/*
* Copyright 2019 Michail Vourlakos <mvourlakos@gmail.com>
*
* This file is part of Latte-Dock
*
* Latte-Dock is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* Latte-Dock is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "windowstracker.h"
// local
#include "lastactivewindow.h"
#include "schemes.h"
#include "trackedlayoutinfo.h"
#include "trackedviewinfo.h"
#include "../abstractwindowinterface.h"
#include "../schemecolors.h"
#include "../../lattecorona.h"
#include "../../layout/genericlayout.h"
#include "../../layouts/manager.h"
#include "../../view/view.h"
#include "../../view/positioner.h"
#include "../../../liblatte2/types.h"
namespace Latte {
namespace WindowSystem {
namespace Tracker {
Windows::Windows(AbstractWindowInterface *parent)
: QObject(parent)
{
m_wm = parent;
m_extraViewHintsTimer.setInterval(600);
m_extraViewHintsTimer.setSingleShot(true);
connect(&m_extraViewHintsTimer, &QTimer::timeout, this, &Windows::updateExtraViewHints);
//! delayed application data
m_updateApplicationDataTimer.setInterval(1500);
m_updateApplicationDataTimer.setSingleShot(true);
connect(&m_updateApplicationDataTimer, &QTimer::timeout, this, &Windows::updateApplicationData);
init();
}
Windows::~Windows()
{
//! clear all the m_views tracking information
for (QHash<Latte::View *, TrackedViewInfo *>::iterator i=m_views.begin(); i!=m_views.end(); ++i) {
i.value()->deleteLater();
m_views[i.key()] = nullptr;
}
m_views.clear();
//! clear all the m_layouts tracking layouts
for (QHash<Latte::Layout::GenericLayout *, TrackedLayoutInfo *>::iterator i=m_layouts.begin(); i!=m_layouts.end(); ++i) {
i.value()->deleteLater();
m_layouts[i.key()] = nullptr;
}
m_layouts.clear();
}
void Windows::init()
{
connect(m_wm->corona(), &Plasma::Corona::availableScreenRectChanged, this, &Windows::updateAvailableScreenGeometries);
connect(m_wm, &AbstractWindowInterface::windowChanged, this, [&](WindowId wid) {
m_windows[wid] = m_wm->requestInfo(wid);
updateAllHints();
emit windowChanged(wid);
});
connect(m_wm, &AbstractWindowInterface::windowRemoved, this, [&](WindowId wid) {
m_windows.remove(wid);
//! application data
m_initializedApplicationData.removeAll(wid);
m_delayedApplicationData.removeAll(wid);
updateAllHints();
emit windowRemoved(wid);
});
connect(m_wm, &AbstractWindowInterface::windowAdded, this, [&](WindowId wid) {
if (!m_windows.contains(wid)) {
m_windows.insert(wid, m_wm->requestInfo(wid));
}
updateAllHints();
});
connect(m_wm, &AbstractWindowInterface::activeWindowChanged, this, [&](WindowId wid) {
//! for some reason this is needed in order to update properly activeness values
//! when the active window changes the previous active windows should be also updated
for (const auto view : m_views.keys()) {
WindowId lastWinId = m_views[view]->lastActiveWindow()->winId();
if ((lastWinId) != wid && m_windows.contains(lastWinId)) {
m_windows[lastWinId] = m_wm->requestInfo(lastWinId);
}
}
m_windows[wid] = m_wm->requestInfo(wid);
updateAllHints();
emit activeWindowChanged(wid);
});
connect(m_wm, &AbstractWindowInterface::currentDesktopChanged, this, [&] {
updateAllHints();
});
connect(m_wm, &AbstractWindowInterface::currentActivityChanged, this, [&] {
if (m_wm->corona()->layoutsManager()->memoryUsage() == Types::MultipleLayouts) {
//! this is needed in MultipleLayouts because there is a chance that multiple
//! layouts are providing different available screen geometries in different Activities
updateAvailableScreenGeometries();
}
