpty());
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 100));
// and this one triggers
QTest::qWait(110);
setPos(QPoint(0, 101));
event.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event));
QVERIFY(!spy.isEmpty());
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 101));
// now let's try to trigger again
QTest::qWait(351);
setPos(QPoint(0, 100));
event.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event));
QCOMPARE(spy.count(), 1);
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 100));
// it's still under the reactivation
QTest::qWait(50);
setPos(QPoint(0, 100));
event.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event));
QCOMPARE(spy.count(), 1);
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 100));
// now it should trigger again
QTest::qWait(250);
setPos(QPoint(0, 100));
event.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event));
QCOMPARE(spy.count(), 2);
QCOMPARE(spy.first().first().value<ElectricBorder>(), ElectricLeft);
QCOMPARE(spy.last().first().value<ElectricBorder>(), ElectricLeft);
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 100));
// let's disable pushback
auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig);
config->group("Windows").writeEntry("ElectricBorderPushbackPixels", 0);
config->sync();
s->setConfig(config);
s->reconfigure();
// it should trigger directly
QTest::qWait(350);
event.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event));
QCOMPARE(spy.count(), 3);
QCOMPARE(spy.at(0).first().value<ElectricBorder>(), ElectricLeft);
QCOMPARE(spy.at(1).first().value<ElectricBorder>(), ElectricLeft);
QCOMPARE(spy.at(2).first().value<ElectricBorder>(), ElectricLeft);
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(0, 100));
// now let's unreserve again
s->unreserve(ElectricTopLeft, &callback);
s->unreserve(ElectricTop, &callback);
s->unreserve(ElectricTopRight, &callback);
s->unreserve(ElectricRight, &callback);
s->unreserve(ElectricBottomRight, &callback);
s->unreserve(ElectricBottom, &callback);
s->unreserve(ElectricBottomLeft, &callback);
s->unreserve(ElectricLeft, &callback);
for (auto e: s->findChildren<Edge*>(QString(), Qt::FindDirectChildrenOnly)) {
QVERIFY(!e->isReserved());
QCOMPARE(e->activatesForPointer(), false);
QCOMPARE(e->activatesForTouchGesture(), false);
}
}
void TestScreenEdges::testCallbackWithCheck()
{
using namespace KWin;
auto s = ScreenEdges::self();
s->init();
TestObject callback;
QSignalSpy spy(&callback, &TestObject::gotCallback);
QVERIFY(spy.isValid());
s->reserve(ElectricLeft, &callback, "callback");
// check activating a different edge doesn't do anything
s->check(QPoint(50, 0), QDateTime::currentDateTimeUtc(), true);
QVERIFY(spy.isEmpty());
// try a direct activate without pushback
Cursors::self()->mouse()->setPos(0, 50);
s->check(QPoint(0, 50), QDateTime::currentDateTimeUtc(), true);
QCOMPARE(spy.count(), 1);
QEXPECT_FAIL("", "Argument says force no pushback, but it gets pushed back. Needs investigation", Continue);
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(0, 50));
// use a different edge, this time with pushback
s->reserve(KWin::ElectricRight, &callback, "callback");
Cursors::self()->mouse()->setPos(99, 50);
s->check(QPoint(99, 50), QDateTime::currentDateTimeUtc());
QCOMPARE(spy.count(), 1);
QCOMPARE(spy.last().first().value<ElectricBorder>(), ElectricLeft);
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(98, 50));
// and trigger it again
QTest::qWait(160);
Cursors::self()->mouse()->setPos(99, 50);
s->check(QPoint(99, 50), QDateTime::currentDateTimeUtc());
QCOMPARE(spy.count(), 2);
