kwin/src/abstract_client.h

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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.
2020-08-02 22:22:19 +00:00
SPDX-FileCopyrightText: 2015 Martin Gräßlin <mgraesslin@kde.org>
SPDX-FileCopyrightText: 2019 Vlad Zahorodnii <vlad.zahorodnii@kde.org>
2020-08-02 22:22:19 +00:00
SPDX-License-Identifier: GPL-2.0-or-later
*/
#ifndef KWIN_ABSTRACT_CLIENT_H
#define KWIN_ABSTRACT_CLIENT_H
#include "toplevel.h"
#include "options.h"
#include "rules.h"
#include "cursor.h"
#include <memory>
#include <QElapsedTimer>
#include <QIcon>
#include <QKeySequence>
#include <QPointer>
class QMouseEvent;
namespace KWaylandServer
{
class PlasmaWindowInterface;
}
namespace KDecoration2
{
class Decoration;
}
namespace KWin
{
class Group;
namespace TabBox
{
class TabBoxClientImpl;
}
namespace Decoration
{
class DecoratedClientImpl;
class DecorationPalette;
}
class KWIN_EXPORT AbstractClient : public Toplevel
{
Q_OBJECT
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/**
* Whether this Client is fullScreen. A Client might either be fullScreen due to the _NET_WM property
* or through a legacy support hack. The fullScreen state can only be changed if the Client does not
* use the legacy hack. To be sure whether the state changed, connect to the notify signal.
*/
Q_PROPERTY(bool fullScreen READ isFullScreen WRITE setFullScreen NOTIFY fullScreenChanged)
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/**
* Whether the Client can be set to fullScreen. The property is evaluated each time it is invoked.
* Because of that there is no notify signal.
*/
Q_PROPERTY(bool fullScreenable READ isFullScreenable)
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/**
* Whether this Client is active or not. Use Workspace::activateClient() to activate a Client.
* @see Workspace::activateClient
*/
Q_PROPERTY(bool active READ isActive NOTIFY activeChanged)
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/**
* The desktop this Client is on. If the Client is on all desktops the property has value -1.
* This is a legacy property, use x11DesktopIds instead
*/
Q_PROPERTY(int desktop READ desktop WRITE setDesktop NOTIFY desktopChanged)
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/**
* Whether the Client is on all desktops. That is desktop is -1.
*/
Q_PROPERTY(bool onAllDesktops READ isOnAllDesktops WRITE setOnAllDesktops NOTIFY desktopChanged)
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/**
* The activities this client is on. If it's on all activities the property is empty.
*/
Q_PROPERTY(QStringList activities READ activities WRITE setOnActivities NOTIFY activitiesChanged)
/**
* The x11 ids for all desktops this client is in. On X11 this list will always have a length of 1
*/
Q_PROPERTY(QVector<uint> x11DesktopIds READ x11DesktopIds NOTIFY x11DesktopIdsChanged)
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/**
* Indicates that the window should not be included on a taskbar.
*/
Q_PROPERTY(bool skipTaskbar READ skipTaskbar WRITE setSkipTaskbar NOTIFY skipTaskbarChanged)
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/**
* Indicates that the window should not be included on a Pager.
*/
Q_PROPERTY(bool skipPager READ skipPager WRITE setSkipPager NOTIFY skipPagerChanged)
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/**
* Whether the Client should be excluded from window switching effects.
*/
Q_PROPERTY(bool skipSwitcher READ skipSwitcher WRITE setSkipSwitcher NOTIFY skipSwitcherChanged)
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/**
* Whether the window can be closed by the user. The value is evaluated each time the getter is called.
* Because of that no changed signal is provided.
*/
Q_PROPERTY(bool closeable READ isCloseable)
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Q_PROPERTY(QIcon icon READ icon NOTIFY iconChanged)
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/**
* Whether the Client is set to be kept above other windows.
*/
Q_PROPERTY(bool keepAbove READ keepAbove WRITE setKeepAbove NOTIFY keepAboveChanged)
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/**
* Whether the Client is set to be kept below other windows.
*/
Q_PROPERTY(bool keepBelow READ keepBelow WRITE setKeepBelow NOTIFY keepBelowChanged)
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/**
* Whether the Client can be shaded. The property is evaluated each time it is invoked.
* Because of that there is no notify signal.
*/
Q_PROPERTY(bool shadeable READ isShadeable)
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/**
* Whether the Client is shaded.
*/
Q_PROPERTY(bool shade READ isShade WRITE setShade NOTIFY shadeChanged)
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/**
* Whether the Client can be minimized. The property is evaluated each time it is invoked.
* Because of that there is no notify signal.
*/
Q_PROPERTY(bool minimizable READ isMinimizable)
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/**
* Whether the Client is minimized.
*/
Q_PROPERTY(bool minimized READ isMinimized WRITE setMinimized NOTIFY minimizedChanged)
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/**
* The optional geometry representing the minimized Client in e.g a taskbar.
* See _NET_WM_ICON_GEOMETRY at https://standards.freedesktop.org/wm-spec/wm-spec-latest.html .
* The value is evaluated each time the getter is called.
* Because of that no changed signal is provided.
*/
Q_PROPERTY(QRect iconGeometry READ iconGeometry)
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/**
* Returns whether the window is any of special windows types (desktop, dock, splash, ...),
* i.e. window types that usually don't have a window frame and the user does not use window
* management (moving, raising,...) on them.
* The value is evaluated each time the getter is called.
* Because of that no changed signal is provided.
*/
Q_PROPERTY(bool specialWindow READ isSpecialWindow)
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/**
* Whether window state _NET_WM_STATE_DEMANDS_ATTENTION is set. This state indicates that some
* action in or with the window happened. For example, it may be set by the Window Manager if
* the window requested activation but the Window Manager refused it, or the application may set
* it if it finished some work. This state may be set by both the Client and the Window Manager.
* It should be unset by the Window Manager when it decides the window got the required attention
* (usually, that it got activated).
*/
Q_PROPERTY(bool demandsAttention READ isDemandingAttention WRITE demandAttention NOTIFY demandsAttentionChanged)
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/**
* The Caption of the Client. Read from WM_NAME property together with a suffix for hostname and shortcut.
* To read only the caption as provided by WM_NAME, use the getter with an additional @c false value.
*/
Q_PROPERTY(QString caption READ caption NOTIFY captionChanged)
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/**
* Minimum size as specified in WM_NORMAL_HINTS
*/
Q_PROPERTY(QSize minSize READ minSize)
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/**
* Maximum size as specified in WM_NORMAL_HINTS
*/
Q_PROPERTY(QSize maxSize READ maxSize)
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/**
* Whether the Client can accept keyboard focus.
* The value is evaluated each time the getter is called.
* Because of that no changed signal is provided.
*/
Q_PROPERTY(bool wantsInput READ wantsInput)
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/**
* Whether the Client is a transient Window to another Window.