updateAllHints();
});
}
void Windows::initLayoutHints(Latte::Layout::GenericLayout *layout)
{
if (!m_layouts.contains(layout)) {
return;
}
setActiveWindowMaximized(layout, false);
setExistsWindowActive(layout, false);
setExistsWindowMaximized(layout, false);
setActiveWindowScheme(layout, nullptr);
}
void Windows::initViewHints(Latte::View *view)
{
if (!m_views.contains(view)) {
return;
}
setActiveWindowMaximized(view, false);
setActiveWindowTouching(view, false);
setExistsWindowActive(view, false);
setExistsWindowTouching(view, false);
setExistsWindowMaximized(view, false);
setIsTouchingBusyVerticalView(view, false);
setActiveWindowScheme(view, nullptr);
setTouchingWindowScheme(view, nullptr);
}
AbstractWindowInterface *Windows::wm()
{
return m_wm;
}
void Windows::addView(Latte::View *view)
{
if (m_views.contains(view)) {
return;
}
m_views[view] = new TrackedViewInfo(this, view);
updateAvailableScreenGeometries();
//! Consider Layouts
addRelevantLayout(view);
connect(view, &Latte::View::layoutChanged, this, [&, view]() {
addRelevantLayout(view);
});
connect(view, &Latte::View::isTouchingBottomViewAndIsBusyChanged, this, &Windows::updateExtraViewHints);
connect(view, &Latte::View::isTouchingTopViewAndIsBusyChanged, this, &Windows::updateExtraViewHints);
updateAllHints();
emit informationAnnounced(view);
}
void Windows::removeView(Latte::View *view)
{
if (!m_views.contains(view)) {
return;
}
m_views[view]->deleteLater();
m_views.remove(view);
updateRelevantLayouts();
}
void Windows::addRelevantLayout(Latte::View *view)
{
if (view->layout()) {
bool initializing {false};
if (!m_layouts.contains(view->layout())) {
initializing = true;
m_layouts[view->layout()] = new TrackedLayoutInfo(this, view->layout());
}
//! Update always the AllScreens tracking because there is a chance a view delayed to be assigned in a layout
//! and that could create a state the AllScreens tracking will be disabled if there is a View requesting
//! tracking and one that it does not during startup
updateRelevantLayouts();
if (initializing) {
updateHints(view->layout());
emit informationAnnouncedForLayout(view->layout());
}
}
}
void Windows::updateRelevantLayouts()
{
QList<Latte::Layout::GenericLayout*> orphanedLayouts;
//! REMOVE Orphaned Relevant layouts that have been removed or they don't contain any Views anymore
for (QHash<Latte::Layout::GenericLayout *, TrackedLayoutInfo *>::iterator i=m_layouts.begin(); i!=m_layouts.end(); ++i) {
bool hasView{false};
for (QHash<Latte::View *, TrackedViewInfo *>::iterator j=m_views.begin(); j!=m_views.end(); ++j) {
if (j.key() && i.key() && i.key() == j.key()->layout()) {
hasView = true;
break;
}
}
if (!hasView) {
if (i.value()) {
i.value()->deleteLater();
}
orphanedLayouts << i.key();
}
}
for(const auto &layout : orphanedLayouts) {
m_layouts.remove(layout);
}
//! UPDATE Enabled layout window tracking based on the Views that are requesting windows tracking
for (QHash<Latte::Layout::GenericLayout *, TrackedLayoutInfo *>::iterator i=m_layouts.begin(); i!=m_layouts.end(); ++i) {
bool hasViewEnabled{false};
for (QHash<Latte::View *, TrackedViewInfo *>::iterator j=m_views.begin(); j!=m_views.end(); ++j) {
if (i.key() == j.key()->layout() && j.value()->enabled()) {
hasViewEnabled = true;
break;
}
}
if (i.value()) {
i.value()->setEnabled(hasViewEnabled);
if (!hasViewEnabled) {
initLayoutHints(i.key());
}
}
}
}
//! Views Properties And Hints
bool Windows::enabled(Latte::View *view)
{
if (!m_views.contains(view)) {
