/* 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) 2014-2016 John Preston, https://desktop.telegram.org */ #pragma once #include "mtproto/file_download.h" enum class ImageRoundRadius { None, Large, Small, }; QImage imageBlur(QImage img); void imageRound(QImage &img, ImageRoundRadius radius); inline uint32 packInt(int32 a) { return (a < 0) ? uint32(int64(a) + 0x100000000LL) : uint32(a); } inline int32 unpackInt(uint32 a) { return (a > 0x7FFFFFFFU) ? int32(int64(a) - 0x100000000LL) : int32(a); } inline uint64 packUIntUInt(uint32 a, uint32 b) { return (uint64(a) << 32) | uint64(b); } inline uint64 packUIntInt(uint32 a, int32 b) { return packUIntUInt(a, packInt(b)); } inline uint64 packIntUInt(int32 a, uint32 b) { return packUIntUInt(packInt(a), b); } inline uint64 packIntInt(int32 a, int32 b) { return packUIntUInt(packInt(a), packInt(b)); } inline uint32 unpackUIntFirst(uint64 v) { return uint32(v >> 32); } inline int32 unpackIntFirst(uint64 v) { return unpackInt(unpackUIntFirst(v)); } inline uint32 unpackUIntSecond(uint64 v) { return uint32(v & 0xFFFFFFFFULL); } inline int32 unpackIntSecond(uint64 v) { return unpackInt(unpackUIntSecond(v)); } class StorageImageLocation { public: StorageImageLocation() : _widthheight(0), _dclocal(0), _volume(0), _secret(0) { } StorageImageLocation(int32 width, int32 height, int32 dc, const uint64 &volume, int32 local, const uint64 &secret) : _widthheight(packIntInt(width, height)), _dclocal(packIntInt(dc, local)), _volume(volume), _secret(secret) { } StorageImageLocation(int32 width, int32 height, const MTPDfileLocation &location) : _widthheight(packIntInt(width, height)), _dclocal(packIntInt(location.vdc_id.v, location.vlocal_id.v)), _volume(location.vvolume_id.v), _secret(location.vsecret.v) { } bool isNull() const { return !_dclocal; } int32 width() const { return unpackIntFirst(_widthheight); } int32 height() const { return unpackIntSecond(_widthheight); } void setSize(int32 width, int32 height) { _widthheight = packIntInt(width, height); } int32 dc() const { return unpackIntFirst(_dclocal); } uint64 volume() const { return _volume; } int32 local() const { return unpackIntSecond(_dclocal); } uint64 secret() const { return _secret; } static StorageImageLocation Null; private: uint64 _widthheight; uint64 _dclocal; uint64 _volume; uint64 _secret; friend inline bool operator==(const StorageImageLocation &a, const StorageImageLocation &b) { return (a._dclocal == b._dclocal) && (a._volume == b._volume) && (a._secret == b._secret); } }; inline bool operator!=(const StorageImageLocation &a, const StorageImageLocation &b) { return !(a == b); } enum ImagePixOption { ImagePixSmooth = 0x01, ImagePixBlurred = 0x02, ImagePixCircled = 0x04, ImagePixRoundedLarge = 0x08, ImagePixRoundedSmall = 0x10, }; Q_DECLARE_FLAGS(ImagePixOptions, ImagePixOption); Q_DECLARE_OPERATORS_FOR_FLAGS(ImagePixOptions); QPixmap imagePix(QImage img, int w, int h, ImagePixOptions options, int outerw, int outerh); class DelayedStorageImage; class HistoryItem; class Image { public: Image(const QString &file, QByteArray format = QByteArray()); Image(const QByteArray &filecontent, QByteArray format = QByteArray()); Image(const QPixmap &pixmap, QByteArray format = QByteArray()); Image(const QByteArray &filecontent, QByteArray format, const QPixmap &pixmap); virtual void automaticLoad(const HistoryItem *item) { // auto load photo } virtual void automaticLoadSettingsChanged() { } virtual bool loaded() const { return true; } virtual bool loading() const { return false; } virtual bool displayLoading() const { return false; } virtual void cancel() { } virtual float64 progress() const { return 1; } virtual int32 loadOffset() const { return 0; } const QPixmap &pix(int32 w = 0, int32 h = 0) const; const QPixmap &pixRounded(ImageRoundRadius radius, int32 w = 0, int32 h = 0) const; const QPixmap &pixCircled(int32 w = 0, int32 h = 0) const; const QPixmap &pixBlurred(int32 w = 0, int32 h = 0) const; const QPixmap &pixColored(const style::color &add, int32 w = 0, int32 h = 0) const; const QPixmap &pixBlurredColored(const style::color &add, int32 w = 0, int32 h = 0) const; const QPixmap &pixSingle(ImageRoundRadius radius, int32 w, int32 h, int32 outerw, int32 outerh) const; const QPixmap &pixBlurredSingle(ImageRoundRadius radius, int32 w, int32 h, int32 outerw, int32 