* @see transientFor
*/
Q_PROPERTY(bool transient READ isTransient NOTIFY transientChanged)
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/**
* The Client to which this Client is a transient if any.
*/
Q_PROPERTY(KWin::AbstractClient *transientFor READ transientFor NOTIFY transientChanged)
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/**
* Whether the Client represents a modal window.
*/
Q_PROPERTY(bool modal READ isModal NOTIFY modalChanged)
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/**
* The geometry of this Client. Be aware that depending on resize mode the frameGeometryChanged
* signal might be emitted at each resize step or only at the end of the resize operation.
*
* @deprecated Use frameGeometry
*/
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
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Q_PROPERTY(QRect geometry READ frameGeometry WRITE moveResize)
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/**
* The geometry of this Client. Be aware that depending on resize mode the frameGeometryChanged
* signal might be emitted at each resize step or only at the end of the resize operation.
*/
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
Q_PROPERTY(QRect frameGeometry READ frameGeometry WRITE moveResize)
/**
* Whether the Client is currently being moved by the user.
* Notify signal is emitted when the Client starts or ends move/resize mode.
*/
Q_PROPERTY(bool move READ isInteractiveMove NOTIFY moveResizedChanged)
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/**
* Whether the Client is currently being resized by the user.
* Notify signal is emitted when the Client starts or ends move/resize mode.
*/
Q_PROPERTY(bool resize READ isInteractiveResize NOTIFY moveResizedChanged)
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/**
* Whether the decoration is currently using an alpha channel.
*/
Q_PROPERTY(bool decorationHasAlpha READ decorationHasAlpha)
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/**
* Whether the window has a decoration or not.
* This property is not allowed to be set by applications themselves.
* The decision whether a window has a border or not belongs to the window manager.
* If this property gets abused by application developers, it will be removed again.
*/
Q_PROPERTY(bool noBorder READ noBorder WRITE setNoBorder)
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/**
* Whether the Client provides context help. Mostly needed by decorations to decide whether to
* show the help button or not.
*/
Q_PROPERTY(bool providesContextHelp READ providesContextHelp CONSTANT)
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/**
* Whether the Client can be maximized both horizontally and vertically.
* The property is evaluated each time it is invoked.
* Because of that there is no notify signal.
*/
Q_PROPERTY(bool maximizable READ isMaximizable)
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/**
* Whether the Client is moveable. Even if it is not moveable, it might be possible to move
* it to another screen. The property is evaluated each time it is invoked.
* Because of that there is no notify signal.
* @see moveableAcrossScreens
*/
Q_PROPERTY(bool moveable READ isMovable)
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/**
* Whether the Client can be moved to another screen. The property is evaluated each time it is invoked.
* Because of that there is no notify signal.
* @see moveable
*/
Q_PROPERTY(bool moveableAcrossScreens READ isMovableAcrossScreens)
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/**
* Whether the Client can be resized. The property is evaluated each time it is invoked.
* Because of that there is no notify signal.
*/
Q_PROPERTY(bool resizeable READ isResizable)
/**
* The desktop file name of the application this AbstractClient belongs to.
*
* This is either the base name without full path and without file extension of the
* desktop file for the window's application (e.g. "org.kde.foo").
*
* The application's desktop file name can also be the full path to the desktop file
* (e.g. "/opt/kde/share/org.kde.foo.desktop") in case it's not in a standard location.
*/
Q_PROPERTY(QByteArray desktopFileName READ desktopFileName NOTIFY desktopFileNameChanged)
/**
* Whether an application menu is available for this Client
*/
Q_PROPERTY(bool hasApplicationMenu READ hasApplicationMenu NOTIFY hasApplicationMenuChanged)
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/**
* Whether the application menu for this Client is currently opened
*/
Q_PROPERTY(bool applicationMenuActive READ applicationMenuActive NOTIFY applicationMenuActiveChanged)
/**
* Whether this client is unresponsive.
*
* When an application failed to react on a ping request in time, it is
* considered unresponsive. This usually indicates that the application froze or crashed.
*/
Q_PROPERTY(bool unresponsive READ unresponsive NOTIFY unresponsiveChanged)
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/**
* The color scheme set on this client
* Absolute file path, or name of palette in the user's config directory following KColorSchemes format.
* An empty string indicates the default palette from kdeglobals is used.
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* @note this indicates the colour scheme requested, which might differ from the theme applied if the colorScheme cannot be found
*/
Q_PROPERTY(QString colorScheme READ colorScheme NOTIFY colorSchemeChanged)
Q_PROPERTY(KWin::Layer layer READ layer)
public:
Run clang-tidy with modernize-use-override check Summary: Currently code base of kwin can be viewed as two pieces. One is very ancient, and the other one is more modern, which uses new C++ features. The main problem with the ancient code is that it was written before C++11 era. So, no override or final keywords, lambdas, etc. Quite recently, KDE compiler settings were changed to show a warning if a virtual method has missing override keyword. As you might have already guessed, this fired back at us because of that ancient code. We had about 500 new compiler warnings. A "solution" was proposed to that problem - disable -Wno-suggest-override and the other similar warning for clang. It's hard to call a solution because those warnings are disabled not only for the old code, but also for new. This is not what we want! The main argument for not actually fixing the problem was that git history will be screwed as well because of human factor. While good git history is a very important thing, we should not go crazy about it and block every change that somehow alters git history. git blame allows to specify starting revision for a reason. The other argument (human factor) can be easily solved by using tools such as clang-tidy. clang-tidy is a clang-based linter for C++. It can be used for various things, e.g. fixing coding style(e.g. add missing braces to if statements, readability-braces-around-statements check), or in our case add missing override keywords. Test Plan: Compiles. Reviewers: #kwin, davidedmundson Reviewed By: #kwin, davidedmundson Subscribers: davidedmundson, apol, romangg, kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D22371
2019-07-22 16:52:26 +00:00
~AbstractClient() override;
QWeakPointer<TabBox::TabBoxClientImpl> tabBoxClient() const {
return m_tabBoxClient.toWeakRef();
}
bool isFirstInTabBox() const {
return m_firstInTabBox;
}
bool skipSwitcher() const {
return m_skipSwitcher;
}
void setSkipSwitcher(bool set);
bool skipTaskbar() const {
return m_skipTaskbar;
}
void setSkipTaskbar(bool set);
void setOriginalSkipTaskbar(bool set);
bool originalSkipTaskbar() const {
return m_originalSkipTaskbar;
}
bool skipPager() const {
return m_skipPager;
}
void setSkipPager(bool set);
const QIcon &icon() const {
return m_icon;
}
bool isZombie() const;
bool isActive() const {
return m_active;
}
/**
* Sets the client's active state to \a act.
*
* This function does only change the visual appearance of the client,
* it does not change the focus setting. Use
* Workspace::activateClient() or Workspace::requestFocus() instead.
