#include "ZFile.h" #include #include #include #include #include "Globals.h" #include "OutputFormatter.h" #include "Utils/BinaryWriter.h" #include "Utils/BitConverter.h" #include "Utils/Directory.h" #include "Utils/File.h" #include "Utils/MemoryStream.h" #include "Utils/Path.h" #include "Utils/StringHelper.h" #include "WarningHandler.h" #include "ZAnimation.h" #include "ZArray.h" #include "ZBackground.h" #include "ZBlob.h" #include "ZCollision.h" #include "ZCutscene.h" #include "ZDisplayList.h" #include "ZLimb.h" #include "ZMtx.h" #include "ZRoom/ZRoom.h" #include "ZScalar.h" #include "ZSkeleton.h" #include "ZSymbol.h" #include "ZTexture.h" #include "ZVector.h" #include "ZVtx.h" ZFile::ZFile() { resources = std::vector(); basePath = ""; declarations = std::map(); defines = ""; baseAddress = 0; rangeStart = 0x000000000; rangeEnd = 0xFFFFFFFF; workerID = 0; } ZFile::ZFile(const fs::path& nOutPath, const std::string& nName) : ZFile() { name = nName; outName = nName; outputPath = nOutPath; } ZFile::ZFile(ZFileMode nMode, tinyxml2::XMLElement* reader, const fs::path& nBasePath, const fs::path& nOutPath, const std::string& filename, const fs::path& nXmlFilePath, int nWorkerID) : ZFile() { xmlFilePath = nXmlFilePath; if (nBasePath == "") basePath = Directory::GetCurrentDirectory(); else basePath = nBasePath; if (nOutPath == "") outputPath = Directory::GetCurrentDirectory(); else outputPath = nOutPath; mode = nMode; workerID = nWorkerID; ParseXML(reader, filename); if (mode != ZFileMode::ExternalFile) DeclareResourceSubReferences(); } ZFile::~ZFile() { for (ZResource* res : resources) delete res; for (auto d : declarations) delete d.second; for (auto sym : symbolResources) delete sym.second; } void ZFile::ParseXML(tinyxml2::XMLElement* reader, const std::string& filename) { assert(mode != ZFileMode::Invalid); if (filename == "") name = reader->Attribute("Name"); else name = filename; outName = name; const char* outNameXml = reader->Attribute("OutName"); if (outNameXml != nullptr) outName = outNameXml; // TODO: This should be a variable on the ZFile, but it is a large change in order to force all // ZResource types to have a parent ZFile. const char* gameStr = reader->Attribute("Game"); if (reader->Attribute("Game") != nullptr) { if (std::string_view(gameStr) == "MM") Globals::Instance->game = ZGame::MM_RETAIL; else if (std::string_view(gameStr) == "SW97" || std::string_view(gameStr) == "OOTSW97") Globals::Instance->game = ZGame::OOT_SW97; else if (std::string_view(gameStr) == "OOT") Globals::Instance->game = ZGame::OOT_RETAIL; else { std::string errorHeader = StringHelper::Sprintf("'Game' type '%s' is not supported.", gameStr); HANDLE_ERROR_PROCESS(WarningType::InvalidAttributeValue, errorHeader, ""); } } if (reader->Attribute("BaseAddress") != nullptr) baseAddress = StringHelper::StrToL(reader->Attribute("BaseAddress"), 16); if (reader->Attribute("RangeStart") != nullptr) rangeStart = StringHelper::StrToL(reader->Attribute("RangeStart"), 16); if (reader->Attribute("RangeEnd") != nullptr) rangeEnd = StringHelper::StrToL(reader->Attribute("RangeEnd"), 16); if (reader->Attribute("Compilable") != nullptr) isCompilable = true; if (rangeStart > rangeEnd) HANDLE_ERROR_PROCESS( WarningType::Always, StringHelper::Sprintf("'RangeStart' 0x%06X must be before 'RangeEnd' 0x%06X", rangeStart, rangeEnd), ""); const char* segmentXml = reader->Attribute("Segment"); if (segmentXml != nullptr) { if (!StringHelper::HasOnlyDigits(segmentXml)) { HANDLE_ERROR_PROCESS(WarningType::Always, StringHelper::Sprintf("error: Invalid segment value '%s': must be " "a decimal between 0 and 15 inclusive", segmentXml), ""); } segment = StringHelper::StrToL(segmentXml, 10); if (segment > 15) { if (segment == 128) { #ifdef DEPRECATION_ON HANDLE_WARNING_PROCESS( WarningType::Always, "warning: segment 128 is deprecated.", "Remove 'Segment=\"128\"' from the xml to use virtual addresses\n"); #endif } else { HANDLE_ERROR_PROCESS( WarningType::Always, StringHelper::Sprintf("error: invalid segment value '%s': must be a decimal " "number between 0 and 15 inclusive", segmentXml), ""); } } } Globals::Instance->AddSegment(segment, this, workerID); if (Globals::Instance->verbosity >= VerbosityLevel::VERBOSITY_INFO) { if (segment == 0x80) { printf("File '%s' using virtual addresses.