/* 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 "codegen/emoji/generator.h" #include #include #include #include #include #include #include #ifdef SUPPORT_IMAGE_GENERATION Q_IMPORT_PLUGIN(QWebpPlugin) #ifdef Q_OS_MAC Q_IMPORT_PLUGIN(QCocoaIntegrationPlugin) #elif defined Q_OS_WIN Q_IMPORT_PLUGIN(QWindowsIntegrationPlugin) #else // !Q_OS_MAC && !Q_OS_WIN Q_IMPORT_PLUGIN(QXcbIntegrationPlugin) #endif // !Q_OS_MAC && !Q_OS_WIN #endif // SUPPORT_IMAGE_GENERATION namespace codegen { namespace emoji { namespace { constexpr auto kErrorCantWritePath = 851; constexpr auto kOriginalBits = 12; constexpr auto kIdSizeBits = 6; constexpr auto kColumnBits = 6; constexpr auto kRowBits = 6; common::ProjectInfo Project = { "codegen_emoji", "empty", false, // forceReGenerate }; QRect computeSourceRect(const QImage &image) { auto size = image.width(); auto result = QRect(2, 2, size - 4, size - 4); auto top = 1, bottom = 1, left = 1, right = 1; auto rgbBits = reinterpret_cast(image.constBits()); for (auto i = 0; i != size; ++i) { if (rgbBits[i] > 0 || rgbBits[(size - 1) * size + i] > 0 || rgbBits[i * size] > 0 || rgbBits[i * size + (size - 1)] > 0) { logDataError() << "Bad border."; return QRect(); } if (rgbBits[1 * size + i] > 0) { top = -1; } else if (top > 0 && rgbBits[2 * size + i] > 0) { top = 0; } if (rgbBits[(size - 2) * size + i] > 0) { bottom = -1; } else if (bottom > 0 && rgbBits[(size - 3) * size + i] > 0) { bottom = 0; } if (rgbBits[i * size + 1] > 0) { left = -1; } else if (left > 0 && rgbBits[i * size + 2] > 0) { left = 0; } if (rgbBits[i * size + (size - 2)] > 0) { right = -1; } else if (right > 0 && rgbBits[i * size + (size - 3)] > 0) { right = 0; } } if (top < 0) { if (bottom <= 0) { logDataError() << "Bad vertical :("; return QRect(); } else { result.setY(result.y() + 1); } } else if (bottom < 0) { if (top <= 0) { logDataError() << "Bad vertical :("; return QRect(); } else { result.setY(result.y() - 1); } } if (left < 0) { if (right <= 0) { logDataError() << "Bad horizontal :("; return QRect(); } else { result.setX(result.x() + 1); } } else if (right < 0) { if (left <= 0) { logDataError() << "Bad horizontal :("; return QRect(); } else { result.setX(result.x() - 1); } } return result; } uint32 Crc32Table[256]; class Crc32Initializer { public: Crc32Initializer() { uint32 poly = 0x04C11DB7U; for (auto i = 0; i != 256; ++i) { Crc32Table[i] = reflect(i, 8) << 24; for (auto j = 0; j != 8; ++j) { Crc32Table[i] = (Crc32Table[i] << 1) ^ (Crc32Table[i] & (1 << 31) ? poly : 0); } Crc32Table[i] = reflect(Crc32Table[i], 32); } } private: uint32 reflect(uint32 val, char ch) { uint32 result = 0; for (int i = 1; i < (ch + 1); ++i) { if (val & 1) { result |= 1 << (ch - i); } val >>= 1; } return result; } }; uint32 countCrc32(const void *data, std::size_t size) { static Crc32Initializer InitTable; auto buffer = static_cast(data); auto result = uint32(0xFFFFFFFFU); for (auto i = std::size_t(0); i != size; ++i) { result = (result >> 8) ^ Crc32Table[(result & 0xFFU) ^ buffer[i]]; } return (result ^ 0xFFFFFFFFU); } } // namespace Generator::Generator(const Options &options) : project_(Project) #ifdef SUPPORT_IMAGE_GENERATION , writeImages_(options.writeImages) #endif // SUPPORT_IMAGE_GENERATION , data_(PrepareData()) , replaces_(PrepareReplaces(options.replacesPath)) { QDir dir(options.outputPath); if (!dir.mkpath(".")) { common::logError(kErrorCantWritePath, "Command Line") << "can not open path for writing: " << dir.absolutePath().toStdString(); data_ = Data(); } if (!CheckAndConvertReplaces(replaces_, data_)) { replaces_ = Replaces(replaces_.filename); } outputPath_ = dir.absolutePath() + "/emoji"; spritePath_ = dir.absolutePath() + "/emoji"; suggestionsPath_ = dir.absolutePath() + "/emoji_suggestions_data"; } int Generator::generate() { if (data_.list.empty() || replaces_.list.isEmpty()) { return -1; } #ifdef SUPPORT_IMAGE_GENERATION if (writeImages_) { return writeImages() ? 