return false;
}
return m_views[view]->enabled();
}
void Windows::setEnabled(Latte::View *view, const bool enabled)
{
if (!m_views.contains(view) || m_views[view]->enabled() == enabled) {
return;
}
m_views[view]->setEnabled(enabled);
if (enabled) {
updateHints(view);
} else {
initViewHints(view);
}
updateRelevantLayouts();
emit enabledChanged(view);
}
bool Windows::activeWindowMaximized(Latte::View *view) const
{
if (!m_views.contains(view)) {
return false;
}
return m_views[view]->activeWindowMaximized();
}
void Windows::setActiveWindowMaximized(Latte::View *view, bool activeMaximized)
{
if (!m_views.contains(view) || m_views[view]->activeWindowMaximized() == activeMaximized) {
return;
}
m_views[view]->setActiveWindowMaximized(activeMaximized);
emit activeWindowMaximizedChanged(view);
}
bool Windows::activeWindowTouching(Latte::View *view) const
{
if (!m_views.contains(view)) {
return false;
}
return m_views[view]->activeWindowTouching();
}
void Windows::setActiveWindowTouching(Latte::View *view, bool activeTouching)
{
if (!m_views.contains(view) || m_views[view]->activeWindowTouching() == activeTouching) {
return;
}
m_views[view]->setActiveWindowTouching(activeTouching);
emit activeWindowTouchingChanged(view);
}
bool Windows::existsWindowActive(Latte::View *view) const
{
if (!m_views.contains(view)) {
return false;
}
return m_views[view]->existsWindowActive();
}
void Windows::setExistsWindowActive(Latte::View *view, bool windowActive)
{
if (!m_views.contains(view) || m_views[view]->existsWindowActive() == windowActive) {
return;
}
m_views[view]->setExistsWindowActive(windowActive);
emit existsWindowActiveChanged(view);
}
bool Windows::existsWindowMaximized(Latte::View *view) const
{
if (!m_views.contains(view)) {
return false;
}
return m_views[view]->existsWindowMaximized();
}
void Windows::setExistsWindowMaximized(Latte::View *view, bool windowMaximized)
{
if (!m_views.contains(view) || m_views[view]->existsWindowMaximized() == windowMaximized) {
return;
}
m_views[view]->setExistsWindowMaximized(windowMaximized);
emit existsWindowMaximizedChanged(view);
}
bool Windows::existsWindowTouching(Latte::View *view) const
{
if (!m_views.contains(view)) {
return false;
}
return m_views[view]->existsWindowTouching();
}
void Windows::setExistsWindowTouching(Latte::View *view, bool windowTouching)
{
if (!m_views.contains(view) || m_views[view]->existsWindowTouching() == windowTouching) {
return;
}
m_views[view]->setExistsWindowTouching(windowTouching);
emit existsWindowTouchingChanged(view);
}
bool Windows::isTouchingBusyVerticalView(Latte::View *view) const
{
if (!m_views.contains(view)) {
return false;
}
return m_views[view]->isTouchingBusyVerticalView();
}
void Windows::setIsTouchingBusyVerticalView(Latte::View *view, bool viewTouching)
{
if (!m_views.contains(view) || m_views[view]->isTouchingBusyVerticalView() == viewTouching) {
return;
}
m_views[view]->setIsTouchingBusyVerticalView(viewTouching);
emit isTouchingBusyVerticalViewChanged(view);
}
SchemeColors *Windows::activeWindowScheme(Latte::View *view) const
{
if (!m_views.contains(view)) {
return nullptr;
}
return m_views[view]->activeWindowScheme();
}
void Windows::setActiveWindowScheme(Latte::View *view, WindowSystem::SchemeColors *scheme)
{
if (!m_views.contains(view) || m_views[view]->activeWindowScheme() == scheme) {
return;
}
m_views[view]->setActiveWindowScheme(scheme);
emit activeWindowSchemeChanged(view);
}
SchemeColors *Windows::touchingWindowScheme(Latte::View *view) const