outerh) const; QPixmap pixNoCache(int w = 0, int h = 0, ImagePixOptions options = 0, int outerw = -1, int outerh = -1) const; QPixmap pixColoredNoCache(const style::color &add, int32 w = 0, int32 h = 0, bool smooth = false) const; QPixmap pixBlurredColoredNoCache(const style::color &add, int32 w, int32 h = 0) const; int32 width() const { return qMax(countWidth(), 1); } int32 height() const { return qMax(countHeight(), 1); } virtual void load(bool loadFirst = false, bool prior = true) { } virtual void loadEvenCancelled(bool loadFirst = false, bool prior = true) { } virtual const StorageImageLocation &location() const { return StorageImageLocation::Null; } bool isNull() const; void forget() const; QByteArray savedFormat() const { return _format; } QByteArray savedData() const { return _saved; } virtual DelayedStorageImage *toDelayedStorageImage() { return 0; } virtual const DelayedStorageImage *toDelayedStorageImage() const { return 0; } virtual ~Image(); protected: Image(QByteArray format = "PNG") : _format(format), _forgot(false) { } void restore() const; virtual void checkload() const { } void invalidateSizeCache() const; virtual int32 countWidth() const { restore(); return _data.width(); } virtual int32 countHeight() const { restore(); return _data.height(); } mutable QByteArray _saved, _format; mutable bool _forgot; mutable QPixmap _data; private: typedef QMap Sizes; mutable Sizes _sizesCache; }; typedef QPair StorageKey; inline uint64 storageMix32To64(int32 a, int32 b) { return (uint64(*reinterpret_cast(&a)) << 32) | uint64(*reinterpret_cast(&b)); } inline StorageKey storageKey(int32 dc, const uint64 &volume, int32 local) { return StorageKey(storageMix32To64(dc, local), volume); } inline StorageKey storageKey(const MTPDfileLocation &location) { return storageKey(location.vdc_id.v, location.vvolume_id.v, location.vlocal_id.v); } inline StorageKey storageKey(const StorageImageLocation &location) { return storageKey(location.dc(), location.volume(), location.local()); } class RemoteImage : public Image { public: RemoteImage() : _loader(0) { } void automaticLoad(const HistoryItem *item); // auto load photo void automaticLoadSettingsChanged(); bool loaded() const; bool loading() const { return amLoading(); } bool displayLoading() const; void cancel(); float64 progress() const; int32 loadOffset() const; void setData(QByteArray &bytes, const QByteArray &format = QByteArray()); void load(bool loadFirst = false, bool prior = true); void loadEvenCancelled(bool loadFirst = false, bool prior = true); ~RemoteImage(); protected: // If after loading the image we need to shrink it to fit into a // specific size, you can return this size here. virtual QSize shrinkBox() const { return QSize(); } virtual void setInformation(int32 size, int32 width, int32 height) = 0; virtual FileLoader *createLoader(LoadFromCloudSetting fromCloud, bool autoLoading) = 0; void checkload() const { doCheckload(); } void loadLocal(); private: mutable FileLoader *_loader; bool amLoading() const { return _loader && _loader != CancelledFileLoader; } void doCheckload() const; }; class StorageImage : public RemoteImage { public: StorageImage(const StorageImageLocation &location, int32 size = 0); StorageImage(const StorageImageLocation &location, QByteArray &bytes); const StorageImageLocation &location() const override { return _location; } protected: void setInformation(int32 size, int32 width, int32 height) override; FileLoader *createLoader(LoadFromCloudSetting fromCloud, bool autoLoading) override; StorageImageLocation _location; int32 _size; int32 countWidth() const override; int32 countHeight() const override; }; class DelayedStorageImage : public StorageImage { public: DelayedStorageImage(); DelayedStorageImage(int32 w, int32 h); DelayedStorageImage(QByteArray &bytes); void setStorageLocation(const StorageImageLocation location); virtual DelayedStorageImage *toDelayedStorageImage() { return this; } virtual const DelayedStorageImage *toDelayedStorageImage() const { return this; } void automaticLoad(const HistoryItem *item); // auto load photo void automaticLoadSettingsChanged(); bool loading() const { return _location.isNull() ? _loadRequested : StorageImage::loading(); } bool displayLoading() const; void cancel(); void load(bool loadFirst = false, bool prior = true); void