kwin/shadow.cpp

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/********************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 2011 Martin Gräßlin <mgraesslin@kde.org>
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 "shadow.h"
// kwin
#include "atoms.h"
#include "abstract_client.h"
#include "composite.h"
#include "effects.h"
#include "toplevel.h"
#include "wayland_server.h"
#include <KDecoration2/Decoration>
#include <KDecoration2/DecorationShadow>
#include <KWayland/Server/buffer_interface.h>
#include <KWayland/Server/shadow_interface.h>
#include <KWayland/Server/surface_interface.h>
namespace KWin
{
Shadow::Shadow(Toplevel *toplevel)
: m_topLevel(toplevel)
, m_cachedSize(toplevel->geometry().size())
, m_decorationShadow(nullptr)
{
connect(m_topLevel, SIGNAL(geometryChanged()), SLOT(geometryChanged()));
}
Shadow::~Shadow()
{
}
Shadow *Shadow::createShadow(Toplevel *toplevel)
{
if (!effects) {
return NULL;
}
Shadow *shadow = crateShadowFromDecoration(toplevel);
if (!shadow && waylandServer()) {
shadow = createShadowFromWayland(toplevel);
}
if (!shadow && kwinApp()->x11Connection()) {
shadow = createShadowFromX11(toplevel);
}
if (shadow) {
if (toplevel->effectWindow() && toplevel->effectWindow()->sceneWindow()) {
toplevel->effectWindow()->sceneWindow()->updateShadow(shadow);
}
if (shadow->hasDecorationShadow()) {
if (toplevel->effectWindow()) {
toplevel->effectWindow()->buildQuads(true);
}
}
}
return shadow;
}
Shadow *Shadow::createShadowFromX11(Toplevel *toplevel)
{
auto data = Shadow::readX11ShadowProperty(toplevel->window());
if (!data.isEmpty()) {
Shadow *shadow = Compositor::self()->scene()->createShadow(toplevel);
if (!shadow->init(data)) {
delete shadow;
return NULL;
}
return shadow;
} else {
return NULL;
}
}
Shadow *Shadow::crateShadowFromDecoration(Toplevel *toplevel)
{
AbstractClient *c = qobject_cast<AbstractClient*>(toplevel);
if (!c) {
return nullptr;
}
if (!c->decoration()) {
return nullptr;
}
Shadow *shadow = Compositor::self()->scene()->createShadow(toplevel);
if (!shadow->init(c->decoration())) {
delete shadow;
return nullptr;
}
return shadow;
}
Shadow *Shadow::createShadowFromWayland(Toplevel *toplevel)
{
auto surface = toplevel->surface();
if (!surface) {
return nullptr;
}
const auto s = surface->shadow();
if (!s) {
return nullptr;
}
Shadow *shadow = Compositor::self()->scene()->createShadow(toplevel);
if (!shadow->init(s)) {
delete shadow;
return nullptr;
}
return shadow;
}
QVector< uint32_t > Shadow::readX11ShadowProperty(xcb_window_t id)
{
QVector<uint32_t> ret;
if (id != XCB_WINDOW) {
Xcb::Property property(false, id, atoms->kde_net_wm_shadow, XCB_ATOM_CARDINAL, 0, 12);
uint32_t *shadow = property.value<uint32_t*>();
if (shadow) {
ret.reserve(12);
for (int i=0; i<12; ++i) {
ret << shadow[i];
}
}
}
return ret;
}
bool Shadow::init(const QVector< uint32_t > &data)
{
QVector<Xcb::WindowGeometry> pixmapGeometries(ShadowElementsCount);
QVector<xcb_get_image_cookie_t> getImageCookies(ShadowElementsCount);
auto *c = connection();
for (int i = 0; i < ShadowElementsCount; ++i) {
pixmapGeometries[i] = Xcb::WindowGeometry(data[i]);
}
auto discardReplies = [&getImageCookies](int start) {
for (int i = start; i < getImageCookies.size(); ++i) {
xcb_discard_reply(connection(), getImageCookies.at(i).sequence);
}
};
for (int i = 0; i < ShadowElementsCount; ++i) {
auto &geo = pixmapGeometries[i];
if (geo.isNull()) {
discardReplies(0);
return false;
}
getImageCookies[i] = xcb_get_image_unchecked(c, XCB_IMAGE_FORMAT_Z_PIXMAP, data[i],
0, 0, geo->width, geo->height, ~0);
}
for (int i = 0; i < ShadowElementsCount; ++i) {
auto *reply = xcb_get_image_reply(c, getImageCookies.at(i), nullptr);
if (!reply) {
discardReplies(i+1);
return false;
}
auto &geo = pixmapGeometries[i];
QImage image(xcb_get_image_data(reply), geo->width, geo->height, QImage::Format_ARGB32);
