/* SPDX-FileCopyrightText: 2014 Martin Gräßlin SPDX-License-Identifier: LGPL-2.1-only OR LGPL-3.0-only OR LicenseRef-KDE-Accepted-LGPL */ #include "surface_interface.h" #include "surface_interface_p.h" #include "buffer_interface.h" #include "clientconnection.h" #include "compositor_interface.h" #include "idleinhibit_interface_p.h" #include "pointerconstraints_interface_p.h" #include "region_interface.h" #include "subcompositor_interface.h" #include "subsurface_interface_p.h" #include "surfacerole_p.h" // Qt #include // Wayland #include // std #include namespace KWaylandServer { SurfaceInterface::Private::Private(SurfaceInterface *q, CompositorInterface *c, wl_resource *parentResource) : Resource::Private(q, c, parentResource, &wl_surface_interface, &s_interface) { } SurfaceInterface::Private::~Private() { destroy(); } void SurfaceInterface::Private::addChild(QPointer< SubSurfaceInterface > child) { // protocol is not precise on how to handle the addition of new sub surfaces pending.children.append(child); subSurfacePending.children.append(child); current.children.append(child); Q_Q(SurfaceInterface); emit q->childSubSurfaceAdded(child); emit q->subSurfaceTreeChanged(); QObject::connect(child.data(), &SubSurfaceInterface::positionChanged, q, &SurfaceInterface::subSurfaceTreeChanged); QObject::connect(child->surface().data(), &SurfaceInterface::damaged, q, &SurfaceInterface::subSurfaceTreeChanged); QObject::connect(child->surface().data(), &SurfaceInterface::unmapped, q, &SurfaceInterface::subSurfaceTreeChanged); QObject::connect(child->surface().data(), &SurfaceInterface::subSurfaceTreeChanged, q, &SurfaceInterface::subSurfaceTreeChanged); } void SurfaceInterface::Private::removeChild(QPointer< SubSurfaceInterface > child) { // protocol is not precise on how to handle the addition of new sub surfaces pending.children.removeAll(child); subSurfacePending.children.removeAll(child); current.children.removeAll(child); Q_Q(SurfaceInterface); emit q->childSubSurfaceRemoved(child); emit q->subSurfaceTreeChanged(); QObject::disconnect(child.data(), &SubSurfaceInterface::positionChanged, q, &SurfaceInterface::subSurfaceTreeChanged); if (!child->surface().isNull()) { QObject::disconnect(child->surface().data(), &SurfaceInterface::damaged, q, &SurfaceInterface::subSurfaceTreeChanged); QObject::disconnect(child->surface().data(), &SurfaceInterface::unmapped, q, &SurfaceInterface::subSurfaceTreeChanged); QObject::disconnect(child->surface().data(), &SurfaceInterface::subSurfaceTreeChanged, q, &SurfaceInterface::subSurfaceTreeChanged); } } bool SurfaceInterface::Private::raiseChild(QPointer subsurface, SurfaceInterface *sibling) { Q_Q(SurfaceInterface); auto it = std::find(pending.children.begin(), pending.children.end(), subsurface); if (it == pending.children.end()) { return false; } if (pending.children.count() == 1) { // nothing to do return true; } if (sibling == q) { // it's to the parent, so needs to become last item pending.children.append(*it); pending.children.erase(it); pending.childrenChanged = true; return true; } if (!sibling->subSurface()) { // not a sub surface return false; } auto siblingIt = std::find(pending.children.begin(), pending.children.end(), sibling->subSurface()); if (siblingIt == pending.children.end() || siblingIt == it) { // not a sibling return false; } auto value = (*it); pending.children.erase(it); // find the iterator again siblingIt = std::find(pending.children.begin(), pending.children.end(), sibling->subSurface()); pending.children.insert(++siblingIt, value); pending.childrenChanged = true; return true; } bool SurfaceInterface::Private::lowerChild(QPointer