#include "DNACommon.hpp" #include "PAK.hpp" #include "boo/ThreadLocalPtr.hpp" namespace DataSpec { logvisor::Module LogDNACommon("DataSpec::DNACommon"); ThreadLocalPtr g_curSpec; ThreadLocalPtr g_PakRouter; ThreadLocalPtr g_ThreadBlenderToken; ThreadLocalPtr UniqueIDBridge::s_Project; UniqueID32 UniqueID32::kInvalidId; template hecl::ProjectPath UniqueIDBridge::TranslatePakIdToPath(const IDType& id, bool silenceWarnings) { /* Try PAKRouter first (only available at extract) */ PAKRouterBase* pakRouter = g_PakRouter.get(); if (pakRouter) { hecl::ProjectPath path = pakRouter->getWorking(id, silenceWarnings); if (path) return path; } /* Try project cache second (populated with paths read from YAML resources) */ hecl::Database::Project* project = s_Project.get(); if (!project) { if (pakRouter) { if (hecl::VerbosityLevel >= 1 && !silenceWarnings && id.isValid()) LogDNACommon.report(logvisor::Warning, FMT_STRING("unable to translate {} to path"), id); return {}; } LogDNACommon.report(logvisor::Fatal, FMT_STRING("g_PakRouter or s_Project must be set to non-null before " "calling UniqueIDBridge::TranslatePakIdToPath")); return {}; } const hecl::ProjectPath* search = project->lookupBridgePath(id.toUint64()); if (!search) { if (hecl::VerbosityLevel >= 1 && !silenceWarnings && id.isValid()) LogDNACommon.report(logvisor::Warning, FMT_STRING("unable to translate {} to path"), id); return {}; } return *search; } template hecl::ProjectPath UniqueIDBridge::TranslatePakIdToPath(const UniqueID32& id, bool silenceWarnings); template hecl::ProjectPath UniqueIDBridge::TranslatePakIdToPath(const UniqueID64& id, bool silenceWarnings); template hecl::ProjectPath UniqueIDBridge::TranslatePakIdToPath(const UniqueID128& id, bool silenceWarnings); template hecl::ProjectPath UniqueIDBridge::MakePathFromString(std::string_view str) { if (str.empty()) return {}; hecl::Database::Project* project = s_Project.get(); if (!project) LogDNACommon.report(logvisor::Fatal, FMT_STRING("UniqueIDBridge::setGlobalProject must be called before MakePathFromString")); hecl::ProjectPath path = hecl::ProjectPath(*project, str); project->addBridgePathToCache(IDType(path).toUint64(), path); return path; } template hecl::ProjectPath UniqueIDBridge::MakePathFromString(std::string_view str); template hecl::ProjectPath UniqueIDBridge::MakePathFromString(std::string_view str); void UniqueIDBridge::SetThreadProject(hecl::Database::Project& project) { s_Project.reset(&project); } /** PAK 32-bit Unique ID */ template <> void UniqueID32::Enumerate(typename Read::StreamT& reader) { assign(reader.readUint32Big()); } template <> void UniqueID32::Enumerate(typename Write::StreamT& writer) { writer.writeUint32Big(m_id); } template <> void UniqueID32::Enumerate(typename ReadYaml::StreamT& reader) { *this = UniqueIDBridge::MakePathFromString(reader.readString()); } template <> void UniqueID32::Enumerate(typename WriteYaml::StreamT& writer) { if (!isValid()) return; hecl::ProjectPath path = UniqueIDBridge::TranslatePakIdToPath(*this); if (!path) return; writer.writeString(path.getEncodableStringUTF8()); } template <> void UniqueID32::Enumerate(typename BinarySize::StreamT& s) { s += 4; } std::string UniqueID32::toString() const { return fmt::format(FMT_STRING("{}"), *this); } template <> void UniqueID32Zero::Enumerate(typename Read::StreamT& reader) { UniqueID32::Enumerate(reader); } template <> void UniqueID32Zero::Enumerate(typename Write::StreamT& writer) { writer.writeUint32Big(isValid() ? m_id : 0); } template <> void UniqueID32Zero::Enumerate(typename ReadYaml::StreamT& reader) { UniqueID32::Enumerate(reader); } template <> void UniqueID32Zero::Enumerate(typename WriteYaml::StreamT& writer) { UniqueID32::Enumerate(writer); } template <> void UniqueID32Zero::Enumerate(typename BinarySize::StreamT& s) { UniqueID32::Enumerate(s); } /** PAK 64-bit Unique ID */ template <> void UniqueID64::Enumerate(typename Read::StreamT& reader) { assign(reader.readUint64Big()); } template <> void UniqueID64::Enumerate(typename Write::StreamT& writer) { writer.writeUint64Big(m_id); } template <> void UniqueID64::Enumerate(typename ReadYaml::StreamT& reader) { *this = UniqueIDBridge::MakePathFromString(reader.readString()); } template <> void UniqueID64::Enumerate(typename WriteYaml::StreamT& writer) { if (!isValid()) return; hecl::ProjectPath path = UniqueIDBridge::TranslatePakIdToPath(*this); if (!path) return; writer.writeString(path.getEncodableStringUTF8()); } template <> void UniqueID64::Enumerate(typename BinarySize::StreamT& s) { s += 8; } std::string UniqueID64::toString() const { return fmt::format(FMT_STRING("{}"), *this); } /** PAK 128-bit Unique ID */ template <> void UniqueID128::Enumerate(typename Read::StreamT& reader) { m_id.id[0] = reader.readUint64Big(); m_id.id[1] = reader.readUint64Big(); } template <> void UniqueID128::Enumerate(typename Write::StreamT& writer) { writer.writeUint64Big(m_id.id[0]); writer.writeUint64Big(m_id.id[1]); } template <> void UniqueID128::Enumerate(typename ReadYaml::StreamT& reader) { *this = UniqueIDBridge::MakePathFromString(reader.readString()); } template <> void UniqueID128::Enumerate(typename WriteYaml::StreamT& writer) { if (!isValid()) return; hecl::ProjectPath path = UniqueIDBridge::TranslatePakIdToPath(*this); if (!path) return; writer.writeString(path.getEncodableStringUTF8()); } template <> void UniqueID128::Enumerate(typename BinarySize::StreamT& s) { s += 16; } std::string UniqueID128::toString() const { return fmt::format(FMT_STRING("{}"), *this); } /** Word Bitmap reader/writer */ void WordBitmap::read(athena::io::IStreamReader& reader, size_t bitCount) { m_bitCount = bitCount; size_t wordCount = (bitCount + 31) / 32; m_words.clear(); m_words.reserve(wordCount); for (size_t w = 0; w < wordCount; ++w) m_words.push_back(reader.readUint32Big()); } void WordBitmap::write(athena::io::IStreamWriter& writer) const { for (atUint32 word : m_words) writer.writeUint32Big(word); } void WordBitmap::binarySize(size_t& __isz) const { __isz += m_words.size() * 4; } hecl::ProjectPath GetPathBeginsWith(const hecl::DirectoryEnumerator& dEnum, const hecl::ProjectPath& parentPath, hecl::SystemStringView test) { for (const auto& ent : dEnum) if (hecl::StringUtils::BeginsWith(ent.m_name, test)) return hecl::ProjectPath(parentPath, ent.m_name); return {}; } } // namespace DataSpec