/*
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 "ui/image/image.h"
#include "ui/image/image_source.h"
#include "core/media_active_cache.h"
#include "storage/cache/storage_cache_database.h"
#include "data/data_session.h"
#include "auth_session.h"
using namespace Images;
namespace Images {
namespace {
// After 128 MB of unpacked images we try to clear some memory.
constexpr auto kMemoryForCache = 128 * 1024 * 1024;
QMap<QString, Image*> LocalFileImages;
QMap<QString, Image*> WebUrlImages;
QMap<StorageKey, Image*> StorageImages;
QMap<StorageKey, Image*> WebCachedImages;
QMap<StorageKey, Image*> GeoPointImages;
int64 ComputeUsage(QSize size) {
return int64(size.width()) * size.height() * 4;
}
int64 ComputeUsage(const QPixmap &image) {
return ComputeUsage(image.size());
}
int64 ComputeUsage(const QImage &image) {
return ComputeUsage(image.size());
}
Core::MediaActiveCache<const Image> &ActiveCache() {
static auto Instance = Core::MediaActiveCache<const Image>(
kMemoryForCache,
[](const Image *image) { image->unload(); });
return Instance;
}
uint64 PixKey(int width, int height, Options options) {
return static_cast<uint64>(width)
| (static_cast<uint64>(height) << 24)
| (static_cast<uint64>(options) << 48);
}
uint64 SinglePixKey(Options options) {
return PixKey(0, 0, options);
}
} // namespace
void ClearRemote() {
for (auto image : base::take(StorageImages)) {
delete image;
}
for (auto image : base::take(WebUrlImages)) {
delete image;
}
for (auto image : base::take(WebCachedImages)) {
delete image;
}
for (auto image : base::take(GeoPointImages)) {
delete image;
}
}
void ClearAll() {
ActiveCache().clear();
for (auto image : base::take(LocalFileImages)) {
delete image;
}
ClearRemote();
}
ImagePtr Create(const QString &file, QByteArray format) {
if (file.startsWith(qstr("http://"), Qt::CaseInsensitive)
|| file.startsWith(qstr("https://"), Qt::CaseInsensitive)) {
const auto key = file;
auto i = WebUrlImages.constFind(key);
if (i == WebUrlImages.cend()) {
i = WebUrlImages.insert(
key,
new Image(std::make_unique<WebUrlSource>(file)));
}
return ImagePtr(i.value());
} else {
QFileInfo f(file);
const auto key = qsl("//:%1//:%2//:"
).arg(f.size()
).arg(f.lastModified().toTime_t()
) + file;
auto i = LocalFileImages.constFind(key);
if (i == LocalFileImages.cend()) {
i = LocalFileImages.insert(
key,
new Image(std::make_unique<LocalFileSource>(
file,
QByteArray(),
format)));
}
return ImagePtr(i.value());
}
}
ImagePtr Create(const QString &url, QSize box) {
const auto key = qsl("//:%1//:%2//:").arg(box.width()).arg(box.height()) + url;
auto i = WebUrlImages.constFind(key);
if (i == WebUrlImages.cend()) {
i = WebUrlImages.insert(
key,
new Image(std::make_unique<WebUrlSource>(url, box)));
}
return ImagePtr(i.value());
}
ImagePtr Create(const QString &url, int width, int height) {
const auto key = url;
auto i = WebUrlImages.constFind(key);
if (i == WebUrlImages.cend()) {
i = WebUrlImages.insert(
key,
new Image(std::make_unique<WebUrlSource>(url, width, height)));
} else {
i.value()->setInformation(0, width, height);
}
return ImagePtr(i.value());
}
ImagePtr Create(const QByteArray &filecontent, QByteArray format) {
auto image = App::readImage(filecontent, &format, false);
return Create(filecontent, format, std::move(image));
}
ImagePtr Create(QImage &&image, QByteArray format) {
return ImagePtr(new Image(std::make_unique<ImageSource>(
std::move(image),
format)));
}