*
* If a client receives or looses the focus, it calls setActive() on
* its own.
*/
void setActive(bool);
bool keepAbove() const {
return m_keepAbove;
}
void setKeepAbove(bool);
bool keepBelow() const {
return m_keepBelow;
}
void setKeepBelow(bool);
void demandAttention(bool set = true);
bool isDemandingAttention() const {
return m_demandsAttention;
}
void cancelAutoRaise();
bool wantsTabFocus() const;
QMargins frameMargins() const override;
QPoint clientPos() const override {
return QPoint(borderLeft(), borderTop());
}
virtual void updateMouseGrab();
/**
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* @returns The caption consisting of captionNormal and captionSuffix
* @see captionNormal
* @see captionSuffix
*/
QString caption() const;
/**
* @returns The caption as set by the AbstractClient without any suffix.
* @see caption
* @see captionSuffix
*/
virtual QString captionNormal() const = 0;
/**
* @returns The suffix added to the caption (e.g. shortcut, machine name, etc.)
* @see caption
* @see captionNormal
*/
virtual QString captionSuffix() const = 0;
virtual bool isPlaceable() const;
virtual bool isCloseable() const = 0;
// TODO: remove boolean trap
virtual bool isShown(bool shaded_is_shown) const = 0;
virtual bool isHiddenInternal() const = 0;
// TODO: remove boolean trap
virtual void hideClient(bool hide) = 0;
virtual bool isFullScreenable() const;
virtual bool isFullScreen() const;
virtual bool isRequestedFullScreen() const;
// TODO: remove boolean trap
virtual AbstractClient *findModal(bool allow_itself = false) = 0;
virtual bool isTransient() const;
/**
* @returns Whether there is a hint available to place the AbstractClient on it's parent, default @c false.
* @see transientPlacementHint
*/
virtual bool hasTransientPlacementHint() const;
/**
* Only valid id hasTransientPlacementHint is true
* @returns The position the transient wishes to position itself
*/
virtual QRect transientPlacement(const QRect &bounds) const;
const AbstractClient* transientFor() const;
AbstractClient* transientFor();
/**
* @returns @c true if c is the transient_for window for this client,
* or recursively the transient_for window
* @todo: remove boolean trap
*/
virtual bool hasTransient(const AbstractClient* c, bool indirect) const;
const QList<AbstractClient*>& transients() const; // Is not indirect
virtual void addTransient(AbstractClient *client);
2015-09-14 09:27:56 +00:00
virtual void removeTransient(AbstractClient* cl);
virtual QList<AbstractClient*> mainClients() const; // Call once before loop , is not indirect
QList<AbstractClient*> allMainClients() const; // Call once before loop , is indirect
/**
* Returns true for "special" windows and false for windows which are "normal"
* (normal=window which has a border, can be moved by the user, can be closed, etc.)
* true for Desktop, Dock, Splash, Override and TopMenu (and Toolbar??? - for now)
* false for Normal, Dialog, Utility and Menu (and Toolbar??? - not yet) TODO
*/
bool isSpecialWindow() const;
void sendToScreen(int screen);
void updateGeometryRestoresForFullscreen(int screen);
const QKeySequence &shortcut() const {
return _shortcut;
}
void setShortcut(const QString &cut);
bool performMouseCommand(Options::MouseCommand, const QPoint &globalPos);
void setOnAllDesktops(bool set);
void setDesktop(int);
void enterDesktop(VirtualDesktop *desktop);
void leaveDesktop(VirtualDesktop *desktop);
/**
* Set the window as being on the attached list of desktops
* On X11 it will be set to the last entry
*/
void setDesktops(QVector<VirtualDesktop *> desktops);
int desktop() const override;
Run clang-tidy with modernize-use-override check Summary: Currently code base of kwin can be viewed as two pieces. One is very ancient, and the other one is more modern, which uses new C++ features. The main problem with the ancient code is that it was written before C++11 era. So, no override or final keywords, lambdas, etc. Quite recently, KDE compiler settings were changed to show a warning if a virtual method has missing override keyword. As you might have already guessed, this fired back at us because of that ancient code. We had about 500 new compiler warnings. A "solution" was proposed to that problem - disable -Wno-suggest-override and the other similar warning for clang. It's hard to call a solution because those warnings are disabled not only for the old code, but also for new. This is not what we want! The main argument for not actually fixing the problem was that git history will be screwed as well because of human factor. While good git history is a very important thing, we should not go crazy about it and block every change that somehow alters git history. git blame allows to specify starting revision for a reason. The other argument (human factor) can be easily solved by using tools such as clang-tidy. clang-tidy is a clang-based linter for C++. It can be used for various things, e.g. fixing coding style(e.g. add missing braces to if statements, readability-braces-around-statements check), or in our case add missing override keywords. Test Plan: Compiles. Reviewers: #kwin, davidedmundson Reviewed By: #kwin, davidedmundson Subscribers: davidedmundson, apol, romangg, kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D22371
2019-07-22 16:52:26 +00:00
QVector<VirtualDesktop *> desktops() const override {
return m_desktops;
}
QVector<uint> x11DesktopIds() const;
void setMinimized(bool set);
/**
* Minimizes this client plus its transients
*/
void minimize(bool avoid_animation = false);
void unminimize(bool avoid_animation = false);
bool isMinimized() const {
return m_minimized;
}
virtual void setFullScreen(bool set, bool user = true);
virtual void setClientShown(bool shown);
QRect geometryRestore() const;
virtual MaximizeMode maximizeMode() const;
virtual MaximizeMode requestedMaximizeMode() const;
void maximize(MaximizeMode);
/**
* Sets the maximization according to @p vertically and @p horizontally.
*/
Q_INVOKABLE void setMaximize(bool vertically, bool horizontally);
virtual bool noBorder() const;
virtual void setNoBorder(bool set);
QPalette palette() const;
const Decoration::DecorationPalette *decorationPalette() const;
/**
* Returns whether the window is resizable or has a fixed size.
*/
virtual bool isResizable() const = 0;
/**
* Returns whether the window is moveable or has a fixed position.
*/
virtual bool isMovable() const = 0;
/**
* Returns whether the window can be moved to another screen.
*/
virtual bool isMovableAcrossScreens() const = 0;
/**
* @c true only for @c ShadeNormal
*/
bool isShade() const override {
return shadeMode() == ShadeNormal;
}
ShadeMode shadeMode() const; // Prefer isShade()
void setShade(bool set);
void setShade(ShadeMode mode);
void toggleShade();
void cancelShadeHoverTimer();
/**
* Whether the Client can be shaded. Default implementation returns @c false.