\n", GetName().c_str()); } else { printf("File '%s' using segment %X.\n", GetName().c_str(), segment); } } if (mode == ZFileMode::Extract || mode == ZFileMode::ExternalFile || mode == ZFileMode::ExtractDirectory) { if (Globals::Instance->fileMode != ZFileMode::ExtractDirectory) { if (!File::Exists((basePath / name).string())) { std::string errorHeader = StringHelper::Sprintf("binary file '%s' does not exist.", (basePath / name).c_str()); HANDLE_ERROR_PROCESS(WarningType::Always, errorHeader, ""); } } if (Globals::Instance->fileMode == ZFileMode::ExtractDirectory) rawData = Globals::Instance->GetBaseromFile(name); else rawData = Globals::Instance->GetBaseromFile((basePath / name).string()); if (reader->Attribute("RangeEnd") == nullptr) rangeEnd = rawData.size(); } std::unordered_set nameSet; std::unordered_set outNameSet; std::unordered_set offsetSet; auto nodeMap = *GetNodeMap(); uint32_t rawDataIndex = 0; for (tinyxml2::XMLElement* child = reader->FirstChildElement(); child != nullptr; child = child->NextSiblingElement()) { const char* nameXml = child->Attribute("Name"); const char* outNameXml = child->Attribute("OutName"); const char* offsetXml = child->Attribute("Offset"); // Check for repeated attributes. if (offsetXml != nullptr) { rawDataIndex = strtol(StringHelper::Split(std::string(offsetXml), "0x")[1].c_str(), NULL, 16); if (offsetSet.find(offsetXml) != offsetSet.end()) { std::string errorHeader = StringHelper::Sprintf("repeated 'Offset' attribute: %s", offsetXml); HANDLE_ERROR_PROCESS(WarningType::InvalidXML, errorHeader, ""); } offsetSet.insert(offsetXml); } else { HANDLE_WARNING_RESOURCE(WarningType::MissingOffsets, this, nullptr, rawDataIndex, StringHelper::Sprintf("no offset specified for %s.", nameXml), ""); } if (Globals::Instance->verbosity >= VerbosityLevel::VERBOSITY_INFO) printf("%s: 0x%06X\n", nameXml, rawDataIndex); if (outNameXml != nullptr) { if (outNameSet.find(outNameXml) != outNameSet.end()) { std::string errorHeader = StringHelper::Sprintf("repeated 'OutName' attribute: %s", outNameXml); HANDLE_ERROR_PROCESS(WarningType::InvalidXML, errorHeader, ""); } outNameSet.insert(outNameXml); } if (nameXml != nullptr) { if (nameSet.find(nameXml) != nameSet.end()) { std::string errorHeader = StringHelper::Sprintf("repeated 'Name' attribute: %s", nameXml); HANDLE_ERROR_PROCESS(WarningType::InvalidXML, errorHeader, ""); } nameSet.insert(nameXml); } std::string nodeName = std::string(child->Name()); if (nodeMap.find(nodeName) != nodeMap.end()) { ZResource* nRes = nodeMap[nodeName](this); if (mode == ZFileMode::Extract || mode == ZFileMode::ExternalFile || mode == ZFileMode::ExtractDirectory) { if (!isCompilable) nRes->ExtractFromXML(child, rawDataIndex); } switch (nRes->GetResourceType()) { case ZResourceType::Texture: AddTextureResource(rawDataIndex, static_cast(nRes)); break; case ZResourceType::Symbol: AddSymbolResource(rawDataIndex, static_cast(nRes)); break; default: AddResource(nRes); break; } rawDataIndex += nRes->GetRawDataSize(); } else if (std::string_view(child->Name()) == "File") { std::string errorHeader = "Can't declare a inside a "; HANDLE_ERROR_PROCESS(WarningType::InvalidXML, errorHeader, ""); } else { std::string errorHeader = StringHelper::Sprintf( "Unknown element found inside a element: %s", nodeName.c_str()); HANDLE_ERROR_PROCESS(WarningType::InvalidXML, errorHeader, ""); } } } void ZFile::DeclareResourceSubReferences() { for (size_t i = 0; i < resources.size(); i++) { resources.at(i)->DeclareReferences(name); } } void ZFile::BuildSourceFile() { if (mode == ZFileMode::ExternalFile) return; if (!Directory::Exists(outputPath)) Directory::CreateDirectory(outputPath.string()); GenerateSourceFiles(); } std::string ZFile::GetName() const { return name; } std::string