tdesktop/Telegram/SourceFiles/media/player/media_player_instance.cpp

459 lines
11 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 "media/player/media_player_instance.h"
#include "data/data_document.h"
#include "media/media_audio.h"
#include "media/media_audio_capture.h"
#include "messenger.h"
#include "auth_session.h"
#include "calls/calls_instance.h"
#include "history/history.h"
#include "history/history_item.h"
#include "history/history_media.h"
namespace Media {
namespace Player {
namespace {
Instance *SingleInstance = nullptr;
// Preload X message ids before and after current.
constexpr auto kIdsLimit = 32;
// Preload next messages if we went further from current than that.
constexpr auto kIdsPreloadAfter = 28;
} // namespace
void start() {
Audio::Start();
Capture::Start();
SingleInstance = new Instance();
}
void finish() {
delete base::take(SingleInstance);
Capture::Finish();
Audio::Finish();
}
Instance::Instance()
: _songData(AudioMsgId::Type::Song, SharedMediaType::MusicFile)
, _voiceData(AudioMsgId::Type::Voice, SharedMediaType::RoundVoiceFile) {
subscribe(Media::Player::Updated(), [this](const AudioMsgId &audioId) {
handleSongUpdate(audioId);
});
subscribe(Global::RefSelfChanged(), [this] {
if (!App::self()) {
handleLogout();
}
});
// While we have one Media::Player::Instance for all authsessions we have to do this.
auto handleAuthSessionChange = [this] {
if (AuthSession::Exists()) {
subscribe(Auth().calls().currentCallChanged(), [this](Calls::Call *call) {
if (call) {
pause(AudioMsgId::Type::Voice);
pause(AudioMsgId::Type::Song);
}
});
}
};
subscribe(Messenger::Instance().authSessionChanged(), [handleAuthSessionChange] {
handleAuthSessionChange();
});
handleAuthSessionChange();
}
AudioMsgId::Type Instance::getActiveType() const {
auto voiceData = getData(AudioMsgId::Type::Voice);
if (voiceData->current) {
auto state = mixer()->currentState(voiceData->type);
if (voiceData->current == state.id && !IsStoppedOrStopping(state.state)) {
return voiceData->type;
}
}
return AudioMsgId::Type::Song;
}
void Instance::handleSongUpdate(const AudioMsgId &audioId) {
emitUpdate(audioId.type(), [&audioId](const AudioMsgId &playing) {
return (audioId == playing);
});
}
void Instance::setCurrent(const AudioMsgId &audioId) {
if (auto data = getData(audioId.type())) {
if (data->current != audioId) {
data->current = audioId;
data->isPlaying = false;
auto history = data->history;
auto migrated = data->migrated;
auto item = data->current
? App::histItemById(data->current.contextId())
: nullptr;
if (item) {
data->history = item->history()->migrateToOrMe();
data->migrated = data->history->migrateFrom();
} else {
data->history = nullptr;
data->migrated = nullptr;
}
_trackChangedNotifier.notify(data->type, true);
refreshPlaylist(data);
}
}
}
void Instance::refreshPlaylist(not_null<Data*> data) {
if (!validPlaylist(data)) {
validatePlaylist(data);
}
playlistUpdated(data);
}
void Instance::playlistUpdated(not_null<Data*> data) {
if (data->playlistSlice) {
const auto fullId = data->current.contextId();
data->playlistIndex = data->playlistSlice->indexOf(fullId);
} else {
data->playlistIndex = base::none;
}
data->playlistChanges.fire({});
}
bool Instance::validPlaylist(not_null<Data*> data) {
if (const auto key = playlistKey(data)) {
if (!data->playlistSlice) {
return false;
}
using Key = SliceKey;
const auto inSameDomain = [](const Key &a, const Key &b) {
return (a.peerId == b.peerId)
&& (a.migratedPeerId == b.migratedPeerId);
};
const auto countDistanceInData = [&](const Key &a, const Key &b) {
return [&](const SparseIdsMergedSlice &data) {
return inSameDomain(a, b)