QCOMPARE(spy.last().first().value<ElectricBorder>(), ElectricRight);
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(98, 50));
}
void TestScreenEdges::testOverlappingEdges_data()
{
QTest::addColumn<QRect>("geo1");
QTest::addColumn<QRect>("geo2");
QTest::newRow("topleft-1x1") << QRect{0, 1, 1024, 768} << QRect{1, 0, 1024, 768};
QTest::newRow("left-1x1-same") << QRect{0, 1, 1024, 766} << QRect{1, 0, 1024, 768};
QTest::newRow("left-1x1-exchanged") << QRect{0, 1, 1024, 768} << QRect{1, 0, 1024, 766};
QTest::newRow("bottomleft-1x1") << QRect{0, 0, 1024, 768} << QRect{1, 0, 1024, 769};
QTest::newRow("bottomright-1x1") << QRect{0, 0, 1024, 768} << QRect{0, 0, 1023, 769};
QTest::newRow("right-1x1-same") << QRect{0, 0, 1024, 768} << QRect{0, 1, 1025, 766};
QTest::newRow("right-1x1-exchanged") << QRect{0, 0, 1024, 768} << QRect{1, 1, 1024, 768};
}
void TestScreenEdges::testOverlappingEdges()
{
using namespace KWin;
QFETCH(QRect, geo1);
QFETCH(QRect, geo2);
MockScreens* mockScreens = static_cast<MockScreens*>(screens());
QSignalSpy sp(mockScreens, &MockScreens::changed);
mockScreens->setGeometries({geo1, geo2});
QVERIFY(sp.wait());
QCOMPARE(screens()->count(), 2);
auto screenEdges = ScreenEdges::self();
screenEdges->init();
}
void TestScreenEdges::testPushBack_data()
{
QTest::addColumn<KWin::ElectricBorder>("border");
QTest::addColumn<int>("pushback");
QTest::addColumn<QPoint>("trigger");
QTest::addColumn<QPoint>("expected");
QTest::newRow("topleft-3") << KWin::ElectricTopLeft << 3 << QPoint(0, 0) << QPoint(3, 3);
QTest::newRow("top-5") << KWin::ElectricTop << 5 << QPoint(50, 0) << QPoint(50, 5);
QTest::newRow("toprigth-2") << KWin::ElectricTopRight << 2 << QPoint(99, 0) << QPoint(97, 2);
QTest::newRow("right-10") << KWin::ElectricRight << 10 << QPoint(99, 50) << QPoint(89, 50);
QTest::newRow("bottomright-5") << KWin::ElectricBottomRight << 5 << QPoint(99, 99) << QPoint(94, 94);
QTest::newRow("bottom-10") << KWin::ElectricBottom << 10 << QPoint(50, 99) << QPoint(50, 89);
QTest::newRow("bottomleft-3") << KWin::ElectricBottomLeft << 3 << QPoint(0, 99) << QPoint(3, 96);
QTest::newRow("left-10") << KWin::ElectricLeft << 10 << QPoint(0, 50) << QPoint(10, 50);
QTest::newRow("invalid") << KWin::ElectricLeft << 10 << QPoint(50, 0) << QPoint(50, 0);
}
void TestScreenEdges::testPushBack()
{
using namespace KWin;
QFETCH(int, pushback);
auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig);
config->group("Windows").writeEntry("ElectricBorderPushbackPixels", pushback);
config->sync();
auto s = ScreenEdges::self();
s->setConfig(config);
s->init();
TestObject callback;
QSignalSpy spy(&callback, &TestObject::gotCallback);
QVERIFY(spy.isValid());
QFETCH(ElectricBorder, border);
s->reserve(border, &callback, "callback");
QFETCH(QPoint, trigger);
Cursors::self()->mouse()->setPos(trigger);
xcb_enter_notify_event_t event;
event.root_x = trigger.x();
event.root_y = trigger.y();
event.event_x = trigger.x();
event.event_y = trigger.y();
event.root = XCB_WINDOW_NONE;
event.child = XCB_WINDOW_NONE;
event.event = s->windows().first();
event.same_screen_focus = 1;
event.time = QDateTime::currentMSecsSinceEpoch();
auto isEntered = [s] (xcb_enter_notify_event_t *event) {
return s->handleEnterNotifiy(event->event, QPoint(event->root_x, event->root_y), QDateTime::fromMSecsSinceEpoch(event->time));
};
QVERIFY(isEntered(&event));
QVERIFY(spy.isEmpty());
QTEST(Cursors::self()->mouse()->pos(), "expected");
// do the same without the event, but the check method
Cursors::self()->mouse()->setPos(trigger);
s->check(trigger, QDateTime::currentDateTimeUtc());
QVERIFY(spy.isEmpty());
