kwin/src/wayland/seat_interface.cpp

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/********************************************************************
Copyright 2014 Martin Gräßlin <mgraesslin@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) version 3, or any
later version accepted by the membership of KDE e.V. (or its
successor approved by the membership of KDE e.V.), which shall
act as a proxy defined in Section 6 of version 3 of the license.
This library 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library. If not, see <http://www.gnu.org/licenses/>.
*********************************************************************/
#include "seat_interface.h"
#include "seat_interface_p.h"
#include "display.h"
#include "datadevice_interface.h"
#include "datasource_interface.h"
#include "keyboard_interface.h"
#include "pointer_interface.h"
#include "surface_interface.h"
// Wayland
#ifndef WL_SEAT_NAME_SINCE_VERSION
#define WL_SEAT_NAME_SINCE_VERSION 2
#endif
// linux
#include <linux/input.h>
namespace KWayland
{
namespace Server
{
const quint32 SeatInterface::Private::s_version = 4;
const qint32 SeatInterface::Private::s_pointerVersion = 3;
const qint32 SeatInterface::Private::s_touchVersion = 3;
const qint32 SeatInterface::Private::s_keyboardVersion = 4;
SeatInterface::Private::Private(SeatInterface *q, Display *display)
: Global::Private(display, &wl_seat_interface, s_version)
, q(q)
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{
}
#ifndef DOXYGEN_SHOULD_SKIP_THIS
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const struct wl_seat_interface SeatInterface::Private::s_interface = {
getPointerCallback,
getKeyboardCallback,
getTouchCallback
};
#endif
SeatInterface::SeatInterface(Display *display, QObject *parent)
: Global(new Private(this, display), parent)
{
Q_D();
connect(this, &SeatInterface::nameChanged, this,
[this, d] {
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for (auto it = d->resources.constBegin(); it != d->resources.constEnd(); ++it) {
d->sendName(*it);
}
}
);
auto sendCapabilitiesAll = [this, d] {
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for (auto it = d->resources.constBegin(); it != d->resources.constEnd(); ++it) {
d->sendCapabilities(*it);
}
};
connect(this, &SeatInterface::hasPointerChanged, this, sendCapabilitiesAll);
connect(this, &SeatInterface::hasKeyboardChanged, this, sendCapabilitiesAll);
connect(this, &SeatInterface::hasTouchChanged, this, sendCapabilitiesAll);
}
SeatInterface::~SeatInterface()
{
Q_D();
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while (!d->resources.isEmpty()) {
wl_resource_destroy(d->resources.takeLast());
}
}
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void SeatInterface::Private::bind(wl_client *client, uint32_t version, uint32_t id)
{
wl_resource *r = wl_resource_create(client, &wl_seat_interface, qMin(s_version, version), id);
if (!r) {
wl_client_post_no_memory(client);
return;
}
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resources << r;
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wl_resource_set_implementation(r, &s_interface, this, unbind);
sendCapabilities(r);
sendName(r);
}
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void SeatInterface::Private::unbind(wl_resource *r)
{
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cast(r)->resources.removeAll(r);
}
void SeatInterface::Private::updatePointerButtonSerial(quint32 button, quint32 serial)
{
auto it = globalPointer.buttonSerials.find(button);
if (it == globalPointer.buttonSerials.end()) {
globalPointer.buttonSerials.insert(button, serial);
return;
}
it.value() = serial;
}
void SeatInterface::Private::updatePointerButtonState(quint32 button, Pointer::State state)
{
auto it = globalPointer.buttonStates.find(button);
if (it == globalPointer.buttonStates.end()) {
globalPointer.buttonStates.insert(button, state);
return;
}
it.value() = state;
}
void SeatInterface::Private::updateKey(quint32 key, Keyboard::State state)
{
auto it = keys.states.find(key);
if (it == keys.states.end()) {
keys.states.insert(key, state);
return;
}
it.value() = state;
}
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void SeatInterface::Private::sendName(wl_resource *r)
{
if (wl_resource_get_version(r) < WL_SEAT_NAME_SINCE_VERSION) {
return;
}
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wl_seat_send_name(r, name.toUtf8().constData());
}
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void SeatInterface::Private::sendCapabilities(wl_resource *r)
{
uint32_t capabilities = 0;
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if (pointer) {
capabilities |= WL_SEAT_CAPABILITY_POINTER;
}
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if (keyboard) {
capabilities |= WL_SEAT_CAPABILITY_KEYBOARD;
}
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if (touch) {
capabilities |= WL_SEAT_CAPABILITY_TOUCH;
}
wl_seat_send_capabilities(r, capabilities);
}
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SeatInterface::Private *SeatInterface::Private::cast(wl_resource *r)
{
return r ? reinterpret_cast<SeatInterface::Private*>(wl_resource_get_user_data(r)) : nullptr;
}
namespace {
template <typename T>
static
T *interfaceForSurface(SurfaceInterface *surface, const QVector<T*> &interfaces)
{
if (!surface) {
return nullptr;
}
for (auto it = interfaces.begin(); it != interfaces.end(); ++it) {
if ((*it)->client() == surface->client()) {
return (*it);
}
}
return nullptr;
}
}
PointerInterface *SeatInterface::Private::pointerForSurface(SurfaceInterface *surface) const
{
return interfaceForSurface(surface, pointers);
}
KeyboardInterface *SeatInterface::Private::keyboardForSurface(SurfaceInterface *surface) const
{
return interfaceForSurface(surface, keyboards);
}
TouchInterface *SeatInterface::Private::touchForSurface(SurfaceInterface *surface) const
{
return interfaceForSurface(surface, touchs);
}
DataDeviceInterface *SeatInterface::Private::dataDeviceForSurface(SurfaceInterface *surface) const
{
return interfaceForSurface(surface, dataDevices);
}
void SeatInterface::Private::registerDataDevice(DataDeviceInterface *dataDevice)
{
Q_ASSERT(dataDevice->seat() == q);
dataDevices << dataDevice;
QObject::connect(dataDevice, &QObject::destroyed, q,
[this, dataDevice] {
dataDevices.removeAt(dataDevices.indexOf(dataDevice));
if (keys.focus.selection == dataDevice) {
keys.focus.selection = nullptr;
}
if (currentSelection == dataDevice) {
// current selection is cleared
currentSelection = nullptr;
if (keys.focus.selection) {
keys.focus.selection->sendClearSelection();
}
}
}
);
QObject::connect(dataDevice, &DataDeviceInterface::selectionChanged, q,
[this, dataDevice] {
updateSelection(dataDevice, true);
}
);
QObject::connect(dataDevice, &DataDeviceInterface::selectionCleared, q,
[this, dataDevice] {
updateSelection(dataDevice, false);
}
);