subsurface, SurfaceInterface *sibling) { Q_Q(SurfaceInterface); auto it = std::find(pending.children.begin(), pending.children.end(), subsurface); if (it == pending.children.end()) { return false; } if (pending.children.count() == 1) { // nothing to do return true; } if (sibling == q) { // it's to the parent, so needs to become first item auto value = *it; pending.children.erase(it); pending.children.prepend(value); pending.childrenChanged = true; return true; } if (!sibling->subSurface()) { // not a sub surface return false; } auto siblingIt = std::find(pending.children.begin(), pending.children.end(), sibling->subSurface()); if (siblingIt == pending.children.end() || siblingIt == it) { // not a sibling return false; } auto value = (*it); pending.children.erase(it); // find the iterator again siblingIt = std::find(pending.children.begin(), pending.children.end(), sibling->subSurface()); pending.children.insert(siblingIt, value); pending.childrenChanged = true; return true; } void SurfaceInterface::Private::setShadow(const QPointer &shadow) { pending.shadow = shadow; pending.shadowIsSet = true; } void SurfaceInterface::Private::setBlur(const QPointer &blur) { pending.blur = blur; pending.blurIsSet = true; } void SurfaceInterface::Private::setSlide(const QPointer &slide) { pending.slide = slide; pending.slideIsSet = true; } void SurfaceInterface::Private::setContrast(const QPointer &contrast) { pending.contrast = contrast; pending.contrastIsSet = true; } void SurfaceInterface::Private::installPointerConstraint(LockedPointerInterface *lock) { Q_ASSERT(lockedPointer.isNull()); Q_ASSERT(confinedPointer.isNull()); lockedPointer = QPointer(lock); auto cleanUp = [this]() { lockedPointer.clear(); disconnect(constrainsOneShotConnection); constrainsOneShotConnection = QMetaObject::Connection(); disconnect(constrainsUnboundConnection); constrainsUnboundConnection = QMetaObject::Connection(); emit q_func()->pointerConstraintsChanged(); }; if (lock->lifeTime() == LockedPointerInterface::LifeTime::OneShot) { constrainsOneShotConnection = QObject::connect(lock, &LockedPointerInterface::lockedChanged, q_func(), [this, cleanUp] { if (lockedPointer.isNull() || lockedPointer->isLocked()) { return; } cleanUp(); } ); } constrainsUnboundConnection = QObject::connect(lock, &LockedPointerInterface::unbound, q_func(), [this, cleanUp] { if (lockedPointer.isNull()) { return; } cleanUp(); } ); emit q_func()->pointerConstraintsChanged(); } void SurfaceInterface::Private::installPointerConstraint(ConfinedPointerInterface *confinement) { Q_ASSERT(lockedPointer.isNull()); Q_ASSERT(confinedPointer.isNull()); confinedPointer = QPointer(confinement); auto cleanUp = [this]() { confinedPointer.clear(); disconnect(constrainsOneShotConnection); constrainsOneShotConnection = QMetaObject::Connection(); disconnect(constrainsUnboundConnection); constrainsUnboundConnection = QMetaObject::Connection(); emit q_func()->pointerConstraintsChanged(); }; if (confinement->lifeTime() == ConfinedPointerInterface::LifeTime::OneShot) { constrainsOneShotConnection = QObject::connect(confinement, &ConfinedPointerInterface::confinedChanged, q_func(), [this, cleanUp] { if (confinedPointer.isNull() || confinedPointer->isConfined()) { return; } cleanUp(); } ); } constrainsUnboundConnection = QObject::connect(confinement, &ConfinedPointerInterface::unbound, q_func(), [this, cleanUp] { if (confinedPointer.isNull()) { return; } cleanUp(); } ); emit q_func()->pointerConstraintsChanged(); } void SurfaceInterface::Private::installIdleInhibitor(IdleInhibitorInterface *inhibitor) { idleInhibitors << inhibitor; QObject::connect(inhibitor, &IdleInhibitorInterface::aboutToBeUnbound, q, [this, inhibitor] { idleInhibitors.removeOne(inhibitor); if (idleInhibitors.isEmpty()) { emit q_func()->inhibitsIdleChanged(); } } ); if (idleInhibitors.count() == 1) { emit q_func()->inhibitsIdleChanged(); } } #ifndef K_DOXYGEN const struct wl_surface_interface SurfaceInterface::Private::s_interface = { resourceDestroyedCallback, attachCallback, damageCallback, frameCallback, opaqueRegionCallback, inputRegionCallback, commitCallback, bufferTransformCallback, bufferScaleCallback, damageBufferCallback }; #endif SurfaceInterface::SurfaceInterface(CompositorInterface *parent, wl_resource *parentResource) : Resource(new Private(this, parent, parentResource)) { } SurfaceInterface::~SurfaceInterface() = default; void SurfaceInterface::frameRendered(quint32 msec) { Q_D(); // notify all callbacks const bool needsFlush = !d->current.callbacks.isEmpty(); while (!d->current.callbacks.isEmpty()) { wl_resource *r = d->current.callbacks.takeFirst(); wl_callback_send_done(r, msec); wl_resource_destroy(r); } for (auto it = d->current.children.constBegin(); it != d->current.children.constEnd(); ++it) { const auto &subSurface = *it; if (subSurface.isNull() || subSurface->d_func()->surface.isNull()) { continue; } subSurface->d_func()->surface->frameRendered(msec); } if (needsFlush) { client()->flush(); } } void SurfaceInterface::Private::destroy() { // copy all existing callbacks to new list and clear existing lists // the wl_resource_destroy on the callback resource goes into destroyFrameCallback // which would modify the list we are iterating on QList callbacksToDestroy; callbacksToDestroy << current.callbacks; current.callbacks.clear(); callbacksToDestroy << pending.callbacks; pending.callbacks.clear(); callbacksToDestroy << subSurfacePending.callbacks; subSurfacePending.callbacks.clear(); for (auto it = callbacksToDestroy.constBegin(), end = callbacksToDestroy.constEnd(); it != end; it++) { wl_resource_destroy(*it); } if (current.buffer) { current.buffer->unref(); } } void SurfaceInterface::Private::swapStates(State *source, State *target, bool emitChanged) { Q_Q(SurfaceInterface); bool bufferChanged = source->bufferIsSet; const bool opaqueRegionChanged = source->opaqueIsSet; const bool inputRegionChanged = source->inputIsSet; const bool scaleFactorChanged = source->scaleIsSet && (target->scale != source->scale); const bool transformChanged = source->transformIsSet && (target->transform != source->transform); const bool shadowChanged = source->shadowIsSet; const bool blurChanged = source->blurIsSet; const bool contrastChanged = source->contrastIsSet; const bool slideChanged = source->slideIsSet; const bool childrenChanged = source->childrenChanged; const bool visibilityChanged = bufferChanged && (bool(source->buffer) != bool(target->buffer)); bool sizeChanged = false; auto buffer = target->buffer; if (bufferChanged) { // TODO: is the reffing correct for subsurfaces? QSize oldSize; if (target->buffer) { oldSize = target->buffer->size(); if (emitChanged) { target->buffer->unref(); QObject::disconnect(target->buffer, &BufferInterface::sizeChanged, q, &SurfaceInterface::sizeChanged); } else { delete target->buffer; target->buffer = nullptr; } } if (source->buffer) { if (emitChanged) { source->buffer->ref(); QObject::connect(source->buffer, &BufferInterface::sizeChanged, q, &SurfaceInterface::sizeChanged); } const QSize newSize = source->buffer->size(); sizeChanged = newSize.isValid() && newSize != oldSize; } if (!target->buffer && !source->buffer && emitChanged) { // null buffer set on a not mapped surface, don't emit unmapped bufferChanged = false; } buffer = source->buffer; } // copy