{
if (!m_views.contains(view)) {
return nullptr;
}
return m_views[view]->touchingWindowScheme();
}
void Windows::setTouchingWindowScheme(Latte::View *view, WindowSystem::SchemeColors *scheme)
{
if (!m_views.contains(view) || m_views[view]->touchingWindowScheme() == scheme) {
return;
}
m_views[view]->setTouchingWindowScheme(scheme);
emit touchingWindowSchemeChanged(view);
}
LastActiveWindow *Windows::lastActiveWindow(Latte::View *view)
{
if (!m_views.contains(view)) {
return nullptr;
}
return m_views[view]->lastActiveWindow();
}
//! Layouts
bool Windows::enabled(Latte::Layout::GenericLayout *layout)
{
if (!m_layouts.contains(layout)) {
return false;
}
return m_layouts[layout]->enabled();
}
bool Windows::activeWindowMaximized(Latte::Layout::GenericLayout *layout) const
{
if (!m_layouts.contains(layout)) {
return false;
}
return m_layouts[layout]->activeWindowMaximized();
}
void Windows::setActiveWindowMaximized(Latte::Layout::GenericLayout *layout, bool activeMaximized)
{
if (!m_layouts.contains(layout) || m_layouts[layout]->activeWindowMaximized() == activeMaximized) {
return;
}
m_layouts[layout]->setActiveWindowMaximized(activeMaximized);
emit activeWindowMaximizedChangedForLayout(layout);
}
bool Windows::existsWindowActive(Latte::Layout::GenericLayout *layout) const
{
if (!m_layouts.contains(layout)) {
return false;
}
return m_layouts[layout]->existsWindowActive();
}
void Windows::setExistsWindowActive(Latte::Layout::GenericLayout *layout, bool windowActive)
{
if (!m_layouts.contains(layout) || m_layouts[layout]->existsWindowActive() == windowActive) {
return;
}
m_layouts[layout]->setExistsWindowActive(windowActive);
emit existsWindowActiveChangedForLayout(layout);
}
bool Windows::existsWindowMaximized(Latte::Layout::GenericLayout *layout) const
{
if (!m_layouts.contains(layout)) {
return false;
}
return m_layouts[layout]->existsWindowMaximized();
}
void Windows::setExistsWindowMaximized(Latte::Layout::GenericLayout *layout, bool windowMaximized)
{
if (!m_layouts.contains(layout) || m_layouts[layout]->existsWindowMaximized() == windowMaximized) {
return;
}
m_layouts[layout]->setExistsWindowMaximized(windowMaximized);
emit existsWindowMaximizedChangedForLayout(layout);
}
SchemeColors *Windows::activeWindowScheme(Latte::Layout::GenericLayout *layout) const
{
if (!m_layouts.contains(layout)) {
return nullptr;
}
return m_layouts[layout]->activeWindowScheme();
}
void Windows::setActiveWindowScheme(Latte::Layout::GenericLayout *layout, WindowSystem::SchemeColors *scheme)
{
if (!m_layouts.contains(layout) || m_layouts[layout]->activeWindowScheme() == scheme) {
return;
}
m_layouts[layout]->setActiveWindowScheme(scheme);
emit activeWindowSchemeChangedForLayout(layout);
}
LastActiveWindow *Windows::lastActiveWindow(Latte::Layout::GenericLayout *layout)
{
if (!m_layouts.contains(layout)) {
return nullptr;
}
return m_layouts[layout]->lastActiveWindow();
}
//! Windows
bool Windows::isValidFor(const WindowId &wid) const
{
if (!m_windows.contains(wid)) {
return false;
}
return m_windows[wid].isValid();
}
QIcon Windows::iconFor(const WindowId &wid)
{
if (!m_windows.contains(wid)) {
return QIcon();
}
if (m_windows[wid].icon().isNull()) {
AppData data = m_wm->appDataFor(wid);
QIcon icon = data.icon;
if (icon.isNull()) {
icon = m_wm->iconFor(wid);
}
m_windows[wid].setIcon(icon);
return icon;
}
return m_windows[wid].icon();
}
QString Windows::appNameFor(const WindowId &wid)
{
if (!m_windows.contains(wid)) {
return QString();