QTEST(Cursors::self()->mouse()->pos(), "expected");
}
void TestScreenEdges::testFullScreenBlocking()
{
using namespace KWin;
MockWorkspace ws;
X11Client client(&ws);
auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig);
config->group("Windows").writeEntry("ElectricBorderPushbackPixels", 1);
config->sync();
auto s = ScreenEdges::self();
s->setConfig(config);
s->init();
TestObject callback;
QSignalSpy spy(&callback, &TestObject::gotCallback);
QVERIFY(spy.isValid());
s->reserve(KWin::ElectricLeft, &callback, "callback");
s->reserve(KWin::ElectricBottomRight, &callback, "callback");
QAction action;
s->reserveTouch(KWin::ElectricRight, &action);
// currently there is no active client yet, so check blocking shouldn't do anything
Q_EMIT s->checkBlocking();
for (auto e: s->findChildren<Edge*>()) {
QCOMPARE(e->activatesForTouchGesture(), e->border() == KWin::ElectricRight);
}
xcb_enter_notify_event_t event;
Cursors::self()->mouse()->setPos(0, 50);
event.root_x = 0;
event.root_y = 50;
event.event_x = 0;
event.event_y = 50;
event.root = XCB_WINDOW_NONE;
event.child = XCB_WINDOW_NONE;
event.event = s->windows().first();
event.same_screen_focus = 1;
event.time = QDateTime::currentMSecsSinceEpoch();
auto isEntered = [s] (xcb_enter_notify_event_t *event) {
return s->handleEnterNotifiy(event->event, QPoint(event->root_x, event->root_y), QDateTime::fromMSecsSinceEpoch(event->time));
};
QVERIFY(isEntered(&event));
QVERIFY(spy.isEmpty());
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 50));
client.moveResize(screens()->geometry());
client.setActive(true);
client.setFullScreen(true);
ws.setActiveClient(&client);
Q_EMIT s->checkBlocking();
// the signal doesn't trigger for corners, let's go over all windows just to be sure that it doesn't call for corners
for (auto e: s->findChildren<Edge*>()) {
e->checkBlocking();
QCOMPARE(e->activatesForTouchGesture(), false);
}
// calling again should not trigger
QTest::qWait(160);
Cursors::self()->mouse()->setPos(0, 50);
event.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event));
QVERIFY(spy.isEmpty());
// and no pushback
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(0, 50));
// let's make the client not fullscreen, which should trigger
client.setFullScreen(false);
Q_EMIT s->checkBlocking();
for (auto e: s->findChildren<Edge*>()) {
QCOMPARE(e->activatesForTouchGesture(), e->border() == KWin::ElectricRight);
}
event.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event));
QVERIFY(!spy.isEmpty());
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 50));
// let's make the client fullscreen again, but with a geometry not intersecting the left edge
QTest::qWait(351);
client.setFullScreen(true);
client.moveResize(client.frameGeometry().translated(10, 0));
Q_EMIT s->checkBlocking();
spy.clear();
Cursors::self()->mouse()->setPos(0, 50);
event.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event));
QVERIFY(spy.isEmpty());
// and a pushback
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 50));
// just to be sure, let's set geometry back
client.moveResize(screens()->geometry());
Q_EMIT s->checkBlocking();
Cursors::self()->mouse()->setPos(0, 50);
QVERIFY(isEntered(&event));
QVERIFY(spy.isEmpty());
// and no pushback
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(0, 50));
// the corner should always trigger
s->unreserve(KWin::ElectricLeft, &callback);
event.event_x = 99;
event.event_y = 99;
event.root_x = 99;
event.root_y = 99;
event.event = s->windows().first();
event.time = QDateTime::currentMSecsSinceEpoch();
Cursors::self()->mouse()->setPos(99, 99);
QVERIFY(isEntered(&event));
