#include "Globals.h" #include #include #include "Utils/File.h" #include "Utils/Path.h" #include "WarningHandler.h" #include "tinyxml2.h" Globals* Globals::Instance; Globals::Globals() { Instance = this; game = ZGame::OOT_RETAIL; genSourceFile = true; testMode = false; profile = false; useLegacyZDList = false; useExternalResources = true; singleThreaded = true; verbosity = VerbosityLevel::VERBOSITY_SILENT; outputPath = Directory::GetCurrentDirectory(); } Globals::~Globals() { auto& exporters = GetExporterMap(); for (auto& it : exporters) { delete it.second; } } void Globals::AddSegment(int32_t segment, ZFile* file, int workerID) { if (!Globals::Instance->singleThreaded) { auto worker = workerData[workerID]; if (std::find(worker->segments.begin(), worker->segments.end(), segment) == worker->segments.end()) worker->segments.push_back(segment); if (worker->segmentRefFiles.find(segment) == worker->segmentRefFiles.end()) worker->segmentRefFiles[segment] = std::vector(); worker->segmentRefFiles[segment].push_back(file); } else { if (std::find(segments.begin(), segments.end(), segment) == segments.end()) segments.push_back(segment); if (cfg.segmentRefFiles.find(segment) == cfg.segmentRefFiles.end()) cfg.segmentRefFiles[segment] = std::vector(); cfg.segmentRefFiles[segment].push_back(file); } } bool Globals::HasSegment(int32_t segment, int workerID) { if (!Globals::Instance->singleThreaded) return std::find(workerData[workerID]->segments.begin(), workerData[workerID]->segments.end(), segment) != workerData[workerID]->segments.end(); else return std::find(segments.begin(), segments.end(), segment) != segments.end(); } ZFile* Globals::GetSegment(int32_t segment, int workerID) { if (!Globals::Instance->singleThreaded) { if (HasSegment(segment, workerID)) { int idx = std::find(workerData[workerID]->segments.begin(), workerData[workerID]->segments.end(), segment) - workerData[workerID]->segments.begin(); return workerData[workerID]->files[idx]; } else return nullptr; } else { if (HasSegment(segment, workerID)) { int idx = std::find(segments.begin(), segments.end(), segment) - segments.begin(); return files[idx]; } else return nullptr; } } std::map> Globals::GetSegmentRefFiles(int workerID) { if (!Globals::Instance->singleThreaded) return workerData[workerID]->segmentRefFiles; else return cfg.segmentRefFiles; } void Globals::AddFile(ZFile* file, int workerID) { if (singleThreaded) files.push_back(file); else workerData[workerID]->files.push_back(file); } void Globals::AddExternalFile(ZFile* file, int workerID) { if (singleThreaded) externalFiles.push_back(file); else workerData[workerID]->externalFiles.push_back(file); } void Globals::BuildAssetTexture(const fs::path& pngFilePath, TextureType texType, const fs::path& outPath) { std::string name = outPath.stem().string(); ZTexture tex(nullptr); if (name.find("u32") != std::string::npos) tex.dWordAligned = false; tex.FromPNG(pngFilePath.string(), texType); std::string cfgPath = StringHelper::Split(pngFilePath.string(), ".")[0] + ".cfg"; if (File::Exists(cfgPath)) name = File::ReadAllText(cfgPath); std::string src = tex.GetBodySourceCode(); File::WriteAllText(outPath.string(), src); } std::map& Globals::GetExporterMap() { static std::map exporters; return exporters; } void Globals::AddExporter(std::string exporterName, ExporterSet* exporterSet) { auto& exporters = GetExporterMap(); exporters[exporterName] = exporterSet; } ZResourceExporter* Globals::GetExporter(ZResourceType resType) { auto& exporters = GetExporterMap(); if (currentExporter != "" && exporters[currentExporter]->exporters.find(resType) != exporters[currentExporter]->exporters.end()) return exporters[currentExporter]->exporters[resType]; else return nullptr; } ExporterSet* Globals::GetExporterSet() { auto& exporters = GetExporterMap(); if (currentExporter != "") return exporters[currentExporter]; else return nullptr; } std::vector Globals::GetBaseromFile(std::string fileName) { if (fileMode == ZFileMode::ExtractDirectory) { if (StringHelper::Contains(fileName, "baserom/")) fileName = StringHelper::Split(fileName, "baserom/")[1]; return rom->GetFile(fileName); } else return File::ReadAllBytes(fileName); } bool Globals::GetSegmentedPtrName(segptr_t segAddress, ZFile* currentFile, const std::string& expectedType, std::string& declName, int workerID) { if (segAddress == 0) { declName = "NULL"; return true; } uint8_t segment = GETSEGNUM(segAddress); uint32_t offset = Seg2Filespace(segAddress, currentFile->baseAddress); ZSymbol* sym; sym = currentFile->GetSymbolResource(offset); if (sym != nullptr) { if (expectedType == "" || expectedType == sym->GetSourceTypeName()) { declName = sym->GetName(); return true; } } sym = currentFile->GetSymbolResource(segAddress); if (sym != nullptr) { if (expectedType == "" || expectedType == sym->GetSourceTypeName()) { declName = sym->GetName(); return true; } } if (currentFile->IsSegmentedInFilespaceRange(segAddress)) { if (currentFile->GetDeclarationPtrName(segAddress, expectedType, declName)) return true; } else if (HasSegment(segment, workerID)) { // OTRTODO: Multithreading auto segs = GetSegmentRefFiles(workerID); for (auto file : segs[segment]) { offset = Seg2Filespace(segAddress, file->baseAddress); sym = file->GetSymbolResource(offset); if (sym != nullptr) { if (expectedType == "" || expectedType == sym->GetSourceTypeName()) { declName = sym->GetName(); return true; } } sym = file->GetSymbolResource(segAddress); if (sym != nullptr) { if (expectedType == "" || expectedType == sym->GetSourceTypeName()) { declName = sym->GetName(); return true; } } if (file->IsSegmentedInFilespaceRange(segAddress)) { if (file->GetDeclarationPtrName(segAddress, expectedType, declName)) return true; } } } const auto& symbolFromMap = Globals::Instance->cfg.symbolMap.find(segAddress); if (symbolFromMap != Globals::Instance->cfg.symbolMap.end()) { declName = "&" + symbolFromMap->second; return true; } declName = StringHelper::Sprintf("0x%08X", segAddress); return false; } bool Globals::GetSegmentedArrayIndexedName(segptr_t segAddress, size_t elementSize, ZFile* currentFile, const std::string& expectedType, std::string& declName, int workerID) { if (segAddress == 0) { declName = "NULL"; return true; } uint8_t segment = GETSEGNUM(segAddress); if (currentFile->IsSegmentedInFilespaceRange(segAddress)) { bool addressFound = currentFile->GetDeclarationArrayIndexedName(segAddress, elementSize, expectedType, declName); if (addressFound) return true; } else if (HasSegment(segment, workerID)) { // OTRTODO: Multithreading auto segs = GetSegmentRefFiles(workerID); for (auto file : segs[segment]) { if (file->IsSegmentedInFilespaceRange(segAddress)) { bool addressFound = file->GetDeclarationArrayIndexedName(segAddress, elementSize, expectedType, declName); if (addressFound) return true; } } } declName = StringHelper::Sprintf("0x%08X", segAddress); return false; } ExternalFile::ExternalFile(fs::path nXmlPath, fs::path nOutPath) : xmlPath{nXmlPath}, outPath{nOutPath} { } ExporterSet::~ExporterSet() { for (auto& it : exporters) { delete it.second; } }