*/
virtual bool isShadeable() const;
virtual bool isMaximizable() const;
virtual bool isMinimizable() const;
virtual QRect iconGeometry() const;
virtual bool userCanSetFullScreen() const;
virtual bool userCanSetNoBorder() const;
virtual void checkNoBorder();
QStringList activities() const override;
void setOnActivity(const QString &activity, bool enable);
void setOnActivities(const QStringList &newActivitiesList);
void setOnAllActivities(bool all);
virtual void updateActivities(bool includeTransients);
void blockActivityUpdates(bool b = true);
const WindowRules* rules() const {
return &m_rules;
}
void removeRule(Rules* r);
void setupWindowRules(bool ignore_temporary);
void evaluateWindowRules();
virtual void applyWindowRules();
virtual bool takeFocus() = 0;
virtual bool wantsInput() const = 0;
/**
* Whether a dock window wants input.
*
* By default KWin doesn't pass focus to a dock window unless a force activate
* request is provided.
*
* This method allows to have dock windows take focus also through flags set on
* the window.
*
* The default implementation returns @c false.
*/
virtual bool dockWantsInput() const;
void checkWorkspacePosition(QRect oldGeometry = QRect(), int oldDesktop = -2, QRect oldClientGeometry = QRect());
virtual xcb_timestamp_t userTime() const;
virtual void updateWindowRules(Rules::Types selection);
void growHorizontal();
void shrinkHorizontal();
void growVertical();
void shrinkVertical();
void updateInteractiveMoveResize(const QPointF &currentGlobalCursor);
/**
* Ends move resize when all pointer buttons are up again.
*/
void endInteractiveMoveResize();
void keyPressEvent(uint key_code);
void enterEvent(const QPoint &globalPos);
void leaveEvent();
/**
* These values represent positions inside an area
*/
enum Position {
// without prefix, they'd conflict with Qt::TopLeftCorner etc. :(
PositionCenter = 0x00,
PositionLeft = 0x01,
PositionRight = 0x02,
PositionTop = 0x04,
PositionBottom = 0x08,
PositionTopLeft = PositionLeft | PositionTop,
PositionTopRight = PositionRight | PositionTop,
PositionBottomLeft = PositionLeft | PositionBottom,
PositionBottomRight = PositionRight | PositionBottom
};
Position titlebarPosition() const;
bool titlebarPositionUnderMouse() const;
// a helper for the workspace window packing. tests for screen validity and updates since in maximization case as with normal moving
void packTo(int left, int top);
/**
* Sets the quick tile mode ("snap") of this window.
* This will also handle preserving and restoring of window geometry as necessary.
* @param mode The tile mode (left/right) to give this window.
2019-01-13 07:22:11 +00:00
* @param keyboard Defines whether to take keyboard cursor into account.
*/
void setQuickTileMode(QuickTileMode mode, bool keyboard = false);
QuickTileMode quickTileMode() const {
return QuickTileMode(m_quickTileMode);
}
Layer layer() const override;
void updateLayer();
void placeIn(const QRect &area);
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
void move(const QPoint &point);
void resize(const QSize &size);
void moveResize(const QRect &rect);
virtual void resizeWithChecks(const QSize& s) = 0;
2015-05-27 09:51:45 +00:00
void keepInArea(QRect area, bool partial = false);
virtual QSize minSize() const;
virtual QSize maxSize() const;
/**
* How to resize the window in order to obey constraints (mainly aspect ratios).
*/
enum SizeMode {
SizeModeAny,
SizeModeFixedW, ///< Try not to affect width
SizeModeFixedH, ///< Try not to affect height
SizeModeMax ///< Try not to make it larger in either direction
};
virtual QSize constrainClientSize(const QSize &size, SizeMode mode = SizeModeAny) const;
QSize constrainFrameSize(const QSize &size, SizeMode mode = SizeModeAny) const;
QSize adjustedSize() const;
[x11] Add support for _GTK_FRAME_EXTENTS Summary: KDE is known for having a strong view on the client-side decorations vs server-side decorations issue. The main argument raised against CSD is that desktop will look less consistent when clients start drawing window decorations by themselves, which is somewhat true. It all ties to how well each toolkit is integrated with the desktop environment. KDE doesn't control the desktop market on Linux. Another big "player" is GNOME. Both KDE and GNOME have very polarized views on in which direction desktop should move forward. The KDE community is pushing more toward server-side decorations while the GNOME community is pushing more toward client-side decorations. Both communities have developed great applications and it's not rare to see a GNOME application being used in KDE Plasma. The only problem is that these different views are not left behind the curtain and our users pay the price. Resizing GTK clients in Plasma became practically impossible due to resize borders having small hit area. When a client draws its window decoration, it's more likely that it also draws the drop-shadow around the decoration. The compositor must know the extents of the shadow so things like snapping and so on work as expected. And here lies the problem... While the xdg-shell protocol has a way to specify such things, the NetWM spec doesn't have anything like that. There's _GTK_FRAME_EXTENTS in the wild, however the problem with it is that it's a proprietary atom, which is specific only to GTK apps. Due to that, _GTK_FRAME_EXTENTS wasn't implemented because implementing anything like that would require major changes in how we think about geometry. Recent xdg-shell window geometry patches adjusted geometry abstractions in kwin to such a degree that it's very easy to add support for client side decorated clients on X11. We just have to make sure that the X11Client class provides correct buffer geometry and frame geometry when the gtk frame extents are set. Even though the X11 code is feature frozen, I still think it's worth to have _GTK_FRAME_EXTENTS support in kwin because it will fix the resize issues. Also, because KWin/Wayland is unfortunately far from becoming default, it will help us with testing some implementation bits of the window geometry from xdg-shell. BUG: 390550 FIXED-IN: 5.18.0 Test Plan: Things like quick tiling, maximizing, tiling scripts and so on work as expected with GTK clients. Reviewers: #kwin, davidedmundson Reviewed By: #kwin, davidedmundson Subscribers: cblack, trmdi, kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D24660
2019-10-08 08:46:59 +00:00
/**
* Calculates the matching client position for the given frame position @p point.
*/
virtual QPoint framePosToClientPos(const QPoint &point) const;
/**
* Calculates the matching frame position for the given client position @p point.
*/
virtual QPoint clientPosToFramePos(const QPoint &point) const;
/**
* Calculates the matching client size for the given frame size @p size.
*
* Notice that size constraints won't be applied.
*
* Default implementation returns the frame size with frame margins being excluded.
*/
virtual QSize frameSizeToClientSize(const QSize &size) const;
/**
* Calculates the matching frame size for the given client size @p size.
*
* Notice that size constraints won't be applied.
*
* Default implementation returns the client size with frame margins being included.
*/
virtual QSize clientSizeToFrameSize(const QSize &size) const;
/**
* Calculates the matching client rect for the given frame rect @p rect.
*
* Notice that size constraints won't be applied.
*/
QRect frameRectToClientRect(const QRect &rect) const;
/**
* Calculates the matching frame rect for the given client rect @p rect.
*
* Notice that size constraints won't be applied.
