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kwin/libkwineffects/kwineffects.cpp
Martin Gräßlin 2545162f87 Support highlighting windows through EffectsHandlerImpl 
Summary:
So far TabBox used highlight windows by passing window ids around through
an X property. This doesn't work on Wayland where we don't have window
ids for our TabBox and the Wayland windows.

This change introduces a new Effect::Feature for HighlightWindows which
the HighlightWindowsEffect provides. The EffectsHandlerImpl has a new
method to highlightWindows which it delegates to that effect if it is
loaded by invoking a new performFeature method.

The TabBoxHandler now passes the highlighting to the effects system
instead of updating the x11 property. Thus this works on Wayland and
at the same time improves the X11 side by no longer having to go through
the property protocol.

Test Plan: Verified that Alt+Tab highlights the windows on Wayland correctly.

Reviewers: #kwin, #plasma_on_wayland

Subscribers: plasma-devel, kwin

Tags: #plasma_on_wayland, #kwin

Differential Revision: https://phabricator.kde.org/D2630
2016-09-13 08:36:12 +02:00

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/********************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 2006 Lubos Lunak <l.lunak@kde.org>
Copyright (C) 2009 Lucas Murray <lmurray@undefinedfire.com>
This program 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.
This program 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 "kwineffects.h"
#include "config-kwin.h"
#ifdef KWIN_HAVE_XRENDER_COMPOSITING
#include "kwinxrenderutils.h"
#endif
#include <qmath.h>
#include <QVariant>
#include <QList>
#include <QTimeLine>
#include <QtGui/QFontMetrics>
#include <QtGui/QPainter>
#include <QtGui/QPixmap>
#include <QtGui/QVector2D>
#include <QGraphicsRotation>
#include <QGraphicsScale>
#include <ksharedconfig.h>
#include <kconfiggroup.h>
#include <assert.h>
#include <KWayland/Server/surface_interface.h>
#ifdef KWIN_HAVE_XRENDER_COMPOSITING
#include <xcb/xfixes.h>
#endif
#if defined(__GNUC__)
# define KWIN_ALIGN(n) __attribute((aligned(n)))
# if defined(__SSE2__)
# define HAVE_SSE2
# endif
#elif defined(__INTEL_COMPILER)
# define KWIN_ALIGN(n) __declspec(align(n))
# define HAVE_SSE2
#else
# define KWIN_ALIGN(n)
#endif
#ifdef HAVE_SSE2
# include <emmintrin.h>
#endif
namespace KWin
{
void WindowPrePaintData::setTranslucent()
{
mask |= Effect::PAINT_WINDOW_TRANSLUCENT;
mask &= ~Effect::PAINT_WINDOW_OPAQUE;
clip = QRegion(); // cannot clip, will be transparent
}
void WindowPrePaintData::setTransformed()
{
mask |= Effect::PAINT_WINDOW_TRANSFORMED;
}
class PaintDataPrivate {
public:
QGraphicsScale scale;
QVector3D translation;
QGraphicsRotation rotation;
};
PaintData::PaintData()
: d(new PaintDataPrivate())
{
}
PaintData::~PaintData()
{
delete d;
}
qreal PaintData::xScale() const
{
return d->scale.xScale();
}
qreal PaintData::yScale() const
{
return d->scale.yScale();
}
qreal PaintData::zScale() const
{
return d->scale.zScale();
}
void PaintData::setScale(const QVector2D &scale)
{
d->scale.setXScale(scale.x());
d->scale.setYScale(scale.y());
}
void PaintData::setScale(const QVector3D &scale)
{
d->scale.setXScale(scale.x());
d->scale.setYScale(scale.y());
d->scale.setZScale(scale.z());
}
void PaintData::setXScale(qreal scale)
{
d->scale.setXScale(scale);
}
void PaintData::setYScale(qreal scale)
{
d->scale.setYScale(scale);
}
void PaintData::setZScale(qreal scale)
{
d->scale.setZScale(scale);
}
const QGraphicsScale &PaintData::scale() const
{
return d->scale;
}
void PaintData::setXTranslation(qreal translate)
{
d->translation.setX(translate);
}
void PaintData::setYTranslation(qreal translate)
{
d->translation.setY(translate);
}
void PaintData::setZTranslation(qreal translate)
{
d->translation.setZ(translate);
}
void PaintData::translate(qreal x, qreal y, qreal z)
{
translate(QVector3D(x, y, z));
}
void PaintData::translate(const QVector3D &t)
{
d->translation += t;
}
qreal PaintData::xTranslation() const
{
return d->translation.x();
}
qreal PaintData::yTranslation() const
{
return d->translation.y();
}
qreal PaintData::zTranslation() const
{
return d->translation.z();
}
const QVector3D &PaintData::translation() const
{
return d->translation;
}
qreal PaintData::rotationAngle() const
{
return d->rotation.angle();
}
QVector3D PaintData::rotationAxis() const
{
return d->rotation.axis();
}
QVector3D PaintData::rotationOrigin() const
{
return d->rotation.origin();
}
void PaintData::setRotationAngle(qreal angle)
{
d->rotation.setAngle(angle);
}
void PaintData::setRotationAxis(Qt::Axis axis)
{
d->rotation.setAxis(axis);
}
void PaintData::setRotationAxis(const QVector3D &axis)
{
d->rotation.setAxis(axis);
}
void PaintData::setRotationOrigin(const QVector3D &origin)
{
d->rotation.setOrigin(origin);
}
class WindowPaintDataPrivate {
public:
qreal opacity;
qreal saturation;
qreal brightness;
int screen;
qreal crossFadeProgress;
QMatrix4x4 pMatrix;
QMatrix4x4 mvMatrix;
QMatrix4x4 screenProjectionMatrix;
};
WindowPaintData::WindowPaintData(EffectWindow *w)
: WindowPaintData(w, QMatrix4x4())
{
}
WindowPaintData::WindowPaintData(EffectWindow* w, const QMatrix4x4 &screenProjectionMatrix)
: PaintData()
, shader(nullptr)
, d(new WindowPaintDataPrivate())
{
d->screenProjectionMatrix = screenProjectionMatrix;
quads = w->buildQuads();
setOpacity(w->opacity());
setSaturation(1.0);
setBrightness(1.0);
setScreen(0);
setCrossFadeProgress(1.0);
}
WindowPaintData::WindowPaintData(const WindowPaintData &other)
: PaintData()
, quads(other.quads)
, shader(other.shader)
, d(new WindowPaintDataPrivate())
{