m_shadowElements[i] = QPixmap::fromImage(image);
free(reply);
}
m_topOffset = data[ShadowElementsCount];
m_rightOffset = data[ShadowElementsCount+1];
m_bottomOffset = data[ShadowElementsCount+2];
m_leftOffset = data[ShadowElementsCount+3];
updateShadowRegion();
if (!prepareBackend()) {
return false;
}
buildQuads();
return true;
}
bool Shadow::init(KDecoration2::Decoration *decoration)
{
if (m_decorationShadow) {
// disconnect previous connections
disconnect(m_decorationShadow.data(), &KDecoration2::DecorationShadow::innerShadowRectChanged, m_topLevel, &Toplevel::getShadow);
disconnect(m_decorationShadow.data(), &KDecoration2::DecorationShadow::shadowChanged, m_topLevel, &Toplevel::getShadow);
disconnect(m_decorationShadow.data(), &KDecoration2::DecorationShadow::paddingChanged, m_topLevel, &Toplevel::getShadow);
}
m_decorationShadow = decoration->shadow();
if (!m_decorationShadow) {
return false;
}
// setup connections - all just mapped to recreate
connect(m_decorationShadow.data(), &KDecoration2::DecorationShadow::innerShadowRectChanged, m_topLevel, &Toplevel::getShadow);
connect(m_decorationShadow.data(), &KDecoration2::DecorationShadow::shadowChanged, m_topLevel, &Toplevel::getShadow);
connect(m_decorationShadow.data(), &KDecoration2::DecorationShadow::paddingChanged, m_topLevel, &Toplevel::getShadow);
const QMargins &p = m_decorationShadow->padding();
m_topOffset = p.top();
m_rightOffset = p.right();
m_bottomOffset = p.bottom();
m_leftOffset = p.left();
updateShadowRegion();
if (!prepareBackend()) {
return false;
}
buildQuads();
return true;
}
bool Shadow::init(const QPointer< KWayland::Server::ShadowInterface > &shadow)
{
if (!shadow) {
return false;
}
m_shadowElements[ShadowElementTop] = shadow->top() ? QPixmap::fromImage(shadow->top()->data().copy()) : QPixmap();
m_shadowElements[ShadowElementTopRight] = shadow->topRight() ? QPixmap::fromImage(shadow->topRight()->data().copy()) : QPixmap();
m_shadowElements[ShadowElementRight] = shadow->right() ? QPixmap::fromImage(shadow->right()->data().copy()) : QPixmap();
m_shadowElements[ShadowElementBottomRight] = shadow->bottomRight() ? QPixmap::fromImage(shadow->bottomRight()->data().copy()) : QPixmap();
m_shadowElements[ShadowElementBottom] = shadow->bottom() ? QPixmap::fromImage(shadow->bottom()->data().copy()) : QPixmap();
m_shadowElements[ShadowElementBottomLeft] = shadow->bottomLeft() ? QPixmap::fromImage(shadow->bottomLeft()->data().copy()) : QPixmap();
m_shadowElements[ShadowElementLeft] = shadow->left() ? QPixmap::fromImage(shadow->left()->data().copy()) : QPixmap();
m_shadowElements[ShadowElementTopLeft] = shadow->topLeft() ? QPixmap::fromImage(shadow->topLeft()->data().copy()) : QPixmap();
const QMarginsF &p = shadow->offset();
m_topOffset = p.top();
m_rightOffset = p.right();
m_bottomOffset = p.bottom();
m_leftOffset = p.left();
updateShadowRegion();
if (!prepareBackend()) {
return false;
}
buildQuads();
return true;
}
void Shadow::updateShadowRegion()
{
const QRect top(0, - m_topOffset, m_topLevel->width(), m_topOffset);
const QRect right(m_topLevel->width(), - m_topOffset, m_rightOffset, m_topLevel->height() + m_topOffset + m_bottomOffset);
const QRect bottom(0, m_topLevel->height(), m_topLevel->width(), m_bottomOffset);
const QRect left(- m_leftOffset, - m_topOffset, m_leftOffset, m_topLevel->height() + m_topOffset + m_bottomOffset);
m_shadowRegion = QRegion(top).united(right).united(bottom).united(left);
}
void Shadow::buildQuads()
{
// prepare window quads
m_shadowQuads.clear();
const QSize top(m_shadowElements[ShadowElementTop].size());
const QSize topRight(m_shadowElements[ShadowElementTopRight].size());
const QSize right(m_shadowElements[ShadowElementRight].size());
const QSize bottomRight(m_shadowElements[ShadowElementBottomRight].size());