values if (bufferChanged) { target->buffer = buffer; target->offset = source->offset; target->damage = source->damage; target->bufferDamage = source->bufferDamage; target->bufferIsSet = source->bufferIsSet; } if (childrenChanged) { target->childrenChanged = source->childrenChanged; target->children = source->children; } target->callbacks.append(source->callbacks); if (shadowChanged) { target->shadow = source->shadow; target->shadowIsSet = true; } if (blurChanged) { target->blur = source->blur; target->blurIsSet = true; } if (contrastChanged) { target->contrast = source->contrast; target->contrastIsSet = true; } if (slideChanged) { target->slide = source->slide; target->slideIsSet = true; } if (inputRegionChanged) { target->input = source->input; target->inputIsInfinite = source->inputIsInfinite; target->inputIsSet = true; } if (opaqueRegionChanged) { target->opaque = source->opaque; target->opaqueIsSet = true; } if (scaleFactorChanged) { target->scale = source->scale; target->scaleIsSet = true; } if (transformChanged) { target->transform = source->transform; target->transformIsSet = true; } if (!lockedPointer.isNull()) { lockedPointer->d_func()->commit(); } if (!confinedPointer.isNull()) { confinedPointer->d_func()->commit(); } *source = State{}; source->children = target->children; if (opaqueRegionChanged) { emit q->opaqueChanged(target->opaque); } if (inputRegionChanged) { emit q->inputChanged(target->input); } if (scaleFactorChanged) { emit q->scaleChanged(target->scale); if (buffer && !sizeChanged) { emit q->sizeChanged(); } } if (transformChanged) { emit q->transformChanged(target->transform); } if (bufferChanged && emitChanged) { if (target->buffer && (!target->damage.isEmpty() || !target->bufferDamage.isEmpty())) { const QRegion windowRegion = QRegion(0, 0, q->size().width(), q->size().height()); if (!windowRegion.isEmpty()) { QRegion bufferDamage; if (!target->bufferDamage.isEmpty()) { typedef OutputInterface::Transform Tr; const Tr tr = target->transform; const qint32 sc = target->scale; if (tr == Tr::Rotated90 || tr == Tr::Rotated270 || tr == Tr::Flipped90 || tr == Tr::Flipped270) { // calculate transformed + scaled buffer damage for (const auto &rect : target->bufferDamage) { const auto add = QRegion(rect.x() / sc, rect.y() / sc, rect.height() / sc, rect.width() / sc); bufferDamage = bufferDamage.united(add); } } else if (sc != 1) { // calculate scaled buffer damage for (const auto &rect : target->bufferDamage) { const auto add = QRegion(rect.x() / sc, rect.y() / sc, rect.width() / sc, rect.height() / sc); bufferDamage = bufferDamage.united(add); } } else { bufferDamage = target->bufferDamage; } } target->damage = windowRegion.intersected(target->damage.united(bufferDamage)); if (emitChanged) { subSurfaceIsMapped = true; if (visibilityChanged) { emit q->mapped(); } trackedDamage = trackedDamage.united(target->damage); emit q->damaged(target->damage); // workaround for https://bugreports.qt.io/browse/QTBUG-52092 // if the surface is a sub-surface, but the main surface is not yet mapped, fake frame rendered if (subSurface) { const auto mainSurface = subSurface->mainSurface(); if (!mainSurface || !mainSurface->buffer()) { q->frameRendered(0); } } } } } else if (!target->buffer && emitChanged) { subSurfaceIsMapped = false; emit q->unmapped(); } } if (!emitChanged) { return; } if (sizeChanged) { emit q->sizeChanged(); } if (shadowChanged) { emit q->shadowChanged(); } if (blurChanged) { emit q->blurChanged(); } if (contrastChanged) { emit q->contrastChanged(); } if (slideChanged) { emit q->slideOnShowHideChanged(); } if (childrenChanged) { emit q->subSurfaceTreeChanged(); } } void