setXScale(other.xScale());
setYScale(other.yScale());
setZScale(other.zScale());
translate(other.translation());
setRotationOrigin(other.rotationOrigin());
setRotationAxis(other.rotationAxis());
setRotationAngle(other.rotationAngle());
setOpacity(other.opacity());
setSaturation(other.saturation());
setBrightness(other.brightness());
setScreen(other.screen());
setCrossFadeProgress(other.crossFadeProgress());
setProjectionMatrix(other.projectionMatrix());
setModelViewMatrix(other.modelViewMatrix());
d->screenProjectionMatrix = other.d->screenProjectionMatrix;
}
WindowPaintData::~WindowPaintData()
{
delete d;
}
qreal WindowPaintData::opacity() const
{
return d->opacity;
}
qreal WindowPaintData::saturation() const
{
return d->saturation;
}
qreal WindowPaintData::brightness() const
{
return d->brightness;
}
int WindowPaintData::screen() const
{
return d->screen;
}
void WindowPaintData::setOpacity(qreal opacity)
{
d->opacity = opacity;
}
void WindowPaintData::setSaturation(qreal saturation) const
{
d->saturation = saturation;
}
void WindowPaintData::setBrightness(qreal brightness)
{
d->brightness = brightness;
}
void WindowPaintData::setScreen(int screen) const
{
d->screen = screen;
}
qreal WindowPaintData::crossFadeProgress() const
{
return d->crossFadeProgress;
}
void WindowPaintData::setCrossFadeProgress(qreal factor)
{
d->crossFadeProgress = qBound(qreal(0.0), factor, qreal(1.0));
}
qreal WindowPaintData::multiplyOpacity(qreal factor)
{
d->opacity *= factor;
return d->opacity;
}
qreal WindowPaintData::multiplySaturation(qreal factor)
{
d->saturation *= factor;
return d->saturation;
}
qreal WindowPaintData::multiplyBrightness(qreal factor)
{
d->brightness *= factor;
return d->brightness;
}
void WindowPaintData::setProjectionMatrix(const QMatrix4x4 &matrix)
{
d->pMatrix = matrix;
}
QMatrix4x4 WindowPaintData::projectionMatrix() const
{
return d->pMatrix;
}
QMatrix4x4 &WindowPaintData::rprojectionMatrix()
{
return d->pMatrix;
}
void WindowPaintData::setModelViewMatrix(const QMatrix4x4 &matrix)
{
d->mvMatrix = matrix;
}
QMatrix4x4 WindowPaintData::modelViewMatrix() const
{
return d->mvMatrix;
}
QMatrix4x4 &WindowPaintData::rmodelViewMatrix()
{
return d->mvMatrix;
}
WindowPaintData &WindowPaintData::operator*=(qreal scale)
{
this->setXScale(this->xScale() * scale);
this->setYScale(this->yScale() * scale);
this->setZScale(this->zScale() * scale);
return *this;
}
WindowPaintData &WindowPaintData::operator*=(const QVector2D &scale)
{
this->setXScale(this->xScale() * scale.x());
this->setYScale(this->yScale() * scale.y());
return *this;
}
WindowPaintData &WindowPaintData::operator*=(const QVector3D &scale)
{
this->setXScale(this->xScale() * scale.x());
this->setYScale(this->yScale() * scale.y());
this->setZScale(this->zScale() * scale.z());
return *this;
}
WindowPaintData &WindowPaintData::operator+=(const QPointF &translation)
{
return this->operator+=(QVector3D(translation));
}
WindowPaintData &WindowPaintData::operator+=(const QPoint &translation)
{
return this->operator+=(QVector3D(translation));
}
WindowPaintData &WindowPaintData::operator+=(const QVector2D &translation)
{
return this->operator+=(QVector3D(translation));
}
WindowPaintData &WindowPaintData::operator+=(const QVector3D &translation)
{
translate(translation);
return *this;
}
QMatrix4x4 WindowPaintData::screenProjectionMatrix() const
{
return d->screenProjectionMatrix;
}
class ScreenPaintData::Private
{
public:
QMatrix4x4 projectionMatrix;
};
ScreenPaintData::ScreenPaintData()
: PaintData()
, d(new Private())
{
}
ScreenPaintData::ScreenPaintData(const QMatrix4x4 &projectionMatrix)
: PaintData()
, d(new Private())
{
d->projectionMatrix = projectionMatrix;
}
ScreenPaintData::~ScreenPaintData() = default;
ScreenPaintData::ScreenPaintData(const ScreenPaintData &other)
: PaintData()
, d(new Private())
{
translate(other.translation());
setXScale(other.xScale());
setYScale(other.yScale());
setZScale(other.zScale());
setRotationOrigin(other.rotationOrigin());
setRotationAxis(other.rotationAxis());
setRotationAngle(other.rotationAngle());
d->projectionMatrix = other.d->projectionMatrix;
}
ScreenPaintData &ScreenPaintData::operator=(const ScreenPaintData &rhs)
{
setXScale(rhs.xScale());
setYScale(rhs.yScale());
setZScale(rhs.zScale());
setXTranslation(rhs.xTranslation());
setYTranslation(rhs.yTranslation());
setZTranslation(rhs.zTranslation());
setRotationOrigin(rhs.rotationOrigin());
setRotationAxis(rhs.rotationAxis());
setRotationAngle(rhs.rotationAngle());
d->projectionMatrix = rhs.d->projectionMatrix;
return *this;
}
ScreenPaintData &ScreenPaintData::operator*=(qreal scale)
{
setXScale(this->xScale() * scale);
setYScale(this->yScale() * scale);
setZScale(this->zScale() * scale);
return *this;
}
ScreenPaintData &ScreenPaintData::operator*=(const QVector2D &scale)
{
setXScale(this->xScale() * scale.x());
setYScale(this->yScale() * scale.y());
return *this;
}
ScreenPaintData &ScreenPaintData::operator*=(const QVector3D &scale)
{
setXScale(this->xScale() * scale.x());
setYScale(this->yScale() * scale.y());
setZScale(this->zScale() * scale.z());
return *this;
}
ScreenPaintData &ScreenPaintData::operator+=(const QPointF &translation)
{
return this->operator+=(QVector3D(translation));
}
ScreenPaintData &ScreenPaintData::operator+=(const QPoint &translation)
{
return this->operator+=(QVector3D(translation));
}
ScreenPaintData &ScreenPaintData::operator+=(const QVector2D &translation)
{
return this->operator+=(QVector3D(translation));
}
ScreenPaintData &ScreenPaintData::operator+=(const QVector3D &translation)
{
translate(translation);
return *this;
}