ImagePtr Create(
const QByteArray &filecontent,
QByteArray format,
QImage &&image) {
return ImagePtr(new Image(std::make_unique<LocalFileSource>(
QString(),
filecontent,
format,
std::move(image))));
}
ImagePtr Create(int width, int height) {
return ImagePtr(new Image(std::make_unique<DelayedStorageSource>(
width,
height)));
}
ImagePtr Create(const StorageImageLocation &location, int size) {
const auto key = storageKey(location);
auto i = StorageImages.constFind(key);
if (i == StorageImages.cend()) {
i = StorageImages.insert(
key,
new Image(std::make_unique<StorageSource>(location, size)));
} else {
i.value()->refreshFileReference(location.fileReference());
}
return ImagePtr(i.value());
}
ImagePtr Create(
const StorageImageLocation &location,
const QByteArray &bytes) {
const auto key = storageKey(location);
auto i = StorageImages.constFind(key);
if (i == StorageImages.cend()) {
i = StorageImages.insert(
key,
new Image(std::make_unique<StorageSource>(
location,
bytes.size())));
} else {
i.value()->refreshFileReference(location.fileReference());
}
i.value()->setImageBytes(bytes);
return ImagePtr(i.value());
}
QSize getImageSize(const QVector<MTPDocumentAttribute> &attributes) {
for (const auto &attribute : attributes) {
if (attribute.type() == mtpc_documentAttributeImageSize) {
auto &size = attribute.c_documentAttributeImageSize();
return QSize(size.vw.v, size.vh.v);
}
}
return QSize();
}
ImagePtr Create(const MTPDwebDocument &document) {
const auto size = getImageSize(document.vattributes.v);
if (size.isEmpty()) {
return Image::Blank();
}
// We don't use size from WebDocument, because it is not reliable.
// It can be > 0 and different from the real size that we get in upload.WebFile result.
auto filesize = 0; // document.vsize.v;
return Create(
WebFileLocation(
Global::WebFileDcId(),
document.vurl.v,
document.vaccess_hash.v),
size.width(),
size.height(),
filesize);
}
ImagePtr Create(const MTPDwebDocumentNoProxy &document) {
const auto size = getImageSize(document.vattributes.v);
if (size.isEmpty()) {
return Image::Blank();
}
return Create(qs(document.vurl), size.width(), size.height());
}
ImagePtr Create(const MTPDwebDocument &document, QSize box) {
//const auto size = getImageSize(document.vattributes.v);
//if (size.isEmpty()) {
// return Image::Blank();
//}
// We don't use size from WebDocument, because it is not reliable.
// It can be > 0 and different from the real size that we get in upload.WebFile result.
auto filesize = 0; // document.vsize.v;
return Create(
WebFileLocation(
Global::WebFileDcId(),
document.vurl.v,
document.vaccess_hash.v),
box,
filesize);
}
ImagePtr Create(const MTPDwebDocumentNoProxy &document, QSize box) {
//const auto size = getImageSize(document.vattributes.v);
//if (size.isEmpty()) {
// return Image::Blank();
//}
return Create(qs(document.vurl), box);
}
ImagePtr Create(const MTPWebDocument &document) {
switch (document.type()) {
case mtpc_webDocument:
return Create(document.c_webDocument());
case mtpc_webDocumentNoProxy:
return Create(document.c_webDocumentNoProxy());
}
Unexpected("Type in getImage(MTPWebDocument).");
}
ImagePtr Create(const MTPWebDocument &document, QSize box) {
switch (document.type()) {
case mtpc_webDocument:
return Create(document.c_webDocument(), box);
case mtpc_webDocumentNoProxy:
return Create(document.c_webDocumentNoProxy(), box);
}
Unexpected("Type in getImage(MTPWebDocument).");
}
ImagePtr Create(