}
if(!m_initializedApplicationData.contains(wid) && !m_delayedApplicationData.contains(wid)) {
m_delayedApplicationData.append(wid);
m_updateApplicationDataTimer.start();
}
if (m_windows[wid].appName().isEmpty()) {
AppData data = m_wm->appDataFor(wid);
m_windows[wid].setAppName(data.name);
return data.name;
}
return m_windows[wid].appName();
}
void Windows::updateApplicationData()
{
if (m_delayedApplicationData.count() > 0) {
for(int i=0; i<m_delayedApplicationData.count(); ++i) {
auto wid = m_delayedApplicationData[i];
if (m_windows.contains(wid)) {
AppData data = m_wm->appDataFor(wid);
QIcon icon = data.icon;
if (icon.isNull()) {
icon = m_wm->iconFor(wid);
}
m_windows[wid].setIcon(icon);
m_windows[wid].setAppName(data.name);
m_initializedApplicationData.append(wid);
emit applicationDataChanged(wid);
}
}
}
m_delayedApplicationData.clear();
}
WindowInfoWrap Windows::infoFor(const WindowId &wid) const
{
if (!m_windows.contains(wid)) {
return WindowInfoWrap();
}
return m_windows[wid];
}
//! Windows Criteria Functions
bool Windows::intersects(Latte::View *view, const WindowInfoWrap &winfo)
{
return (!winfo.isMinimized() && !winfo.isShaded() && winfo.geometry().intersects(view->absoluteGeometry()));
}
bool Windows::isActive(const WindowInfoWrap &winfo)
{
return (winfo.isValid() && winfo.isActive() && !winfo.isMinimized());
}
bool Windows::isActiveInViewScreen(Latte::View *view, const WindowInfoWrap &winfo)
{
return (winfo.isValid() && winfo.isActive() && !winfo.isMinimized()
&& m_views[view]->availableScreenGeometry().contains(winfo.geometry().center()));
}
bool Windows::isMaximizedInViewScreen(Latte::View *view, const WindowInfoWrap &winfo)
{
//! updated implementation to identify the screen that the maximized window is present
//! in order to avoid: https://bugs.kde.org/show_bug.cgi?id=397700
return (winfo.isValid() && !winfo.isMinimized()
&& !winfo.isShaded()
&& winfo.isMaximized()
&& m_views[view]->availableScreenGeometry().contains(winfo.geometry().center()));
}
bool Windows::isTouchingView(Latte::View *view, const WindowSystem::WindowInfoWrap &winfo)
{
return (winfo.isValid() && intersects(view, winfo));
}
bool Windows::isTouchingViewEdge(Latte::View *view, const WindowInfoWrap &winfo)
{
if (winfo.isValid() && !winfo.isMinimized()) {
bool inViewThicknessEdge{false};
bool inViewLengthBoundaries{false};
QRect screenGeometry = view->screenGeometry();
bool inCurrentScreen{screenGeometry.contains(winfo.geometry().topLeft()) || screenGeometry.contains(winfo.geometry().bottomRight())};
if (inCurrentScreen) {
if (view->location() == Plasma::Types::TopEdge) {
inViewThicknessEdge = (winfo.geometry().y() == view->absoluteGeometry().bottom() + 1);
} else if (view->location() == Plasma::Types::BottomEdge) {
inViewThicknessEdge = (winfo.geometry().bottom() == view->absoluteGeometry().top() - 1);
} else if (view->location() == Plasma::Types::LeftEdge) {
inViewThicknessEdge = (winfo.geometry().x() == view->absoluteGeometry().right() + 1);
} else if (view->location() == Plasma::Types::RightEdge) {
inViewThicknessEdge = (winfo.geometry().right() == view->absoluteGeometry().left() - 1);
}
if (view->formFactor() == Plasma::Types::Horizontal) {
int yCenter = view->absoluteGeometry().center().y();
QPoint leftChecker(winfo.geometry().left(), yCenter);
QPoint rightChecker(winfo.geometry().right(), yCenter);
bool fulloverlap = (winfo.geometry().left()<=view->absoluteGeometry().left()) && (winfo.geometry().right()>=view->absoluteGeometry().right());
