tdesktop/Telegram/SourceFiles/calls/calls_group_members.cpp

2125 lines
58 KiB
C++

/*
This file is part of Telegram Desktop,
the official desktop application for the Telegram messaging service.
For license and copyright information please follow this link:
https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
*/
#include "calls/calls_group_members.h"
#include "calls/calls_group_call.h"
#include "calls/calls_group_common.h"
#include "calls/calls_group_menu.h"
#include "calls/calls_volume_item.h"
#include "data/data_channel.h"
#include "data/data_chat.h"
#include "data/data_user.h"
#include "data/data_changes.h"
#include "data/data_group_call.h"
#include "data/data_peer_values.h" // Data::CanWriteValue.
#include "data/data_session.h" // Data::Session::invitedToCallUsers.
#include "settings/settings_common.h" // Settings::CreateButton.
#include "info/profile/info_profile_values.h" // Info::Profile::AboutValue.
#include "ui/paint/arcs.h"
#include "ui/paint/blobs.h"
#include "ui/widgets/buttons.h"
#include "ui/widgets/scroll_area.h"
#include "ui/widgets/popup_menu.h"
#include "ui/text/text_utilities.h"
#include "ui/effects/ripple_animation.h"
#include "ui/effects/cross_line.h"
#include "core/application.h" // Core::App().domain, Core::App().activeWindow.
#include "main/main_domain.h" // Core::App().domain().activate.
#include "main/main_session.h"
#include "base/timer.h"
#include "boxes/peers/edit_participants_box.h" // SubscribeToMigration.
#include "lang/lang_keys.h"
#include "window/window_controller.h" // Controller::sessionController.
#include "window/window_session_controller.h"
#include "styles/style_calls.h"
namespace Calls::Group {
namespace {
constexpr auto kBlobsEnterDuration = crl::time(250);
constexpr auto kLevelDuration = 100. + 500. * 0.23;
constexpr auto kBlobScale = 0.605;
constexpr auto kMinorBlobFactor = 0.9f;
constexpr auto kUserpicMinScale = 0.8;
constexpr auto kMaxLevel = 1.;
constexpr auto kWideScale = 5;
constexpr auto kKeepRaisedHandStatusDuration = 3 * crl::time(1000);
const auto kSpeakerThreshold = std::vector<float>{
Group::kDefaultVolume * 0.1f / Group::kMaxVolume,
Group::kDefaultVolume * 0.9f / Group::kMaxVolume };
constexpr auto kArcsStrokeRatio = 0.8;
auto RowBlobs() -> std::array<Ui::Paint::Blobs::BlobData, 2> {
return { {
{
.segmentsCount = 6,
.minScale = kBlobScale * kMinorBlobFactor,
.minRadius = st::groupCallRowBlobMinRadius * kMinorBlobFactor,
.maxRadius = st::groupCallRowBlobMaxRadius * kMinorBlobFactor,
.speedScale = 1.,
.alpha = .5,
},
{
.segmentsCount = 8,
.minScale = kBlobScale,
.minRadius = (float)st::groupCallRowBlobMinRadius,
.maxRadius = (float)st::groupCallRowBlobMaxRadius,
.speedScale = 1.,
.alpha = .2,
},
} };
}
class Row;
class RowDelegate {
public:
struct IconState {
float64 speaking = 0.;
float64 active = 0.;
float64 muted = 0.;
bool mutedByMe = false;
bool raisedHand = false;
};
virtual bool rowIsMe(not_null<PeerData*> participantPeer) = 0;
virtual bool rowCanMuteMembers() = 0;
virtual void rowUpdateRow(not_null<Row*> row) = 0;
virtual void rowScheduleRaisedHandStatusRemove(not_null<Row*> row) = 0;
virtual void rowPaintIcon(
Painter &p,
QRect rect,
IconState state) = 0;
};
class Row final : public PeerListRow {
public:
Row(
not_null<RowDelegate*> delegate,
not_null<PeerData*> participantPeer);
enum class State {
Active,
Inactive,
Muted,
RaisedHand,
MutedByMe,
Invited,
};
void setAbout(const QString &about);
void setSkipLevelUpdate(bool value);
void updateState(const Data::GroupCall::Participant *participant);
void updateLevel(float level);
void updateBlobAnimation(crl::time now);
void clearRaisedHandStatus();
[[nodiscard]] State state() const {
return _state;
}
[[nodiscard]] uint32 ssrc() const {
return _ssrc;
}
[[nodiscard]] bool sounding() const {
return _sounding;
}
[[nodiscard]] bool speaking() const {
return _speaking;
}
[[nodiscard]] crl::time speakingLastTime() const {
return _speakingLastTime;
}
[[nodiscard]] int volume() const {
return _volume;
}
[[nodiscard]] uint64 raisedHandRating() const {
return _raisedHandRating;
}
void addActionRipple(QPoint point, Fn<void()> updateCallback) override;
void stopLastActionRipple() override;
QSize actionSize() const override {
return QSize(
st::groupCallActiveButton.width,
st::groupCallActiveButton.height);
}
bool actionDisabled() const override {
return _delegate->rowIsMe(peer())
|| (_state == State::Invited)
|| !_delegate->rowCanMuteMembers();
}
QMargins actionMargins() const override {
return QMargins(
0,
0,
st::groupCallMemberButtonSkip,
0);
}
void paintAction(
Painter &p,
int x,
int y,
int outerWidth,
bool selected,
bool actionSelected) override;
auto generatePaintUserpicCallback() -> PaintRoundImageCallback override;
void paintStatusText(
Painter &p,
const style::PeerListItem &st,
int x,
int y,
int availableWidth,
int outerWidth,
bool selected) override;
private:
struct BlobsAnimation {
BlobsAnimation(
std::vector<Ui::Paint::Blobs::BlobData> blobDatas,
float levelDuration,
float maxLevel)
: blobs(std::move(blobDatas), levelDuration, maxLevel) {
style::PaletteChanged(
) | rpl::start_with_next([=] {
userpicCache = QImage();
}, lifetime);
}
Ui::Paint::Blobs blobs;
crl::time lastTime = 0;
crl::time lastSoundingUpdateTime = 0;
float64 enter = 0.;
QImage userpicCache;
InMemoryKey userpicKey;
rpl::lifetime lifetime;
};
struct StatusIcon {
StatusIcon(bool shown, float volume);
const style::icon &speaker;
Ui::Paint::ArcsAnimation arcs;
Ui::Animations::Simple arcsAnimation;
Ui::Animations::Simple shownAnimation;
QString percent;
int percentWidth = 0;
int arcsWidth = 0;
int wasArcsWidth = 0;
bool shown = true;
rpl::lifetime lifetime;
};
int statusIconWidth() const;
int statusIconHeight() const;
void paintStatusIcon(
Painter &p,
const style::PeerListItem &st,
const style::font &font,
bool selected);
void refreshStatus() override;
void setSounding(bool sounding);
void setSpeaking(bool speaking);
void setState(State state);
void setSsrc(uint32 ssrc);
void setVolume(int volume);
void ensureUserpicCache(
std::shared_ptr<Data::CloudImageView> &view,
int size);
const not_null<RowDelegate*> _delegate;
State _state = State::Inactive;
std::unique_ptr<Ui::RippleAnimation> _actionRipple;
std::unique_ptr<BlobsAnimation> _blobsAnimation;
std::unique_ptr<StatusIcon> _statusIcon;
Ui::Animations::Simple _speakingAnimation; // For gray-red/green icon.
Ui::Animations::Simple _mutedAnimation; // For gray/red icon.
Ui::Animations::Simple _activeAnimation; // For icon cross animation.