[server] Implement support for drag'n'drop through pointer device Summary: How drag'n'drop works on Wayland: When a surface has a pointer grab and a button pressed on the surface (implicit grab) the client can initiate a drag'n'drop operation on the data device. For this the client needs to provide a data source describing the data to be transmitted with the drag'n'drop operation. When a drag'n'drop operation is active all pointer events are interpreted as part of the drag'n'drop operation, the pointer device is grabbed. Pointer events are no longer sent to the focused pointer but to the focused data device. When the pointer moves to another surface an enter event is sent to a data device for that surface and a leave event is sent to the data device previously focused. An enter event carries a data offer which is created from the data source for the operation. During pointer motion there is a feedback mechanism. The data offer can signal to the data source that it can or cannot accept the data at the current pointer position. This can be used by the client being dragged from to update the cursor. The drag'n'drop operation ends with the implicit grab being removed, that is the pressed pointer button which triggered the operation gets released. The server sends a drop event to the focused data device. The data transfer can now be started. For that the receiving client creates a pipe and passes the file descriptor through the data offer to the sending data source. The sending client will write into the file descriptor and close it to finish the transfer. Drag'n'drop could also be initiated through a touch device grab, but this is not yet implemented. The implementation in this change focuses on the adjustments for pointer. For the user of the library drag'n'drop is implemented in the SeatInterface. Signals are emitted whenever drag is started or ended. The interaction for pointer events hardly changes. Motion, button press and button release can still be indicated in the same way. If a button release removes the implicit grab the drop is automatically performed, without the user of the library having to do anything. The only change during drag and drop for the library user is that setFocusedPointerSurface is blocked. To update the current drag target the library user should use setDragTarget. Sending the enter/leave to the data device gets performed automatically. The data device which triggered the drag and drop operation is exposed in the SeatInterface. The user of the library should make sure to render the additional drag icon provided on the data device. At least QtWayland based applications will freeze during drag and drop if the icon doesn't get rendered. The implementation is currently still lacking the client side and due to that also auto test. It's currently only tested with QtWayland clients. Reviewers: #plasma, sebas Subscribers: plasma-devel Projects: #plasma Differential Revision: https://phabricator.kde.org/D1046
2016-03-01 06:49:04 +00:00
QObject::connect(dataDevice, &DataDeviceInterface::dragStarted, q,
[this, dataDevice] {
if (q->hasImplicitPointerGrab(dataDevice->dragImplicitGrabSerial())) {
drag.mode = Drag::Mode::Pointer;
} else {
// TODO: touch
return;
}
drag.source = dataDevice;
drag.target = dataDevice;
drag.surface = dataDevice->origin();
drag.sourcePointer = interfaceForSurface(drag.surface, pointers);
// TODO: transformation needs to be either pointer or touch
drag.transformation = globalPointer.focus.transformation;
drag.destroyConnection = QObject::connect(dataDevice, &QObject::destroyed, q,
[this] {
endDrag(display->nextSerial());
}
);
dataDevice->updateDragTarget(dataDevice->origin(), dataDevice->dragImplicitGrabSerial());
emit q->dragStarted();
emit q->dragSurfaceChanged();
}
);
// is the new DataDevice for the current keyoard focus?
if (keys.focus.surface && !keys.focus.selection) {
// same client?
if (keys.focus.surface->client() == dataDevice->client()) {
keys.focus.selection = dataDevice;
if (currentSelection) {
dataDevice->sendSelection(currentSelection);
}
}
}
}
[server] Implement support for drag'n'drop through pointer device Summary: How drag'n'drop works on Wayland: When a surface has a pointer grab and a button pressed on the surface (implicit grab) the client can initiate a drag'n'drop operation on the data device. For this the client needs to provide a data source describing the data to be transmitted with the drag'n'drop operation. When a drag'n'drop operation is active all pointer events are interpreted as part of the drag'n'drop operation, the pointer device is grabbed. Pointer events are no longer sent to the focused pointer but to the focused data device. When the pointer moves to another surface an enter event is sent to a data device for that surface and a leave event is sent to the data device previously focused. An enter event carries a data offer which is created from the data source for the operation. During pointer motion there is a feedback mechanism. The data offer can signal to the data source that it can or cannot accept the data at the current pointer position. This can be used by the client being dragged from to update the cursor. The drag'n'drop operation ends with the implicit grab being removed, that is the pressed pointer button which triggered the operation gets released. The server sends a drop event to the focused data device. The data transfer can now be started. For that the receiving client creates a pipe and passes the file descriptor through the data offer to the sending data source. The sending client will write into the file descriptor and close it to finish the transfer. Drag'n'drop could also be initiated through a touch device grab, but this is not yet implemented. The implementation in this change focuses on the adjustments for pointer. For the user of the library drag'n'drop is implemented in the SeatInterface. Signals are emitted whenever drag is started or ended. The interaction for pointer events hardly changes. Motion, button press and button release can still be indicated in the same way. If a button release removes the implicit grab the drop is automatically performed, without the user of the library having to do anything. The only change during drag and drop for the library user is that setFocusedPointerSurface is blocked. To update the current drag target the library user should use setDragTarget. Sending the enter/leave to the data device gets performed automatically. The data device which triggered the drag and drop operation is exposed in the SeatInterface. The user of the library should make sure to render the additional drag icon provided on the data device. At least QtWayland based applications will freeze during drag and drop if the icon doesn't get rendered. The implementation is currently still lacking the client side and due to that also auto test. It's currently only tested with QtWayland clients. Reviewers: #plasma, sebas Subscribers: plasma-devel Projects: #plasma Differential Revision: https://phabricator.kde.org/D1046
2016-03-01 06:49:04 +00:00
void SeatInterface::Private::endDrag(quint32 serial)
{
auto target = drag.target;
QObject::disconnect(drag.destroyConnection);
if (target) {
target->drop();
target->updateDragTarget(nullptr, serial);
}
drag = Drag();
emit q->dragSurfaceChanged();
emit q->dragEnded();
}
void SeatInterface::Private::updateSelection(DataDeviceInterface *dataDevice, bool set)
{
if (keys.focus.surface && (keys.focus.surface->client() == dataDevice->client())) {
// new selection on a data device belonging to current keyboard focus
currentSelection = dataDevice;
}
if (dataDevice == currentSelection) {
// need to send out the selection
if (keys.focus.selection) {
if (set) {
keys.focus.selection->sendSelection(dataDevice);
} else {
keys.focus.selection->sendClearSelection();
}
}
}
}
void SeatInterface::setHasKeyboard(bool has)
{
Q_D();
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if (d->keyboard == has) {
return;
}
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d->keyboard = has;
emit hasKeyboardChanged(d->keyboard);
}
void SeatInterface::setHasPointer(bool has)
{
Q_D();
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if (d->pointer == has) {
return;
}
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d->pointer = has;
emit hasPointerChanged(d->pointer);
}
void SeatInterface::setHasTouch(bool has)
{
Q_D();
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if (d->touch == has) {
return;
}
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d->touch = has;
emit hasTouchChanged(d->touch);
}
void SeatInterface::setName(const QString &name)
{
Q_D();
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if (d->name == name) {
return;
}
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d->name = name;
emit nameChanged(d->name);
}
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void SeatInterface::Private::getPointerCallback(wl_client *client, wl_resource *resource, uint32_t id)
{
cast(resource)->getPointer(client, resource, id);
}
void SeatInterface::Private::getPointer(wl_client *client, wl_resource *resource, uint32_t id)
{
// TODO: only create if seat has pointer?