QMatrix4x4 ScreenPaintData::projectionMatrix() const
{
return d->projectionMatrix;
}
//****************************************
// Effect
//****************************************
Effect::Effect()
{
}
Effect::~Effect()
{
}
void Effect::reconfigure(ReconfigureFlags)
{
}
void* Effect::proxy()
{
return nullptr;
}
void Effect::windowInputMouseEvent(QEvent*)
{
}
void Effect::grabbedKeyboardEvent(QKeyEvent*)
{
}
bool Effect::borderActivated(ElectricBorder)
{
return false;
}
void Effect::prePaintScreen(ScreenPrePaintData& data, int time)
{
effects->prePaintScreen(data, time);
}
void Effect::paintScreen(int mask, QRegion region, ScreenPaintData& data)
{
effects->paintScreen(mask, region, data);
}
void Effect::postPaintScreen()
{
effects->postPaintScreen();
}
void Effect::prePaintWindow(EffectWindow* w, WindowPrePaintData& data, int time)
{
effects->prePaintWindow(w, data, time);
}
void Effect::paintWindow(EffectWindow* w, int mask, QRegion region, WindowPaintData& data)
{
effects->paintWindow(w, mask, region, data);
}
void Effect::postPaintWindow(EffectWindow* w)
{
effects->postPaintWindow(w);
}
void Effect::paintEffectFrame(KWin::EffectFrame* frame, QRegion region, double opacity, double frameOpacity)
{
effects->paintEffectFrame(frame, region, opacity, frameOpacity);
}
bool Effect::provides(Feature)
{
return false;
}
bool Effect::isActive() const
{
return true;
}
QString Effect::debug(const QString &) const
{
return QString();
}
void Effect::drawWindow(EffectWindow* w, int mask, QRegion region, WindowPaintData& data)
{
effects->drawWindow(w, mask, region, data);
}
void Effect::buildQuads(EffectWindow* w, WindowQuadList& quadList)
{
effects->buildQuads(w, quadList);
}
void Effect::setPositionTransformations(WindowPaintData& data, QRect& region, EffectWindow* w,
const QRect& r, Qt::AspectRatioMode aspect)
{
QSize size = w->size();
size.scale(r.size(), aspect);
data.setXScale(size.width() / double(w->width()));
data.setYScale(size.height() / double(w->height()));
int width = int(w->width() * data.xScale());
int height = int(w->height() * data.yScale());
int x = r.x() + (r.width() - width) / 2;
int y = r.y() + (r.height() - height) / 2;
region = QRect(x, y, width, height);
data.setXTranslation(x - w->x());
data.setYTranslation(y - w->y());
}
QPoint Effect::cursorPos()
{
return effects->cursorPos();
}
double Effect::animationTime(const KConfigGroup& cfg, const QString& key, int defaultTime)
{
int time = cfg.readEntry(key, 0);
return time != 0 ? time : qMax(defaultTime * effects->animationTimeFactor(), 1.);
}
double Effect::animationTime(int defaultTime)
{
// at least 1ms, otherwise 0ms times can break some things
return qMax(defaultTime * effects->animationTimeFactor(), 1.);
}
int Effect::requestedEffectChainPosition() const
{
return 0;
}
xcb_connection_t *Effect::xcbConnection() const
{
return effects->xcbConnection();
}
xcb_window_t Effect::x11RootWindow() const
{
return effects->x11RootWindow();
}
bool Effect::touchDown(quint32 id, const QPointF &pos, quint32 time)
{
Q_UNUSED(id)
Q_UNUSED(pos)
Q_UNUSED(time)
return false;
}
bool Effect::touchMotion(quint32 id, const QPointF &pos, quint32 time)
{
Q_UNUSED(id)
Q_UNUSED(pos)
Q_UNUSED(time)
return false;
}
bool Effect::touchUp(quint32 id, quint32 time)
{
Q_UNUSED(id)
Q_UNUSED(time)
return false;
}
bool Effect::perform(Feature feature, const QVariantList &arguments)
{
Q_UNUSED(feature)
Q_UNUSED(arguments)
return false;
}
//****************************************
// EffectFactory
//****************************************
EffectPluginFactory::EffectPluginFactory()
{
}
EffectPluginFactory::~EffectPluginFactory()
{
}
bool EffectPluginFactory::enabledByDefault() const
{
return true;
}
bool EffectPluginFactory::isSupported() const
{
return true;
}
//****************************************
// EffectsHandler
//****************************************
EffectsHandler::EffectsHandler(CompositingType type)
: compositing_type(type)
{
if (compositing_type == NoCompositing)
return;
KWin::effects = this;
}
EffectsHandler::~EffectsHandler()
{
// All effects should already be unloaded by Impl dtor
assert(loaded_effects.count() == 0);
}
CompositingType EffectsHandler::compositingType() const
{
return compositing_type;
}
bool EffectsHandler::isOpenGLCompositing() const
{
return compositing_type & OpenGLCompositing;
}
KConfigGroup EffectsHandler::effectConfig(const QString& effectname)
{
KSharedConfig::Ptr kwinconfig = KSharedConfig::openConfig(QStringLiteral(KWIN_CONFIG), KConfig::NoGlobals);
return kwinconfig->group(QLatin1String("Effect-") + effectname);
}
EffectsHandler* effects = nullptr;
//****************************************
// EffectWindow
//****************************************
EffectWindow::EffectWindow(QObject *parent)
: QObject(parent)
{
}
EffectWindow::~EffectWindow()
{
}
#define WINDOW_HELPER( rettype, prototype, propertyname ) \
rettype EffectWindow::prototype ( ) const \
{ \
return parent()->property( propertyname ).value< rettype >(); \
}
WINDOW_HELPER(double, opacity, "opacity")
WINDOW_HELPER(bool, hasAlpha, "alpha")
WINDOW_HELPER(int, x, "x")
WINDOW_HELPER(int, y, "y")
WINDOW_HELPER(int, width, "width")
WINDOW_HELPER(int, height, "height")
WINDOW_HELPER(QPoint, pos, "pos")
WINDOW_HELPER(QSize, size, "size")
WINDOW_HELPER(int, screen, "screen")
WINDOW_HELPER(QRect, geometry, "geometry")
WINDOW_HELPER(QRect, expandedGeometry, "visibleRect")
WINDOW_HELPER(QRect, rect, "rect")
WINDOW_HELPER(int, desktop, "desktop")
WINDOW_HELPER(bool, isDesktop, "desktopWindow")
WINDOW_HELPER(bool, isDock, "dock")
WINDOW_HELPER(bool, isToolbar, "toolbar")
WINDOW_HELPER(bool, isMenu, "menu")