QString _aboutText;
crl::time _speakingLastTime = 0;
uint64 _raisedHandRating = 0;
uint32 _ssrc = 0;
int _volume = Group::kDefaultVolume;
bool _sounding = false;
bool _speaking = false;
bool _raisedHandStatus = false;
bool _skipLevelUpdate = false;
};
class MembersController final
: public PeerListController
, public RowDelegate
, public base::has_weak_ptr {
public:
MembersController(
not_null<GroupCall*> call,
not_null<QWidget*> menuParent);
~MembersController();
using MuteRequest = Group::MuteRequest;
using VolumeRequest = Group::VolumeRequest;
Main::Session &session() const override;
void prepare() override;
void rowClicked(not_null<PeerListRow*> row) override;
void rowActionClicked(not_null<PeerListRow*> row) override;
base::unique_qptr<Ui::PopupMenu> rowContextMenu(
QWidget *parent,
not_null<PeerListRow*> row) override;
void loadMoreRows() override;
[[nodiscard]] rpl::producer<int> fullCountValue() const {
return _fullCount.value();
}
[[nodiscard]] rpl::producer<MuteRequest> toggleMuteRequests() const;
[[nodiscard]] rpl::producer<VolumeRequest> changeVolumeRequests() const;
[[nodiscard]] auto kickParticipantRequests() const
-> rpl::producer<not_null<PeerData*>>;
bool rowIsMe(not_null<PeerData*> participantPeer) override;
bool rowCanMuteMembers() override;
void rowUpdateRow(not_null<Row*> row) override;
void rowScheduleRaisedHandStatusRemove(not_null<Row*> row) override;
void rowPaintIcon(
Painter &p,
QRect rect,
IconState state) override;
private:
[[nodiscard]] std::unique_ptr<Row> createRowForMe();
[[nodiscard]] std::unique_ptr<Row> createRow(
const Data::GroupCall::Participant &participant);
[[nodiscard]] std::unique_ptr<Row> createInvitedRow(
not_null<PeerData*> participantPeer);
[[nodiscard]] bool isMe(not_null<PeerData*> participantPeer) const;
void prepareRows(not_null<Data::GroupCall*> real);
//void repaintByTimer();
[[nodiscard]] base::unique_qptr<Ui::PopupMenu> createRowContextMenu(
QWidget *parent,
not_null<PeerListRow*> row);
void addMuteActionsToContextMenu(
not_null<Ui::PopupMenu*> menu,
not_null<PeerData*> participantPeer,
bool participantIsCallAdmin,
not_null<Row*> row);
void setupListChangeViewers(not_null<GroupCall*> call);
void subscribeToChanges(not_null<Data::GroupCall*> real);
void updateRow(
const std::optional<Data::GroupCall::Participant> &was,
const Data::GroupCall::Participant &now);
void updateRow(
not_null<Row*> row,
const Data::GroupCall::Participant *participant);
void removeRow(not_null<Row*> row);
void updateRowLevel(not_null<Row*> row, float level);
void checkRowPosition(not_null<Row*> row);
[[nodiscard]] bool needToReorder(not_null<Row*> row) const;
[[nodiscard]] bool allRowsAboveAreSpeaking(not_null<Row*> row) const;
[[nodiscard]] bool allRowsAboveMoreImportantThanHand(
not_null<Row*> row,
uint64 raiseHandRating) const;
Row *findRow(not_null<PeerData*> participantPeer) const;
[[nodiscard]] Data::GroupCall *resolvedRealCall() const;
void appendInvitedUsers();
void scheduleRaisedHandStatusRemove();
const base::weak_ptr<GroupCall> _call;
not_null<PeerData*> _peer;
// Use only resolvedRealCall() method, not this value directly.
Data::GroupCall *_realCallRawValue = nullptr;
uint64 _realId = 0;
bool _prepared = false;
rpl::event_stream<MuteRequest> _toggleMuteRequests;
rpl::event_stream<VolumeRequest> _changeVolumeRequests;
rpl::event_stream<not_null<PeerData*>> _kickParticipantRequests;
rpl::variable<int> _fullCount = 1;
not_null<QWidget*> _menuParent;
base::unique_qptr<Ui::PopupMenu> _menu;
base::flat_set<not_null<PeerData*>> _menuCheckRowsAfterHidden;
base::flat_map<PeerListRowId, crl::time> _raisedHandStatusRemoveAt;
base::Timer _raisedHandStatusRemoveTimer;
base::flat_map<uint32, not_null<Row*>> _soundingRowBySsrc;
Ui::Animations::Basic _soundingAnimation;
crl::time _soundingAnimationHideLastTime = 0;
bool _skipRowLevelUpdate = false;
Ui::CrossLineAnimation _inactiveCrossLine;
Ui::CrossLineAnimation _coloredCrossLine;
rpl::lifetime _lifetime;
};
[[nodiscard]] QString StatusPercentString(float volume) {
return QString::number(int(std::round(volume * 200))) + '%';
}
[[nodiscard]] int StatusPercentWidth(const QString &percent) {
return st::normalFont->width(percent);
}
Row::StatusIcon::StatusIcon(bool shown, float volume)
: speaker(st::groupCallStatusSpeakerIcon)
, arcs(
st::groupCallStatusSpeakerArcsAnimation,
kSpeakerThreshold,
volume,
Ui::Paint::ArcsAnimation::Direction::Right)
, percent(StatusPercentString(volume))
, percentWidth(StatusPercentWidth(percent))
, shown(shown) {
}
Row::Row(
not_null<RowDelegate*> delegate,
not_null<PeerData*> participantPeer)
: PeerListRow(participantPeer)
, _delegate(delegate) {
refreshStatus();
_aboutText = participantPeer->about();
}
void Row::setSkipLevelUpdate(bool value) {
_skipLevelUpdate = value;
}
void Row::updateState(const Data::GroupCall::Participant *participant) {
setSsrc(participant ? participant->ssrc : 0);
setVolume(participant
? participant->volume
: Group::kDefaultVolume);
if (!participant) {
setState(State::Invited);
setSounding(false);
setSpeaking(false);
_raisedHandRating = 0;
} else if (!participant->muted
|| (participant->sounding && participant->ssrc != 0)) {
setState(participant->mutedByMe ? State::MutedByMe : State::Active);
setSounding(participant->sounding && participant->ssrc != 0);
setSpeaking(participant->speaking && participant->ssrc != 0);
_raisedHandRating = 0;
} else if (participant->canSelfUnmute) {
setState(participant->mutedByMe
? State::MutedByMe
: State::Inactive);
setSounding(false);
setSpeaking(false);
_raisedHandRating = 0;
} else {
_raisedHandRating = participant->raisedHandRating;
setState(_raisedHandRating ? State::RaisedHand : State::Muted);
setSounding(false);
setSpeaking(false);
}
refreshStatus();
}
void Row::setSpeaking(bool speaking) {
if (_speaking == speaking) {
return;
}
_speaking = speaking;
_speakingAnimation.start(
[=] { _delegate->rowUpdateRow(this); },
_speaking ? 0. : 1.,
_speaking ? 1. : 0.,
st::widgetFadeDuration);
if (!_speaking
|| (_state == State::MutedByMe)
|| (_state == State::Muted)
|| (_state == State::RaisedHand)) {
if (_statusIcon) {
_statusIcon = nullptr;
_delegate->rowUpdateRow(this);
}
} else if (!_statusIcon) {
_statusIcon = std::make_unique<StatusIcon>(
(_volume != Group::kDefaultVolume),
(float)_volume / Group::kMaxVolume);
_statusIcon->arcs.setStrokeRatio(kArcsStrokeRatio);
_statusIcon->arcsWidth = _statusIcon->arcs.finishedWidth();
_statusIcon->arcs.startUpdateRequests(
) | rpl::start_with_next([=] {
if (!_statusIcon->arcsAnimation.animating()) {
_statusIcon->wasArcsWidth = _statusIcon->arcsWidth;
}
auto callback = [=](float64 value) {
_statusIcon->arcs.update(crl::now());
_statusIcon->arcsWidth = anim::interpolate(