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PointerInterface *pointer = new PointerInterface(q, resource);
pointer->create(display->getConnection(client), qMin(wl_resource_get_version(resource), s_pointerVersion), id);
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if (!pointer->resource()) {
wl_resource_post_no_memory(resource);
delete pointer;
return;
}
pointers << pointer;
if (globalPointer.focus.surface && globalPointer.focus.surface->client()->client() == client) {
// this is a pointer for the currently focused pointer surface
if (!globalPointer.focus.pointer) {
globalPointer.focus.pointer = pointer;
pointer->setFocusedSurface(globalPointer.focus.surface, globalPointer.focus.serial);
emit q->focusedPointerChanged(pointer);
}
}
QObject::connect(pointer, &QObject::destroyed, q,
[pointer,this] {
pointers.removeAt(pointers.indexOf(pointer));
if (globalPointer.focus.pointer == pointer) {
globalPointer.focus.pointer = nullptr;
emit q->focusedPointerChanged(nullptr);
}
}
);
emit q->pointerCreated(pointer);
}
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void SeatInterface::Private::getKeyboardCallback(wl_client *client, wl_resource *resource, uint32_t id)
{
cast(resource)->getKeyboard(client, resource, id);
}
void SeatInterface::Private::getKeyboard(wl_client *client, wl_resource *resource, uint32_t id)
{
// TODO: only create if seat has keyboard?
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KeyboardInterface *keyboard = new KeyboardInterface(q, resource);
keyboard->create(display->getConnection(client), qMin(wl_resource_get_version(resource), s_keyboardVersion) , id);
2014-11-26 14:28:47 +00:00
if (!keyboard->resource()) {
wl_resource_post_no_memory(resource);
delete keyboard;
return;
}
keyboard->repeatInfo(keys.keyRepeat.charactersPerSecond, keys.keyRepeat.delay);
if (keys.keymap.xkbcommonCompatible) {
keyboard->setKeymap(keys.keymap.fd, keys.keymap.size);
}
keyboards << keyboard;
if (keys.focus.surface && keys.focus.surface->client()->client() == client) {
// this is a keyboard for the currently focused keyboard surface
if (!keys.focus.keyboard) {
keys.focus.keyboard = keyboard;
keyboard->setFocusedSurface(keys.focus.surface, keys.focus.serial);
}
}
QObject::connect(keyboard, &QObject::destroyed, q,
[keyboard,this] {
keyboards.removeAt(keyboards.indexOf(keyboard));
if (keys.focus.keyboard == keyboard) {
keys.focus.keyboard = nullptr;
}
}
);
emit q->keyboardCreated(keyboard);
}
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void SeatInterface::Private::getTouchCallback(wl_client *client, wl_resource *resource, uint32_t id)
{
cast(resource)->getTouch(client, resource, id);
}
void SeatInterface::Private::getTouch(wl_client *client, wl_resource *resource, uint32_t id)
{
// TODO: only create if seat has touch?
TouchInterface *touch = new TouchInterface(q, resource);
touch->create(display->getConnection(client), qMin(wl_resource_get_version(resource), s_touchVersion), id);
if (!touch->resource()) {
wl_resource_post_no_memory(resource);
delete touch;
return;
}
touchs << touch;
if (touchInterface.focus.surface && touchInterface.focus.surface->client()->client() == client) {
// this is a touch for the currently focused touch surface
if (!touchInterface.focus.touch) {
touchInterface.focus.touch = touch;
if (!touchInterface.ids.isEmpty()) {
// TODO: send out all the points
}
}
}
QObject::connect(touch, &QObject::destroyed, q,
[touch,this] {
touchs.removeAt(touchs.indexOf(touch));
if (touchInterface.focus.touch == touch) {
touchInterface.focus.touch = nullptr;
}
}
);
emit q->touchCreated(touch);
}
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QString SeatInterface::name() const
{
Q_D();
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return d->name;
}
bool SeatInterface::hasPointer() const
{
Q_D();
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return d->pointer;
}
bool SeatInterface::hasKeyboard() const
{
Q_D();
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return d->keyboard;
}
bool SeatInterface::hasTouch() const
{
Q_D();
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return d->touch;
}
SeatInterface *SeatInterface::get(wl_resource *native)
{
return Private::get(native);
}
SeatInterface::Private *SeatInterface::d_func() const
{
return reinterpret_cast<Private*>(d.data());
}
QPointF SeatInterface::pointerPos() const
{
Q_D();
return d->globalPointer.pos;
}
void SeatInterface::setPointerPos(const QPointF &pos)
{
Q_D();
if (d->globalPointer.pos == pos) {
return;
}
d->globalPointer.pos = pos;
emit pointerPosChanged(pos);
}
quint32 SeatInterface::timestamp() const
{
Q_D();
return d->timestamp;
}
void SeatInterface::setTimestamp(quint32 time)
{
Q_D();
if (d->timestamp == time) {
return;
}
d->timestamp = time;
emit timestampChanged(time);
}
[server] Implement support for drag'n'drop through pointer device Summary: How drag'n'drop works on Wayland: When a surface has a pointer grab and a button pressed on the surface (implicit grab) the client can initiate a drag'n'drop operation on the data device. For this the client needs to provide a data source describing the data to be transmitted with the drag'n'drop operation. When a drag'n'drop operation is active all pointer events are interpreted as part of the drag'n'drop operation, the pointer device is grabbed. Pointer events are no longer sent to the focused pointer but to the focused data device. When the pointer moves to another surface an enter event is sent to a data device for that surface and a leave event is sent to the data device previously focused. An enter event carries a data offer which is created from the data source for the operation. During pointer motion there is a feedback mechanism. The data offer can signal to the data source that it can or cannot accept the data at the current pointer position. This can be used by the client being dragged from to update the cursor. The drag'n'drop operation ends with the implicit grab being removed, that is the pressed pointer button which triggered the operation gets released. The server sends a drop event to the focused data device. The data transfer can now be started. For that the receiving client creates a pipe and passes the file descriptor through the data offer to the sending data source. The sending client will write into the file descriptor and close it to finish the transfer. Drag'n'drop could also be initiated through a touch device grab, but this is not yet implemented. The implementation in this change focuses on the adjustments for pointer. For the user of the library drag'n'drop is implemented in the SeatInterface. Signals are emitted whenever drag is started or ended. The interaction for pointer events hardly changes. Motion, button press and button release can still be indicated in the same way. If a button release removes the implicit grab the drop is automatically performed, without the user of the library having to do anything. The only change during drag and drop for the library user is that setFocusedPointerSurface is blocked. To update the current drag target the library user should use setDragTarget. Sending the enter/leave to the data device gets performed automatically. The data device which triggered the drag and drop operation is exposed in the SeatInterface. The user of the library should make sure to render the additional drag icon provided on the data device. At least QtWayland based applications will freeze during drag and drop if the icon doesn't get rendered. The implementation is currently still lacking the client side and due to that also auto test. It's currently only tested with QtWayland clients. Reviewers: #plasma, sebas Subscribers: plasma-devel Projects: #plasma Differential Revision: https://phabricator.kde.org/D1046
