tdesktop/Telegram/SourceFiles/data/data_wall_paper.cpp

771 lines
20 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 "data/data_wall_paper.h"
#include "data/data_document.h"
#include "data/data_file_origin.h"
#include "data/data_session.h"
#include "storage/serialize_common.h"
#include "ui/chat/chat_theme.h"
#include "ui/color_int_conversion.h"
#include "core/application.h"
#include "main/main_session.h"
namespace Ui {
QColor ColorFromSerialized(MTPint serialized) {
return ColorFromSerialized(serialized.v);
}
std::optional<QColor> MaybeColorFromSerialized(
const tl::conditional<MTPint> &mtp) {
return mtp ? ColorFromSerialized(*mtp) : std::optional<QColor>();
}
} // namespace Ui
namespace Data {
namespace {
constexpr auto FromLegacyBackgroundId(int32 legacyId) -> WallPaperId {
return uint64(0xFFFFFFFF00000000ULL) | uint64(uint32(legacyId));
}
constexpr auto kUninitializedBackground = FromLegacyBackgroundId(-999);
constexpr auto kTestingThemeBackground = FromLegacyBackgroundId(-666);
constexpr auto kTestingDefaultBackground = FromLegacyBackgroundId(-665);
constexpr auto kTestingEditorBackground = FromLegacyBackgroundId(-664);
constexpr auto kThemeBackground = FromLegacyBackgroundId(-2);
constexpr auto kCustomBackground = FromLegacyBackgroundId(-1);
constexpr auto kLegacy1DefaultBackground = FromLegacyBackgroundId(0);
constexpr auto kLegacy2DefaultBackground = 5947530738516623361;
constexpr auto kLegacy3DefaultBackground = 5778236420632084488;
constexpr auto kLegacy4DefaultBackground = 5945087215657811969;
constexpr auto kDefaultBackground = 5933856211186221059;
constexpr auto kIncorrectDefaultBackground = FromLegacyBackgroundId(105);
constexpr auto kVersionTag = qint32(0x7FFFFFFF);
constexpr auto kVersion = 1;
using Ui::MaybeColorFromSerialized;
[[nodiscard]] quint32 SerializeColor(const QColor &color) {
return (quint32(std::clamp(color.red(), 0, 255)) << 16)
| (quint32(std::clamp(color.green(), 0, 255)) << 8)
| quint32(std::clamp(color.blue(), 0, 255));
}
[[nodiscard]] quint32 SerializeMaybeColor(std::optional<QColor> color) {
return color ? SerializeColor(*color) : quint32(-1);
}
[[nodiscard]] std::vector<QColor> ColorsFromMTP(
const MTPDwallPaperSettings &data) {
auto result = std::vector<QColor>();
const auto c1 = MaybeColorFromSerialized(data.vbackground_color());
if (!c1) {
return result;
}
result.reserve(4);
result.push_back(*c1);
const auto c2 = MaybeColorFromSerialized(
data.vsecond_background_color());
if (!c2) {
return result;
}
result.push_back(*c2);
const auto c3 = MaybeColorFromSerialized(data.vthird_background_color());
if (!c3) {
return result;
}
result.push_back(*c3);
const auto c4 = MaybeColorFromSerialized(
data.vfourth_background_color());
if (!c4) {
return result;
}
result.push_back(*c4);
return result;
}
[[nodiscard]] std::optional<QColor> ColorFromString(QStringView string) {
if (string.size() != 6) {
return {};
} else if (ranges::any_of(string, [](QChar ch) {
return (ch < 'a' || ch > 'f')
&& (ch < 'A' || ch > 'F')
&& (ch < '0' || ch > '9');
})) {
return {};
}
const auto component = [](QStringView text, int index) {
const auto decimal = [](QChar hex) {
const auto code = hex.unicode();