_statusIcon->wasArcsWidth,
_statusIcon->arcs.finishedWidth(),
value);
_delegate->rowUpdateRow(this);
};
_statusIcon->arcsAnimation.start(
std::move(callback),
0.,
1.,
st::groupCallSpeakerArcsAnimation.duration);
}, _statusIcon->lifetime);
}
}
void Row::setSounding(bool sounding) {
if (_sounding == sounding) {
return;
}
_sounding = sounding;
if (!_sounding) {
_blobsAnimation = nullptr;
} else if (!_blobsAnimation) {
_blobsAnimation = std::make_unique<BlobsAnimation>(
RowBlobs() | ranges::to_vector,
kLevelDuration,
kMaxLevel);
_blobsAnimation->lastTime = crl::now();
updateLevel(GroupCall::kSpeakLevelThreshold);
}
}
void Row::clearRaisedHandStatus() {
if (!_raisedHandStatus) {
return;
}
_raisedHandStatus = false;
refreshStatus();
_delegate->rowUpdateRow(this);
}
void Row::setState(State state) {
if (_state == state) {
return;
}
const auto wasActive = (_state == State::Active);
const auto wasMuted = (_state == State::Muted)
|| (_state == State::RaisedHand);
const auto wasRaisedHand = (_state == State::RaisedHand);
_state = state;
const auto nowActive = (_state == State::Active);
const auto nowMuted = (_state == State::Muted)
|| (_state == State::RaisedHand);
const auto nowRaisedHand = (_state == State::RaisedHand);
if (!wasRaisedHand && nowRaisedHand) {
_raisedHandStatus = true;
_delegate->rowScheduleRaisedHandStatusRemove(this);
}
if (nowActive != wasActive) {
_activeAnimation.start(
[=] { _delegate->rowUpdateRow(this); },
nowActive ? 0. : 1.,
nowActive ? 1. : 0.,
st::widgetFadeDuration);
}
if (nowMuted != wasMuted) {
_mutedAnimation.start(
[=] { _delegate->rowUpdateRow(this); },
nowMuted ? 0. : 1.,
nowMuted ? 1. : 0.,
st::widgetFadeDuration);
}
}
void Row::setSsrc(uint32 ssrc) {
_ssrc = ssrc;
}
void Row::setVolume(int volume) {
_volume = volume;
if (_statusIcon) {
const auto floatVolume = (float)volume / Group::kMaxVolume;
_statusIcon->arcs.setValue(floatVolume);
_statusIcon->percent = StatusPercentString(floatVolume);
_statusIcon->percentWidth = StatusPercentWidth(_statusIcon->percent);
const auto shown = (volume != Group::kDefaultVolume);
if (_statusIcon->shown != shown) {
_statusIcon->shown = shown;
_statusIcon->shownAnimation.start(
[=] { _delegate->rowUpdateRow(this); },
shown ? 0. : 1.,
shown ? 1. : 0.,
st::groupCallSpeakerArcsAnimation.duration);
}
}
}
void Row::updateLevel(float level) {
Expects(_blobsAnimation != nullptr);
const auto spoke = (level >= GroupCall::kSpeakLevelThreshold)
? crl::now()
: crl::time();
if (spoke && _speaking) {
_speakingLastTime = spoke;
}
if (_skipLevelUpdate) {
return;
}
if (spoke) {
_blobsAnimation->lastSoundingUpdateTime = spoke;
}
_blobsAnimation->blobs.setLevel(level);
}
void Row::updateBlobAnimation(crl::time now) {
Expects(_blobsAnimation != nullptr);
const auto soundingFinishesAt = _blobsAnimation->lastSoundingUpdateTime
+ Data::GroupCall::kSoundStatusKeptFor;
const auto soundingStartsFinishing = soundingFinishesAt
- kBlobsEnterDuration;
const auto soundingFinishes = (soundingStartsFinishing < now);
if (soundingFinishes) {
_blobsAnimation->enter = std::clamp(
(soundingFinishesAt - now) / float64(kBlobsEnterDuration),
0.,
1.);
} else if (_blobsAnimation->enter < 1.) {
_blobsAnimation->enter = std::clamp(
(_blobsAnimation->enter
+ ((now - _blobsAnimation->lastTime)
/ float64(kBlobsEnterDuration))),
0.,
1.);
}
_blobsAnimation->blobs.updateLevel(now - _blobsAnimation->lastTime);
_blobsAnimation->lastTime = now;
}
void Row::ensureUserpicCache(
std::shared_ptr<Data::CloudImageView> &view,
int size) {
Expects(_blobsAnimation != nullptr);
const auto user = peer();
const auto key = user->userpicUniqueKey(view);
const auto full = QSize(size, size) * kWideScale * cIntRetinaFactor();
auto &cache = _blobsAnimation->userpicCache;
if (cache.isNull()) {
cache = QImage(full, QImage::Format_ARGB32_Premultiplied);
cache.setDevicePixelRatio(cRetinaFactor());
} else if (_blobsAnimation->userpicKey == key
&& cache.size() == full) {
return;
}
_blobsAnimation->userpicKey = key;
cache.fill(Qt::transparent);
{
Painter p(&cache);
const auto skip = (kWideScale - 1) / 2 * size;
user->paintUserpicLeft(p, view, skip, skip, kWideScale * size, size);
}
}
auto Row::generatePaintUserpicCallback() -> PaintRoundImageCallback {
auto userpic = ensureUserpicView();
return [=](Painter &p, int x, int y, int outerWidth, int size) mutable {
if (_blobsAnimation) {
const auto mutedByMe = (_state == State::MutedByMe);
const auto shift = QPointF(x + size / 2., y + size / 2.);
auto hq = PainterHighQualityEnabler(p);
p.translate(shift);
const auto brush = mutedByMe
? st::groupCallMemberMutedIcon->b
: anim::brush(
st::groupCallMemberInactiveStatus,
st::groupCallMemberActiveStatus,
_speakingAnimation.value(_speaking ? 1. : 0.));
_blobsAnimation->blobs.paint(p, brush);
p.translate(-shift);
p.setOpacity(1.);
const auto enter = _blobsAnimation->enter;
const auto &minScale = kUserpicMinScale;
const auto scaleUserpic = minScale
+ (1. - minScale) * _blobsAnimation->blobs.currentLevel();
const auto scale = scaleUserpic * enter + 1. * (1. - enter);
if (scale == 1.) {
peer()->paintUserpicLeft(p, userpic, x, y, outerWidth, size);
} else {
ensureUserpicCache(userpic, size);
PainterHighQualityEnabler hq(p);
auto target = QRect(
x + (1 - kWideScale) / 2 * size,
y + (1 - kWideScale) / 2 * size,
kWideScale * size,
kWideScale * size);
auto shrink = anim::interpolate(
(1 - kWideScale) / 2 * size,
0,
scale);
auto margins = QMargins(shrink, shrink, shrink, shrink);
p.drawImage(
target.marginsAdded(margins),
_blobsAnimation->userpicCache);
}
} else {
peer()->paintUserpicLeft(p, userpic, x, y, outerWidth, size);
}
};
}
int Row::statusIconWidth() const {
if (!_statusIcon || !_speaking) {
return 0;
}
const auto shown = _statusIcon->shownAnimation.value(
_statusIcon->shown ? 1. : 0.);
const auto full = _statusIcon->speaker.width()
+ _statusIcon->arcsWidth
+ _statusIcon->percentWidth
+ st::normalFont->spacew;
return int(std::round(shown * full));
}
int Row::statusIconHeight() const {
return (_statusIcon && _speaking) ? _statusIcon->speaker.height() : 0;
}
void Row::paintStatusIcon(
Painter &p,
const style::PeerListItem &st,
const style::font &font,
bool selected) {
if (!_statusIcon) {
return;
}
const auto shown = _statusIcon->shownAnimation.value(
_statusIcon->shown ? 1. : 0.);
if (shown == 0.) {
return;
}
p.setFont(font);
const auto color = (_speaking
? st.statusFgActive
: (selected ? st.statusFgOver : st.statusFg))->c;
p.setPen(color);
const auto speakerRect = QRect(
st.statusPosition
+ QPoint(0, (font->height - statusIconHeight()) / 2),
_statusIcon->speaker.size());
const auto arcPosition = speakerRect.topLeft()
+ QPoint(
speakerRect.width() - st::groupCallStatusSpeakerArcsSkip,
speakerRect.height() / 2);