2016-03-01 06:49:04 +00:00
void SeatInterface::setDragTarget(SurfaceInterface *surface, const QPointF &globalPosition, const QMatrix4x4 &inputTransformation)
{
Q_D();
if (surface == d->drag.surface) {
// no change
return;
}
const quint32 serial = d->display->nextSerial();
if (d->drag.target) {
d->drag.target->updateDragTarget(nullptr, serial);
}
d->drag.target = d->dataDeviceForSurface(surface);
// TODO: update touch
if (d->drag.mode == Private::Drag::Mode::Pointer) {
setPointerPos(globalPosition);
}
if (d->drag.target) {
d->drag.surface = surface;
d->drag.transformation = inputTransformation;
d->drag.target->updateDragTarget(surface, serial);
} else {
d->drag.surface = nullptr;
}
emit dragSurfaceChanged();
return;
}
void SeatInterface::setDragTarget(SurfaceInterface *surface, const QMatrix4x4 &inputTransformation)
{
// TODO: handle touch
setDragTarget(surface, pointerPos(), inputTransformation);
}
SurfaceInterface *SeatInterface::focusedPointerSurface() const
{
Q_D();
return d->globalPointer.focus.surface;
}
void SeatInterface::setFocusedPointerSurface(SurfaceInterface *surface, const QPointF &surfacePosition)
{
QMatrix4x4 m;
m.translate(-surfacePosition.x(), -surfacePosition.y());
setFocusedPointerSurface(surface, m);
Q_D();
if (d->globalPointer.focus.surface) {
d->globalPointer.focus.offset = surfacePosition;
}
}
void SeatInterface::setFocusedPointerSurface(SurfaceInterface *surface, const QMatrix4x4 &transformation)
{
Q_D();
[server] Implement support for drag'n'drop through pointer device Summary: How drag'n'drop works on Wayland: When a surface has a pointer grab and a button pressed on the surface (implicit grab) the client can initiate a drag'n'drop operation on the data device. For this the client needs to provide a data source describing the data to be transmitted with the drag'n'drop operation. When a drag'n'drop operation is active all pointer events are interpreted as part of the drag'n'drop operation, the pointer device is grabbed. Pointer events are no longer sent to the focused pointer but to the focused data device. When the pointer moves to another surface an enter event is sent to a data device for that surface and a leave event is sent to the data device previously focused. An enter event carries a data offer which is created from the data source for the operation. During pointer motion there is a feedback mechanism. The data offer can signal to the data source that it can or cannot accept the data at the current pointer position. This can be used by the client being dragged from to update the cursor. The drag'n'drop operation ends with the implicit grab being removed, that is the pressed pointer button which triggered the operation gets released. The server sends a drop event to the focused data device. The data transfer can now be started. For that the receiving client creates a pipe and passes the file descriptor through the data offer to the sending data source. The sending client will write into the file descriptor and close it to finish the transfer. Drag'n'drop could also be initiated through a touch device grab, but this is not yet implemented. The implementation in this change focuses on the adjustments for pointer. For the user of the library drag'n'drop is implemented in the SeatInterface. Signals are emitted whenever drag is started or ended. The interaction for pointer events hardly changes. Motion, button press and button release can still be indicated in the same way. If a button release removes the implicit grab the drop is automatically performed, without the user of the library having to do anything. The only change during drag and drop for the library user is that setFocusedPointerSurface is blocked. To update the current drag target the library user should use setDragTarget. Sending the enter/leave to the data device gets performed automatically. The data device which triggered the drag and drop operation is exposed in the SeatInterface. The user of the library should make sure to render the additional drag icon provided on the data device. At least QtWayland based applications will freeze during drag and drop if the icon doesn't get rendered. The implementation is currently still lacking the client side and due to that also auto test. It's currently only tested with QtWayland clients. Reviewers: #plasma, sebas Subscribers: plasma-devel Projects: #plasma Differential Revision: https://phabricator.kde.org/D1046
2016-03-01 06:49:04 +00:00
if (d->drag.mode == Private::Drag::Mode::Pointer) {
// ignore
return;
}
const quint32 serial = d->display->nextSerial();
if (d->globalPointer.focus.pointer) {
d->globalPointer.focus.pointer->setFocusedSurface(nullptr, serial);
}
if (d->globalPointer.focus.surface) {
disconnect(d->globalPointer.focus.destroyConnection);
}
d->globalPointer.focus = Private::Pointer::Focus();
d->globalPointer.focus.surface = surface;
PointerInterface *p = d->pointerForSurface(surface);
if (p && !p->resource()) {
p = nullptr;
}
d->globalPointer.focus.pointer = p;
if (d->globalPointer.focus.surface) {
d->globalPointer.focus.destroyConnection = connect(surface, &QObject::destroyed, this,
[this] {
Q_D();
d->globalPointer.focus = Private::Pointer::Focus();
emit focusedPointerChanged(nullptr);
}
);
d->globalPointer.focus.offset = QPointF();
d->globalPointer.focus.transformation = transformation;
d->globalPointer.focus.serial = serial;
}
emit focusedPointerChanged(p);
if (!p) {
return;
}
p->setFocusedSurface(surface, serial);
}
PointerInterface *SeatInterface::focusedPointer() const
{
Q_D();
return d->globalPointer.focus.pointer;
}
void SeatInterface::setFocusedPointerSurfacePosition(const QPointF &surfacePosition)
{
Q_D();
if (d->globalPointer.focus.surface) {
d->globalPointer.focus.offset = surfacePosition;
d->globalPointer.focus.transformation = QMatrix4x4();
d->globalPointer.focus.transformation.translate(-surfacePosition.x(), -surfacePosition.y());
}
}
QPointF SeatInterface::focusedPointerSurfacePosition() const
{
Q_D();
return d->globalPointer.focus.offset;
}
void SeatInterface::setFocusedPointerSurfaceTransformation(const QMatrix4x4 &transformation)
{
Q_D();
if (d->globalPointer.focus.surface) {
d->globalPointer.focus.transformation = transformation;
}
}
QMatrix4x4 SeatInterface::focusedPointerSurfaceTransformation() const
{
Q_D();
return d->globalPointer.focus.transformation;
}
namespace {
static quint32 qtToWaylandButton(Qt::MouseButton button)
{
static const QHash<Qt::MouseButton, quint32> s_buttons({
{Qt::LeftButton, BTN_LEFT},
{Qt::RightButton, BTN_RIGHT},
{Qt::MiddleButton, BTN_MIDDLE},
{Qt::ExtraButton1, BTN_BACK}, // note: QtWayland maps BTN_SIDE
{Qt::ExtraButton2, BTN_FORWARD}, // note: QtWayland maps BTN_EXTRA
{Qt::ExtraButton3, BTN_TASK}, // note: QtWayland maps BTN_FORWARD
{Qt::ExtraButton4, BTN_EXTRA}, // note: QtWayland maps BTN_BACK
{Qt::ExtraButton5, BTN_SIDE}, // note: QtWayland maps BTN_TASK
{Qt::ExtraButton6, BTN_TASK + 1},
{Qt::ExtraButton7, BTN_TASK + 2},
{Qt::ExtraButton8, BTN_TASK + 3},
{Qt::ExtraButton9, BTN_TASK + 4},
{Qt::ExtraButton10, BTN_TASK + 5},
{Qt::ExtraButton11, BTN_TASK + 6},
{Qt::ExtraButton12, BTN_TASK + 7},
{Qt::ExtraButton13, BTN_TASK + 8}
// further mapping not possible, 0x120 is BTN_JOYSTICK
});
return s_buttons.value(button, 0);
2015-09-02 14:20:10 +00:00
}
}
bool SeatInterface::isPointerButtonPressed(Qt::MouseButton button) const
{
return isPointerButtonPressed(qtToWaylandButton(button));
}
bool SeatInterface::isPointerButtonPressed(quint32 button) const
{
Q_D();
auto it = d->globalPointer.buttonStates.constFind(button);
if (it == d->globalPointer.buttonStates.constEnd()) {
return false;
}
return it.value() == Private::Pointer::State::Pressed ? true : false;
}
