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tdesktop/Telegram/SourceFiles/stickers/stickers.cpp
John Preston 08167a6a91 Removed #include "stdafx.h" from all files. 
Currently the build without implicitly included precompiled header
is not supported anyway (because Qt MOC source files do not include
stdafx.h, they include plain headers).

So when we decide to support building without implicitly included
precompiled headers we'll have to fix all the headers anyway.
2017-03-04 12:27:52 +03:00

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7 KiB
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/*
This file is part of Telegram Desktop,
the official desktop version of Telegram messaging app, see https://telegram.org
Telegram Desktop is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
It is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
In addition, as a special exception, the copyright holders give permission
to link the code of portions of this program with the OpenSSL library.
Full license: https://github.com/telegramdesktop/tdesktop/blob/master/LICENSE
Copyright (c) 2014-2017 John Preston, https://desktop.telegram.org
*/
#include "stickers.h"
#include "boxes/stickers_box.h"
#include "boxes/confirmbox.h"
#include "lang.h"
#include "apiwrap.h"
#include "localstorage.h"
#include "mainwidget.h"
#include "mainwindow.h"
#include "ui/toast/toast.h"
#include "styles/style_stickers.h"
namespace Stickers {
namespace {
constexpr int kReadFeaturedSetsTimeoutMs = 1000;
internal::FeaturedReader *FeaturedReaderInstance = nullptr;
} // namespace
void applyArchivedResult(const MTPDmessages_stickerSetInstallResultArchive &d) {
auto &v = d.vsets.c_vector().v;
auto &order = Global::RefStickerSetsOrder();
Stickers::Order archived;
archived.reserve(v.size());
QMap<uint64, uint64> setsToRequest;
for_const (auto &stickerSet, v) {
const MTPDstickerSet *setData = nullptr;
switch (stickerSet.type()) {
case mtpc_stickerSetCovered: {
auto &d = stickerSet.c_stickerSetCovered();
if (d.vset.type() == mtpc_stickerSet) {
setData = &d.vset.c_stickerSet();
}
} break;
case mtpc_stickerSetMultiCovered: {
auto &d = stickerSet.c_stickerSetMultiCovered();
if (d.vset.type() == mtpc_stickerSet) {
setData = &d.vset.c_stickerSet();
}
} break;
}
if (setData) {
auto set = Stickers::feedSet(*setData);
if (set->stickers.isEmpty()) {
setsToRequest.insert(set->id, set->access);
}
auto index = order.indexOf(set->id);
if (index >= 0) {
order.removeAt(index);
}
archived.push_back(set->id);
}
}
if (!setsToRequest.isEmpty()) {
for (auto i = setsToRequest.cbegin(), e = setsToRequest.cend(); i != e; ++i) {
App::api()->scheduleStickerSetRequest(i.key(), i.value());
}
App::api()->requestStickerSets();
}
Local::writeInstalledStickers();
Local::writeArchivedStickers();
Ui::Toast::Config toast;
toast.text = lang(lng_stickers_packs_archived);
toast.maxWidth = st::stickersToastMaxWidth;
toast.padding = st::stickersToastPadding;
Ui::Toast::Show(toast);
// Ui::show(Box<StickersBox>(archived), KeepOtherLayers);
emit App::main()->stickersUpdated();
}
// For testing: Just apply random subset or your sticker sets as archived.