const auto fullWidth = speakerRect.width()
+ _statusIcon->arcsWidth
+ _statusIcon->percentWidth
+ st::normalFont->spacew;
p.save();
if (shown < 1.) {
const auto centerx = speakerRect.x() + fullWidth / 2;
const auto centery = speakerRect.y() + speakerRect.height() / 2;
p.translate(centerx, centery);
p.scale(shown, shown);
p.translate(-centerx, -centery);
}
_statusIcon->speaker.paint(
p,
speakerRect.topLeft(),
speakerRect.width(),
color);
p.translate(arcPosition);
_statusIcon->arcs.paint(p, color);
p.translate(-arcPosition);
p.setFont(st::normalFont);
p.setPen(st.statusFgActive);
p.drawTextLeft(
st.statusPosition.x() + speakerRect.width() + _statusIcon->arcsWidth,
st.statusPosition.y(),
fullWidth,
_statusIcon->percent);
p.restore();
}
void Row::setAbout(const QString &about) {
if (_aboutText == about) {
return;
}
_aboutText = about;
_delegate->rowUpdateRow(this);
}
void Row::paintStatusText(
Painter &p,
const style::PeerListItem &st,
int x,
int y,
int availableWidth,
int outerWidth,
bool selected) {
const auto &font = st::normalFont;
const auto about = (_state == State::Inactive
|| _state == State::Muted
|| (_state == State::RaisedHand && !_raisedHandStatus))
? _aboutText
: QString();
if (about.isEmpty()
&& _state != State::Invited
&& _state != State::MutedByMe) {
paintStatusIcon(p, st, font, selected);
const auto translatedWidth = statusIconWidth();
p.translate(translatedWidth, 0);
const auto guard = gsl::finally([&] {
p.translate(-translatedWidth, 0);
});
PeerListRow::paintStatusText(
p,
st,
x,
y,
availableWidth - translatedWidth,
outerWidth,
selected);
return;
}
p.setFont(font);
if (_state == State::MutedByMe) {
p.setPen(st::groupCallMemberMutedIcon);
} else {
p.setPen(st::groupCallMemberNotJoinedStatus);
}
p.drawTextLeft(
x,
y,
outerWidth,
(_state == State::MutedByMe
? tr::lng_group_call_muted_by_me_status(tr::now)
: !about.isEmpty()
? font->m.elidedText(about, Qt::ElideRight, availableWidth)
: _delegate->rowIsMe(peer())
? tr::lng_status_connecting(tr::now)
: tr::lng_group_call_invited_status(tr::now)));
}
void Row::paintAction(
Painter &p,
int x,
int y,
int outerWidth,
bool selected,
bool actionSelected) {
auto size = actionSize();
const auto iconRect = style::rtlrect(
x,
y,
size.width(),
size.height(),
outerWidth);
if (_state == State::Invited) {
_actionRipple = nullptr;
st::groupCallMemberInvited.paint(
p,
QPoint(x, y) + st::groupCallMemberInvitedPosition,
outerWidth);
return;
}
if (_actionRipple) {
_actionRipple->paint(
p,
x + st::groupCallActiveButton.rippleAreaPosition.x(),
y + st::groupCallActiveButton.rippleAreaPosition.y(),
outerWidth);
if (_actionRipple->empty()) {
_actionRipple.reset();
}
}
const auto speaking = _speakingAnimation.value(_speaking ? 1. : 0.);
const auto active = _activeAnimation.value((_state == State::Active) ? 1. : 0.);
const auto muted = _mutedAnimation.value(
(_state == State::Muted || _state == State::RaisedHand) ? 1. : 0.);
const auto mutedByMe = (_state == State::MutedByMe);
_delegate->rowPaintIcon(p, iconRect, {
.speaking = speaking,
.active = active,
.muted = muted,
.mutedByMe = (_state == State::MutedByMe),
.raisedHand = (_state == State::RaisedHand),
});
}
void Row::refreshStatus() {
setCustomStatus(
(_speaking
? tr::lng_group_call_active(tr::now)
: _raisedHandStatus
? tr::lng_group_call_raised_hand_status(tr::now)
: tr::lng_group_call_inactive(tr::now)),
_speaking);
}
void Row::addActionRipple(QPoint point, Fn<void()> updateCallback) {
if (!_actionRipple) {
auto mask = Ui::RippleAnimation::ellipseMask(QSize(
st::groupCallActiveButton.rippleAreaSize,
st::groupCallActiveButton.rippleAreaSize));
_actionRipple = std::make_unique<Ui::RippleAnimation>(
st::groupCallActiveButton.ripple,
std::move(mask),
std::move(updateCallback));
}
_actionRipple->add(point - st::groupCallActiveButton.rippleAreaPosition);
}
void Row::stopLastActionRipple() {
if (_actionRipple) {
_actionRipple->lastStop();
}
}
MembersController::MembersController(
not_null<GroupCall*> call,
not_null<QWidget*> menuParent)
: _call(call)
, _peer(call->peer())
, _menuParent(menuParent)
, _raisedHandStatusRemoveTimer([=] { scheduleRaisedHandStatusRemove(); })
, _inactiveCrossLine(st::groupCallMemberInactiveCrossLine)
, _coloredCrossLine(st::groupCallMemberColoredCrossLine) {
setupListChangeViewers(call);
style::PaletteChanged(
) | rpl::start_with_next([=] {
_inactiveCrossLine.invalidate();
_coloredCrossLine.invalidate();
}, _lifetime);
rpl::combine(
rpl::single(anim::Disabled()) | rpl::then(anim::Disables()),
Core::App().appDeactivatedValue()
) | rpl::start_with_next([=](bool animDisabled, bool deactivated) {
const auto hide = !(!animDisabled && !deactivated);
if (!(hide && _soundingAnimationHideLastTime)) {
_soundingAnimationHideLastTime = hide ? crl::now() : 0;
}
for (const auto &[_, row] : _soundingRowBySsrc) {
if (hide) {
updateRowLevel(row, 0.);
}
row->setSkipLevelUpdate(hide);
}
if (!hide && !_soundingAnimation.animating()) {
_soundingAnimation.start();
}
_skipRowLevelUpdate = hide;
}, _lifetime);
_soundingAnimation.init([=](crl::time now) {
if (const auto &last = _soundingAnimationHideLastTime; (last > 0)
&& (now - last >= kBlobsEnterDuration)) {
_soundingAnimation.stop();
return false;
}
for (const auto &[ssrc, row] : _soundingRowBySsrc) {
row->updateBlobAnimation(now);
delegate()->peerListUpdateRow(row);
}
return true;
});
_peer->session().changes().peerUpdates(
Data::PeerUpdate::Flag::About
) | rpl::start_with_next([=](const Data::PeerUpdate &update) {
if (const auto row = findRow(update.peer)) {
row->setAbout(update.peer->about());
}
}, _lifetime);
}
MembersController::~MembersController() {
base::take(_menu);
}
void MembersController::setupListChangeViewers(not_null<GroupCall*> call) {
const auto peer = call->peer();
peer->session().changes().peerFlagsValue(
peer,
Data::PeerUpdate::Flag::GroupCall
) | rpl::map([=] {
return peer->groupCall();
}) | rpl::filter([=](Data::GroupCall *real) {
const auto call = _call.get();
return call && real && (real->id() == call->id());
}) | rpl::take(
1
) | rpl::start_with_next([=](not_null<Data::GroupCall*> real) {
subscribeToChanges(real);
}, _lifetime);
call->stateValue(
) | rpl::start_with_next([=] {
const auto call = _call.get();
const auto real = peer->groupCall();
if (call && real && (real->id() == call->id())) {
//updateRow(channel->session().user());
}
}, _lifetime);
call->levelUpdates(
) | rpl::start_with_next([=](const LevelUpdate &update) {
const auto i = _soundingRowBySsrc.find(update.ssrc);
if (i != end(_soundingRowBySsrc)) {
updateRowLevel(i->second, update.value);
}
}, _lifetime);
call->rejoinEvents(
) | rpl::start_with_next([=](const Group::RejoinEvent &event) {
const auto guard = gsl::finally([&] {
delegate()->peerListRefreshRows();