WINDOW_HELPER(bool, isNormalWindow, "normalWindow")
WINDOW_HELPER(bool, isDialog, "dialog")
WINDOW_HELPER(bool, isSplash, "splash")
WINDOW_HELPER(bool, isUtility, "utility")
WINDOW_HELPER(bool, isDropdownMenu, "dropdownMenu")
WINDOW_HELPER(bool, isPopupMenu, "popupMenu")
WINDOW_HELPER(bool, isTooltip, "tooltip")
WINDOW_HELPER(bool, isNotification, "notification")
WINDOW_HELPER(bool, isOnScreenDisplay, "onScreenDisplay")
WINDOW_HELPER(bool, isComboBox, "comboBox")
WINDOW_HELPER(bool, isDNDIcon, "dndIcon")
WINDOW_HELPER(bool, isManaged, "managed")
WINDOW_HELPER(bool, isDeleted, "deleted")
WINDOW_HELPER(bool, hasOwnShape, "shaped")
WINDOW_HELPER(QString, windowRole, "windowRole")
WINDOW_HELPER(QStringList, activities, "activities")
WINDOW_HELPER(bool, skipsCloseAnimation, "skipsCloseAnimation")
WINDOW_HELPER(KWayland::Server::SurfaceInterface *, surface, "surface")
QString EffectWindow::windowClass() const
{
return parent()->property("resourceName").toString() + QLatin1Char(' ') + parent()->property("resourceClass").toString();
}
QRect EffectWindow::contentsRect() const
{
return QRect(parent()->property("clientPos").toPoint(), parent()->property("clientSize").toSize());
}
NET::WindowType EffectWindow::windowType() const
{
return static_cast<NET::WindowType>(parent()->property("windowType").toInt());
}
bool EffectWindow::isOnActivity(QString activity) const
{
const QStringList activities = parent()->property("activities").toStringList();
return activities.isEmpty() || activities.contains(activity);
}
bool EffectWindow::isOnAllActivities() const
{
return parent()->property("activities").toStringList().isEmpty();
}
#undef WINDOW_HELPER
#define WINDOW_HELPER_DEFAULT( rettype, prototype, propertyname, defaultValue ) \
rettype EffectWindow::prototype ( ) const \
{ \
const QVariant variant = parent()->property( propertyname ); \
if (!variant.isValid()) { \
return defaultValue; \
} \
return variant.value< rettype >(); \
}
WINDOW_HELPER_DEFAULT(bool, isMinimized, "minimized", false)
WINDOW_HELPER_DEFAULT(bool, isMovable, "moveable", false)
WINDOW_HELPER_DEFAULT(bool, isMovableAcrossScreens, "moveableAcrossScreens", false)
WINDOW_HELPER_DEFAULT(QString, caption, "caption", QString())
WINDOW_HELPER_DEFAULT(bool, keepAbove, "keepAbove", true)
WINDOW_HELPER_DEFAULT(bool, isModal, "modal", false)
WINDOW_HELPER_DEFAULT(QSize, basicUnit, "basicUnit", QSize(1, 1))
WINDOW_HELPER_DEFAULT(bool, isUserMove, "move", false)
WINDOW_HELPER_DEFAULT(bool, isUserResize, "resize", false)
WINDOW_HELPER_DEFAULT(QRect, iconGeometry, "iconGeometry", QRect())
WINDOW_HELPER_DEFAULT(bool, isSpecialWindow, "specialWindow", true)
WINDOW_HELPER_DEFAULT(bool, acceptsFocus, "wantsInput", true) // We don't actually know...
WINDOW_HELPER_DEFAULT(QIcon, icon, "icon", QIcon())
WINDOW_HELPER_DEFAULT(bool, isSkipSwitcher, "skipSwitcher", false)
WINDOW_HELPER_DEFAULT(bool, isCurrentTab, "isCurrentTab", true)
WINDOW_HELPER_DEFAULT(bool, decorationHasAlpha, "decorationHasAlpha", false)
WINDOW_HELPER_DEFAULT(bool, isFullScreen, "fullScreen", false)
#undef WINDOW_HELPER_DEFAULT
#define WINDOW_HELPER_SETTER( prototype, propertyname, args, value ) \
void EffectWindow::prototype ( args ) \
{\
const QVariant variant = parent()->property( propertyname ); \
if (variant.isValid()) { \
parent()->setProperty( propertyname, value ); \
} \
}
WINDOW_HELPER_SETTER(minimize, "minimized",,true)
WINDOW_HELPER_SETTER(unminimize, "minimized",,false)
#undef WINDOW_HELPER_SETTER
void EffectWindow::setMinimized(bool min)
{
if (min) {
minimize();
} else {
unminimize();
}
}
void EffectWindow::closeWindow() const
{
QMetaObject::invokeMethod(parent(), "closeWindow");
}
void EffectWindow::addRepaint(int x, int y, int w, int h)
{
QMetaObject::invokeMethod(parent(), "addRepaint", Q_ARG(int, x), Q_ARG(int, y), Q_ARG(int, w), Q_ARG(int, h));
}
void EffectWindow::addRepaint(const QRect &r)
{
QMetaObject::invokeMethod(parent(), "addRepaint", Q_ARG(const QRect&, r));
}
void EffectWindow::addRepaintFull()
{
QMetaObject::invokeMethod(parent(), "addRepaintFull");
}
void EffectWindow::addLayerRepaint(int x, int y, int w, int h)
{
QMetaObject::invokeMethod(parent(), "addLayerRepaint", Q_ARG(int, x), Q_ARG(int, y), Q_ARG(int, w), Q_ARG(int, h));
}
void EffectWindow::addLayerRepaint(const QRect &r)
{
QMetaObject::invokeMethod(parent(), "addLayerRepaint", Q_ARG(const QRect&, r));
}
bool EffectWindow::isOnCurrentActivity() const
{
return isOnActivity(effects->currentActivity());
}
bool EffectWindow::isOnCurrentDesktop() const
{
return isOnDesktop(effects->currentDesktop());
}
bool EffectWindow::isOnDesktop(int d) const
{
return desktop() == d || isOnAllDesktops();
}
bool EffectWindow::isOnAllDesktops() const
{
return desktop() == NET::OnAllDesktops;
}
bool EffectWindow::hasDecoration() const
{
return contentsRect() != QRect(0, 0, width(), height());
}
bool EffectWindow::isVisible() const
{
return !isMinimized()
&& isOnCurrentDesktop()
&& isOnCurrentActivity();
}
//****************************************
// EffectWindowGroup
//****************************************
EffectWindowGroup::~EffectWindowGroup()
{
}
/***************************************************************
WindowQuad
***************************************************************/
WindowQuad WindowQuad::makeSubQuad(double x1, double y1, double x2, double y2) const
{
assert(x1 < x2 && y1 < y2 && x1 >= left() && x2 <= right() && y1 >= top() && y2 <= bottom());
#ifndef NDEBUG
if (isTransformed())
qFatal("Splitting quads is allowed only in pre-paint calls!");
#endif
WindowQuad ret(*this);
// vertices are clockwise starting from topleft