*/
QRect clientRectToFrameRect(const QRect &rect) const;
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
/**
* Returns the last requested geometry. The returned value indicates the bounding
* geometry, meaning that the client can commit smaller window geometry if the window
* is resized.
*
* The main difference between the frame geometry and the move-resize geometry is
* that the former specifies the current geometry while the latter specifies the next
* geometry.
*/
QRect moveResizeGeometry() const;
/**
* Returns @c true if the Client is being interactively moved; otherwise @c false.
*/
bool isInteractiveMove() const {
return isInteractiveMoveResize() && interactiveMoveResizePointerMode() == PositionCenter;
}
/**
* Returns @c true if the Client is being interactively resized; otherwise @c false.
*/
bool isInteractiveResize() const {
return isInteractiveMoveResize() && interactiveMoveResizePointerMode() != PositionCenter;
}
/**
* Cursor shape for move/resize mode.
*/
CursorShape cursor() const {
return m_interactiveMoveResize.cursor;
}
2020-08-17 13:14:20 +00:00
virtual StrutRect strutRect(StrutArea area) const;
StrutRects strutRects() const;
virtual bool hasStrut() const;
void setModal(bool modal);
bool isModal() const;
/**
* Determines the mouse command for the given @p button in the current state.
*
* The @p handled argument specifies whether the button was handled or not.
* This value should be used to determine whether the mouse button should be
* passed to the AbstractClient or being filtered out.
*/
Options::MouseCommand getMouseCommand(Qt::MouseButton button, bool *handled) const;
Options::MouseCommand getWheelCommand(Qt::Orientation orientation, bool *handled) const;
// decoration related
KDecoration2::Decoration *decoration() {
return m_decoration.decoration;
}
const KDecoration2::Decoration *decoration() const {
return m_decoration.decoration;
}
bool isDecorated() const {
return m_decoration.decoration != nullptr;
}
QPointer<Decoration::DecoratedClientImpl> decoratedClient() const;
void setDecoratedClient(QPointer<Decoration::DecoratedClientImpl> client);
bool decorationHasAlpha() const;
void triggerDecorationRepaint();
void layoutDecorationRects(QRect &left, QRect &top, QRect &right, QRect &bottom) const;
void processDecorationMove(const QPoint &localPos, const QPoint &globalPos);
bool processDecorationButtonPress(QMouseEvent *event, bool ignoreMenu = false);
void processDecorationButtonRelease(QMouseEvent *event);
bool wantsShadowToBeRendered() const override;
/**
* TODO: fix boolean traps
*/
virtual void updateDecoration(bool check_workspace_pos, bool force = false);
/**
* Returns whether the window provides context help or not. If it does,
* you should show a help menu item or a help button like '?' and call
* contextHelp() if this is invoked.
*
* Default implementation returns @c false.
* @see showContextHelp;
*/
virtual bool providesContextHelp() const;
/**
* Invokes context help on the window. Only works if the window
* actually provides context help.
*
* Default implementation does nothing.
*
* @see providesContextHelp()
*/
virtual void showContextHelp();
QRect inputGeometry() const override;
bool hitTest(const QPoint &point) const override;
/**
* @returns the geometry of the virtual keyboard
* This geometry is in global coordinates
*/
QRect virtualKeyboardGeometry() const;
/**
* Sets the geometry of the virtual keyboard, The window may resize itself in order to make space for the keybaord
* This geometry is in global coordinates
*/
virtual void setVirtualKeyboardGeometry(const QRect &geo);
/**
* Restores the AbstractClient after it had been hidden due to show on screen edge functionality.
* The AbstractClient also gets raised (e.g. Panel mode windows can cover) and the AbstractClient
* gets informed in a window specific way that it is shown and raised again.
*/
virtual void showOnScreenEdge();
QByteArray desktopFileName() const {
return m_desktopFileName;
}
/**
* Tries to terminate the process of this AbstractClient.
*
* Implementing subclasses can perform a windowing system solution for terminating.
*/
virtual void killWindow() = 0;
virtual void destroyClient() = 0;
Allow a cross-process check for same applications Summary: Commit 5d9027b110 introduced a regression in TabBox by using the generic framework inside KWin to test for same application. What I did not consider was that the code in TabBox was "broken by design". It didn't use the generic check as that is too strict and considers windows from different processes as not belonging to the same application. But this is not wanted in the case of TabBox. On the other hand the change itself is an improvement to also support Wayland in a better way and not have special handling situations. Thus just reverting would not help. Instead this change addresses the problem by extending the internal API and to allow more adjustements. So far there was already an "active_hack" boolean flag. This is extended to proper flags with an additional flag to allow cross application checks. The checks in Client which would filter out different applications check for this flag and are skipped if set. In addition ShellClient also adds support for this flag and compares for the desktop file name. Thus we get in TabBox the same behavior as before with the advantage of having a better shared code base working on both X11 and Wayland. BUG: 386043 FIXED-IN: 5.11.4 Test Plan: Started two kwrite processes on X11, clicked new in one of them, used Alt+` and verified that there are three windows shown. Reviewers: #kwin, #plasma Subscribers: plasma-devel, kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D8661
2017-11-05 09:10:17 +00:00
enum class SameApplicationCheck {
RelaxedForActive = 1 << 0,
AllowCrossProcesses = 1 << 1
};
Q_DECLARE_FLAGS(SameApplicationChecks, SameApplicationCheck)
static bool belongToSameApplication(const AbstractClient* c1, const AbstractClient* c2, SameApplicationChecks checks = SameApplicationChecks());
bool hasApplicationMenu() const;
bool applicationMenuActive() const {
return m_applicationMenuActive;
}
void setApplicationMenuActive(bool applicationMenuActive);
QString applicationMenuServiceName() const {
return m_applicationMenuServiceName;
}
QString applicationMenuObjectPath() const {
return m_applicationMenuObjectPath;
}
virtual QString preferredColorScheme() const;
QString colorScheme() const;
void setColorScheme(const QString &colorScheme);
/**
* Request showing the application menu bar
* @param actionId The DBus menu ID of the action that should be highlighted, 0 for the root menu
*/
void showApplicationMenu(int actionId);
bool unresponsive() const;
/**
* Default implementation returns @c null.
* Mostly intended for X11 clients, from EWMH:
2019-01-13 07:22:11 +00:00
* @verbatim
* If the WM_TRANSIENT_FOR property is set to None or Root window, the window should be
* treated as a transient for all other windows in the same group. It has been noted that this
* is a slight ICCCM violation, but as this behavior is pretty standard for many toolkits and
* window managers, and is extremely unlikely to break anything, it seems reasonable to document
* it as standard.
2019-01-13 07:22:11 +00:00
* @endverbatim
*/
virtual bool groupTransient() const;
/**
* Default implementation returns @c null.
*
* Mostly for X11 clients, holds the client group
*/
virtual const Group *group() const;
/**
* Default implementation returns @c null.