});
if (const auto row = findRow(event.wasJoinAs)) {
removeRow(row);
}
if (findRow(event.nowJoinAs)) {
return;
} else if (auto row = createRowForMe()) {
delegate()->peerListAppendRow(std::move(row));
}
}, _lifetime);
}
void MembersController::subscribeToChanges(not_null<Data::GroupCall*> real) {
_realCallRawValue = real;
_realId = real->id();
_fullCount = real->fullCountValue();
real->participantsSliceAdded(
) | rpl::start_with_next([=] {
prepareRows(real);
}, _lifetime);
using Update = Data::GroupCall::ParticipantUpdate;
real->participantUpdated(
) | rpl::start_with_next([=](const Update &update) {
Expects(update.was.has_value() || update.now.has_value());
const auto participantPeer = update.was
? update.was->peer
: update.now->peer;
if (!update.now) {
if (const auto row = findRow(participantPeer)) {
const auto owner = &participantPeer->owner();
if (isMe(participantPeer)) {
updateRow(row, nullptr);
} else {
removeRow(row);
delegate()->peerListRefreshRows();
}
}
} else {
updateRow(update.was, *update.now);
}
}, _lifetime);
if (_prepared) {
appendInvitedUsers();
}
}
void MembersController::appendInvitedUsers() {
for (const auto user : _peer->owner().invitedToCallUsers(_realId)) {
if (auto row = createInvitedRow(user)) {
delegate()->peerListAppendRow(std::move(row));
}
}
delegate()->peerListRefreshRows();
using Invite = Data::Session::InviteToCall;
_peer->owner().invitesToCalls(
) | rpl::filter([=](const Invite &invite) {
return (invite.id == _realId);
}) | rpl::start_with_next([=](const Invite &invite) {
if (auto row = createInvitedRow(invite.user)) {
delegate()->peerListAppendRow(std::move(row));
delegate()->peerListRefreshRows();
}
}, _lifetime);
}
void MembersController::updateRow(
const std::optional<Data::GroupCall::Participant> &was,
const Data::GroupCall::Participant &now) {
auto reorderIfInvitedBefore = 0;
auto checkPosition = (Row*)nullptr;
auto addedToBottom = (Row*)nullptr;
if (const auto row = findRow(now.peer)) {
if (row->state() == Row::State::Invited) {
reorderIfInvitedBefore = row->absoluteIndex();
}
updateRow(row, &now);
if ((now.speaking && (!was || !was->speaking))
|| (now.raisedHandRating != (was ? was->raisedHandRating : 0))
|| (!now.canSelfUnmute && was && was->canSelfUnmute)) {
checkPosition = row;
}
} else if (auto row = createRow(now)) {
if (row->speaking()) {
delegate()->peerListPrependRow(std::move(row));
} else {
reorderIfInvitedBefore = delegate()->peerListFullRowsCount();
if (now.raisedHandRating != 0) {
checkPosition = row.get();
} else {
addedToBottom = row.get();
}
delegate()->peerListAppendRow(std::move(row));
}
delegate()->peerListRefreshRows();
}
static constexpr auto kInvited = Row::State::Invited;
const auto reorder = [&] {
const auto count = reorderIfInvitedBefore;
if (count <= 0) {
return false;
}
const auto row = delegate()->peerListRowAt(
reorderIfInvitedBefore - 1).get();
return (static_cast<Row*>(row)->state() == kInvited);
}();
if (reorder) {
delegate()->peerListPartitionRows([](const PeerListRow &row) {
return static_cast<const Row&>(row).state() != kInvited;
});
}
if (checkPosition) {
checkRowPosition(checkPosition);
} else if (addedToBottom) {
const auto real = resolvedRealCall();
if (real && real->joinedToTop()) {
const auto proj = [&](const PeerListRow &other) {
const auto &real = static_cast<const Row&>(other);
return real.speaking()
? 2
: (&real == addedToBottom)
? 1
: 0;
};
delegate()->peerListSortRows([&](
const PeerListRow &a,
const PeerListRow &b) {
return proj(a) > proj(b);
});
}
}
}
bool MembersController::allRowsAboveAreSpeaking(not_null<Row*> row) const {
const auto count = delegate()->peerListFullRowsCount();
for (auto i = 0; i != count; ++i) {
const auto above = delegate()->peerListRowAt(i);
if (above == row) {
// All rows above are speaking.
return true;
} else if (!static_cast<Row*>(above.get())->speaking()) {
break;
}
}
return false;
}
bool MembersController::allRowsAboveMoreImportantThanHand(
not_null<Row*> row,
uint64 raiseHandRating) const {
Expects(raiseHandRating > 0);
const auto count = delegate()->peerListFullRowsCount();
for (auto i = 0; i != count; ++i) {
const auto above = delegate()->peerListRowAt(i);
if (above == row) {
// All rows above are 'more important' than this raised hand.
return true;
}
const auto real = static_cast<Row*>(above.get());
const auto state = real->state();
if (state == Row::State::Muted
|| (state == Row::State::RaisedHand
&& real->raisedHandRating() < raiseHandRating)) {
break;
}
}
return false;
}
bool MembersController::needToReorder(not_null<Row*> row) const {
// All reorder cases:
// - bring speaking up
// - bring raised hand up
// - bring muted down
if (row->speaking()) {
return !allRowsAboveAreSpeaking(row);
} else if (!_peer->canManageGroupCall()) {
// Raising hands reorder participants only for voice chat admins.
return false;
}
const auto rating = row->raisedHandRating();
if (!rating && row->state() != Row::State::Muted) {
return false;
}
if (rating > 0 && !allRowsAboveMoreImportantThanHand(row, rating)) {
return true;
}
const auto index = row->absoluteIndex();
if (index + 1 == delegate()->peerListFullRowsCount()) {
// Last one, can't bring lower.
return false;
}
const auto next = delegate()->peerListRowAt(index + 1);
const auto state = static_cast<Row*>(next.get())->state();
if ((state != Row::State::Muted) && (state != Row::State::RaisedHand)) {
return true;
}
if (!rating && static_cast<Row*>(next.get())->raisedHandRating()) {
return true;
}
return false;
}
void MembersController::checkRowPosition(not_null<Row*> row) {
if (_menu) {
// Don't reorder rows while we show the popup menu.
_menuCheckRowsAfterHidden.emplace(row->peer());
return;
} else if (!needToReorder(row)) {
return;
}
// Someone started speaking and has a non-speaking row above him.
// Or someone raised hand and has force muted above him.
// Or someone was forced muted and had can_unmute_self below him. Sort.
static constexpr auto kTop = std::numeric_limits<uint64>::max();
const auto projForAdmin = [&](const PeerListRow &other) {
const auto &real = static_cast<const Row&>(other);
return real.speaking()
// Speaking 'row' to the top, all other speaking below it.
? (&real == row.get() ? kTop : (kTop - 1))
: (real.raisedHandRating() > 0)
// Then all raised hands sorted by rating.
? real.raisedHandRating()
: (real.state() == Row::State::Muted)
// All force muted at the bottom, but 'row' still above others.
? (&real == row.get() ? 1ULL : 0ULL)
// All not force-muted lie between raised hands and speaking.
: (kTop - 2);
};
const auto projForOther = [&](const PeerListRow &other) {
const auto &real = static_cast<const Row&>(other);
return real.speaking()
// Speaking 'row' to the top, all other speaking below it.