QVERIFY(spy.isEmpty());
// and pushback
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(98, 98));
QTest::qWait(160);
event.time = QDateTime::currentMSecsSinceEpoch();
Cursors::self()->mouse()->setPos(99, 99);
QVERIFY(isEntered(&event));
QVERIFY(!spy.isEmpty());
}
void TestScreenEdges::testClientEdge()
{
using namespace KWin;
X11Client client(workspace());
client.moveResize(QRect(10, 50, 10, 50));
auto s = ScreenEdges::self();
s->init();
s->reserve(&client, KWin::ElectricBottom);
QPointer<Edge> edge = s->findChildren<Edge*>().last();
QCOMPARE(edge->isReserved(), true);
QCOMPARE(edge->activatesForPointer(), true);
QCOMPARE(edge->activatesForTouchGesture(), true);
//remove old reserves and resize to be in the middle of the screen
s->reserve(&client, KWin::ElectricNone);
client.moveResize(QRect(2, 2, 20, 20));
// for none of the edges it should be able to be set
for (int i = 0; i < ELECTRIC_COUNT; ++i) {
client.setHiddenInternal(true);
s->reserve(&client, static_cast<ElectricBorder>(i));
QCOMPARE(client.isHiddenInternal(), false);
}
// now let's try to set it and activate it
client.moveResize(screens()->geometry());
client.setHiddenInternal(true);
s->reserve(&client, KWin::ElectricLeft);
QCOMPARE(client.isHiddenInternal(), true);
xcb_enter_notify_event_t event;
Cursors::self()->mouse()->setPos(0, 50);
event.root_x = 0;
event.root_y = 50;
event.event_x = 0;
event.event_y = 50;
event.root = XCB_WINDOW_NONE;
event.child = XCB_WINDOW_NONE;
event.event = s->windows().first();
event.same_screen_focus = 1;
event.time = QDateTime::currentMSecsSinceEpoch();
auto isEntered = [s] (xcb_enter_notify_event_t *event) {
return s->handleEnterNotifiy(event->event, QPoint(event->root_x, event->root_y), QDateTime::fromMSecsSinceEpoch(event->time));
};
QVERIFY(isEntered(&event));
// autohiding panels shall activate instantly
QCOMPARE(client.isHiddenInternal(), false);
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 50));
// now let's reserve the client for each of the edges, in the end for the right one
client.setHiddenInternal(true);
s->reserve(&client, KWin::ElectricTop);
s->reserve(&client, KWin::ElectricBottom);
QCOMPARE(client.isHiddenInternal(), true);
// corners shouldn't get reserved
s->reserve(&client, KWin::ElectricTopLeft);
QCOMPARE(client.isHiddenInternal(), false);
client.setHiddenInternal(true);
s->reserve(&client, KWin::ElectricTopRight);
QCOMPARE(client.isHiddenInternal(), false);
client.setHiddenInternal(true);
s->reserve(&client, KWin::ElectricBottomRight);
QCOMPARE(client.isHiddenInternal(), false);
client.setHiddenInternal(true);
s->reserve(&client, KWin::ElectricBottomLeft);
QCOMPARE(client.isHiddenInternal(), false);
// now finally reserve on right one
client.setHiddenInternal(true);
s->reserve(&client, KWin::ElectricRight);
QCOMPARE(client.isHiddenInternal(), true);
// now let's emulate the removal of a Client through Workspace
Q_EMIT workspace()->clientRemoved(&client);
for (auto e : s->findChildren<Edge*>()) {
QVERIFY(!e->client());
}
QCOMPARE(client.isHiddenInternal(), true);
// now let's try to trigger the client showing with the check method instead of enter notify
s->reserve(&client, KWin::ElectricTop);
QCOMPARE(client.isHiddenInternal(), true);
Cursors::self()->mouse()->setPos(50, 0);
s->check(QPoint(50, 0), QDateTime::currentDateTimeUtc());
QCOMPARE(client.isHiddenInternal(), false);
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(50, 1));
// unreserve by setting to none edge
s->reserve(&client, KWin::ElectricNone);
// check on previous edge again, should fail
client.setHiddenInternal(true);