ret.verts[ 0 ].px = x1;
ret.verts[ 3 ].px = x1;
ret.verts[ 1 ].px = x2;
ret.verts[ 2 ].px = x2;
ret.verts[ 0 ].py = y1;
ret.verts[ 1 ].py = y1;
ret.verts[ 2 ].py = y2;
ret.verts[ 3 ].py = y2;
// original x/y are supposed to be the same, no transforming is done here
ret.verts[ 0 ].ox = x1;
ret.verts[ 3 ].ox = x1;
ret.verts[ 1 ].ox = x2;
ret.verts[ 2 ].ox = x2;
ret.verts[ 0 ].oy = y1;
ret.verts[ 1 ].oy = y1;
ret.verts[ 2 ].oy = y2;
ret.verts[ 3 ].oy = y2;
const double my_u0 = verts[0].tx;
const double my_u1 = verts[2].tx;
const double my_v0 = verts[0].ty;
const double my_v1 = verts[2].ty;
const double width = right() - left();
const double height = bottom() - top();
const double texWidth = my_u1 - my_u0;
const double texHeight = my_v1 - my_v0;
if (!uvAxisSwapped()) {
const double u0 = (x1 - left()) / width * texWidth + my_u0;
const double u1 = (x2 - left()) / width * texWidth + my_u0;
const double v0 = (y1 - top()) / height * texHeight + my_v0;
const double v1 = (y2 - top()) / height * texHeight + my_v0;
ret.verts[0].tx = u0;
ret.verts[3].tx = u0;
ret.verts[1].tx = u1;
ret.verts[2].tx = u1;
ret.verts[0].ty = v0;
ret.verts[1].ty = v0;
ret.verts[2].ty = v1;
ret.verts[3].ty = v1;
} else {
const double u0 = (y1 - top()) / height * texWidth + my_u0;
const double u1 = (y2 - top()) / height * texWidth + my_u0;
const double v0 = (x1 - left()) / width * texHeight + my_v0;
const double v1 = (x2 - left()) / width * texHeight + my_v0;
ret.verts[0].tx = u0;
ret.verts[1].tx = u0;
ret.verts[2].tx = u1;
ret.verts[3].tx = u1;
ret.verts[0].ty = v0;
ret.verts[3].ty = v0;
ret.verts[1].ty = v1;
ret.verts[2].ty = v1;
}
ret.setUVAxisSwapped(uvAxisSwapped());
return ret;
}
bool WindowQuad::smoothNeeded() const
{
// smoothing is needed if the width or height of the quad does not match the original size
double width = verts[ 1 ].ox - verts[ 0 ].ox;
double height = verts[ 2 ].oy - verts[ 1 ].oy;
return(verts[ 1 ].px - verts[ 0 ].px != width || verts[ 2 ].px - verts[ 3 ].px != width
|| verts[ 2 ].py - verts[ 1 ].py != height || verts[ 3 ].py - verts[ 0 ].py != height);
}
/***************************************************************
WindowQuadList
***************************************************************/
WindowQuadList WindowQuadList::splitAtX(double x) const
{
WindowQuadList ret;
foreach (const WindowQuad & quad, *this) {
#ifndef NDEBUG
if (quad.isTransformed())
qFatal("Splitting quads is allowed only in pre-paint calls!");
#endif
bool wholeleft = true;
bool wholeright = true;
for (int i = 0;
i < 4;
++i) {
if (quad[ i ].x() < x)
wholeright = false;
if (quad[ i ].x() > x)
wholeleft = false;
}
if (wholeleft || wholeright) { // is whole in one split part
ret.append(quad);
continue;
}
if (quad.top() == quad.bottom() || quad.left() == quad.right()) { // quad has no size
ret.append(quad);
continue;
}
ret.append(quad.makeSubQuad(quad.left(), quad.top(), x, quad.bottom()));
ret.append(quad.makeSubQuad(x, quad.top(), quad.right(), quad.bottom()));
}
return ret;
}
WindowQuadList WindowQuadList::splitAtY(double y) const
{
WindowQuadList ret;
foreach (const WindowQuad & quad, *this) {
#ifndef NDEBUG
if (quad.isTransformed())
qFatal("Splitting quads is allowed only in pre-paint calls!");
#endif
bool wholetop = true;
bool wholebottom = true;
for (int i = 0;
i < 4;
++i) {
if (quad[ i ].y() < y)
wholebottom = false;
if (quad[ i ].y() > y)
wholetop = false;
}
if (wholetop || wholebottom) { // is whole in one split part
ret.append(quad);
continue;
}
if (quad.top() == quad.bottom() || quad.left() == quad.right()) { // quad has no size
ret.append(quad);
continue;
}
ret.append(quad.makeSubQuad(quad.left(), quad.top(), quad.right(), y));
ret.append(quad.makeSubQuad(quad.left(), y, quad.right(), quad.bottom()));
}
return ret;
}
WindowQuadList WindowQuadList::makeGrid(int maxQuadSize) const
{
if (empty())
return *this;
// Find the bounding rectangle
double left = first().left();
double right = first().right();
double top = first().top();
double bottom = first().bottom();
foreach (const WindowQuad &quad, *this) {
#ifndef NDEBUG
if (quad.isTransformed())
qFatal("Splitting quads is allowed only in pre-paint calls!");
#endif
left = qMin(left, quad.left());
right = qMax(right, quad.right());
top = qMin(top, quad.top());
bottom = qMax(bottom, quad.bottom());
}
WindowQuadList ret;
foreach (const WindowQuad &quad, *this) {
const double quadLeft = quad.left();
const double quadRight = quad.right();
const double quadTop = quad.top();
const double quadBottom = quad.bottom();
// Compute the top-left corner of the first intersecting grid cell
const double xBegin = left + qFloor((quadLeft - left) / maxQuadSize) * maxQuadSize;
const double yBegin = top + qFloor((quadTop - top) / maxQuadSize) * maxQuadSize;
// Loop over all intersecting cells and add sub-quads
for (double y = yBegin; y < quadBottom; y += maxQuadSize) {
const double y0 = qMax(y, quadTop);
const double y1 = qMin(quadBottom, y + maxQuadSize);
for (double x = xBegin; x < quadRight; x += maxQuadSize) {
const double x0 = qMax(x, quadLeft);
const double x1 = qMin(quadRight, x + maxQuadSize);
ret.append(quad.makeSubQuad(x0, y0, x1, y1));
}
}
}
return ret;
}
WindowQuadList WindowQuadList::makeRegularGrid(int xSubdivisions, int ySubdivisions) const
{
if (empty())
return *this;
// Find the bounding rectangle
double left = first().left();
double right = first().right();
double top = first().top();
double bottom = first().bottom();
foreach (const WindowQuad &quad, *this) {
#ifndef NDEBUG
if (quad.isTransformed())
qFatal("Splitting quads is allowed only in pre-paint calls!");
#endif