bool applyArchivedResultFake() {
auto sets = QVector<MTPStickerSetCovered>();
for (auto &set : Global::RefStickerSets()) {
if ((set.flags & MTPDstickerSet::Flag::f_installed) && !(set.flags & MTPDstickerSet_ClientFlag::f_special)) {
if (rand_value<uint32>() % 128 < 64) {
auto data = MTP_stickerSet(MTP_flags(set.flags | MTPDstickerSet::Flag::f_archived), MTP_long(set.id), MTP_long(set.access), MTP_string(set.title), MTP_string(set.shortName), MTP_int(set.count), MTP_int(set.hash));
sets.push_back(MTP_stickerSetCovered(data, MTP_documentEmpty(MTP_long(0))));
}
}
}
if (sets.size() > 3) sets = sets.mid(0, 3);
auto fakeResult = MTP_messages_stickerSetInstallResultArchive(MTP_vector<MTPStickerSetCovered>(sets));
applyArchivedResult(fakeResult.c_messages_stickerSetInstallResultArchive());
return true;
}
void installLocally(uint64 setId) {
auto &sets = Global::RefStickerSets();
auto it = sets.find(setId);
if (it == sets.end()) {
return;
}
auto flags = it->flags;
it->flags &= ~(MTPDstickerSet::Flag::f_archived | MTPDstickerSet_ClientFlag::f_unread);
it->flags |= MTPDstickerSet::Flag::f_installed;
auto changedFlags = flags ^ it->flags;
auto &order = Global::RefStickerSetsOrder();
int insertAtIndex = 0, currentIndex = order.indexOf(setId);
if (currentIndex != insertAtIndex) {
if (currentIndex > 0) {
order.removeAt(currentIndex);
}
order.insert(insertAtIndex, setId);
}
auto custom = sets.find(Stickers::CustomSetId);
if (custom != sets.cend()) {
for_const (auto sticker, it->stickers) {
int removeIndex = custom->stickers.indexOf(sticker);
if (removeIndex >= 0) custom->stickers.removeAt(removeIndex);
}
if (custom->stickers.isEmpty()) {
sets.erase(custom);
}
}
Local::writeInstalledStickers();
if (changedFlags & MTPDstickerSet_ClientFlag::f_unread) Local::writeFeaturedStickers();
if (changedFlags & MTPDstickerSet::Flag::f_archived) {
auto index = Global::RefArchivedStickerSetsOrder().indexOf(setId);
if (index >= 0) {
Global::RefArchivedStickerSetsOrder().removeAt(index);
Local::writeArchivedStickers();
}
}
emit App::main()->stickersUpdated();
}
void undoInstallLocally(uint64 setId) {
auto &sets = Global::RefStickerSets();
auto it = sets.find(setId);
if (it == sets.end()) {
return;
}
it->flags &= ~MTPDstickerSet::Flag::f_installed;
auto &order = Global::RefStickerSetsOrder();
int currentIndex = order.indexOf(setId);
if (currentIndex >= 0) {
order.removeAt(currentIndex);
}
Local::writeInstalledStickers();
emit App::main()->stickersUpdated();
Ui::show(Box<InformBox>(lang(lng_stickers_not_found)), KeepOtherLayers);
}
void markFeaturedAsRead(uint64 setId) {
if (!FeaturedReaderInstance) {
if (auto main = App::main()) {
FeaturedReaderInstance = new internal::FeaturedReader(main);
} else {
return;
}
}
FeaturedReaderInstance->scheduleRead(setId);
}
namespace internal {
void readFeaturedDone() {
Local::writeFeaturedStickers();
if (App::main()) {
emit App::main()->stickersUpdated();
}
}
FeaturedReader::FeaturedReader(QObject *parent) : QObject(parent)
, _timer(new QTimer(this)) {
_timer->setSingleShot(true);
connect(_timer, SIGNAL(timeout()), this, SLOT(onReadSets()));
}
void FeaturedReader::scheduleRead(uint64 setId) {
if (!_setIds.contains(setId)) {
_setIds.insert(setId);
_timer->start(kReadFeaturedSetsTimeoutMs);
}
}
void FeaturedReader::onReadSets() {
auto &sets = Global::RefStickerSets();
auto count = Global::FeaturedStickerSetsUnreadCount();
QVector<MTPlong> wrappedIds;
wrappedIds.reserve(_setIds.size());
for_const (auto setId, _setIds) {
auto it = sets.find(setId);
if (it != sets.cend()) {
it->flags &= ~MTPDstickerSet_ClientFlag::f_unread;
wrappedIds.append(MTP_long(setId));
if (count) {
--count;
}
}
}
_setIds.clear();
if (!wrappedIds.empty()) {
MTP::send(MTPmessages_ReadFeaturedStickers(MTP_vector<MTPlong>(wrappedIds)), rpcDone(&readFeaturedDone));
if (Global::FeaturedStickerSetsUnreadCount() != count) {
Global::SetFeaturedStickerSetsUnreadCount(count);
Global::RefFeaturedStickerSetsUnreadCountChanged().notify();
}
}
}
} // namespace internal
} // namespace Stickers
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