loadEvenCancelled(bool loadFirst = false, bool prior = true); private: bool _loadRequested, _loadCancelled, _loadFromCloud; }; class WebImage : public RemoteImage { public: // If !box.isEmpty() then resize the image to fit in this box. WebImage(const QString &url, QSize box = QSize()); WebImage(const QString &url, int width, int height); void setSize(int width, int height); protected: QSize shrinkBox() const override { return _box; } void setInformation(int32 size, int32 width, int32 height) override; FileLoader *createLoader(LoadFromCloudSetting fromCloud, bool autoLoading) override; int32 countWidth() const override; int32 countHeight() const override; private: QString _url; QSize _box; int32 _size, _width, _height; }; namespace internal { Image *getImage(const QString &file, QByteArray format); Image *getImage(const QString &url, QSize box); Image *getImage(const QString &url, int width, int height); Image *getImage(const QByteArray &filecontent, QByteArray format); Image *getImage(const QPixmap &pixmap, QByteArray format); Image *getImage(const QByteArray &filecontent, QByteArray format, const QPixmap &pixmap); Image *getImage(int32 width, int32 height); StorageImage *getImage(const StorageImageLocation &location, int32 size = 0); StorageImage *getImage(const StorageImageLocation &location, const QByteArray &bytes); } // namespace internal class ImagePtr : public ManagedPtr { public: ImagePtr(); ImagePtr(const QString &file, QByteArray format = QByteArray()) : Parent(internal::getImage(file, format)) { } ImagePtr(const QString &url, QSize box) : Parent(internal::getImage(url, box)) { } ImagePtr(const QString &url, int width, int height) : Parent(internal::getImage(url, width, height)) { } ImagePtr(const QByteArray &filecontent, QByteArray format = QByteArray()) : Parent(internal::getImage(filecontent, format)) { } ImagePtr(const QByteArray &filecontent, QByteArray format, const QPixmap &pixmap) : Parent(internal::getImage(filecontent, format, pixmap)) { } ImagePtr(const QPixmap &pixmap, QByteArray format) : Parent(internal::getImage(pixmap, format)) { } ImagePtr(const StorageImageLocation &location, int32 size = 0) : Parent(internal::getImage(location, size)) { } ImagePtr(const StorageImageLocation &location, const QByteArray &bytes) : Parent(internal::getImage(location, bytes)) { } ImagePtr(int32 width, int32 height, const MTPFileLocation &location, ImagePtr def = ImagePtr()); ImagePtr(int32 width, int32 height) : Parent(internal::getImage(width, height)) { } }; inline QSize shrinkToKeepAspect(int32 width, int32 height, int32 towidth, int32 toheight) { int32 w = qMax(width, 1), h = qMax(height, 1); if (w * toheight > h * towidth) { h = qRound(h * towidth / float64(w)); w = towidth; } else { w = qRound(w * toheight / float64(h)); h = toheight; } return QSize(qMax(w, 1), qMax(h, 1)); } void clearStorageImages(); void clearAllImages(); int64 imageCacheSize(); class PsFileBookmark; class ReadAccessEnabler { public: ReadAccessEnabler(const PsFileBookmark *bookmark); ReadAccessEnabler(const QSharedPointer &bookmark); bool failed() const { return _failed; } ~ReadAccessEnabler(); private: const PsFileBookmark *_bookmark; bool _failed; }; class FileLocation { public: FileLocation(StorageFileType type, const QString &name); FileLocation() : size(0) { } bool check() const; const QString &name() const; void setBookmark(const QByteArray &bookmark); QByteArray bookmark() const; bool isEmpty() const { return name().isEmpty(); } bool accessEnable() const; void accessDisable() const; StorageFileType type; QString fname; QDateTime modified; qint32 size; private: QSharedPointer _bookmark; }; inline bool operator==(const FileLocation &a, const FileLocation &b) { return a.type == b.type && a.name() == b.name() && a.modified == b.modified && a.size == b.size; } inline bool operator!=(const FileLocation &a, const FileLocation &b) { return !(a == b); } typedef QPair MediaKey; inline uint64 mediaMix32To64(int32 a, int32 b) { return (uint64(*reinterpret_cast(&a)) << 32) | uint64(*reinterpret_cast(&b)); } inline MediaKey mediaKey(LocationType type, int32 dc, const uint64 &id) { return MediaKey(mediaMix32To64(type, dc), id); } inline StorageKey mediaKey(const MTPDfileLocation &location) { return storageKey(location.vdc_id.v, location.vvolume_id.v, location.vlocal_id.v); }