void SeatInterface::pointerAxis(Qt::Orientation orientation, quint32 delta)
{
Q_D();
[server] Implement support for drag'n'drop through pointer device Summary: How drag'n'drop works on Wayland: When a surface has a pointer grab and a button pressed on the surface (implicit grab) the client can initiate a drag'n'drop operation on the data device. For this the client needs to provide a data source describing the data to be transmitted with the drag'n'drop operation. When a drag'n'drop operation is active all pointer events are interpreted as part of the drag'n'drop operation, the pointer device is grabbed. Pointer events are no longer sent to the focused pointer but to the focused data device. When the pointer moves to another surface an enter event is sent to a data device for that surface and a leave event is sent to the data device previously focused. An enter event carries a data offer which is created from the data source for the operation. During pointer motion there is a feedback mechanism. The data offer can signal to the data source that it can or cannot accept the data at the current pointer position. This can be used by the client being dragged from to update the cursor. The drag'n'drop operation ends with the implicit grab being removed, that is the pressed pointer button which triggered the operation gets released. The server sends a drop event to the focused data device. The data transfer can now be started. For that the receiving client creates a pipe and passes the file descriptor through the data offer to the sending data source. The sending client will write into the file descriptor and close it to finish the transfer. Drag'n'drop could also be initiated through a touch device grab, but this is not yet implemented. The implementation in this change focuses on the adjustments for pointer. For the user of the library drag'n'drop is implemented in the SeatInterface. Signals are emitted whenever drag is started or ended. The interaction for pointer events hardly changes. Motion, button press and button release can still be indicated in the same way. If a button release removes the implicit grab the drop is automatically performed, without the user of the library having to do anything. The only change during drag and drop for the library user is that setFocusedPointerSurface is blocked. To update the current drag target the library user should use setDragTarget. Sending the enter/leave to the data device gets performed automatically. The data device which triggered the drag and drop operation is exposed in the SeatInterface. The user of the library should make sure to render the additional drag icon provided on the data device. At least QtWayland based applications will freeze during drag and drop if the icon doesn't get rendered. The implementation is currently still lacking the client side and due to that also auto test. It's currently only tested with QtWayland clients. Reviewers: #plasma, sebas Subscribers: plasma-devel Projects: #plasma Differential Revision: https://phabricator.kde.org/D1046
2016-03-01 06:49:04 +00:00
if (d->drag.mode == Private::Drag::Mode::Pointer) {
// ignore
return;
}
if (d->globalPointer.focus.pointer && d->globalPointer.focus.surface) {
d->globalPointer.focus.pointer->axis(orientation, delta);
}
}
void SeatInterface::pointerButtonPressed(Qt::MouseButton button)
{
const quint32 nativeButton = qtToWaylandButton(button);
if (nativeButton == 0) {
return;
}
pointerButtonPressed(nativeButton);
}
void SeatInterface::pointerButtonPressed(quint32 button)
{
Q_D();
const quint32 serial = d->display->nextSerial();
d->updatePointerButtonSerial(button, serial);
d->updatePointerButtonState(button, Private::Pointer::State::Pressed);
[server] Implement support for drag'n'drop through pointer device Summary: How drag'n'drop works on Wayland: When a surface has a pointer grab and a button pressed on the surface (implicit grab) the client can initiate a drag'n'drop operation on the data device. For this the client needs to provide a data source describing the data to be transmitted with the drag'n'drop operation. When a drag'n'drop operation is active all pointer events are interpreted as part of the drag'n'drop operation, the pointer device is grabbed. Pointer events are no longer sent to the focused pointer but to the focused data device. When the pointer moves to another surface an enter event is sent to a data device for that surface and a leave event is sent to the data device previously focused. An enter event carries a data offer which is created from the data source for the operation. During pointer motion there is a feedback mechanism. The data offer can signal to the data source that it can or cannot accept the data at the current pointer position. This can be used by the client being dragged from to update the cursor. The drag'n'drop operation ends with the implicit grab being removed, that is the pressed pointer button which triggered the operation gets released. The server sends a drop event to the focused data device. The data transfer can now be started. For that the receiving client creates a pipe and passes the file descriptor through the data offer to the sending data source. The sending client will write into the file descriptor and close it to finish the transfer. Drag'n'drop could also be initiated through a touch device grab, but this is not yet implemented. The implementation in this change focuses on the adjustments for pointer. For the user of the library drag'n'drop is implemented in the SeatInterface. Signals are emitted whenever drag is started or ended. The interaction for pointer events hardly changes. Motion, button press and button release can still be indicated in the same way. If a button release removes the implicit grab the drop is automatically performed, without the user of the library having to do anything. The only change during drag and drop for the library user is that setFocusedPointerSurface is blocked. To update the current drag target the library user should use setDragTarget. Sending the enter/leave to the data device gets performed automatically. The data device which triggered the drag and drop operation is exposed in the SeatInterface. The user of the library should make sure to render the additional drag icon provided on the data device. At least QtWayland based applications will freeze during drag and drop if the icon doesn't get rendered. The implementation is currently still lacking the client side and due to that also auto test. It's currently only tested with QtWayland clients. Reviewers: #plasma, sebas Subscribers: plasma-devel Projects: #plasma Differential Revision: https://phabricator.kde.org/D1046
2016-03-01 06:49:04 +00:00
if (d->drag.mode == Private::Drag::Mode::Pointer) {
// ignore
return;
}
if (d->globalPointer.focus.pointer && d->globalPointer.focus.surface) {
d->globalPointer.focus.pointer->buttonPressed(button, serial);
}
}
void SeatInterface::pointerButtonReleased(Qt::MouseButton button)
{
const quint32 nativeButton = qtToWaylandButton(button);
if (nativeButton == 0) {
return;
}
pointerButtonReleased(nativeButton);
}
void SeatInterface::pointerButtonReleased(quint32 button)
{
Q_D();
const quint32 serial = d->display->nextSerial();