const WebFileLocation &location,
QSize box,
int size) {
const auto key = storageKey(location);
auto i = WebCachedImages.constFind(key);
if (i == WebCachedImages.cend()) {
i = WebCachedImages.insert(
key,
new Image(std::make_unique<WebCachedSource>(
location,
box,
size)));
}
return ImagePtr(i.value());
}
ImagePtr Create(
const WebFileLocation &location,
int width,
int height,
int size) {
const auto key = storageKey(location);
auto i = WebCachedImages.constFind(key);
if (i == WebCachedImages.cend()) {
i = WebCachedImages.insert(
key,
new Image(std::make_unique<WebCachedSource>(
location,
width,
height,
size)));
}
return ImagePtr(i.value());
}
ImagePtr Create(const GeoPointLocation &location) {
const auto key = storageKey(location);
auto i = GeoPointImages.constFind(key);
if (i == GeoPointImages.cend()) {
i = GeoPointImages.insert(
key,
new Image(std::make_unique<GeoPointSource>(location)));
}
return ImagePtr(i.value());
}
} // namespace Images
Image::Image(std::unique_ptr<Source> &&source)
: _source(std::move(source)) {
}
void Image::replaceSource(std::unique_ptr<Source> &&source) {
_source = std::move(source);
}
ImagePtr Image::Blank() {
static const auto blankImage = [] {
const auto factor = cIntRetinaFactor();
auto data = QImage(
factor,
factor,
QImage::Format_ARGB32_Premultiplied);
data.fill(Qt::transparent);
data.setDevicePixelRatio(cRetinaFactor());
return Create(
std::move(data),
"GIF");
}();
return blankImage;
}
bool Image::isNull() const {
return (this == Blank().get());
}
const QPixmap &Image::pix(
Data::FileOrigin origin,
int32 w,
int32 h) const {
checkSource();
if (w <= 0 || !width() || !height()) {
w = width();
} else {
w *= cIntRetinaFactor();
h *= cIntRetinaFactor();
}
auto options = Option::Smooth | Option::None;
auto k = PixKey(w, h, options);
auto i = _sizesCache.constFind(k);
if (i == _sizesCache.cend()) {
auto p = pixNoCache(origin, w, h, options);
p.setDevicePixelRatio(cRetinaFactor());
i = _sizesCache.insert(k, p);
ActiveCache().increment(ComputeUsage(*i));
}
return i.value();
}
const QPixmap &Image::pixRounded(
Data::FileOrigin origin,
int32 w,
int32 h,
ImageRoundRadius radius,
RectParts corners) const {
checkSource();
if (w <= 0 || !width() || !height()) {
w = width();
} else {
w *= cIntRetinaFactor();
h *= cIntRetinaFactor();
}
auto options = Option::Smooth | Option::None;
auto cornerOptions = [](RectParts corners) {
return (corners & RectPart::TopLeft ? Option::RoundedTopLeft : Option::None)
| (corners & RectPart::TopRight ? Option::RoundedTopRight : Option::None)
| (corners & RectPart::BottomLeft ? Option::RoundedBottomLeft : Option::None)
| (corners & RectPart::BottomRight ? Option::RoundedBottomRight : Option::None);
};
if (radius == ImageRoundRadius::Large) {
options |= Option::RoundedLarge | cornerOptions(corners);
} else if (radius == ImageRoundRadius::Small) {
options |= Option::RoundedSmall | cornerOptions(corners);
} else if (radius == ImageRoundRadius::Ellipse) {
options |= Option::Circled | cornerOptions(corners);
}
auto k = PixKey(w, h, options);
auto i = _sizesCache.constFind(k);
if (i == _sizesCache.cend()) {
auto p = pixNoCache(origin, w, h, options);
p.setDevicePixelRatio(cRetinaFactor());
i = _sizesCache.insert(k, p);
ActiveCache().increment(ComputeUsage(*i));
}
return i.value();
}
const QPixmap &Image::pixCircled(
Data::FileOrigin origin,
int32 w,
int32 h) const {
checkSource();
if (w <= 0 || !width() || !height()) {