const QSize bottom(m_shadowElements[ShadowElementBottom].size());
const QSize bottomLeft(m_shadowElements[ShadowElementBottomLeft].size());
const QSize left(m_shadowElements[ShadowElementLeft].size());
const QSize topLeft(m_shadowElements[ShadowElementTopLeft].size());
if ((left.width() - m_leftOffset > m_topLevel->width()) ||
(right.width() - m_rightOffset > m_topLevel->width()) ||
(top.height() - m_topOffset > m_topLevel->height()) ||
(bottom.height() - m_bottomOffset > m_topLevel->height())) {
// if our shadow is bigger than the window, we don't render the shadow
m_shadowRegion = QRegion();
return;
}
const QRect outerRect(QPoint(-m_leftOffset, -m_topOffset), QPoint(m_topLevel->width() + m_rightOffset, m_topLevel->height() + m_bottomOffset));
WindowQuad topLeftQuad(WindowQuadShadowTopLeft);
topLeftQuad[ 0 ] = WindowVertex(outerRect.x(), outerRect.y(), 0.0, 0.0);
topLeftQuad[ 1 ] = WindowVertex(outerRect.x() + topLeft.width(), outerRect.y(), 1.0, 0.0);
topLeftQuad[ 2 ] = WindowVertex(outerRect.x() + topLeft.width(), outerRect.y() + topLeft.height(), 1.0, 1.0);
topLeftQuad[ 3 ] = WindowVertex(outerRect.x(), outerRect.y() + topLeft.height(), 0.0, 1.0);
m_shadowQuads.append(topLeftQuad);
WindowQuad topQuad(WindowQuadShadowTop);
topQuad[ 0 ] = WindowVertex(outerRect.x() + topLeft.width(), outerRect.y(), 0.0, 0.0);
topQuad[ 1 ] = WindowVertex(outerRect.right() - topRight.width(), outerRect.y(), 1.0, 0.0);
topQuad[ 2 ] = WindowVertex(outerRect.right() - topRight.width(), outerRect.y() + top.height(), 1.0, 1.0);
topQuad[ 3 ] = WindowVertex(outerRect.x() + topLeft.width(), outerRect.y() + top.height(), 0.0, 1.0);
m_shadowQuads.append(topQuad);
WindowQuad topRightQuad(WindowQuadShadowTopRight);
topRightQuad[ 0 ] = WindowVertex(outerRect.right() - topRight.width(), outerRect.y(), 0.0, 0.0);
topRightQuad[ 1 ] = WindowVertex(outerRect.right(), outerRect.y(), 1.0, 0.0);
topRightQuad[ 2 ] = WindowVertex(outerRect.right(), outerRect.y() + topRight.height(), 1.0, 1.0);
topRightQuad[ 3 ] = WindowVertex(outerRect.right() - topRight.width(), outerRect.y() + topRight.height(), 0.0, 1.0);
m_shadowQuads.append(topRightQuad);
WindowQuad rightQuad(WindowQuadShadowRight);
rightQuad[ 0 ] = WindowVertex(outerRect.right() - right.width(), outerRect.y() + topRight.height(), 0.0, 0.0);
rightQuad[ 1 ] = WindowVertex(outerRect.right(), outerRect.y() + topRight.height(), 1.0, 0.0);
rightQuad[ 2 ] = WindowVertex(outerRect.right(), outerRect.bottom() - bottomRight.height(), 1.0, 1.0);
rightQuad[ 3 ] = WindowVertex(outerRect.right() - right.width(), outerRect.bottom() - bottomRight.height(), 0.0, 1.0);
m_shadowQuads.append(rightQuad);
WindowQuad bottomRightQuad(WindowQuadShadowBottomRight);
bottomRightQuad[ 0 ] = WindowVertex(outerRect.right() - bottomRight.width(), outerRect.bottom() - bottomRight.height(), 0.0, 0.0);
bottomRightQuad[ 1 ] = WindowVertex(outerRect.right(), outerRect.bottom() - bottomRight.height(), 1.0, 0.0);
bottomRightQuad[ 2 ] = WindowVertex(outerRect.right(), outerRect.bottom(), 1.0, 1.0);
bottomRightQuad[ 3 ] = WindowVertex(outerRect.right() - bottomRight.width(), outerRect.bottom(), 0.0, 1.0);
m_shadowQuads.append(bottomRightQuad);
WindowQuad bottomQuad(WindowQuadShadowBottom);
bottomQuad[ 0 ] = WindowVertex(outerRect.x() + bottomLeft.width(), outerRect.bottom() - bottom.height(), 0.0, 0.0);
bottomQuad[ 1 ] = WindowVertex(outerRect.right() - bottomRight.width(), outerRect.bottom() - bottom.height(), 1.0, 0.0);
bottomQuad[ 2 ] = WindowVertex(outerRect.right() - bottomRight.width(), outerRect.bottom(), 1.0, 1.0);
bottomQuad[ 3 ] = WindowVertex(outerRect.x() + bottomLeft.width(), outerRect.bottom(), 0.0, 1.0);
m_shadowQuads.append(bottomQuad);
WindowQuad bottomLeftQuad(WindowQuadShadowBottomLeft);
bottomLeftQuad[ 0 ] = WindowVertex(outerRect.x(), outerRect.bottom() - bottomLeft.height(), 0.0, 0.0);