*
* Mostly for X11 clients, holds the client group
*/
virtual Group *group();
/**
* Returns whether this is an internal client.
*
* Internal clients are created by KWin and used for special purpose windows,
* like the task switcher, etc.
*
* Default implementation returns @c false.
*/
virtual bool isInternal() const;
/**
* Returns whether window rules can be applied to this client.
*
* Default implementation returns @c false.
*/
virtual bool supportsWindowRules() const;
/**
* Return window management interface
*/
KWaylandServer::PlasmaWindowInterface *windowManagementInterface() const {
return m_windowManagementInterface;
}
QRect fullscreenGeometryRestore() const;
/**
* Helper function to compute the icon out of an application id defined by @p fileName
*
* @returns an icon name that can be used with QIcon::fromTheme()
*/
static QString iconFromDesktopFile(const QString &fileName);
public Q_SLOTS:
virtual void closeWindow() = 0;
Q_SIGNALS:
void fullScreenChanged();
void skipTaskbarChanged();
void skipPagerChanged();
void skipSwitcherChanged();
void iconChanged();
void activeChanged();
void keepAboveChanged(bool);
void keepBelowChanged(bool);
/**
* Emitted whenever the demands attention state changes.
*/
void demandsAttentionChanged();
void desktopPresenceChanged(KWin::AbstractClient*, int); // to be forwarded by Workspace
void desktopChanged();
void activitiesChanged(KWin::AbstractClient* client);
void x11DesktopIdsChanged();
void minimizedChanged();
void clientMinimized(KWin::AbstractClient* client, bool animate);
void clientUnminimized(KWin::AbstractClient* client, bool animate);
void paletteChanged(const QPalette &p);
void colorSchemeChanged();
void captionChanged();
void clientMaximizedStateChanged(KWin::AbstractClient*, MaximizeMode);
void clientMaximizedStateChanged(KWin::AbstractClient* c, bool h, bool v);
void transientChanged();
void modalChanged();
void quickTileModeChanged();
void moveResizedChanged();
void moveResizeCursorChanged(CursorShape);
void clientStartUserMovedResized(KWin::AbstractClient*);
void clientStepUserMovedResized(KWin::AbstractClient *, const QRect&);
void clientFinishUserMovedResized(KWin::AbstractClient*);
void closeableChanged(bool);
void minimizeableChanged(bool);
void shadeableChanged(bool);
void maximizeableChanged(bool);
void desktopFileNameChanged();
void applicationMenuChanged();
void hasApplicationMenuChanged(bool);
void applicationMenuActiveChanged(bool);
void unresponsiveChanged(bool);
void decorationChanged();
protected:
AbstractClient();
void setFirstInTabBox(bool enable) {
m_firstInTabBox = enable;
}
void setIcon(const QIcon &icon);
void startAutoRaise();
void autoRaise();
bool isMostRecentlyRaised() const;
void markAsZombie();
/**
* Whether the window accepts focus.
* The difference to wantsInput is that the implementation should not check rules and return
* what the window effectively supports.
*/
virtual bool acceptsFocus() const = 0;
/**
2019-01-11 13:36:17 +00:00
* Called from setActive once the active value got updated, but before the changed signal
* is emitted.
*
* Default implementation does nothing.
*/
virtual void doSetActive();
/**
2019-01-11 13:36:17 +00:00
* Called from setKeepAbove once the keepBelow value got updated, but before the changed signal
* is emitted.
*
* Default implementation does nothing.
*/
virtual void doSetKeepAbove();
/**
2019-01-11 13:36:17 +00:00
* Called from setKeepBelow once the keepBelow value got updated, but before the changed signal
* is emitted.
*
* Default implementation does nothing.
*/
virtual void doSetKeepBelow();
/**
* Called from setShade() once the shadeMode value got updated, but before the changed signal
* is emitted.
*
* Default implementation does nothing.
*/
virtual void doSetShade(ShadeMode previousShadeMode);
/**
2019-01-11 13:36:17 +00:00
* Called from setDeskop once the desktop value got updated, but before the changed signal
* is emitted.
*
* Default implementation does nothing.
*/
virtual void doSetDesktop();
/**
* Called from @ref setOnActivities just after the activity list member has been updated, but before
* @ref updateActivities is called.
*
* @param activityList the new list of activities set on that client
*
* Default implementation does nothing
*/
virtual void doSetOnActivities(const QStringList &activityList);
/**
2019-01-11 13:36:17 +00:00
* Called from @ref minimize and @ref unminimize once the minimized value got updated, but before the
* changed signal is emitted.
*
* Default implementation does nothig.
*/
virtual void doMinimize();
Allow a cross-process check for same applications Summary: Commit 5d9027b110 introduced a regression in TabBox by using the generic framework inside KWin to test for same application. What I did not consider was that the code in TabBox was "broken by design". It didn't use the generic check as that is too strict and considers windows from different processes as not belonging to the same application. But this is not wanted in the case of TabBox. On the other hand the change itself is an improvement to also support Wayland in a better way and not have special handling situations. Thus just reverting would not help. Instead this change addresses the problem by extending the internal API and to allow more adjustements. So far there was already an "active_hack" boolean flag. This is extended to proper flags with an additional flag to allow cross application checks. The checks in Client which would filter out different applications check for this flag and are skipped if set. In addition ShellClient also adds support for this flag and compares for the desktop file name. Thus we get in TabBox the same behavior as before with the advantage of having a better shared code base working on both X11 and Wayland. BUG: 386043 FIXED-IN: 5.11.4 Test Plan: Started two kwrite processes on X11, clicked new in one of them, used Alt+` and verified that there are three windows shown. Reviewers: #kwin, #plasma Subscribers: plasma-devel, kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D8661
2017-11-05 09:10:17 +00:00
virtual bool belongsToSameApplication(const AbstractClient *other, SameApplicationChecks checks) const = 0;
virtual void doSetSkipTaskbar();
virtual void doSetSkipPager();
virtual void doSetSkipSwitcher();
virtual void doSetDemandsAttention();
virtual void doSetQuickTileMode();
void setupWindowManagementInterface();
void updateColorScheme();
void setTransientFor(AbstractClient *transientFor);
/**
* Just removes the @p cl from the transients without any further checks.