w = width();
} else {
w *= cIntRetinaFactor();
h *= cIntRetinaFactor();
}
auto options = Option::Smooth | Option::Circled;
auto k = PixKey(w, h, options);
auto i = _sizesCache.constFind(k);
if (i == _sizesCache.cend()) {
auto p = pixNoCache(origin, w, h, options);
p.setDevicePixelRatio(cRetinaFactor());
i = _sizesCache.insert(k, p);
ActiveCache().increment(ComputeUsage(*i));
}
return i.value();
}
const QPixmap &Image::pixBlurredCircled(
Data::FileOrigin origin,
int32 w,
int32 h) const {
checkSource();
if (w <= 0 || !width() || !height()) {
w = width();
} else {
w *= cIntRetinaFactor();
h *= cIntRetinaFactor();
}
auto options = Option::Smooth | Option::Circled | Option::Blurred;
auto k = PixKey(w, h, options);
auto i = _sizesCache.constFind(k);
if (i == _sizesCache.cend()) {
auto p = pixNoCache(origin, w, h, options);
p.setDevicePixelRatio(cRetinaFactor());
i = _sizesCache.insert(k, p);
ActiveCache().increment(ComputeUsage(*i));
}
return i.value();
}
const QPixmap &Image::pixBlurred(
Data::FileOrigin origin,
int32 w,
int32 h) const {
checkSource();
if (w <= 0 || !width() || !height()) {
w = width() * cIntRetinaFactor();
} else {
w *= cIntRetinaFactor();
h *= cIntRetinaFactor();
}
auto options = Option::Smooth | Option::Blurred;
auto k = PixKey(w, h, options);
auto i = _sizesCache.constFind(k);
if (i == _sizesCache.cend()) {
auto p = pixNoCache(origin, w, h, options);
p.setDevicePixelRatio(cRetinaFactor());
i = _sizesCache.insert(k, p);
ActiveCache().increment(ComputeUsage(*i));
}
return i.value();
}
const QPixmap &Image::pixColored(
Data::FileOrigin origin,
style::color add,
int32 w,
int32 h) const {
checkSource();
if (w <= 0 || !width() || !height()) {
w = width() * cIntRetinaFactor();
} else {
w *= cIntRetinaFactor();
h *= cIntRetinaFactor();
}
auto options = Option::Smooth | Option::Colored;
auto k = PixKey(w, h, options);
auto i = _sizesCache.constFind(k);
if (i == _sizesCache.cend()) {
auto p = pixColoredNoCache(origin, add, w, h, true);
p.setDevicePixelRatio(cRetinaFactor());
i = _sizesCache.insert(k, p);
ActiveCache().increment(ComputeUsage(*i));
}
return i.value();
}
const QPixmap &Image::pixBlurredColored(
Data::FileOrigin origin,
style::color add,
int32 w,
int32 h) const {
checkSource();
if (w <= 0 || !width() || !height()) {
w = width() * cIntRetinaFactor();
} else {
w *= cIntRetinaFactor();
h *= cIntRetinaFactor();
}
auto options = Option::Blurred | Option::Smooth | Option::Colored;
auto k = PixKey(w, h, options);
auto i = _sizesCache.constFind(k);
if (i == _sizesCache.cend()) {
auto p = pixBlurredColoredNoCache(origin, add, w, h);
p.setDevicePixelRatio(cRetinaFactor());
i = _sizesCache.insert(k, p);
ActiveCache().increment(ComputeUsage(*i));
}
return i.value();
}
const QPixmap &Image::pixSingle(
Data::FileOrigin origin,
int32 w,
int32 h,
int32 outerw,
int32 outerh,
ImageRoundRadius radius,
RectParts corners,
const style::color *colored) const {
checkSource();
if (w <= 0 || !width() || !height()) {
w = width() * cIntRetinaFactor();
} else {
w *= cIntRetinaFactor();
h *= cIntRetinaFactor();
}
auto options = Option::Smooth | Option::None;
auto cornerOptions = [](RectParts corners) {
return (corners & RectPart::TopLeft ? Option::RoundedTopLeft : Option::None)
| (corners & RectPart::TopRight ? Option::RoundedTopRight : Option::None)
| (corners & RectPart::BottomLeft ? Option::RoundedBottomLeft : Option::None)