return (code >= '0' && code <= '9')
? int(code - '0')
: (code >= 'a' && code <= 'f')
? int(code - 'a' + 0x0a)
: int(code - 'A' + 0x0a);
};
index *= 2;
return decimal(text[index]) * 0x10 + decimal(text[index + 1]);
};
return QColor(
component(string, 0),
component(string, 1),
component(string, 2),
255);
}
[[nodiscard]] std::vector<QColor> ColorsFromString(const QString &string) {
constexpr auto kMaxColors = 4;
const auto view = QStringView(string);
const auto count = int(view.size() / 6);
if (!count || count > kMaxColors || view.size() != count * 7 - 1) {
return {};
}
auto result = std::vector<QColor>();
result.reserve(count);
for (auto i = 0; i != count; ++i) {
if (i + 1 < count
&& view[i * 7 + 6] != '~'
&& (count > 2 || view[i * 7 + 6] != '-')) {
return {};
} else if (const auto parsed = ColorFromString(view.mid(i * 7, 6))) {
result.push_back(*parsed);
} else {
return {};
}
}
return result;
}
[[nodiscard]] QString StringFromColor(QColor color) {
const auto component = [](int value) {
const auto hex = [](int value) {
value = std::clamp(value, 0, 15);
return (value > 9)
? ('a' + (value - 10))
: ('0' + value);
};
return QString() + hex(value / 16) + hex(value % 16);
};
return component(color.red())
+ component(color.green())
+ component(color.blue());
}
[[nodiscard]] QString StringFromColors(const std::vector<QColor> &colors) {
Expects(!colors.empty());
auto strings = QStringList();
strings.reserve(colors.size());
for (const auto &color : colors) {
strings.push_back(StringFromColor(color));
}
const auto separator = (colors.size() > 2) ? '~' : '-';
return strings.join(separator);
}
[[nodiscard]] qint32 RawFromLegacyFlags(qint32 legacyFlags) {
using Flag = WallPaperFlag;
return ((legacyFlags & (1 << 0)) ? qint32(Flag::Creator) : 0)
| ((legacyFlags & (1 << 1)) ? qint32(Flag::Default) : 0)
| ((legacyFlags & (1 << 3)) ? qint32(Flag::Pattern) : 0)
| ((legacyFlags & (1 << 4)) ? qint32(Flag::Dark) : 0);
}
} // namespace
WallPaper::WallPaper(WallPaperId id) : _id(id) {
}
void WallPaper::setLocalImageAsThumbnail(std::shared_ptr<Image> image) {
Expects(IsDefaultWallPaper(*this)
|| IsLegacy1DefaultWallPaper(*this)
|| IsCustomWallPaper(*this));
Expects(_thumbnail == nullptr);
_thumbnail = std::move(image);
}
WallPaperId WallPaper::id() const {
return _id;
}
const std::vector<QColor> WallPaper::backgroundColors() const {
return _backgroundColors;
}
DocumentData *WallPaper::document() const {
return _document;
}
Image *WallPaper::localThumbnail() const {
return _thumbnail.get();
}
bool WallPaper::isPattern() const {
return _flags & WallPaperFlag::Pattern;
}
bool WallPaper::isDefault() const {
return _flags & WallPaperFlag::Default;
}
bool WallPaper::isCreator() const {
return _flags & WallPaperFlag::Creator;
}
bool WallPaper::isDark() const {
return _flags & WallPaperFlag::Dark;
}
bool WallPaper::isLocal() const {
return !document() && _thumbnail;
}
bool WallPaper::isBlurred() const {
return _blurred;
}
int WallPaper::patternIntensity() const {
return _intensity;
}
float64 WallPaper::patternOpacity() const {
return _intensity / 100.;
}
int WallPaper::gradientRotation() const {
// In case of complex gradients rotation value is dynamic.