[server] Implement support for drag'n'drop through pointer device Summary: How drag'n'drop works on Wayland: When a surface has a pointer grab and a button pressed on the surface (implicit grab) the client can initiate a drag'n'drop operation on the data device. For this the client needs to provide a data source describing the data to be transmitted with the drag'n'drop operation. When a drag'n'drop operation is active all pointer events are interpreted as part of the drag'n'drop operation, the pointer device is grabbed. Pointer events are no longer sent to the focused pointer but to the focused data device. When the pointer moves to another surface an enter event is sent to a data device for that surface and a leave event is sent to the data device previously focused. An enter event carries a data offer which is created from the data source for the operation. During pointer motion there is a feedback mechanism. The data offer can signal to the data source that it can or cannot accept the data at the current pointer position. This can be used by the client being dragged from to update the cursor. The drag'n'drop operation ends with the implicit grab being removed, that is the pressed pointer button which triggered the operation gets released. The server sends a drop event to the focused data device. The data transfer can now be started. For that the receiving client creates a pipe and passes the file descriptor through the data offer to the sending data source. The sending client will write into the file descriptor and close it to finish the transfer. Drag'n'drop could also be initiated through a touch device grab, but this is not yet implemented. The implementation in this change focuses on the adjustments for pointer. For the user of the library drag'n'drop is implemented in the SeatInterface. Signals are emitted whenever drag is started or ended. The interaction for pointer events hardly changes. Motion, button press and button release can still be indicated in the same way. If a button release removes the implicit grab the drop is automatically performed, without the user of the library having to do anything. The only change during drag and drop for the library user is that setFocusedPointerSurface is blocked. To update the current drag target the library user should use setDragTarget. Sending the enter/leave to the data device gets performed automatically. The data device which triggered the drag and drop operation is exposed in the SeatInterface. The user of the library should make sure to render the additional drag icon provided on the data device. At least QtWayland based applications will freeze during drag and drop if the icon doesn't get rendered. The implementation is currently still lacking the client side and due to that also auto test. It's currently only tested with QtWayland clients. Reviewers: #plasma, sebas Subscribers: plasma-devel Projects: #plasma Differential Revision: https://phabricator.kde.org/D1046
2016-03-01 06:49:04 +00:00
const quint32 currentButtonSerial = pointerButtonSerial(button);
d->updatePointerButtonSerial(button, serial);
d->updatePointerButtonState(button, Private::Pointer::State::Released);
[server] Implement support for drag'n'drop through pointer device Summary: How drag'n'drop works on Wayland: When a surface has a pointer grab and a button pressed on the surface (implicit grab) the client can initiate a drag'n'drop operation on the data device. For this the client needs to provide a data source describing the data to be transmitted with the drag'n'drop operation. When a drag'n'drop operation is active all pointer events are interpreted as part of the drag'n'drop operation, the pointer device is grabbed. Pointer events are no longer sent to the focused pointer but to the focused data device. When the pointer moves to another surface an enter event is sent to a data device for that surface and a leave event is sent to the data device previously focused. An enter event carries a data offer which is created from the data source for the operation. During pointer motion there is a feedback mechanism. The data offer can signal to the data source that it can or cannot accept the data at the current pointer position. This can be used by the client being dragged from to update the cursor. The drag'n'drop operation ends with the implicit grab being removed, that is the pressed pointer button which triggered the operation gets released. The server sends a drop event to the focused data device. The data transfer can now be started. For that the receiving client creates a pipe and passes the file descriptor through the data offer to the sending data source. The sending client will write into the file descriptor and close it to finish the transfer. Drag'n'drop could also be initiated through a touch device grab, but this is not yet implemented. The implementation in this change focuses on the adjustments for pointer. For the user of the library drag'n'drop is implemented in the SeatInterface. Signals are emitted whenever drag is started or ended. The interaction for pointer events hardly changes. Motion, button press and button release can still be indicated in the same way. If a button release removes the implicit grab the drop is automatically performed, without the user of the library having to do anything. The only change during drag and drop for the library user is that setFocusedPointerSurface is blocked. To update the current drag target the library user should use setDragTarget. Sending the enter/leave to the data device gets performed automatically. The data device which triggered the drag and drop operation is exposed in the SeatInterface. The user of the library should make sure to render the additional drag icon provided on the data device. At least QtWayland based applications will freeze during drag and drop if the icon doesn't get rendered. The implementation is currently still lacking the client side and due to that also auto test. It's currently only tested with QtWayland clients. Reviewers: #plasma, sebas Subscribers: plasma-devel Projects: #plasma Differential Revision: https://phabricator.kde.org/D1046
2016-03-01 06:49:04 +00:00
if (d->drag.mode == Private::Drag::Mode::Pointer) {
if (d->drag.source->dragImplicitGrabSerial() != currentButtonSerial) {
// not our drag button - ignore
return;
}
d->endDrag(serial);
return;
}
if (d->globalPointer.focus.pointer && d->globalPointer.focus.surface) {
d->globalPointer.focus.pointer->buttonReleased(button, serial);
}
}
quint32 SeatInterface::pointerButtonSerial(Qt::MouseButton button) const
{
return pointerButtonSerial(qtToWaylandButton(button));
}
quint32 SeatInterface::pointerButtonSerial(quint32 button) const
{
Q_D();
auto it = d->globalPointer.buttonSerials.constFind(button);
if (it == d->globalPointer.buttonSerials.constEnd()) {
return 0;
}
return it.value();
}
void SeatInterface::keyPressed(quint32 key)
{
Q_D();
d->keys.lastStateSerial = d->display->nextSerial();
d->updateKey(key, Private::Keyboard::State::Pressed);
if (d->keys.focus.keyboard && d->keys.focus.surface) {
d->keys.focus.keyboard->keyPressed(key, d->keys.lastStateSerial);
}
}
void SeatInterface::keyReleased(quint32 key)
{
Q_D();
d->keys.lastStateSerial = d->display->nextSerial();
d->updateKey(key, Private::Keyboard::State::Released);
if (d->keys.focus.keyboard && d->keys.focus.surface) {
d->keys.focus.keyboard->keyReleased(key, d->keys.lastStateSerial);
}
}
SurfaceInterface *SeatInterface::focusedKeyboardSurface() const
{
Q_D();
return d->keys.focus.surface;
}
void SeatInterface::setFocusedKeyboardSurface(SurfaceInterface *surface)
{
Q_D();
const quint32 serial = d->display->nextSerial();
if (d->keys.focus.keyboard) {
d->keys.focus.keyboard->setFocusedSurface(nullptr, serial);
}
if (d->keys.focus.surface) {
disconnect(d->keys.focus.destroyConnection);
}
d->keys.focus = Private::Keyboard::Focus();
d->keys.focus.surface = surface;
KeyboardInterface *k = d->keyboardForSurface(surface);
if (k && !k->resource()) {
k = nullptr;
}
d->keys.focus.keyboard = k;
if (d->keys.focus.surface) {
d->keys.focus.destroyConnection = connect(surface, &QObject::destroyed, this,
[this] {
Q_D();
d->keys.focus = Private::Keyboard::Focus();
}
);
d->keys.focus.serial = serial;
// selection?