inViewLengthBoundaries = fulloverlap || view->absoluteGeometry().contains(leftChecker) || view->absoluteGeometry().contains(rightChecker);
} else if (view->formFactor() == Plasma::Types::Vertical) {
int xCenter = view->absoluteGeometry().center().x();
QPoint topChecker(xCenter, winfo.geometry().top());
QPoint bottomChecker(xCenter, winfo.geometry().bottom());
bool fulloverlap = (winfo.geometry().top()<=view->absoluteGeometry().top()) && (winfo.geometry().bottom()>=view->absoluteGeometry().bottom());
inViewLengthBoundaries = fulloverlap || view->absoluteGeometry().contains(topChecker) || view->absoluteGeometry().contains(bottomChecker);
}
}
return (inViewThicknessEdge && inViewLengthBoundaries);
}
return false;
}
void Windows::cleanupFaultyWindows()
{
for (const auto &key : m_windows.keys()) {
auto winfo = m_windows[key];
//! garbage windows removing
if (winfo.wid()<=0 || winfo.geometry() == QRect(0, 0, 0, 0)) {
//qDebug() << "Faulty Geometry ::: " << winfo.wid();
m_windows.remove(key);
}
}
}
void Windows::updateAvailableScreenGeometries()
{
for (const auto view : m_views.keys()) {
if (m_views[view]->enabled()) {
int currentScrId = view->positioner()->currentScreenId();
QRect tempAvailableScreenGeometry = m_wm->corona()->availableScreenRectWithCriteria(currentScrId, QString(), m_ignoreModes, {});
if (tempAvailableScreenGeometry != m_views[view]->availableScreenGeometry()) {
m_views[view]->setAvailableScreenGeometry(tempAvailableScreenGeometry);
updateHints(view);
}
}
}
}
void Windows::updateAllHints()
{
for (const auto view : m_views.keys()) {
updateHints(view);
}
for (const auto layout : m_layouts.keys()) {
updateHints(layout);
}
if (!m_extraViewHintsTimer.isActive()) {
m_extraViewHintsTimer.start();
}
}
void Windows::updateExtraViewHints()
{
for (const auto horView : m_views.keys()) {
if (!m_views.contains(horView) || !m_views[horView]->enabled() || !m_views[horView]->isTrackingCurrentActivity()) {
continue;
}
if (horView->formFactor() == Plasma::Types::Horizontal) {
bool touchingBusyVerticalView{false};
for (const auto verView : m_views.keys()) {
if (!m_views.contains(verView) || !m_views[verView]->enabled() || !m_views[verView]->isTrackingCurrentActivity()) {
continue;
}
bool sameScreen = (verView->positioner()->currentScreenId() == horView->positioner()->currentScreenId());
if (verView->formFactor() == Plasma::Types::Vertical && sameScreen) {
bool topTouch = verView->isTouchingTopViewAndIsBusy() && horView->location() == Plasma::Types::TopEdge;
bool bottomTouch = verView->isTouchingBottomViewAndIsBusy() && horView->location() == Plasma::Types::BottomEdge;
if (topTouch || bottomTouch) {
touchingBusyVerticalView = true;
break;
}
}
}
//qDebug() << " Touching Busy Vertical View :: " << horView->location() << " - " << horView->positioner()->currentScreenId() << " :: " << touchingBusyVerticalView;
setIsTouchingBusyVerticalView(horView, touchingBusyVerticalView);
}
}
}
void Windows::updateHints(Latte::View *view)
{
if (!m_views.contains(view) || !m_views[view]->enabled() || !m_views[view]->isTrackingCurrentActivity()) {
return;
}
bool foundActive{false};
bool foundActiveInCurScreen{false};
bool foundActiveTouchInCurScreen{false};
bool foundTouchInCurScreen{false};
bool foundMaximizedInCurScreen{false};
bool foundActiveGroupTouchInCurScreen{false};
//! the notification window is not sending a remove signal and creates windows of geometry (0x0 0,0),
//! maybe a garbage collector here is a good idea!!!