| (corners & RectPart::BottomRight ? Option::RoundedBottomRight : Option::None);
};
if (radius == ImageRoundRadius::Large) {
options |= Option::RoundedLarge | cornerOptions(corners);
} else if (radius == ImageRoundRadius::Small) {
options |= Option::RoundedSmall | cornerOptions(corners);
} else if (radius == ImageRoundRadius::Ellipse) {
options |= Option::Circled | cornerOptions(corners);
}
if (colored) {
options |= Option::Colored;
}
auto k = SinglePixKey(options);
auto i = _sizesCache.constFind(k);
if (i == _sizesCache.cend() || i->width() != (outerw * cIntRetinaFactor()) || i->height() != (outerh * cIntRetinaFactor())) {
if (i != _sizesCache.cend()) {
ActiveCache().decrement(ComputeUsage(*i));
}
auto p = pixNoCache(origin, w, h, options, outerw, outerh, colored);
p.setDevicePixelRatio(cRetinaFactor());
i = _sizesCache.insert(k, p);
ActiveCache().increment(ComputeUsage(*i));
}
return i.value();
}
const QPixmap &Image::pixBlurredSingle(
Data::FileOrigin origin,
int32 w,
int32 h,
int32 outerw,
int32 outerh,
ImageRoundRadius radius,
RectParts corners) const {
checkSource();
if (w <= 0 || !width() || !height()) {
w = width() * cIntRetinaFactor();
} else {
w *= cIntRetinaFactor();
h *= cIntRetinaFactor();
}
auto options = Option::Smooth | Option::Blurred;
auto cornerOptions = [](RectParts corners) {
return (corners & RectPart::TopLeft ? Option::RoundedTopLeft : Option::None)
| (corners & RectPart::TopRight ? Option::RoundedTopRight : Option::None)
| (corners & RectPart::BottomLeft ? Option::RoundedBottomLeft : Option::None)
| (corners & RectPart::BottomRight ? Option::RoundedBottomRight : Option::None);
};
if (radius == ImageRoundRadius::Large) {
options |= Option::RoundedLarge | cornerOptions(corners);
} else if (radius == ImageRoundRadius::Small) {
options |= Option::RoundedSmall | cornerOptions(corners);
} else if (radius == ImageRoundRadius::Ellipse) {
options |= Option::Circled | cornerOptions(corners);
}
auto k = SinglePixKey(options);
auto i = _sizesCache.constFind(k);
if (i == _sizesCache.cend() || i->width() != (outerw * cIntRetinaFactor()) || i->height() != (outerh * cIntRetinaFactor())) {
if (i != _sizesCache.cend()) {
ActiveCache().decrement(ComputeUsage(*i));
}
auto p = pixNoCache(origin, w, h, options, outerw, outerh);
p.setDevicePixelRatio(cRetinaFactor());
i = _sizesCache.insert(k, p);
ActiveCache().increment(ComputeUsage(*i));
}
return i.value();
}
QPixmap Image::pixNoCache(
Data::FileOrigin origin,
int w,
int h,
Options options,
int outerw,
int outerh,
const style::color *colored) const {
if (!loading()) {
const_cast<Image*>(this)->load(origin);
}
checkSource();
if (_data.isNull()) {
if (h <= 0 && height() > 0) {
h = qRound(width() * w / float64(height()));
}
return Blank()->pixNoCache(origin, w, h, options, outerw, outerh);
}
if (isNull() && outerw > 0 && outerh > 0) {
outerw *= cIntRetinaFactor();
outerh *= cIntRetinaFactor();
QImage result(outerw, outerh, QImage::Format_ARGB32_Premultiplied);
result.setDevicePixelRatio(cRetinaFactor());
{
QPainter p(&result);
if (w < outerw) {
p.fillRect(0, 0, (outerw - w) / 2, result.height(), st::imageBg);
p.fillRect(((outerw - w) / 2) + w, 0, result.width() - (((outerw - w) / 2) + w), result.height(), st::imageBg);
}
if (h < outerh) {
p.fillRect(qMax(0, (outerw - w) / 2), 0, qMin(result.width(), w), (outerh - h) / 2, st::imageBg);
p.fillRect(qMax(0, (outerw - w) / 2), ((outerh - h) / 2) + h, qMin(result.width(), w), result.height() - (((outerh - h) / 2) + h), st::imageBg);