left = qMin(left, quad.left());
right = qMax(right, quad.right());
top = qMin(top, quad.top());
bottom = qMax(bottom, quad.bottom());
}
double xIncrement = (right - left) / xSubdivisions;
double yIncrement = (bottom - top) / ySubdivisions;
WindowQuadList ret;
foreach (const WindowQuad &quad, *this) {
const double quadLeft = quad.left();
const double quadRight = quad.right();
const double quadTop = quad.top();
const double quadBottom = quad.bottom();
// Compute the top-left corner of the first intersecting grid cell
const double xBegin = left + qFloor((quadLeft - left) / xIncrement) * xIncrement;
const double yBegin = top + qFloor((quadTop - top) / yIncrement) * yIncrement;
// Loop over all intersecting cells and add sub-quads
for (double y = yBegin; y < quadBottom; y += yIncrement) {
const double y0 = qMax(y, quadTop);
const double y1 = qMin(quadBottom, y + yIncrement);
for (double x = xBegin; x < quadRight; x += xIncrement) {
const double x0 = qMax(x, quadLeft);
const double x1 = qMin(quadRight, x + xIncrement);
ret.append(quad.makeSubQuad(x0, y0, x1, y1));
}
}
}
return ret;
}
#ifndef GL_TRIANGLES
# define GL_TRIANGLES 0x0004
#endif
#ifndef GL_QUADS
# define GL_QUADS 0x0007
#endif
void WindowQuadList::makeInterleavedArrays(unsigned int type, GLVertex2D *vertices, const QMatrix4x4 &textureMatrix) const
{
// Since we know that the texture matrix just scales and translates
// we can use this information to optimize the transformation
const QVector2D coeff(textureMatrix(0, 0), textureMatrix(1, 1));
const QVector2D offset(textureMatrix(0, 3), textureMatrix(1, 3));
GLVertex2D *vertex = vertices;
assert(type == GL_QUADS || type == GL_TRIANGLES);
switch (type)
{
case GL_QUADS:
#ifdef HAVE_SSE2
if (!(intptr_t(vertex) & 0xf)) {
for (int i = 0; i < count(); i++) {
const WindowQuad &quad = at(i);
KWIN_ALIGN(16) GLVertex2D v[4];
for (int j = 0; j < 4; j++) {
const WindowVertex &wv = quad[j];
v[j].position = QVector2D(wv.x(), wv.y());
v[j].texcoord = QVector2D(wv.u(), wv.v()) * coeff + offset;
}
const __m128i *srcP = (const __m128i *) &v;
__m128i *dstP = (__m128i *) vertex;
_mm_stream_si128(&dstP[0], _mm_load_si128(&srcP[0])); // Top-left
_mm_stream_si128(&dstP[1], _mm_load_si128(&srcP[1])); // Top-right
_mm_stream_si128(&dstP[2], _mm_load_si128(&srcP[2])); // Bottom-right
_mm_stream_si128(&dstP[3], _mm_load_si128(&srcP[3])); // Bottom-left
vertex += 4;
}
} else
#endif // HAVE_SSE2
{
for (int i = 0; i < count(); i++) {
const WindowQuad &quad = at(i);
for (int j = 0; j < 4; j++) {
const WindowVertex &wv = quad[j];
GLVertex2D v;
v.position = QVector2D(wv.x(), wv.y());
v.texcoord = QVector2D(wv.u(), wv.v()) * coeff + offset;
*(vertex++) = v;
}
}
}
break;
case GL_TRIANGLES:
#ifdef HAVE_SSE2
if (!(intptr_t(vertex) & 0xf)) {
for (int i = 0; i < count(); i++) {
const WindowQuad &quad = at(i);
KWIN_ALIGN(16) GLVertex2D v[4];
for (int j = 0; j < 4; j++) {
const WindowVertex &wv = quad[j];
v[j].position = QVector2D(wv.x(), wv.y());
v[j].texcoord = QVector2D(wv.u(), wv.v()) * coeff + offset;
}
const __m128i *srcP = (const __m128i *) &v;
__m128i *dstP = (__m128i *) vertex;
__m128i src[4];
src[0] = _mm_load_si128(&srcP[0]); // Top-left
src[1] = _mm_load_si128(&srcP[1]); // Top-right
src[2] = _mm_load_si128(&srcP[2]); // Bottom-right
src[3] = _mm_load_si128(&srcP[3]); // Bottom-left
// First triangle
_mm_stream_si128(&dstP[0], src[1]); // Top-right
_mm_stream_si128(&dstP[1], src[0]); // Top-left
_mm_stream_si128(&dstP[2], src[3]); // Bottom-left
// Second triangle
_mm_stream_si128(&dstP[3], src[3]); // Bottom-left
_mm_stream_si128(&dstP[4], src[2]); // Bottom-right
_mm_stream_si128(&dstP[5], src[1]); // Top-right
vertex += 6;
}
} else
#endif // HAVE_SSE2
{
for (int i = 0; i < count(); i++) {
const WindowQuad &quad = at(i);
GLVertex2D v[4]; // Four unique vertices / quad
for (int j = 0; j < 4; j++) {
const WindowVertex &wv = quad[j];
v[j].position = QVector2D(wv.x(), wv.y());
v[j].texcoord = QVector2D(wv.u(), wv.v()) * coeff + offset;
}
// First triangle
*(vertex++) = v[1]; // Top-right
*(vertex++) = v[0]; // Top-left
*(vertex++) = v[3]; // Bottom-left
// Second triangle
*(vertex++) = v[3]; // Bottom-left
*(vertex++) = v[2]; // Bottom-right
*(vertex++) = v[1]; // Top-right
}
}
break;
default:
break;
}
}
void WindowQuadList::makeArrays(float **vertices, float **texcoords, const QSizeF &size, bool yInverted) const
{
*vertices = new float[count() * 6 * 2];
*texcoords = new float[count() * 6 * 2];
float *vpos = *vertices;
float *tpos = *texcoords;
// Note: The positions in a WindowQuad are stored in clockwise order
const int index[] = { 1, 0, 3, 3, 2, 1 };
for (int i = 0; i < count(); i++) {
const WindowQuad &quad = at(i);
for (int j = 0; j < 6; j++) {
const WindowVertex &wv = quad[index[j]];
*vpos++ = wv.x();
*vpos++ = wv.y();
*tpos++ = wv.u() / size.width();
*tpos++ = yInverted ? (wv.v() / size.height()) : (1.0 - wv.v() / size.height());
}
}
}
WindowQuadList WindowQuadList::select(WindowQuadType type) const
{
foreach (const WindowQuad & q, *this) {
if (q.type() != type) { // something else than ones to select, make a copy and filter
WindowQuadList ret;
foreach (const WindowQuad & q, *this) {
if (q.type() == type)
ret.append(q);
}
return ret;
}
}
return *this; // nothing to filter out
}
WindowQuadList WindowQuadList::filterOut(WindowQuadType type) const
{
foreach (const WindowQuad & q, *this) {
if (q.type() == type) { // something to filter out, make a copy and filter
WindowQuadList ret;
foreach (const WindowQuad & q, *this) {
if (q.type() != type)
ret.append(q);
}
return ret;
}
}
return *this; // nothing to filter out
}