return (_backgroundColors.size() < 3) ? _rotation : 0;
}
bool WallPaper::hasShareUrl() const {
return !_slug.isEmpty();
}
QString WallPaper::shareUrl(not_null<Main::Session*> session) const {
if (!hasShareUrl()) {
return QString();
}
const auto base = session->createInternalLinkFull("bg/" + _slug);
auto params = QStringList();
if (isPattern()) {
if (!backgroundColors().empty()) {
params.push_back(
"bg_color=" + StringFromColors(backgroundColors()));
}
if (_intensity) {
params.push_back("intensity=" + QString::number(_intensity));
}
}
if (_rotation && backgroundColors().size() == 2) {
params.push_back("rotation=" + QString::number(_rotation));
}
auto mode = QStringList();
if (_blurred) {
mode.push_back("blur");
}
if (!mode.isEmpty()) {
params.push_back("mode=" + mode.join('+'));
}
return params.isEmpty()
? base
: base + '?' + params.join('&');
}
void WallPaper::loadDocumentThumbnail() const {
if (_document) {
_document->loadThumbnail(fileOrigin());
}
}
void WallPaper::loadDocument() const {
if (_document) {
_document->save(fileOrigin(), QString());
}
}
FileOrigin WallPaper::fileOrigin() const {
return FileOriginWallpaper(_id, _accessHash, _ownerId, _slug);
}
UserId WallPaper::ownerId() const {
return _ownerId;
}
MTPInputWallPaper WallPaper::mtpInput(not_null<Main::Session*> session) const {
return (_ownerId && _ownerId != session->userId() && !_slug.isEmpty())
? MTP_inputWallPaperSlug(MTP_string(_slug))
: MTP_inputWallPaper(MTP_long(_id), MTP_long(_accessHash));
}
MTPWallPaperSettings WallPaper::mtpSettings() const {
const auto serializeForIndex = [&](int index) {
return (_backgroundColors.size() > index)
? MTP_int(SerializeColor(_backgroundColors[index]))
: MTP_int(0);
};
using Flag = MTPDwallPaperSettings::Flag;
const auto flagForIndex = [&](int index) {
return (_backgroundColors.size() <= index)
? Flag(0)
: (index == 0)
? Flag::f_background_color
: (index == 1)
? Flag::f_second_background_color
: (index == 2)
? Flag::f_third_background_color
: Flag::f_fourth_background_color;
};
return MTP_wallPaperSettings(
MTP_flags((_blurred ? Flag::f_blur : Flag(0))
| flagForIndex(0)
| flagForIndex(1)
| flagForIndex(2)
| flagForIndex(3)),
serializeForIndex(0),
serializeForIndex(1),
serializeForIndex(2),
serializeForIndex(3),
MTP_int(_intensity),
MTP_int(_rotation));
}
WallPaper WallPaper::withUrlParams(
const QMap<QString, QString> &params) const {
auto result = *this;
result._blurred = false;
result._backgroundColors = ColorsFromString(_slug);
result._intensity = kDefaultIntensity;
if (auto mode = params.value("mode"); !mode.isEmpty()) {
const auto list = mode.replace('+', ' ').split(' ');
for (const auto &change : list) {
if (change == qstr("blur")) {
result._blurred = true;
}
}
}
if (result._backgroundColors.empty()) {
result._backgroundColors = ColorsFromString(params.value("bg_color"));
}
if (result._backgroundColors.empty()) {
result._backgroundColors = ColorsFromString(params.value("gradient"));
}
if (result._backgroundColors.empty()) {
result._backgroundColors = ColorsFromString(params.value("color"));
}
if (result._backgroundColors.empty()) {
result._backgroundColors = ColorsFromString(params.value("slug"));
}
if (const auto string = params.value("intensity"); !string.isEmpty()) {
auto ok = false;
const auto intensity = string.toInt(&ok);
if (ok && base::in_range(intensity, -100, 101)) {
result._intensity = intensity;