}
p.fillRect(qMax(0, (outerw - w) / 2), qMax(0, (outerh - h) / 2), qMin(result.width(), w), qMin(result.height(), h), st::imageBgTransparent);
}
auto corners = [](Options options) {
return ((options & Option::RoundedTopLeft) ? RectPart::TopLeft : RectPart::None)
| ((options & Option::RoundedTopRight) ? RectPart::TopRight : RectPart::None)
| ((options & Option::RoundedBottomLeft) ? RectPart::BottomLeft : RectPart::None)
| ((options & Option::RoundedBottomRight) ? RectPart::BottomRight : RectPart::None);
};
if (options & Option::Circled) {
prepareCircle(result);
} else if (options & Option::RoundedLarge) {
prepareRound(result, ImageRoundRadius::Large, corners(options));
} else if (options & Option::RoundedSmall) {
prepareRound(result, ImageRoundRadius::Small, corners(options));
}
if (options & Option::Colored) {
Assert(colored != nullptr);
result = prepareColored(*colored, std::move(result));
}
return App::pixmapFromImageInPlace(std::move(result));
}
return App::pixmapFromImageInPlace(prepare(_data, w, h, options, outerw, outerh, colored));
}
QPixmap Image::pixColoredNoCache(
Data::FileOrigin origin,
style::color add,
int32 w,
int32 h,
bool smooth) const {
if (!loading()) {
const_cast<Image*>(this)->load(origin);
}
checkSource();
if (_data.isNull()) {
return Blank()->pix(origin);
}
auto img = _data;
if (w <= 0 || !width() || !height() || (w == width() && (h <= 0 || h == height()))) {
return App::pixmapFromImageInPlace(prepareColored(add, std::move(img)));
}
if (h <= 0) {
return App::pixmapFromImageInPlace(prepareColored(add, img.scaledToWidth(w, smooth ? Qt::SmoothTransformation : Qt::FastTransformation)));
}
return App::pixmapFromImageInPlace(prepareColored(add, img.scaled(w, h, Qt::IgnoreAspectRatio, smooth ? Qt::SmoothTransformation : Qt::FastTransformation)));
}
QPixmap Image::pixBlurredColoredNoCache(
Data::FileOrigin origin,
style::color add,
int32 w,
int32 h) const {
if (!loading()) {
const_cast<Image*>(this)->load(origin);
}
checkSource();
if (_data.isNull()) {
return Blank()->pix(origin);
}
auto img = prepareBlur(_data);
if (h <= 0) {
img = img.scaledToWidth(w, Qt::SmoothTransformation);
} else {
img = img.scaled(w, h, Qt::IgnoreAspectRatio, Qt::SmoothTransformation);
}
return App::pixmapFromImageInPlace(prepareColored(add, img));
}
std::optional<Storage::Cache::Key> Image::cacheKey() const {
return _source->cacheKey();
}
bool Image::loaded() const {
checkSource();
return !_data.isNull();
}
void Image::checkSource() const {
auto data = _source->takeLoaded();
if (_data.isNull() && !data.isNull()) {
invalidateSizeCache();
_data = std::move(data);
ActiveCache().increment(ComputeUsage(_data));
}
ActiveCache().up(this);
}
void Image::unload() const {
_source->unload();
invalidateSizeCache();
ActiveCache().decrement(ComputeUsage(_data));
_data = QImage();
}
void Image::setDelayedStorageLocation(
Data::FileOrigin origin,
const StorageImageLocation &location) {
_source->setDelayedStorageLocation(location);
if (!loaded()) {
_source->performDelayedLoad(origin);
}
}
void Image::setImageBytes(const QByteArray &bytes) {
_source->setImageBytes(bytes);
checkSource();
}
void Image::invalidateSizeCache() const {
auto &cache = ActiveCache();
for (const auto &image : std::as_const(_sizesCache)) {
cache.decrement(ComputeUsage(image));
}
_sizesCache.clear();
}
Image::~Image() {
unload();
ActiveCache().remove(this);
}