*/
void removeTransientFromList(AbstractClient* cl);
virtual Layer belongsToLayer() const;
virtual bool belongsToDesktop() const;
void invalidateLayer();
bool isActiveFullScreen() const;
virtual Layer layerForDock() const;
// electric border / quick tiling
void setElectricBorderMode(QuickTileMode mode);
QuickTileMode electricBorderMode() const {
return m_electricMode;
}
void setElectricBorderMaximizing(bool maximizing);
bool isElectricBorderMaximizing() const {
return m_electricMaximizing;
}
QRect electricBorderMaximizeGeometry(QPoint pos, int desktop);
void updateQuickTileMode(QuickTileMode newMode) {
m_quickTileMode = newMode;
}
// geometry handling
void checkOffscreenPosition(QRect *geom, const QRect &screenArea);
int borderLeft() const;
int borderRight() const;
int borderTop() const;
int borderBottom() const;
virtual void changeMaximize(bool horizontal, bool vertical, bool adjust);
void setGeometryRestore(const QRect &rect);
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
void blockGeometryUpdates(bool block);
void blockGeometryUpdates();
void unblockGeometryUpdates();
bool areGeometryUpdatesBlocked() const;
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
enum class MoveResizeMode : uint {
None,
Move = 0x1,
Resize = 0x2,
MoveResize = Move | Resize,
};
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
MoveResizeMode pendingMoveResizeMode() const;
void setPendingMoveResizeMode(MoveResizeMode mode);
virtual void moveResizeInternal(const QRect &rect, MoveResizeMode mode) = 0;
/**
* @returns whether the Client is currently in move resize mode
*/
bool isInteractiveMoveResize() const {
return m_interactiveMoveResize.enabled;
}
/**
* Sets whether the Client is in move resize mode to @p enabled.
*/
void setInteractiveMoveResize(bool enabled) {
m_interactiveMoveResize.enabled = enabled;
}
/**
* @returns whether the move resize mode is unrestricted.
*/
bool isUnrestrictedInteractiveMoveResize() const {
return m_interactiveMoveResize.unrestricted;
}
/**
* Sets whether move resize mode is unrestricted to @p set.
*/
void setUnrestrictedInteractiveMoveResize(bool set) {
m_interactiveMoveResize.unrestricted = set;
}
QPoint interactiveMoveOffset() const {
return m_interactiveMoveResize.offset;
}
void setInteractiveMoveOffset(const QPoint &offset) {
m_interactiveMoveResize.offset = offset;
}
QPoint invertedInteractiveMoveOffset() const {
return m_interactiveMoveResize.invertedOffset;
}
void setInvertedInteractiveMoveOffset(const QPoint &offset) {
m_interactiveMoveResize.invertedOffset = offset;
}
QRect initialInteractiveMoveResizeGeometry() const {
return m_interactiveMoveResize.initialGeometry;
}
/**
* Sets the initial move resize geometry to the current geometry.
*/
void updateInitialMoveResizeGeometry();
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
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void setMoveResizeGeometry(const QRect &geo);
Position interactiveMoveResizePointerMode() const {
return m_interactiveMoveResize.pointer;
}
void setInteractiveMoveResizePointerMode(Position mode) {
m_interactiveMoveResize.pointer = mode;
}
bool isInteractiveMoveResizePointerButtonDown() const {
return m_interactiveMoveResize.buttonDown;
}
void setInteractiveMoveResizePointerButtonDown(bool down) {
m_interactiveMoveResize.buttonDown = down;
}
int interactiveMoveResizeStartScreen() const {
return m_interactiveMoveResize.startScreen;
}
void checkUnrestrictedInteractiveMoveResize();
/**
* Sets an appropriate cursor shape for the logical mouse position.
*/
void updateCursor();
void startDelayedInteractiveMoveResize();
void stopDelayedInteractiveMoveResize();
bool startInteractiveMoveResize();
/**
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* Called from startMoveResize.
*
* Implementing classes should return @c false if starting move resize should
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* get aborted. In that case startMoveResize will also return @c false.
*
* Base implementation returns @c true.
*/
virtual bool doStartInteractiveMoveResize();
virtual void doFinishInteractiveMoveResize();
void finishInteractiveMoveResize(bool cancel);
/**
* Leaves the move resize mode.
*
* Inheriting classes must invoke the base implementation which
* ensures that the internal mode is properly ended.
*/
virtual void leaveInteractiveMoveResize();
virtual void positionGeometryTip();
void performInteractiveMoveResize();
/*
* Checks if the mouse cursor is near the edge of the screen and if so
* activates quick tiling or maximization
*/
void checkQuickTilingMaximizationZones(int xroot, int yroot);
/**
* Whether a sync request is still pending.
* Default implementation returns @c false.
*/
virtual bool isWaitingForInteractiveMoveResizeSync() const;
/**
* Called during handling a resize. Implementing subclasses can use this
* method to perform windowing system specific syncing.
*
* Default implementation does nothing.
*/
virtual void doInteractiveResizeSync();
void handleInteractiveMoveResize(int x, int y, int x_root, int y_root);
void handleInteractiveMoveResize(const QPoint &local, const QPoint &global);
void dontInteractiveMoveResize();
virtual QSize resizeIncrements() const;
/**
* Returns the position depending on the Decoration's section under mouse.
* If no decoration it returns PositionCenter.
*/
Position mousePosition() const;
static bool haveResizeEffect() {
return s_haveResizeEffect;
}
static void updateHaveResizeEffect();
static void resetHaveResizeEffect() {
s_haveResizeEffect = false;
}
void setDecoration(KDecoration2::Decoration *decoration);
virtual void createDecoration(const QRect &oldGeometry);
virtual void destroyDecoration();
void startDecorationDoubleClickTimer();
void invalidateDecorationDoubleClickTimer();
void updateDecorationInputShape();
void setDesktopFileName(QByteArray name);
QString iconFromDesktopFile() const;
void updateApplicationMenuServiceName(const QString &serviceName);
void updateApplicationMenuObjectPath(const QString &objectPath);
void setUnresponsive(bool unresponsive);
virtual void setShortcutInternal();
QString shortcutCaptionSuffix() const;
virtual void updateCaption() = 0;
/**
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* Looks for another AbstractClient with same captionNormal and captionSuffix.
* If no such AbstractClient exists @c nullptr is returned.
*/
AbstractClient *findClientWithSameCaption() const;
void finishWindowRules();
void discardTemporaryRules();
bool tabTo(AbstractClient *other, bool behind, bool activate);
void startShadeHoverTimer();
void startShadeUnhoverTimer();
// The geometry that the client should be restored when the virtual keyboard closes
QRect keyboardGeometryRestore() const;
void setKeyboardGeometryRestore(const QRect &geom);
QRect m_virtualKeyboardGeometry;
void setFullscreenGeometryRestore(const QRect &geom);
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void cleanTabBox();
private Q_SLOTS:
void shadeHover();
void shadeUnhover();
private:
void handlePaletteChange();
QSharedPointer<TabBox::TabBoxClientImpl> m_tabBoxClient;
bool m_firstInTabBox = false;
bool m_skipTaskbar = false;
/**
* Unaffected by KWin
*/
bool m_originalSkipTaskbar = false;
bool m_skipPager = false;
bool m_skipSwitcher = false;
QIcon m_icon;
bool m_active = false;
bool m_zombie = false;
bool m_keepAbove = false;
bool m_keepBelow = false;
bool m_demandsAttention = false;
bool m_minimized = false;
QTimer *m_autoRaiseTimer = nullptr;
QTimer *m_shadeHoverTimer = nullptr;
ShadeMode m_shadeMode = ShadeNone;
QVector <VirtualDesktop *> m_desktops;
QStringList m_activityList;
int m_activityUpdatesBlocked = 0;
bool m_blockedActivityUpdatesRequireTransients = false;
QString m_colorScheme;
std::shared_ptr<Decoration::DecorationPalette> m_palette;
static QHash<QString, std::weak_ptr<Decoration::DecorationPalette>> s_palettes;
static std::shared_ptr<Decoration::DecorationPalette> s_defaultPalette;
KWaylandServer::PlasmaWindowInterface *m_windowManagementInterface = nullptr;
AbstractClient *m_transientFor = nullptr;
QList<AbstractClient*> m_transients;
bool m_modal = false;
Layer m_layer = UnknownLayer;
// electric border/quick tiling
QuickTileMode m_electricMode = QuickTileFlag::None;
bool m_electricMaximizing = false;
// The quick tile mode of this window.