SurfaceInterface::Private::commit() { Q_Q(SurfaceInterface); if (!subSurface.isNull() && subSurface->isSynchronized()) { swapStates(&pending, &subSurfacePending, false); } else { swapStates(&pending, ¤t, true); if (!subSurface.isNull()) { subSurface->d_func()->commit(); } // commit all subSurfaces to apply position changes // "The cached state is applied to the sub-surface immediately after the parent surface's state is applied" for (auto it = current.children.constBegin(); it != current.children.constEnd(); ++it) { const auto &subSurface = *it; if (subSurface.isNull()) { continue; } subSurface->d_func()->commit(); } } if (role) { role->commit(); } emit q->committed(); } void SurfaceInterface::Private::commitSubSurface() { if (subSurface.isNull() || !subSurface->isSynchronized()) { return; } swapStates(&subSurfacePending, ¤t, true); // "The cached state is applied to the sub-surface immediately after the parent surface's state is applied" for (auto it = current.children.constBegin(); it != current.children.constEnd(); ++it) { const auto &subSurface = *it; if (subSurface.isNull() || !subSurface->isSynchronized()) { continue; } subSurface->d_func()->commit(); } } void SurfaceInterface::Private::damage(const QRect &rect) { pending.damage = pending.damage.united(rect); } void SurfaceInterface::Private::damageBuffer(const QRect &rect) { pending.bufferDamage = pending.bufferDamage.united(rect); } void SurfaceInterface::Private::setScale(qint32 scale) { pending.scale = scale; pending.scaleIsSet = true; } void SurfaceInterface::Private::setTransform(OutputInterface::Transform transform) { pending.transform = transform; } void SurfaceInterface::Private::addFrameCallback(uint32_t callback) { wl_resource *r = client->createResource(&wl_callback_interface, 1, callback); if (!r) { wl_resource_post_no_memory(resource); return; } wl_resource_set_implementation(r, nullptr, this, destroyFrameCallback); pending.callbacks << r; } void SurfaceInterface::Private::attachBuffer(wl_resource *buffer, const QPoint &offset) { pending.bufferIsSet = true; pending.offset = offset; if (pending.buffer) { delete pending.buffer; } if (!buffer) { // got a null buffer, deletes content in next frame pending.buffer = nullptr; pending.damage = QRegion(); pending.bufferDamage = QRegion(); return; } Q_Q(SurfaceInterface); pending.buffer = new BufferInterface(buffer, q); QObject::connect(pending.buffer, &BufferInterface::aboutToBeDestroyed, q, [this](BufferInterface *buffer) { if (pending.buffer == buffer) { pending.buffer = nullptr; } if (subSurfacePending.buffer == buffer) { subSurfacePending.buffer = nullptr; } if (current.buffer == buffer) { current.buffer->unref(); current.buffer = nullptr; } } ); } void SurfaceInterface::Private::destroyFrameCallback(wl_resource *r) { auto s = cast(r); s->current.callbacks.removeAll(r); s->pending.callbacks.removeAll(r); s->subSurfacePending.callbacks.removeAll(r); } void SurfaceInterface::Private::attachCallback(wl_client *client, wl_resource *resource, wl_resource *buffer, int32_t sx, int32_t sy) { Q_UNUSED(client) cast(resource)->attachBuffer(buffer, QPoint(sx, sy)); } void SurfaceInterface::Private::damageCallback(wl_client *client, wl_resource *resource, int32_t x, int32_t y, int32_t width, int32_t height) { Q_UNUSED(client) cast(resource)->damage(QRect(x, y, width, height)); } void SurfaceInterface::Private::damageBufferCallback(wl_client *client, wl_resource *resource, int32_t x, int32_t y, int32_t width, int32_t height) { Q_UNUSED(client) cast(resource)->damageBuffer(QRect(x, y, width, height)); } void SurfaceInterface::Private::frameCallback(wl_client *client, wl_resource *resource, uint32_t callback) { auto s = cast(resource); Q_ASSERT(client == *s->client); s->addFrameCallback(callback); } void SurfaceInterface::Private::opaqueRegionCallback(wl_client *client, wl_resource *resource, wl_resource *region) { auto s = cast(resource); Q_ASSERT(client == *s->client); auto r = RegionInterface::get(region); s->setOpaque(r ? r->region() : QRegion()); } void SurfaceInterface::Private::setOpaque(const QRegion ®ion) { pending.opaqueIsSet = true; pending.opaque = region; } void SurfaceInterface::Private::inputRegionCallback(wl_client *client, wl_resource *resource, wl_resource *region) { auto s = cast(resource); Q_ASSERT(client == *s->client); auto r = RegionInterface::get(region); s->setInput(r ? r->region() : QRegion(), !r); } void SurfaceInterface::Private::setInput(const QRegion ®ion, bool isInfinite) { pending.inputIsSet = true; pending.inputIsInfinite = isInfinite; pending.input = region; } void SurfaceInterface::Private::commitCallback(wl_client *client, wl_resource *resource) { Q_UNUSED(client) cast(resource)->commit(); } void SurfaceInterface::Private::bufferTransformCallback(wl_client *client, wl_resource *resource, int32_t transform) { Q_UNUSED(client) cast(resource)->setTransform(OutputInterface::Transform(transform)); } void SurfaceInterface::Private::bufferScaleCallback(wl_client *client, wl_resource *resource, int32_t scale) { Q_UNUSED(client) cast(resource)->setScale(scale); } QRegion SurfaceInterface::damage() const { Q_D(); return d->current.damage; } QRegion SurfaceInterface::opaque() const { Q_D(); return d->current.opaque; } QRegion SurfaceInterface::input() const { Q_D(); return d->current.input; } bool SurfaceInterface::inputIsInfitine() const { return inputIsInfinite(); } bool SurfaceInterface::inputIsInfinite() const { Q_D(); return d->current.inputIsInfinite; } qint32 SurfaceInterface::scale() const { Q_D(); return d->current.scale; } OutputInterface::Transform SurfaceInterface::transform() const { Q_D(); return d->current.transform; } BufferInterface *SurfaceInterface::buffer() { Q_D(); return d->current.buffer; } QPoint SurfaceInterface::offset() const { Q_D(); return d->current.offset; } SurfaceInterface *SurfaceInterface::get(wl_resource *native) { return Private::get(native); } SurfaceInterface *SurfaceInterface::get(quint32 id, const ClientConnection *client) { return Private::get(id, client); } QList< QPointer< SubSurfaceInterface > > SurfaceInterface::childSubSurfaces() const { Q_D(); return d->current.children; } QPointer< SubSurfaceInterface > SurfaceInterface::subSurface() const { Q_D(); return d->subSurface; } QSize SurfaceInterface::size() const { Q_D(); // TODO: apply transform to the buffer size if (d->current.buffer) { return d->current.buffer->size() / scale(); } return QSize(); } QRect SurfaceInterface::boundingRect() const { QRect rect(QPoint(0, 0), size()); const QList> subSurfaces = childSubSurfaces(); for (const SubSurfaceInterface *subSurface : subSurfaces) { const SurfaceInterface *childSurface = subSurface->surface(); rect |= childSurface->boundingRect().translated(subSurface->position()); } return rect; } QPointer< ShadowInterface > SurfaceInterface::shadow() const { Q_D(); return d->current.shadow; } QPointer< BlurInterface > SurfaceInterface::blur() const { Q_D(); return d->current.blur; } QPointer< ContrastInterface > SurfaceInterface::contrast() const { Q_D(); return d->current.contrast; } QPointer< SlideInterface > SurfaceInterface::slideOnShowHide() const { Q_D(); return d->current.slide; } bool SurfaceInterface::isMapped() const { Q_D(); if (d->subSurface) { // from spec: // "A sub-surface becomes mapped, when a