bool existsFaultyWindow{false};
WindowId maxWinId;
WindowId activeWinId;
WindowId touchWinId;
WindowId activeTouchWinId;
//qDebug() << " -- TRACKING REPORT (SCREEN)--";
//! First Pass
for (const auto &winfo : m_windows) {
if (!existsFaultyWindow && (winfo.wid()<=0 || winfo.geometry() == QRect(0, 0, 0, 0))) {
existsFaultyWindow = true;
}
if ( !m_wm->inCurrentDesktopActivity(winfo)
|| m_wm->hasBlockedTracking(winfo.wid())
|| winfo.isMinimized()) {
continue;
}
//qDebug() << " _ _ _ ";
//qDebug() << "TRACKING | WINDOW INFO :: " << winfo.wid() << " _ " << winfo.appName() << " _ " << winfo.geometry() << " _ " << winfo.display();
if (isActive(winfo)) {
foundActive = true;
}
if (isActiveInViewScreen(view, winfo)) {
foundActiveInCurScreen = true;
activeWinId = winfo.wid();
}
//! Maximized windows flags
if ((winfo.isActive() && isMaximizedInViewScreen(view, winfo)) //! active maximized windows have higher priority than the rest maximized windows
|| (!foundMaximizedInCurScreen && isMaximizedInViewScreen(view, winfo))) {
foundMaximizedInCurScreen = true;
maxWinId = winfo.wid();
}
//! Touching windows flags
bool touchingViewEdge = isTouchingViewEdge(view, winfo);
bool touchingView = isTouchingView(view, winfo);
if (touchingViewEdge || touchingView) {
if (winfo.isActive()) {
foundActiveTouchInCurScreen = true;
activeTouchWinId = winfo.wid();
} else {
foundTouchInCurScreen = true;
touchWinId = winfo.wid();
}
}
//qDebug() << "TRACKING | ACTIVE:"<< foundActive << " ACT_CUR_SCR:" << foundTouchInCurScreen << " MAXIM:"<<foundMaximizedInCurScreen;
//qDebug() << "TRACKING | TOUCHING VIEW EDGE:"<< touchingViewEdge << " TOUCHING VIEW:" << foundTouchInCurScreen;
}
if (existsFaultyWindow) {
cleanupFaultyWindows();
}
//! PASS 2
if (foundActiveInCurScreen && !foundActiveTouchInCurScreen) {
//! Second Pass to track also Child windows if needed
//qDebug() << "Windows Array...";
//for (const auto &winfo : m_windows) {
// qDebug() << " - " << winfo.wid() << " - " << winfo.isValid() << " - " << winfo.display() << " - " << winfo.geometry() << " parent : " << winfo.parentId();
//}
//qDebug() << " - - - - - ";
WindowInfoWrap activeInfo = m_windows[activeWinId];
WindowId mainWindowId = activeInfo.isChildWindow() ? activeInfo.parentId() : activeWinId;
for (const auto &winfo : m_windows) {
if (!m_wm->inCurrentDesktopActivity(winfo)
|| m_wm->hasBlockedTracking(winfo.wid())
|| winfo.isMinimized()) {
continue;
}
bool inActiveGroup = (winfo.wid() == mainWindowId || winfo.parentId() == mainWindowId);
//! consider only windows that belong to active window group meaning the main window
//! and its children
if (!inActiveGroup) {
continue;
}
if (isTouchingViewEdge(view, winfo) || isTouchingView(view, winfo)) {
foundActiveGroupTouchInCurScreen = true;
break;
}
}
}
//! HACK: KWin Effects such as ShowDesktop have no way to be identified and as such
//! create issues with identifying properly touching and maximized windows. BUT when
//! they are enabled then NO ACTIVE window is found. This is a way to identify these
//! effects trigerring and disable the touch flags.
//! BUG: 404483
//! Disabled because it has fault identifications, e.g. when a window is maximized and
//! Latte or Plasma are showing their View settings
//foundMaximizedInCurScreen = foundMaximizedInCurScreen && foundActive;
//foundTouchInCurScreen = foundTouchInCurScreen && foundActive;
//! assign flags
setExistsWindowActive(view, foundActiveInCurScreen);
setActiveWindowTouching(view, foundActiveTouchInCurScreen || foundActiveGroupTouchInCurScreen);
setActiveWindowMaximized(view, (maxWinId.toInt()>0 && (maxWinId == activeTouchWinId)));
setExistsWindowMaximized(view, foundMaximizedInCurScreen);
setExistsWindowTouching(view, (foundTouchInCurScreen || foundActiveTouchInCurScreen || foundActiveGroupTouchInCurScreen));
//! update color schemes for active and touching windows