}
}
result._rotation = params.value("rotation").toInt();
result._rotation = (std::clamp(result._rotation, 0, 315) / 45) * 45;
return result;
}
WallPaper WallPaper::withBlurred(bool blurred) const {
auto result = *this;
result._blurred = blurred;
return result;
}
WallPaper WallPaper::withPatternIntensity(int intensity) const {
auto result = *this;
result._intensity = intensity;
return result;
}
WallPaper WallPaper::withGradientRotation(int rotation) const {
auto result = *this;
result._rotation = rotation;
return result;
}
WallPaper WallPaper::withBackgroundColors(std::vector<QColor> colors) const {
auto result = *this;
result._backgroundColors = std::move(colors);
if (!ColorsFromString(_slug).empty()) {
result._slug = StringFromColors(result._backgroundColors);
}
return result;
}
WallPaper WallPaper::withParamsFrom(const WallPaper &other) const {
auto result = *this;
result._blurred = other._blurred;
if (!other._backgroundColors.empty()) {
result._backgroundColors = other._backgroundColors;
if (!ColorsFromString(_slug).empty()) {
result._slug = StringFromColors(result._backgroundColors);
}
}
result._intensity = other._intensity;
if (other.isPattern()) {
result._flags |= WallPaperFlag::Pattern;
}
return result;
}
WallPaper WallPaper::withoutImageData() const {
auto result = *this;
result._thumbnail = nullptr;
return result;
}
std::optional<WallPaper> WallPaper::Create(
not_null<Main::Session*> session,
const MTPWallPaper &data) {
return data.match([&](const MTPDwallPaper &data) {
return Create(session, data);
}, [](const MTPDwallPaperNoFile &data) {
return Create(data);
});
}
std::optional<WallPaper> WallPaper::Create(
not_null<Main::Session*> session,
const MTPDwallPaper &data) {
const auto document = session->data().processDocument(
data.vdocument());
if (!document->checkWallPaperProperties()) {
return std::nullopt;
}
auto result = WallPaper(data.vid().v);
result._accessHash = data.vaccess_hash().v;
result._ownerId = session->userId();
result._flags = (data.is_dark() ? WallPaperFlag::Dark : WallPaperFlag(0))
| (data.is_pattern() ? WallPaperFlag::Pattern : WallPaperFlag(0))
| (data.is_default() ? WallPaperFlag::Default : WallPaperFlag(0))
| (data.is_creator() ? WallPaperFlag::Creator : WallPaperFlag(0));
result._slug = qs(data.vslug());
result._document = document;
if (const auto settings = data.vsettings()) {
settings->match([&](const MTPDwallPaperSettings &data) {
result._blurred = data.is_blur();
if (result.isPattern()) {
result._backgroundColors = ColorsFromMTP(data);
if (const auto intensity = data.vintensity()) {
result._intensity = intensity->v;
}
if (const auto rotation = data.vrotation()) {
result._rotation = rotation->v;
}
}
});
}
return result;
}
std::optional<WallPaper> WallPaper::Create(const MTPDwallPaperNoFile &data) {
auto result = WallPaper(data.vid().v);
result._flags = (data.is_dark() ? WallPaperFlag::Dark : WallPaperFlag(0))
| (data.is_default() ? WallPaperFlag::Default : WallPaperFlag(0));
result._blurred = false;
result._backgroundColors.clear();
if (const auto settings = data.vsettings()) {
settings->match([&](const MTPDwallPaperSettings &data) {
result._blurred = data.is_blur();
result._backgroundColors = ColorsFromMTP(data);
if (const auto rotation = data.vrotation()) {
result._rotation = rotation->v;
}
});
}
return result;
}
QByteArray WallPaper::serialize() const {