? (&real == row.get() ? kTop : (kTop - 1))
: 0ULL;
};
using Comparator = Fn<bool(const PeerListRow&, const PeerListRow&)>;
const auto makeComparator = [&](const auto &proj) -> Comparator {
return [&](const PeerListRow &a, const PeerListRow &b) {
return proj(a) > proj(b);
};
};
delegate()->peerListSortRows(_peer->canManageGroupCall()
? makeComparator(projForAdmin)
: makeComparator(projForOther));
}
void MembersController::updateRow(
not_null<Row*> row,
const Data::GroupCall::Participant *participant) {
const auto wasSounding = row->sounding();
const auto wasSsrc = row->ssrc();
const auto wasInChat = (row->state() != Row::State::Invited);
row->setSkipLevelUpdate(_skipRowLevelUpdate);
row->updateState(participant);
const auto nowSounding = row->sounding();
const auto nowSsrc = row->ssrc();
const auto wasNoSounding = _soundingRowBySsrc.empty();
if (wasSsrc == nowSsrc) {
if (nowSounding != wasSounding) {
if (nowSounding) {
_soundingRowBySsrc.emplace(nowSsrc, row);
} else {
_soundingRowBySsrc.remove(nowSsrc);
}
}
} else {
_soundingRowBySsrc.remove(wasSsrc);
if (nowSounding) {
Assert(nowSsrc != 0);
_soundingRowBySsrc.emplace(nowSsrc, row);
}
}
const auto nowNoSounding = _soundingRowBySsrc.empty();
if (wasNoSounding && !nowNoSounding) {
_soundingAnimation.start();
} else if (nowNoSounding && !wasNoSounding) {
_soundingAnimation.stop();
}
delegate()->peerListUpdateRow(row);
}
void MembersController::removeRow(not_null<Row*> row) {
_soundingRowBySsrc.remove(row->ssrc());
delegate()->peerListRemoveRow(row);
}
void MembersController::updateRowLevel(
not_null<Row*> row,
float level) {
if (_skipRowLevelUpdate) {
return;
}
row->updateLevel(level);
}
Row *MembersController::findRow(not_null<PeerData*> participantPeer) const {
return static_cast<Row*>(
delegate()->peerListFindRow(participantPeer->id));
}
Data::GroupCall *MembersController::resolvedRealCall() const {
return (_realCallRawValue
&& (_peer->groupCall() == _realCallRawValue)
&& (_realCallRawValue->id() == _realId))
? _realCallRawValue
: nullptr;
}
Main::Session &MembersController::session() const {
return _call->peer()->session();
}
void MembersController::prepare() {
delegate()->peerListSetSearchMode(PeerListSearchMode::Disabled);
//delegate()->peerListSetTitle(std::move(title));
setDescriptionText(tr::lng_contacts_loading(tr::now));
setSearchNoResultsText(tr::lng_blocked_list_not_found(tr::now));
const auto call = _call.get();
if (const auto real = _peer->groupCall()
; real && call && real->id() == call->id()) {
prepareRows(real);
} else if (auto row = createRowForMe()) {
delegate()->peerListAppendRow(std::move(row));
delegate()->peerListRefreshRows();
}
loadMoreRows();
if (_realId) {
appendInvitedUsers();
}
_prepared = true;
}
bool MembersController::isMe(not_null<PeerData*> participantPeer) const {
const auto call = _call.get();
return call && (call->joinAs() == participantPeer);
}
void MembersController::prepareRows(not_null<Data::GroupCall*> real) {
auto foundMe = false;
auto changed = false;
const auto &participants = real->participants();
auto count = delegate()->peerListFullRowsCount();
for (auto i = 0; i != count;) {
auto row = delegate()->peerListRowAt(i);
auto participantPeer = row->peer();
if (isMe(participantPeer)) {
foundMe = true;
++i;
continue;
}
const auto contains = ranges::contains(
participants,
participantPeer,
&Data::GroupCall::Participant::peer);
if (contains) {
++i;
} else {
changed = true;
removeRow(static_cast<Row*>(row.get()));
--count;
}
}
if (!foundMe) {
if (const auto call = _call.get()) {
const auto me = call->joinAs();
const auto i = ranges::find(
participants,
me,
&Data::GroupCall::Participant::peer);
auto row = (i != end(participants))
? createRow(*i)
: createRowForMe();
if (row) {
changed = true;
delegate()->peerListAppendRow(std::move(row));
}
}
}
for (const auto &participant : participants) {
if (auto row = createRow(participant)) {
changed = true;
delegate()->peerListAppendRow(std::move(row));
}
}
if (changed) {
delegate()->peerListRefreshRows();
}
}
void MembersController::loadMoreRows() {
if (const auto real = _peer->groupCall()) {
real->requestParticipants();
}
}
auto MembersController::toggleMuteRequests() const
-> rpl::producer<MuteRequest> {
return _toggleMuteRequests.events();
}
auto MembersController::changeVolumeRequests() const
-> rpl::producer<VolumeRequest> {
return _changeVolumeRequests.events();
}
bool MembersController::rowIsMe(not_null<PeerData*> participantPeer) {
return isMe(participantPeer);
}
bool MembersController::rowCanMuteMembers() {
return _peer->canManageGroupCall();
}
void MembersController::rowUpdateRow(not_null<Row*> row) {
delegate()->peerListUpdateRow(row);
}
void MembersController::rowScheduleRaisedHandStatusRemove(
not_null<Row*> row) {
const auto id = row->peer()->id;
const auto when = crl::now() + kKeepRaisedHandStatusDuration;
const auto i = _raisedHandStatusRemoveAt.find(id);
if (i != _raisedHandStatusRemoveAt.end()) {
i->second = when;
} else {
_raisedHandStatusRemoveAt.emplace(id, when);
}
scheduleRaisedHandStatusRemove();
}
void MembersController::scheduleRaisedHandStatusRemove() {
auto waiting = crl::time(0);
const auto now = crl::now();
for (auto i = begin(_raisedHandStatusRemoveAt)
; i != end(_raisedHandStatusRemoveAt);) {
if (i->second <= now) {
if (const auto row = delegate()->peerListFindRow(i->first)) {
static_cast<Row*>(row)->clearRaisedHandStatus();
}
i = _raisedHandStatusRemoveAt.erase(i);
} else {
if (!waiting || waiting > (i->second - now)) {
waiting = i->second - now;
}
++i;
}
}
if (waiting > 0) {
if (!_raisedHandStatusRemoveTimer.isActive()
|| _raisedHandStatusRemoveTimer.remainingTime() > waiting) {
_raisedHandStatusRemoveTimer.callOnce(waiting);
}
}
}
void MembersController::rowPaintIcon(
Painter &p,
QRect rect,
IconState state) {
const auto &greenIcon = st::groupCallMemberColoredCrossLine.icon;
const auto left = rect.x() + (rect.width() - greenIcon.width()) / 2;
const auto top = rect.y() + (rect.height() - greenIcon.height()) / 2;
if (state.speaking == 1. && !state.mutedByMe) {
// Just green icon, no cross, no coloring.
greenIcon.paintInCenter(p, rect);
return;
} else if (state.speaking == 0.) {
if (state.active == 1.) {
// Just gray icon, no cross, no coloring.
st::groupCallMemberInactiveCrossLine.icon.paintInCenter(p, rect);
return;
} else if (state.active == 0.) {
if (state.muted == 1.) {
if (state.raisedHand) {
st::groupCallMemberRaisedHand.paintInCenter(p, rect);
return;
}
// Red crossed icon, colorized once, cached as last frame.
_coloredCrossLine.paint(
p,
left,
top,
1.,
st::groupCallMemberMutedIcon->c);
return;
} else if (state.muted == 0.) {
// Gray crossed icon, no coloring, cached as last frame.
_inactiveCrossLine.paint(p, left, top, 1.);
return;
}
}
}
const auto activeInactiveColor = anim::color(
st::groupCallMemberInactiveIcon,
(state.mutedByMe
? st::groupCallMemberMutedIcon
: st::groupCallMemberActiveIcon),
state.speaking);
const auto iconColor = anim::color(
activeInactiveColor,
st::groupCallMemberMutedIcon,
state.muted);
// Don't use caching of the last frame,
// because 'muted' may animate color.
const auto crossProgress = std::min(1. - state.active, 0.9999);
_inactiveCrossLine.paint(p, left, top, crossProgress, iconColor);
}
auto MembersController::kickParticipantRequests() const
-> rpl::producer<not_null<PeerData*>>{
return _kickParticipantRequests.events();
}
void MembersController::rowClicked(not_null<PeerListRow*> row) {
delegate()->peerListShowRowMenu(row, [=](not_null<Ui::PopupMenu*> menu) {
if (!_menu || _menu.get() != menu) {
return;
}
auto saved = base::take(_menu);
for (const auto peer : base::take(_menuCheckRowsAfterHidden)) {
if (const auto row = findRow(peer)) {
checkRowPosition(row);
}
}
_menu = std::move(saved);
});
}
void MembersController::rowActionClicked(
not_null<PeerListRow*> row) {
rowClicked(row);
}
base::unique_qptr<Ui::PopupMenu> MembersController::rowContextMenu(
QWidget *parent,
not_null<PeerListRow*> row) {
auto result = createRowContextMenu(parent, row);
if (result) {
// First clear _menu value, so that we don't check row positions yet.
base::take(_menu);
// Here unique_qptr is used like a shared pointer, where
// not the last destroyed pointer destroys the object, but the first.