setActiveWindowScheme(view, (foundActiveInCurScreen ? m_wm->schemesTracker()->schemeForWindow(activeWinId) : nullptr));
if (foundActiveTouchInCurScreen) {
setTouchingWindowScheme(view, m_wm->schemesTracker()->schemeForWindow(activeTouchWinId));
} else if (foundMaximizedInCurScreen) {
setTouchingWindowScheme(view, m_wm->schemesTracker()->schemeForWindow(maxWinId));
} else if (foundTouchInCurScreen) {
setTouchingWindowScheme(view, m_wm->schemesTracker()->schemeForWindow(touchWinId));
} else {
setTouchingWindowScheme(view, nullptr);
}
//! update LastActiveWindow
if (foundActiveInCurScreen) {
m_views[view]->setActiveWindow(activeWinId);
}
//! Debug
//qDebug() << "TRACKING | _________ FINAL RESULTS ________";
//qDebug() << "TRACKING | SCREEN: " << view->positioner()->currentScreenId() << " , EDGE:" << view->location() << " , ENABLED:" << enabled(view);
//qDebug() << "TRACKING | activeWindowTouching: " << foundActiveTouchInCurScreen << " ,activeWindowMaximized: " << activeWindowMaximized(view);
//qDebug() << "TRACKING | existsWindowActive: " << foundActiveInCurScreen << " , existsWindowMaximized:" << existsWindowMaximized(view)
// << " , existsWindowTouching:"<<existsWindowTouching(view);
//qDebug() << "TRACKING | existsActiveGroupTouching: " << foundActiveGroupTouchInCurScreen;
}
void Windows::updateHints(Latte::Layout::GenericLayout *layout) {
if (!m_layouts.contains(layout) || !m_layouts[layout]->enabled() || !m_layouts[layout]->isTrackingCurrentActivity()) {
return;
}
bool foundActive{false};
bool foundActiveMaximized{false};
bool foundMaximized{false};
//! the notification window is not sending a remove signal and creates windows of geometry (0x0 0,0),
//! maybe a garbage collector here is a good idea!!!
bool existsFaultyWindow{false};
WindowId activeWinId;
WindowId maxWinId;
for (const auto &winfo : m_windows) {
if (!existsFaultyWindow && (winfo.wid()<=0 || winfo.geometry() == QRect(0, 0, 0, 0))) {
existsFaultyWindow = true;
}
if (!m_wm->inCurrentDesktopActivity(winfo)
|| m_wm->hasBlockedTracking(winfo.wid())
|| winfo.isMinimized()) {
continue;
}
if (isActive(winfo)) {
foundActive = true;
activeWinId = winfo.wid();
if (winfo.isMaximized() && !winfo.isMinimized()) {
foundActiveMaximized = true;
maxWinId = winfo.wid();
}
}
if (!foundActiveMaximized && winfo.isMaximized() && !winfo.isMinimized()) {
foundMaximized = true;
maxWinId = winfo.wid();
}
//qDebug() << "window geometry ::: " << winfo.geometry();
}
if (existsFaultyWindow) {
cleanupFaultyWindows();
}
//! HACK: KWin Effects such as ShowDesktop have no way to be identified and as such
//! create issues with identifying properly touching and maximized windows. BUT when
//! they are enabled then NO ACTIVE window is found. This is a way to identify these
//! effects trigerring and disable the touch flags.
//! BUG: 404483
//! Disabled because it has fault identifications, e.g. when a window is maximized and
//! Latte or Plasma are showing their View settings
//foundMaximizedInCurScreen = foundMaximizedInCurScreen && foundActive;
//foundTouchInCurScreen = foundTouchInCurScreen && foundActive;
//! assign flags
setExistsWindowActive(layout, foundActive);
setActiveWindowMaximized(layout, foundActiveMaximized);
setExistsWindowMaximized(layout, foundActiveMaximized || foundMaximized);
//! update color schemes for active and touching windows
setActiveWindowScheme(layout, (foundActive ? m_wm->schemesTracker()->schemeForWindow(activeWinId) : nullptr));
//! update LastActiveWindow
if (foundActive) {
m_layouts[layout]->setActiveWindow(activeWinId);
}
//! Debug
//qDebug() << " -- TRACKING REPORT (LAYOUT) --";
//qDebug() << "TRACKING | LAYOUT: " << layout->name() << " , ENABLED:" << enabled(layout);
//qDebug() << "TRACKING | existsActiveWindow: " << foundActive << " ,activeWindowMaximized: " << foundActiveMaximized;
//qDebug() << "TRACKING | existsWindowMaximized: " << existsWindowMaximized(layout);
}
}
}
}