Cursors::self()->mouse()->setPos(50, 0);
s->check(QPoint(50, 0), QDateTime::currentDateTimeUtc());
QCOMPARE(client.isHiddenInternal(), true);
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(50, 0));
// set to windows can cover
client.moveResize(screens()->geometry());
client.setHiddenInternal(false);
client.setKeepBelow(true);
s->reserve(&client, KWin::ElectricLeft);
QCOMPARE(client.keepBelow(), true);
QCOMPARE(client.isHiddenInternal(), false);
xcb_enter_notify_event_t event2;
Cursors::self()->mouse()->setPos(0, 50);
event2.root_x = 0;
event2.root_y = 50;
event2.event_x = 0;
event2.event_y = 50;
event2.root = XCB_WINDOW_NONE;
event2.child = XCB_WINDOW_NONE;
event2.event = s->windows().first();
event2.same_screen_focus = 1;
event2.time = QDateTime::currentMSecsSinceEpoch();
QVERIFY(isEntered(&event2));
QCOMPARE(client.keepBelow(), false);
QCOMPARE(client.isHiddenInternal(), false);
QCOMPARE(Cursors::self()->mouse()->pos(), QPoint(1, 50));
}
void TestScreenEdges::testTouchEdge()
{
qRegisterMetaType<KWin::ElectricBorder>("ElectricBorder");
using namespace KWin;
auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig);
auto group = config->group("TouchEdges");
group.writeEntry("Top", "krunner");
group.writeEntry("Left", "krunner");
group.writeEntry("Bottom", "krunner");
group.writeEntry("Right", "krunner");
config->sync();
auto s = ScreenEdges::self();
s->setConfig(config);
s->init();
// we don't have multiple desktops, so it's returning false
QCOMPARE(s->isDesktopSwitching(), false);
QCOMPARE(s->isDesktopSwitchingMovingClients(), false);
QCOMPARE(s->actionTopLeft(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionTop(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionTopRight(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionRight(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionBottomRight(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionBottom(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionBottomLeft(), ElectricBorderAction::ElectricActionNone);
QCOMPARE(s->actionLeft(), ElectricBorderAction::ElectricActionNone);
QList<Edge*> edges = s->findChildren<Edge*>(QString(), Qt::FindDirectChildrenOnly);
QCOMPARE(edges.size(), 8);
for (auto e : edges) {
QCOMPARE(e->isReserved(), e->isScreenEdge());
QCOMPARE(e->activatesForPointer(), false);
QCOMPARE(e->activatesForTouchGesture(), e->isScreenEdge());
}
// try to activate the edge through pointer, should not be possible
auto it = std::find_if(edges.constBegin(), edges.constEnd(), [](Edge *e) {
return e->isScreenEdge() && e->isLeft();
});
QVERIFY(it != edges.constEnd());
QSignalSpy approachingSpy(s, &ScreenEdges::approaching);
QVERIFY(approachingSpy.isValid());
xcb_enter_notify_event_t event;
auto setPos = [&event] (const QPoint &pos) {
Cursors::self()->mouse()->setPos(pos);
event.root_x = pos.x();
event.root_y = pos.y();
event.event_x = pos.x();
event.event_y = pos.y();
};
event.root = XCB_WINDOW_NONE;
event.child = XCB_WINDOW_NONE;
event.event = (*it)->window();
event.same_screen_focus = 1;
event.time = QDateTime::currentMSecsSinceEpoch();
setPos(QPoint(0, 50));
auto isEntered = [s] (xcb_enter_notify_event_t *event) {
return s->handleEnterNotifiy(event->event, QPoint(event->root_x, event->root_y), QDateTime::fromMSecsSinceEpoch(event->time, Qt::UTC));
};
QCOMPARE(isEntered(&event), false);
QVERIFY(approachingSpy.isEmpty());
// let's also verify the check
s->check(QPoint(0, 50), QDateTime::currentDateTimeUtc(), false);
QVERIFY(approachingSpy.isEmpty());
s->gestureRecognizer()->startSwipeGesture(QPoint(0, 50));
QCOMPARE(approachingSpy.count(), 1);