? data.distance(a, b)
: base::optional<int>();
};
};
if (key == data->playlistRequestedKey) {
return true;
} else if (!data->playlistSliceKey
|| !data->playlistRequestedKey
|| *data->playlistRequestedKey != *data->playlistSliceKey) {
return false;
}
auto distance = data->playlistSlice
| countDistanceInData(*key, *data->playlistRequestedKey)
| func::abs;
if (distance) {
return (*distance < kIdsPreloadAfter);
}
}
return !data->playlistSlice;
}
void Instance::validatePlaylist(not_null<Data*> data) {
if (const auto key = playlistKey(data)) {
data->playlistRequestedKey = key;
SharedMediaMergedViewer(
SharedMediaMergedKey(*key, data->overview),
kIdsLimit,
kIdsLimit
) | rpl::start_with_next([=](SparseIdsMergedSlice &&update) {
data->playlistSlice = std::move(update);
data->playlistSliceKey = key;
playlistUpdated(data);
}, data->playlistLifetime);
} else {
data->playlistSlice = base::none;
data->playlistSliceKey = data->playlistRequestedKey = base::none;
playlistUpdated(data);
}
}
auto Instance::playlistKey(not_null<Data*> data) const
-> base::optional<SliceKey> {
const auto contextId = data->current.contextId();
const auto history = data->history;
if (!contextId || !history || !IsServerMsgId(contextId.msg)) {
return {};
}
const auto universalId = (contextId.channel == history->channelId())
? contextId.msg
: (contextId.msg - ServerMaxMsgId);
return SliceKey(
data->history->peer->id,
data->migrated ? data->migrated->peer->id : 0,
universalId);
}
HistoryItem *Instance::itemByIndex(not_null<Data*> data, int index) {
if (!data->playlistSlice
|| index < 0
|| index >= data->playlistSlice->size()) {
return nullptr;
}
const auto fullId = (*data->playlistSlice)[index];
return App::histItemById(fullId);
}
bool Instance::moveInPlaylist(
not_null<Data*> data,
int delta,
bool autonext) {
if (!data->playlistIndex) {
return false;
}
const auto newIndex = *data->playlistIndex + delta;
if (const auto item = itemByIndex(data, newIndex)) {
if (const auto media = item->getMedia()) {
if (const auto document = media->getDocument()) {
if (autonext) {
_switchToNextNotifier.notify({
data->current,
item->fullId()
});
}
if (document->isAudioFile()) {
play(AudioMsgId(document, item->fullId()));
} else {
DocumentOpenClickHandler::doOpen(
document,
item,
ActionOnLoadPlayInline);
}
return true;
}
}
}
return false;
}
bool Instance::previousAvailable(AudioMsgId::Type type) const {
const auto data = getData(type);
Assert(data != nullptr);
return data->playlistIndex
&& data->playlistSlice
&& (*data->playlistIndex > 0);
}
bool Instance::nextAvailable(AudioMsgId::Type type) const {
const auto data = getData(type);
Assert(data != nullptr);
return data->playlistIndex
&& data->playlistSlice
&& (*data->playlistIndex + 1 < data->playlistSlice->size());
}
rpl::producer<> Media::Player::Instance::playlistChanges(
AudioMsgId::Type type) const {
const auto data = getData(type);
Assert(data != nullptr);
return data->playlistChanges.events();
}
Instance *instance() {
Expects(SingleInstance != nullptr);
return SingleInstance;
}
void Instance::play(AudioMsgId::Type type) {
auto state = mixer()->currentState(type);
if (state.id) {
if (IsStopped(state.state)) {
play(state.id);
} else {
mixer()->resume(state.id);
}
} else if (auto data = getData(type)) {
if (data->current) {
play(data->current);
}
}
}
void Instance::play(const AudioMsgId &audioId) {
const auto document = audioId.audio();
if (!audioId || !document) {
return;
}
if (document->isAudioFile() || document->isVoiceMessage()) {
mixer()->play(audioId);
setCurrent(audioId);
if (document->loading()) {
documentLoadProgress(document);
}
} else if (document->isVideoMessage()) {