_menu = base::unique_qptr<Ui::PopupMenu>(result.get());
}
return result;
}
base::unique_qptr<Ui::PopupMenu> MembersController::createRowContextMenu(
QWidget *parent,
not_null<PeerListRow*> row) {
const auto participantPeer = row->peer();
const auto real = static_cast<Row*>(row.get());
auto result = base::make_unique_q<Ui::PopupMenu>(
parent,
st::groupCallPopupMenu);
const auto muteState = real->state();
const auto admin = IsGroupCallAdmin(_peer, participantPeer);
const auto session = &_peer->session();
const auto getCurrentWindow = [=]() -> Window::SessionController* {
if (const auto window = Core::App().activeWindow()) {
if (const auto controller = window->sessionController()) {
if (&controller->session() == session) {
return controller;
}
}
}
return nullptr;
};
const auto getWindow = [=] {
if (const auto current = getCurrentWindow()) {
return current;
} else if (&Core::App().domain().active() != &session->account()) {
Core::App().domain().activate(&session->account());
}
return getCurrentWindow();
};
const auto performOnMainWindow = [=](auto callback) {
if (const auto window = getWindow()) {
if (_menu) {
_menu->discardParentReActivate();
// We must hide PopupMenu before we activate the MainWindow,
// otherwise we set focus in field inside MainWindow and then
// PopupMenu::hide activates back the group call panel :(
_menu = nullptr;
}
callback(window);
window->widget()->activate();
}
};
const auto showProfile = [=] {
performOnMainWindow([=](not_null<Window::SessionController*> window) {
window->showPeerInfo(participantPeer);
});
};
const auto showHistory = [=] {
performOnMainWindow([=](not_null<Window::SessionController*> window) {
window->showPeerHistory(
participantPeer,
Window::SectionShow::Way::Forward);
});
};
const auto removeFromVoiceChat = crl::guard(this, [=] {
_kickParticipantRequests.fire_copy(participantPeer);
});
if (real->ssrc() != 0
&& (!isMe(participantPeer) || _peer->canManageGroupCall())) {
addMuteActionsToContextMenu(result, participantPeer, admin, real);
}
if (isMe(participantPeer)) {
if (const auto strong = _call.get()
; strong && strong->muted() == MuteState::RaisedHand) {
const auto removeHand = [=] {
if (const auto strong = _call.get()
; strong && strong->muted() == MuteState::RaisedHand) {
strong->setMutedAndUpdate(MuteState::ForceMuted);
}
};
result->addAction(
tr::lng_group_call_context_remove_hand(tr::now),
removeHand);
}
} else {
result->addAction(
(participantPeer->isUser()
? tr::lng_context_view_profile(tr::now)
: participantPeer->isBroadcast()
? tr::lng_context_view_channel(tr::now)
: tr::lng_context_view_group(tr::now)),
showProfile);
if (participantPeer->isUser()) {
result->addAction(
tr::lng_context_send_message(tr::now),
showHistory);
}
const auto canKick = [&] {
const auto user = participantPeer->asUser();
if (static_cast<Row*>(row.get())->state()
== Row::State::Invited) {
return false;
} else if (const auto chat = _peer->asChat()) {
return chat->amCreator()
|| (user
&& chat->canBanMembers()
&& !chat->admins.contains(user));
} else if (const auto channel = _peer->asChannel()) {
return channel->canRestrictParticipant(participantPeer);
}
return false;
}();
if (canKick) {
result->addAction(MakeAttentionAction(
result->menu(),
tr::lng_group_call_context_remove(tr::now),
removeFromVoiceChat));
}
}
if (result->empty()) {
return nullptr;
}
return result;
}
void MembersController::addMuteActionsToContextMenu(
not_null<Ui::PopupMenu*> menu,
not_null<PeerData*> participantPeer,
bool participantIsCallAdmin,
not_null<Row*> row) {
const auto muteString = [=] {
return (_peer->canManageGroupCall()
? tr::lng_group_call_context_mute
: tr::lng_group_call_context_mute_for_me)(tr::now);
};
const auto unmuteString = [=] {
return (_peer->canManageGroupCall()
? tr::lng_group_call_context_unmute
: tr::lng_group_call_context_unmute_for_me)(tr::now);
};
const auto toggleMute = crl::guard(this, [=](bool mute, bool local) {
_toggleMuteRequests.fire(Group::MuteRequest{
.peer = participantPeer,
.mute = mute,
.locallyOnly = local,
});
});
const auto changeVolume = crl::guard(this, [=](
int volume,
bool local) {
_changeVolumeRequests.fire(Group::VolumeRequest{
.peer = participantPeer,
.volume = std::clamp(volume, 1, Group::kMaxVolume),
.locallyOnly = local,
});
});
const auto muteState = row->state();
const auto isMuted = (muteState == Row::State::Muted)
|| (muteState == Row::State::RaisedHand)
|| (muteState == Row::State::MutedByMe);
auto mutesFromVolume = rpl::never<bool>() | rpl::type_erased();
const auto call = _call.get();
if (!isMuted || (call && call->joinAs() == participantPeer)) {
auto otherParticipantStateValue = call
? call->otherParticipantStateValue(
) | rpl::filter([=](const Group::ParticipantState &data) {
return data.peer == participantPeer;
})
: rpl::never<Group::ParticipantState>() | rpl::type_erased();
auto volumeItem = base::make_unique_q<MenuVolumeItem>(
menu->menu(),
st::groupCallPopupMenu.menu,
otherParticipantStateValue,
row->volume(),
Group::kMaxVolume,
isMuted);
mutesFromVolume = volumeItem->toggleMuteRequests();
volumeItem->toggleMuteRequests(
) | rpl::start_with_next([=](bool muted) {
if (muted) {
// Slider value is changed after the callback is called.
// To capture good state inside the slider frame we postpone.