0 : -1; } #endif // SUPPORT_IMAGE_GENERATION if (!writeSource()) { return -1; } if (!writeHeader()) { return -1; } if (!writeSuggestionsSource()) { return -1; } if (!writeSuggestionsHeader()) { return -1; } return 0; } constexpr auto kVariantsCount = 5; constexpr auto kEmojiInRow = 40; #ifdef SUPPORT_IMAGE_GENERATION QImage Generator::generateImage(int variantIndex) { constexpr int kEmojiSizes[kVariantsCount + 1] = { 18, 22, 27, 36, 45, 180 }; constexpr bool kBadSizes[kVariantsCount] = { true, true, false, false, false }; constexpr int kEmojiFontSizes[kVariantsCount + 1] = { 14, 20, 27, 36, 45, 180 }; constexpr int kEmojiDeltas[kVariantsCount + 1] = { 15, 20, 25, 34, 42, 167 }; auto emojiCount = data_.list.size(); auto columnsCount = kEmojiInRow; auto rowsCount = (emojiCount / columnsCount) + ((emojiCount % columnsCount) ? 1 : 0); auto emojiSize = kEmojiSizes[variantIndex]; auto isBad = kBadSizes[variantIndex]; auto sourceSize = (isBad ? kEmojiSizes[kVariantsCount] : emojiSize); auto font = QGuiApplication::font(); font.setFamily(QStringLiteral("Apple Color Emoji")); font.setPixelSize(kEmojiFontSizes[isBad ? kVariantsCount : variantIndex]); auto singleSize = 4 + sourceSize; auto emojiImage = QImage(columnsCount * emojiSize, rowsCount * emojiSize, QImage::Format_ARGB32); emojiImage.fill(Qt::transparent); auto singleImage = QImage(singleSize, singleSize, QImage::Format_ARGB32); { QPainter p(&emojiImage); p.setRenderHint(QPainter::SmoothPixmapTransform); auto column = 0; auto row = 0; for (auto &emoji : data_.list) { { singleImage.fill(Qt::transparent); QPainter q(&singleImage); q.setPen(QColor(0, 0, 0, 255)); q.setFont(font); q.drawText(2, 2 + kEmojiDeltas[isBad ? kVariantsCount : variantIndex], emoji.id); } auto sourceRect = computeSourceRect(singleImage); if (sourceRect.isEmpty()) { return QImage(); } auto targetRect = QRect(column * emojiSize, row * emojiSize, emojiSize, emojiSize); if (isBad) { p.drawImage(targetRect, singleImage.copy(sourceRect).scaled(emojiSize, emojiSize, Qt::IgnoreAspectRatio, Qt::SmoothTransformation)); } else { p.drawImage(targetRect, singleImage, sourceRect); } ++column; if (column == columnsCount) { column = 0; ++row; } } } return emojiImage; } bool Generator::writeImages() { constexpr const char *variantPostfix[] = { "", "_125x", "_150x", "_200x", "_250x" }; for (auto variantIndex = 0; variantIndex != kVariantsCount; variantIndex++) { auto image = generateImage(variantIndex); auto postfix = variantPostfix[variantIndex]; auto filename = spritePath_ + postfix + ".webp"; auto bytes = QByteArray(); { QBuffer buffer(&bytes); if (!image.save(&buffer, "WEBP", (variantIndex < 3) ? 100 : 99)) { logDataError() << "Could not save 'emoji" << postfix << ".webp'."; return false; } } auto needResave = !QFileInfo(filename).exists(); if (!needResave) { QFile file(filename); if (!file.open(QIODevice::ReadOnly)) { needResave = true; } else { auto already = file.readAll(); if (already.size() != bytes.size() || memcmp(already.constData(), bytes.constData(), already.size())) { needResave = true; } } } if (needResave) { QFile file(filename); if (!file.open(QIODevice::WriteOnly)) { logDataError() << "Could not open 'emoji" << postfix << ".png'."; return false; } else { if (file.write(bytes) != bytes.size()) { logDataError() << "Could not write 'emoji" << postfix << ".png'."; return false; } } } } return true; } #endif // SUPPORT_IMAGE_GENERATION bool Generator::writeSource() { source_ = std::make_unique(outputPath_ + ".cpp", project_); source_->include("emoji_suggestions_data.h").newline(); source_->pushNamespace("Ui").pushNamespace("Emoji").pushNamespace(); source_->stream() << "\ \n\ std::vector Items;\n\ \n"; if (!writeInitCode()) { return false; } if (!writeSections()) { return false; } if (!writeFindReplace()) { return false; } if (!writeFind()) { return false; } source_->popNamespace().newline().pushNamespace("internal"); source_->stream() << "\ \n\ EmojiPtr ByIndex(int index) {\n\ return (index >= 0 && index < Items.size()) ? &Items[index] : nullptr;\n\ }\n\ \n\ EmojiPtr FindReplace(const QChar *start, const QChar *end, int *outLength) {\n\ auto index = FindReplaceIndex(start, end, outLength);\n\ return index ? &Items[index - 1] : nullptr;\n\ }\n\ \n\ const std::vector> GetReplacementPairs() {\n\ return ReplacementPairs;\n\ }\n\ \n\ EmojiPtr Find(const QChar *start, const QChar *end, int *outLength) {\n\ auto index = FindIndex(start, end, outLength);\n\ return index ? &Items[index - 1] : nullptr;\n\ }\n\ \n\ void Init() {\n\ auto id = IdData;\n\ auto takeString = [&id](int size) {\n\ auto result = QString::fromRawData(reinterpret_cast(id), size);\n\ id += size;\n\ return result;\n\ };\n\ \n\ Items.reserve(base::array_size(Data));\n\ for (auto &data : Data) {\n\ Items.emplace_back(takeString(data.idSize), uint16(data.column), uint16(data.row), bool(data.postfixed), bool(data.variated), data.original ? &Items[data.original - 1] : nullptr, One::CreationTag());\n\ }\n\ InitReplacements();\n\ }\n\ \n"; source_->popNamespace(); if (!writeGetSections()) { return false; } return source_->finalize(); } bool Generator::writeHeader() { auto header = std::make_unique(outputPath_ + ".h", project_); header->pushNamespace("Ui").pushNamespace("Emoji").pushNamespace("internal"); header->stream() << "\ \n\ void Init();\n\ \n\ EmojiPtr ByIndex(int index);\n\ \n\ EmojiPtr Find(const QChar *ch, const QChar *end, int *outLength = nullptr);\n\ \n\ inline bool IsReplaceEdge(const QChar *ch) {\n\ return true;\n\ \n\ // switch (ch->unicode()) {\n\ // case '.': case ',': case ':': case ';': case '!': case '?': case '#': case '@':\n\ // case '(': case ')': case '[': case ']': case '{': case '}': case '<': case '>':\n\ // case '+': case '=': case '-': case '_': case '*': case '/': case '\\\\': case '^': case '$':\n\ // case '\"': case '\\'':\n\ // case 8212: case 171: case 187: // --, <<, >>\n\ // return true;\n\ // }\n\ // return false;\n\ }\n\ \n\ const std::vector> GetReplacementPairs();\n\ EmojiPtr FindReplace(const QChar *ch, const QChar *end, int *outLength = nullptr);\n\ \n"; header->popNamespace().stream() << "\ \n\ enum class Section {\n\ Recent,\n\ People,\n\ Nature,\n\ Food,\n\ Activity,\n\ Travel,\n\ Objects,\n\ Symbols,\n\ };\n\ \n\ int Index();\n\ \n\ int GetSectionCount(Section section);\n\ EmojiPack GetSection(Section section);\n\ \n"; return header->finalize(); } template bool Generator::enumerateWholeList(Callback callback) { auto column = 0; auto row = 0; auto index = 0; auto variated = -1; auto coloredCount = 0; for (auto &item : data_.list) { if (!callback(item.id, column, row, item.postfixed, item.variated, item.colored, variated)) { return false; } if (coloredCount > 0 && (item.variated || !item.colored)) { if (!colorsCount_) { colorsCount_ = coloredCount; } else if (colorsCount_ != coloredCount) { logDataError() << "different colored emoji count exist."; return false; } coloredCount = 0; } if (item.variated) { variated = index; } else if (item.colored) { if (variated <= 0) { logDataError() << "wrong order of colored items."; return false; } ++coloredCount; } else if (variated >= 0) { variated = -1; } if (++column == kEmojiInRow) { column = 0; ++row; } ++index; } return true; } bool Generator::writeInitCode() { source_->stream() << "\ struct DataStruct {\n\ ushort original : " << kOriginalBits << ";\n\ uchar idSize : " << kIdSizeBits << ";\n\ uchar column : " << kColumnBits << ";\n\ uchar row : " << kRowBits << ";\n\ bool postfixed : 1;\n\ bool variated : 1;\n\ };\n\ \n\ const ushort IdData[] = {"; startBinary(); if (!enumerateWholeList([this](Id id, int column, int row, bool isPostfixed, bool isVariated, bool isColored, int original) { return writeStringBinary(source_.get(), id); })) { return false; } if (_binaryFullLength >= std::numeric_limits::max()) { logDataError() << "Too many IdData elements."; return false; } source_->stream() << " };\n\ \n\ const DataStruct Data[] = {\n"; if (!enumerateWholeList([this](Id id, int column, int row, bool isPostfixed, bool isVariated, bool isColored, int original) { if (original + 1 >= (1 << kOriginalBits)) { logDataError() << "Too many entries."; return false; } if (id.size() >= (1 << kIdSizeBits)) { logDataError() << "Too large id."; return false; } if (column >= (1 << kColumnBits) || row >= (1 << kRowBits)) { logDataError() << "Bad row-column."; return false; } source_->stream() << "\ { ushort(" << (isColored ? (original + 1) : 0) << "), uchar(" << id.size() << "), uchar(" << column << "), uchar(" << row << "), " << (isPostfixed ? "true" : "false") << ", " << (isVariated ? "true" : "false") << " },\n"; return true; })) { return false; } source_->stream() << "\ };\n"; return true; } bool Generator::writeSections() { source_->stream() << "\ const ushort SectionData[] = {"; startBinary(); for (auto &category : data_.categories) { for (auto index : category) { writeIntBinary(source_.get(), index); } } source_->stream() << " };\n\ \n\ EmojiPack FillSection(int offset, int size) {\n\ auto result = EmojiPack();\n\ result.reserve(size);\n\ for (auto index : gsl::make_span(SectionData + offset, size)) {\n\ result.push_back(&Items[index]);\n\ }\n\ return result;\n\ }\n\n"; return true; } bool Generator::writeGetSections() { constexpr const char *sectionNames[] = { "Section::People", "Section::Nature", "Section::Food", "Section::Activity", "Section::Travel", "Section::Objects", "Section::Symbols", }; source_->stream() << "\ \n\ int GetSectionCount(Section section) {\n\ switch (section) {\n\ case Section::Recent: return GetRecent().size();\n"; auto countIndex = 0; for (auto name : sectionNames) { if (countIndex >= int(data_.categories.size())) { logDataError() << "category " << countIndex << " not found."; return false; } source_->stream() << "\ case " << name << ": return " << data_.categories[countIndex++].size() << ";\n"; } source_->stream() << "\ }\n\ return 0;\n\ }\n\ \n\ EmojiPack GetSection(Section section) {\n\ switch (section) {\n\ case Section::Recent: {\n\ auto result = EmojiPack();\n\ result.reserve(GetRecent().size());\n\ for (auto &item : GetRecent()) {\n\ result.push_back(item.first);\n\ }\n\ return result;\n\ } break;\n"; auto index = 0; auto offset = 0; for (auto name : sectionNames) { if (index >= int(data_.categories.size())) { logDataError() << "category " << index << " not found."; return false; } auto &category = data_.categories[index++]; source_->stream() << "\ \n\ case " << name << ": {\n\ static auto result = FillSection(" << offset << ", " << category.size() << ");\n\ return result;\n\ } break;\n"; offset += category.size(); } source_->stream() << "\ }\n\ return EmojiPack();\n\ }\n\ \n"; return true; } bool Generator::writeFindReplace() { source_->stream() << "\ \n\ const std::vector> ReplacementPairs = {\n"; for (const auto &[what, index] : data_.replaces) { source_->stream() << "\ { qsl(\"" << what << "\"), " << index << " },\n"; } source_->stream() << "\ };\n\ \n\ int FindReplaceIndex(const QChar *start, const QChar *end, int *outLength) {\n\ auto ch = start;\n\ \n"; if (!writeFindFromDictionary(data_.replaces)) { return false; } source_->stream() << "\ }\n"; return true; } bool Generator::writeFind() { source_->stream() << "\ \n\ int FindIndex(const QChar *start, const QChar *end, int *outLength) {\n\ auto ch = start;\n\ \n"; if (!writeFindFromDictionary(data_.map, true)) { return false; } source_->stream() << "\ }\n\ \n"; return true; } bool Generator::writeFindFromDictionary(const std::map> &dictionary, bool skipPostfixes) { auto tabs = [](int size) { return QString(size, '\t'); }; std::map uniqueFirstChars; auto foundMax = 0, foundMin = 65535; for (auto &item : dictionary) { auto ch = item.first[0].unicode(); if (foundMax < ch) foundMax = ch; if (foundMin > ch) foundMin = ch; uniqueFirstChars[ch] = 0; } enum class UsedCheckType { Switch, If, }; auto checkTypes = QVector(); auto chars = QString(); auto tabsUsed = 1; auto lengthsCounted = std::map(); auto writeSkipPostfix = [this, &tabs, skipPostfixes](int tabsCount) { if (skipPostfixes) { source_->stream() << tabs(tabsCount) << "if (++ch != end && ch->unicode() == kPostfix) ++ch;\n"; } else { source_->stream() << tabs(tabsCount) << "++ch;\n"; } }; // Returns true if at least one check was finished. auto finishChecksTillKey = [this, &chars, &checkTypes, &tabsUsed, tabs](const QString &key) { auto result = false; while (!chars.isEmpty() && key.midRef(0, chars.size()) != chars) { result = true; auto wasType = checkTypes.back(); chars.resize(chars.size() - 1); checkTypes.pop_back(); if (wasType == UsedCheckType::Switch || wasType == UsedCheckType::If) { --tabsUsed; if (wasType == UsedCheckType::Switch) { source_->stream() << tabs(tabsUsed) << "break;\n"; } if ((!chars.isEmpty() && key.midRef(0, chars.size()) != chars) || key == chars) { source_->stream() << tabs(tabsUsed) << "}\n"; } } } return result; }; // Check if we can use "if" for a check on "charIndex" in "it" (otherwise only "switch") auto canUseIfForCheck = [](auto it, auto end, int charIndex) { auto key = it->first; auto i = it; auto keyStart = key.mid(0, charIndex); for (++i; i != end; ++i) { auto nextKey = i->first; if (nextKey.mid(0, charIndex) != keyStart) { return true; } else if (nextKey.size() > charIndex && nextKey[charIndex] != key[charIndex]) { return false; } } return true; }; for (auto i = dictionary.cbegin(), e = dictionary.cend(); i != e; ++i) { auto &item = *i; auto key = item.first; auto weContinueOldSwitch = finishChecksTillKey(key); while (chars.size() != key.size()) { auto checking = chars.size(); auto partialKey = key.mid(0, checking); if (dictionary.find(partialKey) != dictionary.cend()) { if (lengthsCounted.find(partialKey) == lengthsCounted.cend()) { lengthsCounted.insert(std::make_pair(partialKey, true)); source_->stream() << tabs(tabsUsed) << "if (outLength) *outLength = (ch - start);\n"; } } auto keyChar = key[checking]; auto keyCharString = "0x" + QString::number(keyChar.unicode(), 16); auto usedIfForCheck = !weContinueOldSwitch && canUseIfForCheck(i, e, checking); if (weContinueOldSwitch) { weContinueOldSwitch = false; } else if (!usedIfForCheck) { source_->stream() << tabs(tabsUsed) << "if (ch != end) switch (ch->unicode()) {\n"; } if (usedIfForCheck) { source_->stream() << tabs(tabsUsed) << "if (ch != end && ch->unicode() == " << keyCharString << ") {\n"; checkTypes.push_back(UsedCheckType::If); } else { source_->stream() << tabs(tabsUsed) << "case " << keyCharString << ":\n"; checkTypes.push_back(UsedCheckType::Switch); } writeSkipPostfix(++tabsUsed); chars.push_back(keyChar); } if (lengthsCounted.find(key) == lengthsCounted.cend()) { lengthsCounted.insert(std::make_pair(key, true)); source_->stream() << tabs(tabsUsed) << "if (outLength) *outLength = (ch - start);\n"; } // While IsReplaceEdge() currently is always true we just return the value. //source_->stream() << tabs(1 + chars.size()) << "if (ch + " << chars.size() << " == end || IsReplaceEdge(*(ch + " << chars.size() << ")) || (ch + " << chars.size() << ")->unicode() == ' ') {\n"; //source_->stream() << tabs(1 + chars.size()) << "\treturn &Items[" << item.second << "];\n"; //source_->stream() << tabs(1 + chars.size()) << "}\n"; source_->stream() << tabs(tabsUsed) << "return " << (item.second + 1) << ";\n"; } finishChecksTillKey(QString()); source_->stream() << "\ \n\ return 0;\n"; return true; } bool Generator::writeSuggestionsSource() { suggestionsSource_ = std::make_unique(suggestionsPath_ + ".cpp", project_); suggestionsSource_->stream() << "\ #include \n\ \n"; suggestionsSource_->pushNamespace("Ui").pushNamespace("Emoji").pushNamespace("internal").pushNamespace(); suggestionsSource_->stream() << "\ \n"; if (!writeReplacements()) { return false; } suggestionsSource_->popNamespace().newline(); if (!writeGetReplacements()) { return false; } return suggestionsSource_->finalize(); } bool Generator::writeSuggestionsHeader() { auto maxLength = 0; for (auto &replace : replaces_.list) { if (maxLength < replace.replacement.size()) { maxLength = replace.replacement.size(); } } auto header = std::make_unique(suggestionsPath_ + ".h", project_); header->include("emoji_suggestions.h").newline(); header->pushNamespace("Ui").pushNamespace("Emoji").pushNamespace("internal"); header->stream() << "\ \n\ struct Replacement {\n\ utf16string emoji;\n\ utf16string replacement;\n\ std::vector words;\n\ };\n\ \n\ constexpr auto kReplacementMaxLength = " << maxLength << ";\n\ \n\ void InitReplacements();\n\ const std::vector &GetAllReplacements();\n\ const std::vector *GetReplacements(utf16char first);\n\ utf16string GetReplacementEmoji(utf16string replacement);\n\ \n"; return header->finalize(); } bool Generator::writeReplacements() { QMap> byCharIndices; suggestionsSource_->stream() << "\ struct ReplacementStruct {\n\ small emojiSize;\n\ small replacementSize;\n\ small wordsCount;\n\ };\n\ \n\ const utf16char ReplacementData[] = {"; startBinary(); for (auto i = 0, size = replaces_.list.size(); i != size; ++i) { auto &replace = replaces_.list[i]; if (!writeStringBinary(suggestionsSource_.get(), replace.id)) { return false; } if (!writeStringBinary(suggestionsSource_.get(), replace.replacement)) { return false; } for (auto &word : replace.words) { if (!writeStringBinary(suggestionsSource_.get(), word)) { return false; } auto &index = byCharIndices[word[0]]; if (index.isEmpty() || index.back() != i) { index.push_back(i); } } } suggestionsSource_->stream() << " };\n\ \n\ const small ReplacementWordLengths[] = {"; startBinary(); for (auto &replace : replaces_.list) { auto wordLengths = QStringList(); for (auto &word : replace.words) { writeIntBinary(suggestionsSource_.get(), word.size()); } } suggestionsSource_->stream() << " };\n\ \n\ const ReplacementStruct ReplacementInitData[] = {\n"; for (auto &replace : replaces_.list) { suggestionsSource_->stream() << "\ { small(" << replace.id.size() << "), small(" << replace.replacement.size() << "), small(" << replace.words.size() << ") },\n"; } suggestionsSource_->stream() << "};\n\ \n\ const medium ReplacementIndices[] = {"; startBinary(); for (auto &byCharIndex : byCharIndices) { for (auto index : byCharIndex) { writeIntBinary(suggestionsSource_.get(), index); } } suggestionsSource_->stream() << " };\n\ \n\ struct ReplacementIndexStruct {\n\ utf16char ch;\n\ medium count;\n\ };\n\ \n\ const internal::checksum ReplacementChecksums[] = {\n"; startBinary(); for (auto &replace : replaces_.list) { writeUintBinary(suggestionsSource_.get(), countCrc32(replace.replacement.constData(), replace.replacement.size() * sizeof(QChar))); } suggestionsSource_->stream() << " };\n\ \n\ const ReplacementIndexStruct ReplacementIndexData[] = {\n"; startBinary(); for (auto i = byCharIndices.cbegin(), e = byCharIndices.cend(); i != e; ++i) { suggestionsSource_->stream() << "\ { utf16char(" << i.key().unicode() << "), medium(" << i.value().size() << ") },\n"; } suggestionsSource_->stream() << "};\n\ \n\ std::vector Replacements;\n\ std::map> ReplacementsMap;\n\ std::map ReplacementsHash;\n\ \n"; return true; } bool Generator::writeGetReplacements() { suggestionsSource_->stream() << "\ void InitReplacements() {\n\ if (!Replacements.empty()) {\n\ return;\n\ }\n\ auto data = ReplacementData;\n\ auto takeString = [&data](int size) {\n\ auto result = utf16string(data, size);\n\ data += size;\n\ return result;\n\ };\n\ auto wordSize = ReplacementWordLengths;\n\ \n\ Replacements.reserve(" << replaces_.list.size() << ");\n\ for (auto item : ReplacementInitData) {\n\ auto emoji = takeString(item.emojiSize);\n\ auto replacement = takeString(item.replacementSize);\n\ auto words = std::vector();\n\ words.reserve(item.wordsCount);\n\ for (auto i = 0; i != item.wordsCount; ++i) {\n\ words.push_back(takeString(*wordSize++));\n\ }\n\ Replacements.push_back({ std::move(emoji), std::move(replacement), std::move(words) });\n\ }\n\ \n\ auto indices = ReplacementIndices;\n\ auto items = &Replacements[0];\n\ for (auto item : ReplacementIndexData) {\n\ auto index = std::vector();\n\ index.reserve(item.count);\n\ for (auto i = 0; i != item.count; ++i) {\n\ index.push_back(items + (*indices++));\n\ }\n\ ReplacementsMap.emplace(item.ch, std::move(index));\n\ }\n\ \n\ for (auto checksum : ReplacementChecksums) {\n\ ReplacementsHash.emplace(checksum, items++);\n\ }\n\ }\n\ \n\ const std::vector *GetReplacements(utf16char first) {\n\ if (ReplacementsMap.empty()) {\n\ InitReplacements();\n\ }\n\ auto it = ReplacementsMap.find(first);\n\ return (it == ReplacementsMap.cend()) ? nullptr : &it->second;\n\ }\n\ \n\ const std::vector &GetAllReplacements() {\n\ return Replacements;\n\ }\n\ \n\ utf16string GetReplacementEmoji(utf16string replacement) {\n\ auto code = internal::countChecksum(replacement.data(), replacement.size() * sizeof(utf16char));\n\ auto it = ReplacementsHash.find(code);\n\ return (it == ReplacementsHash.cend()) ? utf16string() : it->second->emoji;\n\ }\n\ \n"; return true; } void Generator::startBinary() { _binaryFullLength = _binaryCount = 0; } bool Generator::writeStringBinary(common::CppFile *source, const QString &string) { if (string.size() >= 256) { logDataError() << "Too long string: " << string.toStdString(); return false; } for (auto ch : string) { if (_binaryFullLength > 0) source->stream() << ","; if (!_binaryCount++) { source->stream() << "\n"; } else { if (_binaryCount == 12) { _binaryCount = 0; } source->stream() << " "; } source->stream() << "0x" << QString::number(ch.unicode(), 16); ++_binaryFullLength; } return true; } void Generator::writeIntBinary(common::CppFile *source, int data) { if (_binaryFullLength > 0) source->stream() << ","; if (!_binaryCount++) { source->stream() << "\n"; } else { if (_binaryCount == 12) { _binaryCount = 0; } source->stream() << " "; } source->stream() << data; ++_binaryFullLength; } void Generator::writeUintBinary(common::CppFile *source, uint32 data) { if (_binaryFullLength > 0) source->stream() << ","; if (!_binaryCount++) { source->stream() << "\n"; } else { if (_binaryCount == 12) { _binaryCount = 0; } source->stream() << " "; } source->stream() << "0x" << QString::number(data, 16).toUpper() << "U"; ++_binaryFullLength; } } // namespace emoji } // namespace codegen