auto size = sizeof(quint64) // _id
+ sizeof(quint64) // _accessHash
+ sizeof(qint32) // version tag
+ sizeof(qint32) // version
+ sizeof(qint32) // _flags
+ Serialize::stringSize(_slug)
+ sizeof(qint32) // _settings
+ sizeof(qint32) // _backgroundColors.size()
+ (_backgroundColors.size() * sizeof(quint32)) // _backgroundColors
+ sizeof(qint32) // _intensity
+ sizeof(qint32) // _rotation
+ sizeof(quint64); // ownerId
auto result = QByteArray();
result.reserve(size);
{
auto stream = QDataStream(&result, QIODevice::WriteOnly);
stream.setVersion(QDataStream::Qt_5_1);
stream
<< quint64(_id)
<< quint64(_accessHash)
<< qint32(kVersionTag)
<< qint32(kVersion)
<< qint32(_flags)
<< _slug
<< qint32(_blurred ? 1 : 0)
<< qint32(_backgroundColors.size());
for (const auto &color : _backgroundColors) {
stream << SerializeMaybeColor(color);
}
stream
<< qint32(_intensity)
<< qint32(_rotation)
<< quint64(_ownerId.bare);
}
return result;
}
std::optional<WallPaper> WallPaper::FromSerialized(
const QByteArray &serialized) {
if (serialized.isEmpty()) {
return std::nullopt;
}
auto id = quint64();
auto accessHash = quint64();
auto versionTag = qint32();
auto version = qint32(0);
auto stream = QDataStream(serialized);
stream.setVersion(QDataStream::Qt_5_1);
stream
>> id
>> accessHash
>> versionTag;
auto flags = qint32();
auto ownerId = UserId();
auto slug = QString();
auto blurred = qint32();
auto backgroundColors = std::vector<QColor>();
auto intensity = qint32();
auto rotation = qint32();
if (versionTag == kVersionTag) {
auto bareOwnerId = quint64();
auto backgroundColorsCount = qint32();
stream
>> version
>> flags
>> slug
>> blurred
>> backgroundColorsCount;
if (backgroundColorsCount < 0 || backgroundColorsCount > 4) {
return std::nullopt;
}
backgroundColors.reserve(backgroundColorsCount);
for (auto i = 0; i != backgroundColorsCount; ++i) {
auto serialized = quint32();
stream >> serialized;
const auto color = MaybeColorFromSerialized(serialized);
if (!color) {
return std::nullopt;
}
backgroundColors.push_back(*color);
}
stream
>> intensity
>> rotation
>> bareOwnerId;
ownerId = UserId(BareId(bareOwnerId));
} else {
auto settings = qint32();
auto backgroundColor = quint32();
stream
>> slug
>> settings
>> backgroundColor
>> intensity;
if (!stream.atEnd()) {
auto field1 = qint32();
auto field2 = qint32();
stream >> field1;
if (!stream.atEnd()) {
stream >> field2;
}
ownerId = UserId(
BareId(uint32(field1)) | (BareId(uint32(field2)) << 32));
}
flags = RawFromLegacyFlags(versionTag);
blurred = (settings & qint32(1U << 1)) ? 1 : 0;
if (const auto color = MaybeColorFromSerialized(backgroundColor)) {
backgroundColors.push_back(*color);
}
}
if (stream.status() != QDataStream::Ok) {
return std::nullopt;
} else if (intensity < -100 || intensity > 100) {
return std::nullopt;
}
auto result = WallPaper(id);
result._accessHash = accessHash;
result._ownerId = ownerId;
result._flags = WallPaperFlags::from_raw(flags);
result._slug = slug;
result._blurred = (blurred == 1);
result._backgroundColors = std::move(backgroundColors);
result._intensity = intensity;
result._rotation = rotation;
return result;
}
std::optional<WallPaper> WallPaper::FromLegacySerialized(
quint64 id,
quint64 accessHash,
quint32 flags,
QString slug) {
auto result = WallPaper(id);
result._accessHash = accessHash;
result._flags = WallPaperFlags::from_raw(RawFromLegacyFlags(flags));
result._slug = slug;