bottomLeftQuad[ 1 ] = WindowVertex(outerRect.x() + bottomLeft.width(), outerRect.bottom() - bottomLeft.height(), 1.0, 0.0);
bottomLeftQuad[ 2 ] = WindowVertex(outerRect.x() + bottomLeft.width(), outerRect.bottom(), 1.0, 1.0);
bottomLeftQuad[ 3 ] = WindowVertex(outerRect.x(), outerRect.bottom(), 0.0, 1.0);
m_shadowQuads.append(bottomLeftQuad);
WindowQuad leftQuad(WindowQuadShadowLeft);
leftQuad[ 0 ] = WindowVertex(outerRect.x(), outerRect.y() + topLeft.height(), 0.0, 0.0);
leftQuad[ 1 ] = WindowVertex(outerRect.x() + left.width(), outerRect.y() + topLeft.height(), 1.0, 0.0);
leftQuad[ 2 ] = WindowVertex(outerRect.x() + left.width(), outerRect.bottom() - bottomLeft.height(), 1.0, 1.0);
leftQuad[ 3 ] = WindowVertex(outerRect.x(), outerRect.bottom() - bottomLeft.height(), 0.0, 1.0);
m_shadowQuads.append(leftQuad);
}
bool Shadow::updateShadow()
{
auto clear = [this]() {
if (m_topLevel && m_topLevel->effectWindow() && m_topLevel->effectWindow()->sceneWindow() &&
m_topLevel->effectWindow()->sceneWindow()->shadow()) {
auto w = m_topLevel->effectWindow();
// this also deletes the shadow
w->sceneWindow()->updateShadow(nullptr);
w->buildQuads(true);
}
};
if (m_decorationShadow) {
if (AbstractClient *c = qobject_cast<AbstractClient*>(m_topLevel)) {
if (c->decoration()) {
if (init(c->decoration())) {
if (m_topLevel && m_topLevel->effectWindow())
m_topLevel->effectWindow()->buildQuads(true);
return true;
}
}
}
clear();
return false;
}
if (waylandServer()) {
if (m_topLevel && m_topLevel->surface()) {
if (const auto &s = m_topLevel->surface()->shadow()) {
if (init(s)) {
if (m_topLevel->effectWindow()) {
m_topLevel->effectWindow()->buildQuads(true);
}
return true;
}
}
}
}
if (!m_topLevel) {
clear();
return false;
}
auto data = Shadow::readX11ShadowProperty(m_topLevel->window());
if (data.isEmpty()) {
clear();
return false;
}
init(data);
if (m_topLevel && m_topLevel->effectWindow())
m_topLevel->effectWindow()->buildQuads(true);
return true;
}
void Shadow::setToplevel(Toplevel *topLevel)
{
m_topLevel = topLevel;
connect(m_topLevel, SIGNAL(geometryChanged()), SLOT(geometryChanged()));
}
void Shadow::geometryChanged()
{
if (m_cachedSize == m_topLevel->geometry().size()) {
return;
}
m_cachedSize = m_topLevel->geometry().size();
updateShadowRegion();
buildQuads();
}
QImage Shadow::decorationShadowImage() const
{
if (!m_decorationShadow) {
return QImage();
}
return m_decorationShadow->shadow();
}
QSize Shadow::elementSize(Shadow::ShadowElements element) const
{
if (m_decorationShadow) {
switch (element) {
case ShadowElementTop:
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return m_decorationShadow->topGeometry().size();
case ShadowElementTopRight:
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return m_decorationShadow->topRightGeometry().size();
case ShadowElementRight:
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return m_decorationShadow->rightGeometry().size();
case ShadowElementBottomRight:
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return m_decorationShadow->bottomRightGeometry().size();
case ShadowElementBottom:
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return m_decorationShadow->bottomGeometry().size();
case ShadowElementBottomLeft:
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return m_decorationShadow->bottomLeftGeometry().size();
case ShadowElementLeft:
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return m_decorationShadow->leftGeometry().size();
case ShadowElementTopLeft:
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return m_decorationShadow->topLeftGeometry().size();
default:
return QSize();
}
} else {
return m_shadowElements[element].size();
}
}
void Shadow::setShadowElement(const QPixmap &shadow, Shadow::ShadowElements element)
{
m_shadowElements[element] = shadow;
}
} // namespace