d->keys.focus.selection = d->dataDeviceForSurface(surface);
if (d->keys.focus.selection) {
if (d->currentSelection) {
d->keys.focus.selection->sendSelection(d->currentSelection);
}
}
}
if (!k) {
return;
}
k->setFocusedSurface(surface, serial);
}
void SeatInterface::setKeymap(int fd, quint32 size)
{
Q_D();
d->keys.keymap.xkbcommonCompatible = true;
d->keys.keymap.fd = fd;
d->keys.keymap.size = size;
for (auto it = d->keyboards.constBegin(); it != d->keyboards.constEnd(); ++it) {
(*it)->setKeymap(fd, size);
}
}
void SeatInterface::updateKeyboardModifiers(quint32 depressed, quint32 latched, quint32 locked, quint32 group)
{
Q_D();
bool changed = false;
#define UPDATE( value ) \
if (d->keys.modifiers.value != value) { \
d->keys.modifiers.value = value; \
changed = true; \
}
UPDATE(depressed)
UPDATE(latched)
UPDATE(locked)
UPDATE(group)
if (!changed) {
return;
}
const quint32 serial = d->display->nextSerial();
d->keys.modifiers.serial = serial;
if (d->keys.focus.keyboard && d->keys.focus.surface) {
d->keys.focus.keyboard->updateModifiers(depressed, latched, locked, group, serial);
}
}
void SeatInterface::setKeyRepeatInfo(qint32 charactersPerSecond, qint32 delay)
{
Q_D();
d->keys.keyRepeat.charactersPerSecond = qMax(charactersPerSecond, 0);
d->keys.keyRepeat.delay = qMax(delay, 0);
for (auto it = d->keyboards.constBegin(); it != d->keyboards.constEnd(); ++it) {
(*it)->repeatInfo(d->keys.keyRepeat.charactersPerSecond, d->keys.keyRepeat.delay);
}
}
qint32 SeatInterface::keyRepeatDelay() const
{
Q_D();
return d->keys.keyRepeat.delay;
}
qint32 SeatInterface::keyRepeatRate() const
{
Q_D();
return d->keys.keyRepeat.charactersPerSecond;
}
bool SeatInterface::isKeymapXkbCompatible() const
{
Q_D();
return d->keys.keymap.xkbcommonCompatible;
}
int SeatInterface::keymapFileDescriptor() const
{
Q_D();
return d->keys.keymap.fd;
}
quint32 SeatInterface::keymapSize() const
{
Q_D();
return d->keys.keymap.size;
}
quint32 SeatInterface::depressedModifiers() const
{
Q_D();
return d->keys.modifiers.depressed;
}
quint32 SeatInterface::groupModifiers() const
{
Q_D();
return d->keys.modifiers.group;
}
quint32 SeatInterface::latchedModifiers() const
{
Q_D();
return d->keys.modifiers.latched;
}
quint32 SeatInterface::lockedModifiers() const
{
Q_D();
return d->keys.modifiers.locked;
}
quint32 SeatInterface::lastModifiersSerial() const
{
Q_D();
return d->keys.modifiers.serial;
}
QVector< quint32 > SeatInterface::pressedKeys() const
{
Q_D();
QVector<quint32> keys;
for (auto it = d->keys.states.begin(); it != d->keys.states.end(); ++it) {
if (it.value() == Private::Keyboard::State::Pressed) {
keys << it.key();
}
}
return keys;
}
KeyboardInterface *SeatInterface::focusedKeyboard() const
{
Q_D();
return d->keys.focus.keyboard;
}
void SeatInterface::cancelTouchSequence()
{
Q_D();
if (d->touchInterface.focus.touch) {
d->touchInterface.focus.touch->cancel();
}
d->touchInterface.ids.clear();
}
TouchInterface *SeatInterface::focusedTouch() const
{
Q_D();
return d->touchInterface.focus.touch;
}
SurfaceInterface *SeatInterface::focusedTouchSurface() const
{
Q_D();
return d->touchInterface.focus.surface;
}
QPointF SeatInterface::focusedTouchSurfacePosition() const
{
Q_D();
return d->touchInterface.focus.offset;
}
bool SeatInterface::isTouchSequence() const
{
Q_D();
return !d->touchInterface.ids.isEmpty();
}
void SeatInterface::setFocusedTouchSurface(SurfaceInterface *surface, const QPointF &surfacePosition)
{
if (isTouchSequence()) {
// changing surface not allowed during a touch sequence
return;
}
Q_D();
if (d->touchInterface.focus.surface) {
disconnect(d->touchInterface.focus.destroyConnection);
}
d->touchInterface.focus = Private::Touch::Focus();
d->touchInterface.focus.surface = surface;
d->touchInterface.focus.offset = surfacePosition;
TouchInterface *t = d->touchForSurface(surface);
if (t && !t->resource()) {
t = nullptr;
}
d->touchInterface.focus.touch = t;
if (d->touchInterface.focus.surface) {
d->touchInterface.focus.destroyConnection = connect(surface, &QObject::destroyed, this,
[this] {
Q_D();
if (isTouchSequence() && d->touchInterface.focus.touch) {
// Surface destroyed during touch sequence - send a cancel
d->touchInterface.focus.touch->cancel();
}
d->touchInterface.focus = Private::Touch::Focus();
}
);
}
}
void SeatInterface::setFocusedTouchSurfacePosition(const QPointF &surfacePosition)
{
Q_D();
d->touchInterface.focus.offset = surfacePosition;
}
qint32 SeatInterface::touchDown(const QPointF &globalPosition)
{
Q_D();
const qint32 id = d->touchInterface.ids.isEmpty() ? 0 : d->touchInterface.ids.last() + 1;
const quint32 serial = display()->nextSerial();
if (d->touchInterface.focus.touch && d->touchInterface.focus.surface) {
d->touchInterface.focus.touch->down(id, serial, globalPosition - d->touchInterface.focus.offset);
} else if (id == 0 && focusedTouchSurface()) {
auto p = d->pointerForSurface(focusedTouchSurface());
if (!p) {
return id;
}
const QPointF pos = globalPosition - d->touchInterface.focus.offset;
wl_pointer_send_enter(p->resource(), serial,
focusedTouchSurface()->resource(),
wl_fixed_from_double(pos.x()), wl_fixed_from_double(pos.y()));
wl_pointer_send_motion(p->resource(), timestamp(),
wl_fixed_from_double(pos.x()), wl_fixed_from_double(pos.y()));
wl_pointer_send_button(p->resource(), serial, timestamp(), BTN_LEFT, WL_POINTER_BUTTON_STATE_PRESSED);
}