if (const auto item = App::histItemById(audioId.contextId())) {
if (const auto media = item->getMedia()) {
media->playInline();
}
}
}
}
void Instance::pause(AudioMsgId::Type type) {
auto state = mixer()->currentState(type);
if (state.id) {
mixer()->pause(state.id);
}
}
void Instance::stop(AudioMsgId::Type type) {
auto state = mixer()->currentState(type);
if (state.id) {
mixer()->stop(state.id);
}
}
void Instance::playPause(AudioMsgId::Type type) {
auto state = mixer()->currentState(type);
if (state.id) {
if (IsStopped(state.state)) {
play(state.id);
} else if (IsPaused(state.state) || state.state == State::Pausing) {
mixer()->resume(state.id);
} else {
mixer()->pause(state.id);
}
} else if (auto data = getData(type)) {
if (data->current) {
play(data->current);
}
}
}
bool Instance::next(AudioMsgId::Type type) {
if (auto data = getData(type)) {
return moveInPlaylist(data, 1, false);
}
return false;
}
bool Instance::previous(AudioMsgId::Type type) {
if (auto data = getData(type)) {
return moveInPlaylist(data, -1, false);
}
return false;
}
void Instance::playPauseCancelClicked(AudioMsgId::Type type) {
if (isSeeking(type)) {
return;
}
auto state = mixer()->currentState(type);
auto stopped = IsStoppedOrStopping(state.state);
auto showPause = !stopped && (state.state == State::Playing || state.state == State::Resuming || state.state == State::Starting);
auto audio = state.id.audio();
if (audio && audio->loading()) {
audio->cancel();
} else if (showPause) {
pause(type);
} else {
play(type);
}
}
void Instance::startSeeking(AudioMsgId::Type type) {
if (auto data = getData(type)) {
data->seeking = data->current;
}
pause(type);
emitUpdate(type, [](const AudioMsgId &playing) { return true; });
}
void Instance::stopSeeking(AudioMsgId::Type type) {
if (auto data = getData(type)) {
data->seeking = AudioMsgId();
}
emitUpdate(type, [](const AudioMsgId &playing) { return true; });
}
void Instance::documentLoadProgress(DocumentData *document) {
const auto type = document->isAudioFile()
? AudioMsgId::Type::Song
: AudioMsgId::Type::Voice;
emitUpdate(type, [document](const AudioMsgId &audioId) {
return (audioId.audio() == document);
});
}
template <typename CheckCallback>
void Instance::emitUpdate(AudioMsgId::Type type, CheckCallback check) {
auto state = mixer()->currentState(type);
if (!state.id || !check(state.id)) {
return;
}
setCurrent(state.id);
_updatedNotifier.notify(state, true);
if (auto data = getData(type)) {
if (data->isPlaying && state.state == State::StoppedAtEnd) {
if (data->repeatEnabled) {
play(data->current);
} else if (!moveInPlaylist(data, 1, true)) {
_tracksFinishedNotifier.notify(type);
}
}
auto isPlaying = !IsStopped(state.state);
if (data->isPlaying != isPlaying) {
data->isPlaying = isPlaying;
if (data->isPlaying) {
preloadNext(data);
}
}
}
}
void Instance::preloadNext(not_null<Data*> data) {
if (!data->current || !data->playlistSlice || !data->playlistIndex) {
return;
}
const auto nextIndex = *data->playlistIndex + 1;
if (const auto item = itemByIndex(data, nextIndex)) {
if (const auto media = item->getMedia()) {
if (const auto document = media->getDocument()) {
const auto isLoaded = document->loaded(
DocumentData::FilePathResolveSaveFromDataSilent);
if (!isLoaded) {
DocumentOpenClickHandler::doOpen(
document,
nullptr,
ActionOnLoadNone);
}
}
}
}
}
void Instance::handleLogout() {
const auto reset = [&](AudioMsgId::Type type) {
const auto data = getData(type);
*data = Data(type, data->overview);
};
reset(AudioMsgId::Type::Voice);
reset(AudioMsgId::Type::Song);
_usePanelPlayer.notify(false, true);
}
} // namespace Player
} // namespace Media