ZFile::GetOutName() const { return outName.string(); } ZFileMode ZFile::GetMode() const { return mode; } const fs::path& ZFile::GetXmlFilePath() const { return xmlFilePath; } const std::vector& ZFile::GetRawData() const { return rawData; } void ZFile::ExtractResources() { if (mode == ZFileMode::ExternalFile) return; if (!Directory::Exists(outputPath)) Directory::CreateDirectory(outputPath.string()); if (!Directory::Exists(GetSourceOutputFolderPath())) Directory::CreateDirectory(GetSourceOutputFolderPath().string()); for (size_t i = 0; i < resources.size(); i++) resources[i]->ParseRawDataLate(); for (size_t i = 0; i < resources.size(); i++) resources[i]->DeclareReferencesLate(name); if (Globals::Instance->genSourceFile) GenerateSourceFiles(); auto memStreamFile = std::shared_ptr(new MemoryStream()); BinaryWriter writerFile = BinaryWriter(memStreamFile); ExporterSet* exporterSet = Globals::Instance->GetExporterSet(); if (exporterSet != nullptr && exporterSet->beginFileFunc != nullptr) exporterSet->beginFileFunc(this); int totalMs = 0; for (ZResource* res : resources) { auto start = std::chrono::steady_clock::now(); auto memStreamRes = std::shared_ptr(new MemoryStream()); BinaryWriter writerRes = BinaryWriter(memStreamRes); if (Globals::Instance->verbosity >= VerbosityLevel::VERBOSITY_INFO) printf("Saving resource %s\n", res->GetName().c_str()); res->Save(outputPath); // Check if we have an exporter "registered" for this resource type ZResourceExporter* exporter = Globals::Instance->GetExporter(res->GetResourceType()); if (exporter != nullptr) { // exporter->Save(res, Globals::Instance->outputPath.string(), &writerFile); exporter->Save(res, Globals::Instance->outputPath.string(), &writerRes); } if (exporterSet != nullptr && exporterSet->resSaveFunc != nullptr) exporterSet->resSaveFunc(res, writerRes); auto end = std::chrono::steady_clock::now(); auto diff = std::chrono::duration_cast(end - start).count(); totalMs += diff; //printf("Res %s in %lims\n", res->GetName().c_str(), diff); } //printf("File %s in %lims\n", GetName().c_str(), totalMs); if (memStreamFile->GetLength() > 0) { File::WriteAllBytes(StringHelper::Sprintf("%s%s.bin", Globals::Instance->outputPath.string().c_str(), GetName().c_str()), memStreamFile->ToVector()); } writerFile.Close(); if (exporterSet != nullptr && exporterSet->endFileFunc != nullptr) exporterSet->endFileFunc(this); } void ZFile::AddResource(ZResource* res) { resources.push_back(res); } ZResource* ZFile::FindResource(uint32_t rawDataIndex) { for (ZResource* res : resources) { if (res->GetRawDataIndex() == rawDataIndex) return res; } return nullptr; } std::vector ZFile::GetResourcesOfType(ZResourceType resType) { std::vector resList; for (ZResource* res : resources) { if (res->GetResourceType() == resType) resList.push_back(res); } return resList; } Declaration* ZFile::AddDeclaration(offset_t address, DeclarationAlignment alignment, size_t size, const std::string& varType, const std::string& varName, const std::string& body) { bool validOffset = AddDeclarationChecks(address, varName); if (!validOffset) return nullptr; Declaration* decl = GetDeclaration(address); if (decl == nullptr) { decl = new Declaration(address, alignment, size, varType, varName, false, body); declarations[address] = decl; } else { decl->alignment = alignment; decl->size = size; decl->varType = varType; decl->varName = varName; decl->text = body; } return decl; } Declaration* ZFile::AddDeclarationArray(offset_t address, DeclarationAlignment alignment, size_t size, const std::string& varType, const std::string& varName, size_t arrayItemCnt, const std::string& body) { bool validOffset = AddDeclarationChecks(address, varName); if (!validOffset) return nullptr; Declaration* decl = GetDeclaration(address); if (decl == nullptr) { decl = new Declaration(address, alignment, size, varType, varName, true, arrayItemCnt, body); declarations[address] = decl; } else { if (decl->isPlaceholder) decl->varName = varName; decl->alignment = alignment; decl->size = size; decl->varType = varType; decl->isArray = true; decl->arrayItemCnt = arrayItemCnt; decl->text = body; } return decl; } Declaration* ZFile::AddDeclarationArray(offset_t address, DeclarationAlignment alignment, size_t size, const std::string& varType, const std::string& varName, const std::string& arrayItemCntStr, const std::string& body) { bool validOffset = AddDeclarationChecks(address, varName); if (!validOffset) return nullptr; Declaration* decl = GetDeclaration(address); if (decl == nullptr) { decl = new Declaration(address, alignment, size, varType, varName, true, arrayItemCntStr, body); declarations[address] = decl; } else { decl->alignment = alignment; decl->size = size; decl->varType = varType; decl->varName = varName; decl->isArray = true; decl->arrayItemCntStr = arrayItemCntStr; decl->text = body; } return decl; } Declaration* ZFile::AddDeclarationPlaceholder(offset_t address, const std::string& varName) { bool validOffset = AddDeclarationChecks(address, varName); if (!validOffset) return nullptr; Declaration* decl; if (declarations.find(address) == declarations.end()) { decl = new Declaration(address, DeclarationAlignment::Align4, 0, "", varName, false, ""); decl->isPlaceholder = true; declarations[address] = decl; } else decl = declarations[address]; return decl; } Declaration* ZFile::AddDeclarationInclude(offset_t address, const std::string& includePath, size_t size, const std::string& varType, const std::string& varName) { bool validOffset = AddDeclarationChecks(address, varName); if (!validOffset) return nullptr; Declaration* decl = GetDeclaration(address); if (decl == nullptr) { decl = new Declaration(address, includePath, size, varType, varName); declarations[address] = decl; } else { decl->includePath = includePath; decl->size = size; decl->varType = varType; decl->varName = varName; } return decl; } Declaration* ZFile::AddDeclarationIncludeArray(offset_t address, std::string& includePath, size_t size, const std::string& varType, const std::string& varName, size_t arrayItemCnt) { bool validOffset = AddDeclarationChecks(address, varName); if (!validOffset) return nullptr; if (StringHelper::StartsWith(includePath, "assets/extracted/")) includePath = "assets/" + StringHelper::Split(includePath, "assets/extracted/")[1]; if (StringHelper::StartsWith(includePath, "assets/custom/")) includePath = "assets/" + StringHelper::Split(includePath, "assets/custom/")[1]; Declaration* decl = GetDeclaration(address); if (decl == nullptr) { decl = new Declaration(address, includePath, size, varType, varName); decl->isArray = true; decl->arrayItemCnt = arrayItemCnt; declarations[address] = decl; } else { decl->includePath = includePath; decl->varType = varType; decl->varName = varName; decl->size = size; decl->isArray = true; decl->arrayItemCnt = arrayItemCnt; } return decl; } bool ZFile::AddDeclarationChecks(uint32_t address, const std::string& varName) { assert(GETSEGNUM(address) == 0); assert(varName != ""); #ifdef DEVELOPMENT if (address == 0x0000) { [[maybe_unused]] int32_t bp = 0; } #endif if (!IsOffsetInFileRange(address)) { fprintf(stderr, "%s: Warning in %s\n" "\t Tried to declare a variable outside of this file's range. Ignoring...\n" "\t\t Variable's name: %s\n" "\t\t Variable's offset: 0x%06X\n", __PRETTY_FUNCTION__, name.c_str(), varName.c_str(), address); return false; } return true; } bool ZFile::GetDeclarationPtrName(segptr_t segAddress, const std::string& expectedType, std::string& declName) const { if (segAddress == 0) { declName = "NULL"; return true; } uint32_t offset = Seg2Filespace(segAddress, baseAddress); Declaration* decl = GetDeclaration(offset); if (GETSEGNUM(segAddress) != segment || decl == nullptr) { declName = StringHelper::Sprintf("0x%08X", segAddress); return false; } if (expectedType != "" && expectedType != "void*") { if (expectedType != decl->varType && "static " + expectedType != decl->varType) { declName = StringHelper::Sprintf("0x%08X", segAddress); return false; } } if (!decl->isArray) declName = "&" + decl->varName; else declName = decl->varName; return true; } bool ZFile::GetDeclarationArrayIndexedName(segptr_t segAddress, size_t elementSize, const std::string& expectedType, std::string& declName) const { if (segAddress == 0) { declName = "NULL"; return true; } uint32_t address = Seg2Filespace(segAddress, baseAddress); Declaration* decl = GetDeclarationRanged(address); if (GETSEGNUM(segAddress) != segment || decl == nullptr || !decl->isArray) { declName = StringHelper::Sprintf("0x%08X", segAddress); return false; } if (expectedType != "" && expectedType != "void*") { if (expectedType != decl->varType && "static " + expectedType != decl->varType) { declName = StringHelper::Sprintf("0x%08X", segAddress); return false; } } if (decl->address == address) { declName = decl->varName; return true; } if ((address - decl->address) % elementSize != 0 || !(address < decl->address + decl->size)) { declName = StringHelper::Sprintf("0x%08X", segAddress); return false; } uint32_t index = (address - decl->address) / elementSize; declName = StringHelper::Sprintf("&%s[%u]", decl->varName.c_str(), index); return true; } Declaration* ZFile::GetDeclaration(uint32_t address) const { if (declarations.find(address) != declarations.end()) return declarations.at(address); return nullptr; } Declaration* ZFile::GetDeclarationRanged(uint32_t address) const { for (const auto decl : declarations) { if (address >= decl.first && address < decl.first + decl.second->size) return decl.second; } return nullptr; } bool ZFile::HasDeclaration(uint32_t address) { assert(GETSEGNUM(address) == 0); return declarations.find(address) != declarations.end(); } void ZFile::GenerateSourceFiles() { std::string sourceOutput; sourceOutput += "#include \"ultra64.h\"\n"; sourceOutput += "#include \"z64.h\"\n"; sourceOutput += "#include \"macros.h\"\n"; sourceOutput += GetHeaderInclude(); bool hasZRoom = false; for (const auto& res : resources) { ZResourceType resType = res->GetResourceType(); if (resType == ZResourceType::Room || resType == ZResourceType::Scene || resType == ZResourceType::AltHeader) { hasZRoom = true; break; } } if (hasZRoom) { sourceOutput += GetZRoomHeaderInclude(); } sourceOutput += GetExternalFileHeaderInclude(); GeneratePlaceholderDeclarations(); // Generate Code for (size_t i = 0; i < resources.size(); i++) { ZResource* res = resources.at(i); res->GetSourceOutputCode(name); } sourceOutput += ProcessDeclarations(); fs::path outPath = GetSourceOutputFolderPath() / outName.stem().concat(".c"); if (Globals::Instance->verbosity >= VerbosityLevel::VERBOSITY_INFO) printf("Writing C file: %s\n", outPath.c_str()); if (!Globals::Instance->otrMode) { OutputFormatter formatter; formatter.Write(sourceOutput); File::WriteAllText(outPath, formatter.GetOutput()); } GenerateSourceHeaderFiles(); } void ZFile::GenerateSourceHeaderFiles() { OutputFormatter formatter; formatter.Write("#pragma once\n\n"); formatter.Write("#include \"align_asset_macro.h\"\n"); std::set nameSet; for (ZResource* res : resources) { std::string resSrc = res->GetSourceOutputHeader("", &nameSet); if (!resSrc.empty()) { formatter.Write(resSrc.front() == '\n' ? resSrc : "\n" + resSrc); formatter.Write(res == resources.back() ? "" : "\n"); } } for (auto& sym : symbolResources) { formatter.Write("\n\n"); formatter.Write(sym.second->GetSourceOutputHeader("", &nameSet)); } formatter.Write(ProcessExterns()); fs::path headerFilename = GetSourceOutputFolderPath() / outName.stem().concat(".h"); if (Globals::Instance->verbosity >= VerbosityLevel::VERBOSITY_INFO) printf("Writing H file: %s\n", headerFilename.c_str()); std::string output = formatter.GetOutput(); while (output.back() == '\n') output.pop_back(); if (Globals::Instance->fileMode != ZFileMode::ExtractDirectory) File::WriteAllText(headerFilename, output); else if (Globals::Instance->sourceOutputPath != "") { std::string xmlPath = xmlFilePath.string(); xmlPath = StringHelper::Replace(xmlPath, "\\", "/"); auto pathList = StringHelper::Split(xmlPath, "/"); std::string outPath = ""; for (int i = 0; i < 3; i++) outPath += pathList[i] + "/"; for (int i = 5; i < pathList.size(); i++) { if (i == pathList.size() - 1) { outPath += Path::GetFileNameWithoutExtension(pathList[i]) + "/"; outPath += outName.string() + ".h"; } else outPath += pathList[i]; if (i < pathList.size() - 1) outPath += "/"; } File::WriteAllText(outPath, output); } } std::string ZFile::GetHeaderInclude() const { std::string headers = StringHelper::Sprintf("#include \"%s.h\"\n", (outName.parent_path() / outName.stem()).string().c_str()); return headers; } std::string ZFile::GetZRoomHeaderInclude() const { std::string headers; headers += "#include \"segment_symbols.h\"\n"; headers += "#include \"command_macros_base.h\"\n"; headers += "#include \"z64cutscene_commands.h\"\n"; headers += "#include \"variables.h\"\n"; return headers; } std::string ZFile::GetExternalFileHeaderInclude() const { std::string externalFilesIncludes = ""; for (ZFile* externalFile : Globals::Instance->files) { if (externalFile != this) { fs::path outputFolderPath = externalFile->GetSourceOutputFolderPath(); if (outputFolderPath == this->GetSourceOutputFolderPath()) { outputFolderPath = externalFile->outName.stem(); } else { outputFolderPath /= externalFile->outName.stem(); } externalFilesIncludes += StringHelper::Sprintf("#include \"%s.h\"\n", outputFolderPath.string().c_str()); } } return externalFilesIncludes; } void ZFile::GeneratePlaceholderDeclarations() { // Generate placeholder declarations for (ZResource* res : resources) { if (GetDeclaration(res->GetRawDataIndex()) != nullptr) { continue; } Declaration* decl = res->DeclareVar(GetName(), ""); if (decl != nullptr) { decl->staticConf = res->GetStaticConf(); if (res->GetResourceType() == ZResourceType::Symbol) { decl->staticConf = StaticConfig::Off; } } } } void ZFile::AddTextureResource(uint32_t offset, ZTexture* tex) { for (auto res : resources) assert(res->GetRawDataIndex() != offset); resources.push_back(tex); texturesResources[offset] = tex; } ZTexture* ZFile::GetTextureResource(uint32_t offset) const { auto tex = texturesResources.find(offset); if (tex != texturesResources.end()) return tex->second; return nullptr; } void ZFile::AddSymbolResource(uint32_t offset, ZSymbol* sym) { symbolResources[offset] = sym; } ZSymbol* ZFile::GetSymbolResource(uint32_t offset) const { auto sym = symbolResources.find(offset); if (sym != symbolResources.end()) return sym->second; return nullptr; } ZSymbol* ZFile::GetSymbolResourceRanged(uint32_t offset) const { for (const auto decl : symbolResources) { if (offset >= decl.first && offset < decl.first + decl.second->GetRawDataSize()) return decl.second; } return nullptr; } fs::path ZFile::GetSourceOutputFolderPath() const { return outputPath / outName.parent_path(); } bool ZFile::IsOffsetInFileRange(uint32_t offset) const { if (!(offset < rawData.size())) return false; return rangeStart <= offset && offset < rangeEnd; } bool ZFile::IsSegmentedInFilespaceRange(segptr_t segAddress) const { uint8_t segnum = GETSEGNUM(segAddress); uint32_t offset = Seg2Filespace(segAddress, baseAddress); if (segment != segnum) return false; return IsOffsetInFileRange(offset); } std::map* ZFile::GetNodeMap() { static std::map nodeMap; return &nodeMap; } void ZFile::RegisterNode(std::string nodeName, ZResourceFactoryFunc* nodeFunc) { std::map* nodeMap = GetNodeMap(); (*nodeMap)[nodeName] = nodeFunc; } std::string ZFile::ProcessDeclarations() { std::string output; if (declarations.size() == 0) return output; defines += ProcessTextureIntersections(name); // printf("RANGE START: 0x%06X - RANGE END: 0x%06X\n", rangeStart, rangeEnd); // Optimization: See if there are any arrays side by side that can be merged... std::vector> declarationKeys(declarations.begin(), declarations.end()); std::pair lastItem = declarationKeys.at(0); for (size_t i = 1; i < declarationKeys.size(); i++) { std::pair curItem = declarationKeys[i]; if (curItem.second->isArray && lastItem.second->isArray) { if (curItem.second->varType == lastItem.second->varType) { if (!curItem.second->declaredInXml && !lastItem.second->declaredInXml) { // TEST: For now just do Vtx declarations... if (lastItem.second->varType == "Vtx") { int32_t sizeDiff = curItem.first - (lastItem.first + lastItem.second->size); // Make sure there isn't an unaccounted inbetween these two if (sizeDiff == 0) { lastItem.second->size += curItem.second->size; lastItem.second->arrayItemCnt += curItem.second->arrayItemCnt; lastItem.second->text += "\n" + curItem.second->text; for (auto vtx : curItem.second->vertexHack) lastItem.second->vertexHack.push_back(vtx); declarations.erase(curItem.first); declarationKeys.erase(declarationKeys.begin() + i); delete curItem.second; i--; continue; } } } } } lastItem = curItem; } for (std::pair item : declarations) ProcessDeclarationText(item.second); for (std::pair item : declarations) { while (item.second->size % 4 != 0) item.second->size++; } HandleUnaccountedData(); // Go through include declarations // First, handle the prototypes (static only for now) for (std::pair item : declarations) { output += item.second->GetStaticForwardDeclarationStr(); } output += "\n"; // Next, output the actual declarations for (const auto& item : declarations) { if (!IsOffsetInFileRange(item.first)) continue; if (item.second->includePath != "") { if (item.second->isExternal) { if (!Globals::Instance->otrMode) { // HACK std::string extType; if (item.second->varType == "Gfx") extType = "dlist"; else if (item.second->varType == "Vtx") extType = "vtx"; auto filepath = outputPath / item.second->varName; File::WriteAllText( StringHelper::Sprintf("%s.%s.inc", filepath.string().c_str(), extType.c_str()), item.second->text); } } output += item.second->GetExternalDeclarationStr(); } else if (item.second->varType != "") { output += item.second->GetNormalDeclarationStr(); } } return output; } void ZFile::ProcessDeclarationText(Declaration* decl) { size_t refIndex = 0; if (!(decl->references.size() > 0)) return; for (size_t i = 0; i < decl->text.size() - 1; i++) { char c = decl->text[i]; char c2 = decl->text[i + 1]; if (c == '@' && c2 == 'r') { std::string vtxName; Globals::Instance->GetSegmentedArrayIndexedName(decl->references[refIndex], 0x10, this, "Vtx", vtxName, workerID); decl->text.replace(i, 2, vtxName); refIndex++; if (refIndex >= decl->references.size()) break; } } } std::string ZFile::ProcessExterns() { std::string output; for (const auto& item : declarations) { if (!IsOffsetInFileRange(item.first)) { continue; } output += item.second->GetExternStr(); } output += "\n"; output += defines; return output; } std::string ZFile::ProcessTextureIntersections([[maybe_unused]] const std::string& prefix) { if (texturesResources.empty()) return ""; std::string defines; std::vector> texturesSorted(texturesResources.begin(), texturesResources.end()); for (size_t i = 0; i < texturesSorted.size() - 1; i++) { uint32_t currentOffset = texturesSorted[i].first; uint32_t nextOffset = texturesSorted[i + 1].first; auto& currentTex = texturesResources.at(currentOffset); int texSize = currentTex->GetRawDataSize(); if (currentTex->WasDeclaredInXml()) { // We believe the user is right. continue; } if ((currentOffset + texSize) > nextOffset) { uint32_t offsetDiff = nextOffset - currentOffset; if (currentTex->isPalette) { // Shrink palette so it doesn't overlap currentTex->SetDimensions(offsetDiff / currentTex->GetPixelMultiplyer(), 1); if (declarations.find(currentOffset) != declarations.end()) declarations.at(currentOffset)->size = currentTex->GetRawDataSize(); currentTex->DeclareVar(GetName(), ""); } else { std::string texName; std::string texNextName; GetDeclarationPtrName(currentOffset, "", texName); Declaration* nextDecl = GetDeclaration(nextOffset); if (nextDecl == nullptr) texNextName = texturesResources.at(nextOffset)->GetName(); else texNextName = nextDecl->varName; #if 0 defines += StringHelper::Sprintf("#define %s ((u32)%s + 0x%06X)\n", texNextName.c_str(), texName.c_str(), offsetDiff); #endif delete declarations[nextOffset]; declarations.erase(nextOffset); texturesResources.erase(nextOffset); texturesSorted.erase(texturesSorted.begin() + i + 1); i--; } } } return defines; } void ZFile::HandleUnaccountedData() { uint32_t lastAddr = 0; uint32_t lastSize = 0; std::vector declsAddresses; if (Globals::Instance->otrMode) return; for (const auto& item : declarations) { declsAddresses.push_back(item.first); } bool breakLoop = false; for (offset_t currentAddress : declsAddresses) { if (currentAddress >= rangeEnd) { breakLoop = true; break; } if (currentAddress < rangeStart) { lastAddr = currentAddress; continue; } breakLoop = HandleUnaccountedAddress(currentAddress, lastAddr, lastSize); if (breakLoop) break; lastAddr = currentAddress; } if (!breakLoop) { // TODO: change rawData.size() to rangeEnd // HandleUnaccountedAddress(rangeEnd, lastAddr, lastSize); HandleUnaccountedAddress(rawData.size(), lastAddr, lastSize); } } bool ZFile::HandleUnaccountedAddress(offset_t currentAddress, offset_t lastAddr, uint32_t& lastSize) { if (currentAddress != lastAddr && declarations.find(lastAddr) != declarations.end()) { Declaration* lastDecl = declarations.at(lastAddr); lastSize = lastDecl->size; if (lastAddr + lastSize > currentAddress) { Declaration* currentDecl = declarations.at(currentAddress); std::string intersectionInfo = StringHelper::Sprintf( "Resource from 0x%06X:0x%06X (%s) conflicts with 0x%06X (%s).", lastAddr, lastAddr + lastSize, lastDecl->varName.c_str(), currentAddress, currentDecl->varName.c_str()); HANDLE_WARNING_RESOURCE(WarningType::Intersection, this, nullptr, currentAddress, "intersection detected", intersectionInfo); } } uint32_t unaccountedAddress = lastAddr + lastSize; if (unaccountedAddress != currentAddress && lastAddr >= rangeStart && unaccountedAddress < rangeEnd) { int diff = currentAddress - unaccountedAddress; bool nonZeroUnaccounted = false; std::string src = " "; if (currentAddress > rawData.size()) { throw std::runtime_error(StringHelper::Sprintf( "ZFile::ProcessDeclarations(): Fatal error while processing XML '%s'.\n" "\t Offset '0x%X' is outside of the limits of file '%s', which has a size of " "'0x%X'.\n" "\t Aborting...", xmlFilePath.c_str(), currentAddress, name.c_str(), rawData.size())); } // Handle Align8 if (currentAddress % 8 == 0 && diff % 8 != 0) { Declaration* currentDecl = GetDeclaration(currentAddress); if (currentDecl != nullptr) { if (currentDecl->alignment == DeclarationAlignment::Align8) { // Check removed bytes are zeroes if (BitConverter::ToUInt32BE(rawData, unaccountedAddress + diff - 4) == 0) { diff -= 4; } } if (diff == 0) { return false; } } } for (int i = 0; i < diff; i++) { uint8_t val = rawData.at(unaccountedAddress + i); src += StringHelper::Sprintf("0x%02X, ", val); if (val != 0x00) { nonZeroUnaccounted = true; } if (Globals::Instance->verboseUnaccounted) { if ((i % 4 == 3)) { src += StringHelper::Sprintf(" // 0x%06X", unaccountedAddress + i - 3); if (i != (diff - 1)) { src += "\n\t"; } } } else { if ((i % 16 == 15) && (i != (diff - 1))) src += "\n "; } } if (declarations.find(unaccountedAddress) == declarations.end() && diff > 0) { std::string unaccountedPrefix = "unaccounted"; if (diff < 16 && !nonZeroUnaccounted) { unaccountedPrefix = "possiblePadding"; // Strip unnecessary padding at the end of the file. if (unaccountedAddress + diff >= rawData.size()) return true; } Declaration* decl = AddDeclarationArray( unaccountedAddress, DeclarationAlignment::Align4, diff, "u8", StringHelper::Sprintf("%s_%s_%06X", name.c_str(), unaccountedPrefix.c_str(), unaccountedAddress), diff, src); decl->isUnaccounted = true; if (Globals::Instance->forceUnaccountedStatic) decl->staticConf = StaticConfig::On; if (nonZeroUnaccounted) { HANDLE_WARNING_RESOURCE(WarningType::Unaccounted, this, nullptr, unaccountedAddress, "a non-zero unaccounted block was found", StringHelper::Sprintf("Block size: '0x%X'", diff)); } else if (diff >= 16) { HANDLE_WARNING_RESOURCE(WarningType::Unaccounted, this, nullptr, unaccountedAddress, "a big (size>=0x10) zero-only unaccounted block was found", StringHelper::Sprintf("Block size: '0x%X'", diff)); } } } return false; }