s->gestureRecognizer()->cancelSwipeGesture();
QCOMPARE(approachingSpy.count(), 2);
// let's reconfigure
group.writeEntry("Top", "none");
group.writeEntry("Left", "none");
group.writeEntry("Bottom", "none");
group.writeEntry("Right", "none");
config->sync();
s->reconfigure();
edges = s->findChildren<Edge*>(QString(), Qt::FindDirectChildrenOnly);
QCOMPARE(edges.size(), 8);
for (auto e : edges) {
QCOMPARE(e->isReserved(), false);
QCOMPARE(e->activatesForPointer(), false);
QCOMPARE(e->activatesForTouchGesture(), false);
}
}
void TestScreenEdges::testTouchCallback_data()
{
QTest::addColumn<KWin::ElectricBorder>("border");
QTest::addColumn<QPoint>("startPos");
QTest::addColumn<QSizeF>("delta");
QTest::newRow("left") << KWin::ElectricLeft << QPoint(0, 50) << QSizeF(250, 20);
QTest::newRow("top") << KWin::ElectricTop << QPoint(50, 0) << QSizeF(20, 250);
QTest::newRow("right") << KWin::ElectricRight << QPoint(99, 50) << QSizeF(-200, 0);
QTest::newRow("bottom") << KWin::ElectricBottom << QPoint(50, 99) << QSizeF(0, -200);
}
void TestScreenEdges::testTouchCallback()
{
qRegisterMetaType<KWin::ElectricBorder>("ElectricBorder");
using namespace KWin;
auto config = KSharedConfig::openConfig(QString(), KConfig::SimpleConfig);
auto group = config->group("TouchEdges");
group.writeEntry("Top", "none");
group.writeEntry("Left", "none");
group.writeEntry("Bottom", "none");
group.writeEntry("Right", "none");
config->sync();
auto s = ScreenEdges::self();
s->setConfig(config);
s->init();
// none of our actions should be reserved
const QList<Edge*> edges = s->findChildren<Edge*>(QString(), Qt::FindDirectChildrenOnly);
QCOMPARE(edges.size(), 8);
for (auto e : edges) {
QCOMPARE(e->isReserved(), false);
QCOMPARE(e->activatesForPointer(), false);
QCOMPARE(e->activatesForTouchGesture(), false);
}
// let's reserve an action
QAction action;
QSignalSpy actionTriggeredSpy(&action, &QAction::triggered);
QVERIFY(actionTriggeredSpy.isValid());
QSignalSpy approachingSpy(s, &ScreenEdges::approaching);
QVERIFY(approachingSpy.isValid());
// reserve on edge
QFETCH(KWin::ElectricBorder, border);
s->reserveTouch(border, &action);
for (auto e : edges) {
QCOMPARE(e->isReserved(), e->border() == border);
QCOMPARE(e->activatesForPointer(), false);
QCOMPARE(e->activatesForTouchGesture(), e->border() == border);
}
QVERIFY(approachingSpy.isEmpty());
QFETCH(QPoint, startPos);
QCOMPARE(s->gestureRecognizer()->startSwipeGesture(startPos), 1);
QVERIFY(actionTriggeredSpy.isEmpty());
QCOMPARE(approachingSpy.count(), 1);
QFETCH(QSizeF, delta);
s->gestureRecognizer()->updateSwipeGesture(delta);
QCOMPARE(approachingSpy.count(), 2);
QVERIFY(actionTriggeredSpy.isEmpty());
s->gestureRecognizer()->endSwipeGesture();
QVERIFY(actionTriggeredSpy.wait());
QCOMPARE(actionTriggeredSpy.count(), 1);
QCOMPARE(approachingSpy.count(), 3);
// unreserve again
s->unreserveTouch(border, &action);
for (auto e : edges) {
QCOMPARE(e->isReserved(), false);
QCOMPARE(e->activatesForPointer(), false);
QCOMPARE(e->activatesForTouchGesture(), false);
}
// reserve another action
QScopedPointer<QAction> action2(new QAction);
s->reserveTouch(border, action2.data());
for (auto e : edges) {
QCOMPARE(e->isReserved(), e->border() == border);
QCOMPARE(e->activatesForPointer(), false);
QCOMPARE(e->activatesForTouchGesture(), e->border() == border);
}
// and unreserve by destroying
action2.reset();
for (auto e : edges) {
QCOMPARE(e->isReserved(), false);
QCOMPARE(e->activatesForPointer(), false);
QCOMPARE(e->activatesForTouchGesture(), false);
}
}
Q_CONSTRUCTOR_FUNCTION(forceXcb)
QTEST_MAIN(TestScreenEdges)
#include "test_screen_edges.moc"