if (const auto color = ColorFromString(slug)) {
result._backgroundColors.push_back(*color);
}
return result;
}
std::optional<WallPaper> WallPaper::FromLegacyId(qint32 legacyId) {
auto result = WallPaper(FromLegacyBackgroundId(legacyId));
if (!IsCustomWallPaper(result)) {
result._flags = WallPaperFlag::Default;
}
return result;
}
std::optional<WallPaper> WallPaper::FromColorsSlug(const QString &slug) {
auto colors = ColorsFromString(slug);
if (colors.empty()) {
return std::nullopt;
}
auto result = CustomWallPaper();
result._slug = slug;
result._backgroundColors = std::move(colors);
return result;
}
WallPaper WallPaper::ConstructDefault() {
auto result = WallPaper(
kDefaultBackground
).withPatternIntensity(50).withBackgroundColors({
QColor(219, 221, 187),
QColor(107, 165, 135),
QColor(213, 216, 141),
QColor(136, 184, 132),
});
result._flags |= WallPaperFlag::Default | WallPaperFlag::Pattern;
return result;
}
WallPaper ThemeWallPaper() {
return WallPaper(kThemeBackground);
}
bool IsThemeWallPaper(const WallPaper &paper) {
return (paper.id() == kThemeBackground);
}
WallPaper CustomWallPaper() {
return WallPaper(kCustomBackground);
}
bool IsCustomWallPaper(const WallPaper &paper) {
return (paper.id() == kCustomBackground);
}
WallPaper Legacy1DefaultWallPaper() {
return WallPaper(kLegacy1DefaultBackground);
}
bool IsLegacy1DefaultWallPaper(const WallPaper &paper) {
return (paper.id() == kLegacy1DefaultBackground);
}
bool IsLegacy2DefaultWallPaper(const WallPaper &paper) {
return (paper.id() == kLegacy2DefaultBackground)
|| (paper.id() == kIncorrectDefaultBackground);
}
bool IsLegacy3DefaultWallPaper(const WallPaper &paper) {
return (paper.id() == kLegacy3DefaultBackground);
}
bool IsLegacy4DefaultWallPaper(const WallPaper &paper) {
return (paper.id() == kLegacy4DefaultBackground);
}
WallPaper DefaultWallPaper() {
return WallPaper::ConstructDefault();
}
bool IsDefaultWallPaper(const WallPaper &paper) {
return (paper.id() == kDefaultBackground);
}
bool IsCloudWallPaper(const WallPaper &paper) {
return (paper.id() != kIncorrectDefaultBackground)
&& !IsThemeWallPaper(paper)
&& !IsCustomWallPaper(paper)
&& !IsLegacy1DefaultWallPaper(paper)
&& !details::IsUninitializedWallPaper(paper)
&& !details::IsTestingThemeWallPaper(paper)
&& !details::IsTestingDefaultWallPaper(paper)
&& !details::IsTestingEditorWallPaper(paper);
}
QImage GenerateDitheredGradient(const Data::WallPaper &paper) {
return Ui::GenerateDitheredGradient(
paper.backgroundColors(),
paper.gradientRotation());
}
namespace details {
WallPaper UninitializedWallPaper() {
return WallPaper(kUninitializedBackground);
}
bool IsUninitializedWallPaper(const WallPaper &paper) {
return (paper.id() == kUninitializedBackground);
}
WallPaper TestingThemeWallPaper() {
return WallPaper(kTestingThemeBackground);
}
bool IsTestingThemeWallPaper(const WallPaper &paper) {
return (paper.id() == kTestingThemeBackground);
}
WallPaper TestingDefaultWallPaper() {
return WallPaper(
kTestingDefaultBackground
).withParamsFrom(DefaultWallPaper());
}
bool IsTestingDefaultWallPaper(const WallPaper &paper) {
return (paper.id() == kTestingDefaultBackground);
}
WallPaper TestingEditorWallPaper() {
return WallPaper(kTestingEditorBackground);
}
bool IsTestingEditorWallPaper(const WallPaper &paper) {
return (paper.id() == kTestingEditorBackground);
}
} // namespace details
} // namespace Data