int m_quickTileMode = int(QuickTileFlag::None);
QTimer *m_electricMaximizingDelay = nullptr;
// geometry
int m_blockGeometryUpdates = 0; // > 0 = New geometry is remembered, but not actually set
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
MoveResizeMode m_pendingMoveResizeMode = MoveResizeMode::None;
friend class GeometryUpdatesBlocker;
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
QRect m_moveResizeGeometry;
QRect m_keyboardGeometryRestore;
QRect m_maximizeGeometryRestore;
QRect m_fullscreenGeometryRestore;
struct {
bool enabled = false;
bool unrestricted = false;
QPoint offset;
QPoint invertedOffset;
QRect initialGeometry;
Position pointer = PositionCenter;
bool buttonDown = false;
CursorShape cursor = Qt::ArrowCursor;
int startScreen = 0;
QTimer *delayedTimer = nullptr;
} m_interactiveMoveResize;
struct {
KDecoration2::Decoration *decoration = nullptr;
QPointer<Decoration::DecoratedClientImpl> client;
QElapsedTimer doubleClickTimer;
QRegion inputRegion;
} m_decoration;
QByteArray m_desktopFileName;
bool m_applicationMenuActive = false;
QString m_applicationMenuServiceName;
QString m_applicationMenuObjectPath;
bool m_unresponsive = false;
QKeySequence _shortcut;
WindowRules m_rules;
static bool s_haveResizeEffect;
};
/**
* Helper for AbstractClient::blockGeometryUpdates() being called in pairs (true/false)
*/
class GeometryUpdatesBlocker
{
public:
explicit GeometryUpdatesBlocker(AbstractClient* c)
: cl(c) {
cl->blockGeometryUpdates(true);
}
~GeometryUpdatesBlocker() {
cl->blockGeometryUpdates(false);
}
private:
AbstractClient* cl;
};
inline const QList<AbstractClient*>& AbstractClient::transients() const
{
return m_transients;
}
inline bool AbstractClient::areGeometryUpdatesBlocked() const
{
return m_blockGeometryUpdates != 0;
}
inline void AbstractClient::blockGeometryUpdates()
{
m_blockGeometryUpdates++;
}
inline void AbstractClient::unblockGeometryUpdates()
{
m_blockGeometryUpdates--;
}
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
inline AbstractClient::MoveResizeMode AbstractClient::pendingMoveResizeMode() const
{
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
return m_pendingMoveResizeMode;
}
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
inline void AbstractClient::setPendingMoveResizeMode(MoveResizeMode mode)
{
Rework async geometry updates Window management features were written with synchronous geometry updates in mind. Currently, this poses a big problem on Wayland because geometry updates are done in asynchronous fashion there. At the moment, geometry is updated in a so called pseudo-asynchronous fashion, meaning that the frame geometry will be reset to the old value once geometry updates are unblocked. The main drawback of this approach is that it is too error prone, the data flow is hard to comprehend, etc. It is worth noting that there is already a machinery to perform async geometry which is used during interactive move/resize operations. This change extends the move/resize geometry usage beyond interactive move/resize to make asynchronous geometry updates less error prone and easier to comprehend. With the proposed solution, all geometry updates must be done on the move/resize geometry first. After that, the new geometry is passed on to the Client-specific implementation of moveResizeInternal(). To be more specific, the frameGeometry() returns the current frame geometry, it is primarily useful only to the scene. If you want to move or resize a window, you need to use moveResizeGeometry() because it corresponds to the last requested frame geometry. It is worth noting that the moveResizeGeometry() returns the desired bounding geometry. The client may commit the xdg_toplevel surface with a slightly smaller window geometry, for example to enforce a specific aspect ratio. The client is not allowed to resize beyond the size as indicated in moveResizeGeometry(). The data flow is very simple: moveResize() updates the move/resize geometry and calls the client-specific implementation of the moveResizeInternal() method. Based on whether a configure event is needed, moveResizeInternal() will update the frameGeometry() either immediately or after the client commits a new buffer. Unfortunately, both the compositor and xdg-shell clients try to update the window geometry. It means that it's possible to have conflicts between the two. With this change, the compositor's move resize geometry will be synced only if there are no pending configure events, meaning that the user doesn't try to resize the window.
2021-04-30 18:26:09 +00:00
m_pendingMoveResizeMode = MoveResizeMode(uint(m_pendingMoveResizeMode) | uint(mode));
}
}
Q_DECLARE_METATYPE(KWin::AbstractClient*)
Q_DECLARE_METATYPE(QList<KWin::AbstractClient*>)
Allow a cross-process check for same applications Summary: Commit 5d9027b110 introduced a regression in TabBox by using the generic framework inside KWin to test for same application. What I did not consider was that the code in TabBox was "broken by design". It didn't use the generic check as that is too strict and considers windows from different processes as not belonging to the same application. But this is not wanted in the case of TabBox. On the other hand the change itself is an improvement to also support Wayland in a better way and not have special handling situations. Thus just reverting would not help. Instead this change addresses the problem by extending the internal API and to allow more adjustements. So far there was already an "active_hack" boolean flag. This is extended to proper flags with an additional flag to allow cross application checks. The checks in Client which would filter out different applications check for this flag and are skipped if set. In addition ShellClient also adds support for this flag and compares for the desktop file name. Thus we get in TabBox the same behavior as before with the advantage of having a better shared code base working on both X11 and Wayland. BUG: 386043 FIXED-IN: 5.11.4 Test Plan: Started two kwrite processes on X11, clicked new in one of them, used Alt+` and verified that there are three windows shown. Reviewers: #kwin, #plasma Subscribers: plasma-devel, kwin Tags: #kwin Differential Revision: https://phabricator.kde.org/D8661
2017-11-05 09:10:17 +00:00
Q_DECLARE_OPERATORS_FOR_FLAGS(KWin::AbstractClient::SameApplicationChecks)
#endif