bool WindowQuadList::smoothNeeded() const
{
foreach (const WindowQuad & q, *this)
if (q.smoothNeeded())
return true;
return false;
}
bool WindowQuadList::isTransformed() const
{
foreach (const WindowQuad & q, *this)
if (q.isTransformed())
return true;
return false;
}
/***************************************************************
PaintClipper
***************************************************************/
QStack< QRegion >* PaintClipper::areas = nullptr;
PaintClipper::PaintClipper(const QRegion& allowed_area)
: area(allowed_area)
{
push(area);
}
PaintClipper::~PaintClipper()
{
pop(area);
}
void PaintClipper::push(const QRegion& allowed_area)
{
if (allowed_area == infiniteRegion()) // don't push these
return;
if (areas == nullptr)
areas = new QStack< QRegion >;
areas->push(allowed_area);
}
void PaintClipper::pop(const QRegion& allowed_area)
{
if (allowed_area == infiniteRegion())
return;
Q_ASSERT(areas != nullptr);
Q_ASSERT(areas->top() == allowed_area);
areas->pop();
if (areas->isEmpty()) {
delete areas;
areas = nullptr;
}
}
bool PaintClipper::clip()
{
return areas != nullptr;
}
QRegion PaintClipper::paintArea()
{
assert(areas != nullptr); // can be called only with clip() == true
const QSize &s = effects->virtualScreenSize();
QRegion ret = QRegion(0, 0, s.width(), s.height());
foreach (const QRegion & r, *areas)
ret &= r;
return ret;
}
struct PaintClipper::Iterator::Data {
Data() : index(0) {}
int index;
QVector< QRect > rects;
};
PaintClipper::Iterator::Iterator()
: data(new Data)
{
if (clip() && effects->isOpenGLCompositing()) {
data->rects = paintArea().rects();
data->index = -1;
next(); // move to the first one
}
#ifdef KWIN_HAVE_XRENDER_COMPOSITING
if (clip() && effects->compositingType() == XRenderCompositing) {
XFixesRegion region(paintArea());
xcb_xfixes_set_picture_clip_region(connection(), effects->xrenderBufferPicture(), region, 0, 0);
}
#endif
}
PaintClipper::Iterator::~Iterator()
{
#ifdef KWIN_HAVE_XRENDER_COMPOSITING
if (clip() && effects->compositingType() == XRenderCompositing)
xcb_xfixes_set_picture_clip_region(connection(), effects->xrenderBufferPicture(), XCB_XFIXES_REGION_NONE, 0, 0);
#endif
delete data;
}
bool PaintClipper::Iterator::isDone()
{
if (!clip())
return data->index == 1; // run once
if (effects->isOpenGLCompositing())
return data->index >= data->rects.count(); // run once per each area
#ifdef KWIN_HAVE_XRENDER_COMPOSITING
if (effects->compositingType() == XRenderCompositing)
return data->index == 1; // run once
#endif
abort();
}
void PaintClipper::Iterator::next()
{
data->index++;
}
QRect PaintClipper::Iterator::boundingRect() const
{
if (!clip())
return infiniteRegion();
if (effects->isOpenGLCompositing())
return data->rects[ data->index ];
#ifdef KWIN_HAVE_XRENDER_COMPOSITING
if (effects->compositingType() == XRenderCompositing)
return paintArea().boundingRect();
#endif
abort();
return infiniteRegion();
}
/***************************************************************
Motion1D
***************************************************************/
Motion1D::Motion1D(double initial, double strength, double smoothness)
: Motion<double>(initial, strength, smoothness)
{
}
Motion1D::Motion1D(const Motion1D &other)
: Motion<double>(other)
{
}
Motion1D::~Motion1D()
{
}
/***************************************************************
Motion2D
***************************************************************/
Motion2D::Motion2D(QPointF initial, double strength, double smoothness)
: Motion<QPointF>(initial, strength, smoothness)
{
}
Motion2D::Motion2D(const Motion2D &other)
: Motion<QPointF>(other)
{
}
Motion2D::~Motion2D()
{
}
/***************************************************************
WindowMotionManager
***************************************************************/
WindowMotionManager::WindowMotionManager(bool useGlobalAnimationModifier)
: m_useGlobalAnimationModifier(useGlobalAnimationModifier)
{
// TODO: Allow developer to modify motion attributes
} // TODO: What happens when the window moves by an external force?
WindowMotionManager::~WindowMotionManager()
{
}
void WindowMotionManager::manage(EffectWindow *w)
{
if (m_managedWindows.contains(w))
return;
double strength = 0.08;
double smoothness = 4.0;
if (m_useGlobalAnimationModifier && effects->animationTimeFactor()) {
// If the factor is == 0 then we just skip the calculation completely
strength = 0.08 / effects->animationTimeFactor();
smoothness = effects->animationTimeFactor() * 4.0;
}
WindowMotion &motion = m_managedWindows[ w ];
motion.translation.setStrength(strength);
motion.translation.setSmoothness(smoothness);
motion.scale.setStrength(strength * 1.33);
motion.scale.setSmoothness(smoothness / 2.0);
motion.translation.setValue(w->pos());
motion.scale.setValue(QPointF(1.0, 1.0));
}
void WindowMotionManager::unmanage(EffectWindow *w)
{
m_movingWindowsSet.remove(w);
m_managedWindows.remove(w);
}
void WindowMotionManager::unmanageAll()
{
m_managedWindows.clear();
m_movingWindowsSet.clear();
}
void WindowMotionManager::calculate(int time)
{
if (!effects->animationTimeFactor()) {
// Just skip it completely if the user wants no animation
m_movingWindowsSet.clear();
QHash<EffectWindow*, WindowMotion>::iterator it = m_managedWindows.begin();
for (; it != m_managedWindows.end(); ++it) {
WindowMotion *motion = &it.value();
motion->translation.finish();
motion->scale.finish();
}
}
QHash<EffectWindow*, WindowMotion>::iterator it = m_managedWindows.begin();
for (; it != m_managedWindows.end(); ++it) {
WindowMotion *motion = &it.value();
int stopped = 0;
// TODO: What happens when distance() == 0 but we are still moving fast?