crl::on_main(menu, [=] {
menu->hideMenu();
});
}
toggleMute(muted, false);
}, volumeItem->lifetime());
volumeItem->toggleMuteLocallyRequests(
) | rpl::start_with_next([=](bool muted) {
if (!isMe(participantPeer)) {
toggleMute(muted, true);
}
}, volumeItem->lifetime());
volumeItem->changeVolumeRequests(
) | rpl::start_with_next([=](int volume) {
changeVolume(volume, false);
}, volumeItem->lifetime());
volumeItem->changeVolumeLocallyRequests(
) | rpl::start_with_next([=](int volume) {
if (!isMe(participantPeer)) {
changeVolume(volume, true);
}
}, volumeItem->lifetime());
menu->addAction(std::move(volumeItem));
};
const auto muteAction = [&]() -> QAction* {
if (muteState == Row::State::Invited
|| isMe(participantPeer)
|| (muteState == Row::State::Inactive
&& participantIsCallAdmin
&& _peer->canManageGroupCall())
|| (isMuted
&& !_peer->canManageGroupCall()
&& muteState != Row::State::MutedByMe)) {
return nullptr;
}
auto callback = [=] {
const auto state = row->state();
const auto muted = (state == Row::State::Muted)
|| (state == Row::State::RaisedHand)
|| (state == Row::State::MutedByMe);
toggleMute(!muted, false);
};
return menu->addAction(
isMuted ? unmuteString() : muteString(),
std::move(callback));
}();
if (muteAction) {
std::move(
mutesFromVolume
) | rpl::start_with_next([=](bool muted) {
muteAction->setText(muted ? unmuteString() : muteString());
}, menu->lifetime());
}
}
std::unique_ptr<Row> MembersController::createRowForMe() {
const auto call = _call.get();
if (!call) {
return nullptr;
}
auto result = std::make_unique<Row>(this, call->joinAs());
updateRow(result.get(), nullptr);
return result;
}
std::unique_ptr<Row> MembersController::createRow(
const Data::GroupCall::Participant &participant) {
auto result = std::make_unique<Row>(this, participant.peer);
updateRow(result.get(), &participant);
return result;
}
std::unique_ptr<Row> MembersController::createInvitedRow(
not_null<PeerData*> participantPeer) {
if (findRow(participantPeer)) {
return nullptr;
}
auto result = std::make_unique<Row>(this, participantPeer);
updateRow(result.get(), nullptr);
return result;
}
} // namespace
Members::Members(
not_null<QWidget*> parent,
not_null<GroupCall*> call)
: RpWidget(parent)
, _call(call)
, _scroll(this, st::defaultSolidScroll)
, _listController(std::make_unique<MembersController>(call, parent)) {
setupAddMember(call);
setupList();
setContent(_list);
setupFakeRoundCorners();
_listController->setDelegate(static_cast<PeerListDelegate*>(this));
}
auto Members::toggleMuteRequests() const
-> rpl::producer<Group::MuteRequest> {
return static_cast<MembersController*>(
_listController.get())->toggleMuteRequests();
}
auto Members::changeVolumeRequests() const
-> rpl::producer<Group::VolumeRequest> {
return static_cast<MembersController*>(
_listController.get())->changeVolumeRequests();
}
auto Members::kickParticipantRequests() const
-> rpl::producer<not_null<PeerData*>> {
return static_cast<MembersController*>(
_listController.get())->kickParticipantRequests();
}
int Members::desiredHeight() const {
const auto top = _addMember ? _addMember->height() : 0;
auto count = [&] {
if (const auto call = _call.get()) {
if (const auto real = call->peer()->groupCall()) {
if (call->id() == real->id()) {
return real->fullCount();
}
}
}
return 0;
}();
const auto use = std::max(count, _list->fullRowsCount());
return top
+ (use * st::groupCallMembersList.item.height)
+ (use ? st::lineWidth : 0);
}
rpl::producer<int> Members::desiredHeightValue() const {
const auto controller = static_cast<MembersController*>(
_listController.get());
return rpl::combine(
heightValue(),
_addMemberButton.value(),
controller->fullCountValue()
) | rpl::map([=] {
return desiredHeight();
});
}
void Members::setupAddMember(not_null<GroupCall*> call) {
using namespace rpl::mappers;
const auto peer = call->peer();
if (const auto channel = peer->asBroadcast()) {
_canAddMembers = rpl::single(
false
) | rpl::then(peer->session().changes().peerFlagsValue(
peer,
Data::PeerUpdate::Flag::GroupCall
) | rpl::map([=] {
return peer->groupCall();
}) | rpl::filter([=](Data::GroupCall *real) {
const auto call = _call.get();
return call && real && (real->id() == call->id());
}) | rpl::take(
1
) | rpl::map([=] {
return Data::PeerFlagValue(
channel,
MTPDchannel::Flag::f_username);
}) | rpl::flatten_latest());
} else {
_canAddMembers = Data::CanWriteValue(peer.get());
SubscribeToMigration(
peer,
lifetime(),
[=](not_null<ChannelData*> channel) {
_canAddMembers = Data::CanWriteValue(channel.get());
});
}
_canAddMembers.value(
) | rpl::start_with_next([=](bool can) {
if (!can) {
_addMemberButton = nullptr;
_addMember.destroy();
updateControlsGeometry();
return;
}
_addMember = Settings::CreateButton(
this,
tr::lng_group_call_invite(),
st::groupCallAddMember,
&st::groupCallAddMemberIcon,
st::groupCallAddMemberIconLeft);
_addMember->show();
_addMember->addClickHandler([=] { // TODO throttle(ripple duration)
_addMemberRequests.fire({});
});
_addMemberButton = _addMember.data();
resizeToList();
}, lifetime());
}
rpl::producer<int> Members::fullCountValue() const {
return static_cast<MembersController*>(
_listController.get())->fullCountValue();
}
void Members::setupList() {
_listController->setStyleOverrides(&st::groupCallMembersList);
_list = _scroll->setOwnedWidget(object_ptr<ListWidget>(
this,
_listController.get()));
_list->heightValue(
) | rpl::start_with_next([=] {
resizeToList();
}, _list->lifetime());
rpl::combine(
_scroll->scrollTopValue(),
_scroll->heightValue()
) | rpl::start_with_next([=](int scrollTop, int scrollHeight) {
_list->setVisibleTopBottom(scrollTop, scrollTop + scrollHeight);
}, _scroll->lifetime());
updateControlsGeometry();
}
void Members::resizeEvent(QResizeEvent *e) {
updateControlsGeometry();
}
void Members::resizeToList() {
if (!_list) {
return;
}
const auto listHeight = _list->height();
const auto newHeight = (listHeight > 0)
? ((_addMember ? _addMember->height() : 0)
+ listHeight
+ st::lineWidth)
: 0;
if (height() == newHeight) {
updateControlsGeometry();
} else {
resize(width(), newHeight);
}
}
void Members::updateControlsGeometry() {
if (!_list) {
return;
}
auto topSkip = 0;
if (_addMember) {
_addMember->resizeToWidth(width());
_addMember->move(0, 0);
topSkip = _addMember->height();
}
_scroll->setGeometry(0, topSkip, width(), height() - topSkip);
_list->resizeToWidth(width());
}
void Members::setupFakeRoundCorners() {
const auto size = st::roundRadiusLarge;
const auto full = 3 * size;
const auto imagePartSize = size * cIntRetinaFactor();
const auto imageSize = full * cIntRetinaFactor();
const auto image = std::make_shared<QImage>(
QImage(imageSize, imageSize, QImage::Format_ARGB32_Premultiplied));
image->setDevicePixelRatio(cRetinaFactor());
const auto refreshImage = [=] {
image->fill(st::groupCallBg->c);
{
QPainter p(image.get());
PainterHighQualityEnabler hq(p);
p.setCompositionMode(QPainter::CompositionMode_Source);
p.setPen(Qt::NoPen);
p.setBrush(Qt::transparent);
p.drawRoundedRect(0, 0, full, full, size, size);
}
};
const auto create = [&](QPoint imagePartOrigin) {
const auto result = Ui::CreateChild<Ui::RpWidget>(this);
result->show();
result->resize(size, size);
result->setAttribute(Qt::WA_TransparentForMouseEvents);
result->paintRequest(
) | rpl::start_with_next([=] {
QPainter(result).drawImage(
result->rect(),
*image,
QRect(imagePartOrigin, QSize(imagePartSize, imagePartSize)));
}, result->lifetime());
result->raise();
return result;
};
const auto shift = imageSize - imagePartSize;
const auto topleft = create({ 0, 0 });
const auto topright = create({ shift, 0 });
const auto bottomleft = create({ 0, shift });
const auto bottomright = create({ shift, shift });
sizeValue(
) | rpl::start_with_next([=](QSize size) {
topleft->move(0, 0);
topright->move(size.width() - topright->width(), 0);
bottomleft->move(0, size.height() - bottomleft->height());
bottomright->move(
size.width() - bottomright->width(),
size.height() - bottomright->height());
}, lifetime());
refreshImage();
style::PaletteChanged(
) | rpl::start_with_next([=] {
refreshImage();
topleft->update();
topright->update();
bottomleft->update();
bottomright->update();
}, lifetime());
}
void Members::peerListSetTitle(rpl::producer<QString> title) {
}
void Members::peerListSetAdditionalTitle(rpl::producer<QString> title) {
}
void Members::peerListSetHideEmpty(bool hide) {
}
bool Members::peerListIsRowChecked(not_null<PeerListRow*> row) {
return false;
}
void Members::peerListScrollToTop() {
}
int Members::peerListSelectedRowsCount() {
return 0;
}
void Members::peerListAddSelectedPeerInBunch(not_null<PeerData*> peer) {
Unexpected("Item selection in Calls::Members.");
}
void Members::peerListAddSelectedRowInBunch(not_null<PeerListRow*> row) {
Unexpected("Item selection in Calls::Members.");
}
void Members::peerListFinishSelectedRowsBunch() {
}
void Members::peerListSetDescription(
object_ptr<Ui::FlatLabel> description) {
description.destroy();
}
} // namespace Calls::Group