non-NULL wl_buffer is applied and the parent surface is mapped." return d->subSurfaceIsMapped && !d->subSurface->parentSurface().isNull() && d->subSurface->parentSurface()->isMapped(); } return d->current.buffer != nullptr; } QRegion SurfaceInterface::trackedDamage() const { Q_D(); return d->trackedDamage; } void SurfaceInterface::resetTrackedDamage() { Q_D(); d->trackedDamage = QRegion(); } QVector SurfaceInterface::outputs() const { Q_D(); return d->outputs; } void SurfaceInterface::setOutputs(const QVector &outputs) { Q_D(); QVector removedOutputs = d->outputs; for (auto it = outputs.constBegin(), end = outputs.constEnd(); it != end; ++it) { const auto o = *it; removedOutputs.removeOne(o); } for (auto it = removedOutputs.constBegin(), end = removedOutputs.constEnd(); it != end; ++it) { const auto resources = (*it)->clientResources(client()); for (wl_resource *r : resources) { wl_surface_send_leave(d->resource, r); } disconnect(d->outputDestroyedConnections.take(*it)); } QVector addedOutputsOutputs = outputs; for (auto it = d->outputs.constBegin(), end = d->outputs.constEnd(); it != end; ++it) { const auto o = *it; addedOutputsOutputs.removeOne(o); } for (auto it = addedOutputsOutputs.constBegin(), end = addedOutputsOutputs.constEnd(); it != end; ++it) { const auto o = *it; const auto resources = o->clientResources(client()); for (wl_resource *r : resources) { wl_surface_send_enter(d->resource, r); } d->outputDestroyedConnections[o] = connect(o, &Global::aboutToDestroyGlobal, this, [this, o] { Q_D(); auto outputs = d->outputs; if (outputs.removeOne(o)) { setOutputs(outputs); }}); } // TODO: send enter when the client binds the OutputInterface another time d->outputs = outputs; } SurfaceInterface *SurfaceInterface::surfaceAt(const QPointF &position) { if (!isMapped()) { return nullptr; } Q_D(); // go from top to bottom. Top most child is last in list QListIterator> it(d->current.children); it.toBack(); while (it.hasPrevious()) { const auto ¤t = it.previous(); auto surface = current->surface(); if (surface.isNull()) { continue; } if (auto s = surface->surfaceAt(position - current->position())) { return s; } } // check whether the geometry contains the pos if (!size().isEmpty() && QRectF(QPoint(0, 0), size()).contains(position)) { return this; } return nullptr; } SurfaceInterface *SurfaceInterface::inputSurfaceAt(const QPointF &position) { // TODO: Most of this is very similar to SurfaceInterface::surfaceAt // Is there a way to reduce the code duplication? if (!isMapped()) { return nullptr; } Q_D(); // go from top to bottom. Top most child is last in list QListIterator> it(d->current.children); it.toBack(); while (it.hasPrevious()) { const auto ¤t = it.previous(); auto surface = current->surface(); if (surface.isNull()) { continue; } if (auto s = surface->inputSurfaceAt(position - current->position())) { return s; } } // check whether the geometry and input region contain the pos if (!size().isEmpty() && QRectF(QPoint(0, 0), size()).contains(position) && (inputIsInfinite() || input().contains(position.toPoint()))) { return this; } return nullptr; } QPointer SurfaceInterface::lockedPointer() const { Q_D(); return d->lockedPointer; } QPointer SurfaceInterface::confinedPointer() const { Q_D(); return d->confinedPointer; } bool SurfaceInterface::inhibitsIdle() const { Q_D(); return !d->idleInhibitors.isEmpty(); } void SurfaceInterface::setDataProxy(SurfaceInterface *surface) { Q_D(); d->dataProxy = surface; } SurfaceInterface* SurfaceInterface::dataProxy() const { Q_D(); return d->dataProxy; } SurfaceInterface::Private *SurfaceInterface::d_func() const { return reinterpret_cast(d.data()); } }