// TODO: Motion needs to be calculated from the window's center
Motion2D *trans = &motion->translation;
if (trans->distance().isNull())
++stopped;
else {
// Still moving
trans->calculate(time);
const short fx = trans->target().x() <= trans->startValue().x() ? -1 : 1;
const short fy = trans->target().y() <= trans->startValue().y() ? -1 : 1;
if (trans->distance().x()*fx/0.5 < 1.0 && trans->velocity().x()*fx/0.2 < 1.0 &&
trans->distance().y()*fy/0.5 < 1.0 && trans->velocity().y()*fy/0.2 < 1.0) {
// Hide tiny oscillations
motion->translation.finish();
++stopped;
}
}
Motion2D *scale = &motion->scale;
if (scale->distance().isNull())
++stopped;
else {
// Still scaling
scale->calculate(time);
const short fx = scale->target().x() < 1.0 ? -1 : 1;
const short fy = scale->target().y() < 1.0 ? -1 : 1;
if (scale->distance().x()*fx/0.001 < 1.0 && scale->velocity().x()*fx/0.05 < 1.0 &&
scale->distance().y()*fy/0.001 < 1.0 && scale->velocity().y()*fy/0.05 < 1.0) {
// Hide tiny oscillations
motion->scale.finish();
++stopped;
}
}
// We just finished this window's motion
if (stopped == 2)
m_movingWindowsSet.remove(it.key());
}
}
void WindowMotionManager::reset()
{
QHash<EffectWindow*, WindowMotion>::iterator it = m_managedWindows.begin();
for (; it != m_managedWindows.end(); ++it) {
WindowMotion *motion = &it.value();
EffectWindow *window = it.key();
motion->translation.setTarget(window->pos());
motion->translation.finish();
motion->scale.setTarget(QPointF(1.0, 1.0));
motion->scale.finish();
}
}
void WindowMotionManager::reset(EffectWindow *w)
{
QHash<EffectWindow*, WindowMotion>::iterator it = m_managedWindows.find(w);
if (it == m_managedWindows.end())
return;
WindowMotion *motion = &it.value();
motion->translation.setTarget(w->pos());
motion->translation.finish();
motion->scale.setTarget(QPointF(1.0, 1.0));
motion->scale.finish();
}
void WindowMotionManager::apply(EffectWindow *w, WindowPaintData &data)
{
QHash<EffectWindow*, WindowMotion>::iterator it = m_managedWindows.find(w);
if (it == m_managedWindows.end())
return;
// TODO: Take into account existing scale so that we can work with multiple managers (E.g. Present windows + grid)
WindowMotion *motion = &it.value();
data += (motion->translation.value() - QPointF(w->x(), w->y()));
data *= QVector2D(motion->scale.value());
}
void WindowMotionManager::moveWindow(EffectWindow *w, QPoint target, double scale, double yScale)
{
QHash<EffectWindow*, WindowMotion>::iterator it = m_managedWindows.find(w);
if (it == m_managedWindows.end())
abort(); // Notify the effect author that they did something wrong
WindowMotion *motion = &it.value();
if (yScale == 0.0)
yScale = scale;
QPointF scalePoint(scale, yScale);
if (motion->translation.value() == target && motion->scale.value() == scalePoint)
return; // Window already at that position
motion->translation.setTarget(target);
motion->scale.setTarget(scalePoint);
m_movingWindowsSet << w;
}
QRectF WindowMotionManager::transformedGeometry(EffectWindow *w) const
{
QHash<EffectWindow*, WindowMotion>::const_iterator it = m_managedWindows.constFind(w);
if (it == m_managedWindows.end())
return w->geometry();
const WindowMotion *motion = &it.value();
QRectF geometry(w->geometry());
// TODO: Take into account existing scale so that we can work with multiple managers (E.g. Present windows + grid)
geometry.moveTo(motion->translation.value());
geometry.setWidth(geometry.width() * motion->scale.value().x());
geometry.setHeight(geometry.height() * motion->scale.value().y());
return geometry;
}
void WindowMotionManager::setTransformedGeometry(EffectWindow *w, const QRectF &geometry)
{
QHash<EffectWindow*, WindowMotion>::iterator it = m_managedWindows.find(w);
if (it == m_managedWindows.end())
return;
WindowMotion *motion = &it.value();
motion->translation.setValue(geometry.topLeft());
motion->scale.setValue(QPointF(geometry.width() / qreal(w->width()), geometry.height() / qreal(w->height())));
}
QRectF WindowMotionManager::targetGeometry(EffectWindow *w) const
{
QHash<EffectWindow*, WindowMotion>::const_iterator it = m_managedWindows.constFind(w);
if (it == m_managedWindows.end())
return w->geometry();
const WindowMotion *motion = &it.value();
QRectF geometry(w->geometry());
// TODO: Take into account existing scale so that we can work with multiple managers (E.g. Present windows + grid)
geometry.moveTo(motion->translation.target());
geometry.setWidth(geometry.width() * motion->scale.target().x());
geometry.setHeight(geometry.height() * motion->scale.target().y());
return geometry;
}
EffectWindow* WindowMotionManager::windowAtPoint(QPoint point, bool useStackingOrder) const
{
Q_UNUSED(useStackingOrder);
// TODO: Stacking order uses EffectsHandler::stackingOrder() then filters by m_managedWindows
QHash< EffectWindow*, WindowMotion >::ConstIterator it = m_managedWindows.constBegin();
while (it != m_managedWindows.constEnd()) {
if (transformedGeometry(it.key()).contains(point))
return it.key();
++it;
}
return nullptr;
}
/***************************************************************
EffectFramePrivate
***************************************************************/
class EffectFramePrivate
{
public:
EffectFramePrivate();
~EffectFramePrivate();
bool crossFading;
qreal crossFadeProgress;
QMatrix4x4 screenProjectionMatrix;
};
EffectFramePrivate::EffectFramePrivate()
: crossFading(false)
, crossFadeProgress(1.0)
{
}
EffectFramePrivate::~EffectFramePrivate()
{
}
/***************************************************************
EffectFrame
***************************************************************/
EffectFrame::EffectFrame()
: d(new EffectFramePrivate)
{
}
EffectFrame::~EffectFrame()
{
delete d;
}
qreal EffectFrame::crossFadeProgress() const
{
return d->crossFadeProgress;
}
void EffectFrame::setCrossFadeProgress(qreal progress)
{
d->crossFadeProgress = progress;
}
bool EffectFrame::isCrossFade() const
{
return d->crossFading;
}
void EffectFrame::enableCrossFade(bool enable)
{
d->crossFading = enable;
}
QMatrix4x4 EffectFrame::screenProjectionMatrix() const
{
return d->screenProjectionMatrix;
}
void EffectFrame::setScreenProjectionMatrix(const QMatrix4x4 &spm)
{
d->screenProjectionMatrix = spm;
}
} // namespace
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