d->touchInterface.ids << id;
return id;
}
void SeatInterface::touchMove(qint32 id, const QPointF &globalPosition)
{
Q_D();
if (d->touchInterface.focus.touch && d->touchInterface.focus.surface) {
d->touchInterface.focus.touch->move(id, globalPosition - d->touchInterface.focus.offset);
} else if (id == 0 && focusedTouchSurface()) {
auto p = d->pointerForSurface(focusedTouchSurface());
if (!p) {
return;
}
const QPointF pos = globalPosition - d->touchInterface.focus.offset;
wl_pointer_send_motion(p->resource(), timestamp(),
wl_fixed_from_double(pos.x()), wl_fixed_from_double(pos.y()));
}
}
void SeatInterface::touchUp(qint32 id)
{
Q_D();
Q_ASSERT(d->touchInterface.ids.contains(id));
if (d->touchInterface.focus.touch && d->touchInterface.focus.surface) {
d->touchInterface.focus.touch->up(id, display()->nextSerial());
} else if (id == 0 && focusedTouchSurface()) {
const quint32 serial = display()->nextSerial();
auto p = d->pointerForSurface(focusedTouchSurface());
if (!p) {
return;
}
wl_pointer_send_button(p->resource(), serial, timestamp(), BTN_LEFT, WL_POINTER_BUTTON_STATE_RELEASED);
}
d->touchInterface.ids.removeAll(id);
}
void SeatInterface::touchFrame()
{
Q_D();
if (d->touchInterface.focus.touch && d->touchInterface.focus.surface) {
d->touchInterface.focus.touch->frame();
}
}
[server] Implement support for drag'n'drop through pointer device Summary: How drag'n'drop works on Wayland: When a surface has a pointer grab and a button pressed on the surface (implicit grab) the client can initiate a drag'n'drop operation on the data device. For this the client needs to provide a data source describing the data to be transmitted with the drag'n'drop operation. When a drag'n'drop operation is active all pointer events are interpreted as part of the drag'n'drop operation, the pointer device is grabbed. Pointer events are no longer sent to the focused pointer but to the focused data device. When the pointer moves to another surface an enter event is sent to a data device for that surface and a leave event is sent to the data device previously focused. An enter event carries a data offer which is created from the data source for the operation. During pointer motion there is a feedback mechanism. The data offer can signal to the data source that it can or cannot accept the data at the current pointer position. This can be used by the client being dragged from to update the cursor. The drag'n'drop operation ends with the implicit grab being removed, that is the pressed pointer button which triggered the operation gets released. The server sends a drop event to the focused data device. The data transfer can now be started. For that the receiving client creates a pipe and passes the file descriptor through the data offer to the sending data source. The sending client will write into the file descriptor and close it to finish the transfer. Drag'n'drop could also be initiated through a touch device grab, but this is not yet implemented. The implementation in this change focuses on the adjustments for pointer. For the user of the library drag'n'drop is implemented in the SeatInterface. Signals are emitted whenever drag is started or ended. The interaction for pointer events hardly changes. Motion, button press and button release can still be indicated in the same way. If a button release removes the implicit grab the drop is automatically performed, without the user of the library having to do anything. The only change during drag and drop for the library user is that setFocusedPointerSurface is blocked. To update the current drag target the library user should use setDragTarget. Sending the enter/leave to the data device gets performed automatically. The data device which triggered the drag and drop operation is exposed in the SeatInterface. The user of the library should make sure to render the additional drag icon provided on the data device. At least QtWayland based applications will freeze during drag and drop if the icon doesn't get rendered. The implementation is currently still lacking the client side and due to that also auto test. It's currently only tested with QtWayland clients. Reviewers: #plasma, sebas Subscribers: plasma-devel Projects: #plasma Differential Revision: https://phabricator.kde.org/D1046
2016-03-01 06:49:04 +00:00
bool SeatInterface::isDrag() const
{
Q_D();
return d->drag.mode != Private::Drag::Mode::None;
}
bool SeatInterface::isDragPointer() const
{
Q_D();
return d->drag.mode == Private::Drag::Mode::Pointer;
}
bool SeatInterface::isDragTouch() const
{
Q_D();
return d->drag.mode == Private::Drag::Mode::Touch;
}
bool SeatInterface::hasImplicitPointerGrab(quint32 serial) const
{
Q_D();
const auto &serials = d->globalPointer.buttonSerials;
for (auto it = serials.begin(), end = serials.end(); it != end; it++) {
if (it.value() == serial) {
return isPointerButtonPressed(it.key());
}
}
return false;
}
QMatrix4x4 SeatInterface::dragSurfaceTransformation() const
{
Q_D();
return d->drag.transformation;
}
SurfaceInterface *SeatInterface::dragSurface() const
{
Q_D();
return d->drag.surface;
}
PointerInterface *SeatInterface::dragPointer() const
{
Q_D();
if (d->drag.mode != Private::Drag::Mode::Pointer) {
return nullptr;
}
return d->drag.sourcePointer;
}
DataDeviceInterface *SeatInterface::dragSource() const
{
Q_D();
return d->drag.source;
}
}
}