#include #include "StructFormatter.hpp" #include "AccessibleValue.hpp" #include "TerminalHelper.hpp" namespace Unvirt::StructFormatter { #pragma region Assist Functions #define PRIuSIZET "zu" static void PrintCKSTRING(LibCmo::CKSTRING name) { if (name == nullptr) { fputs(UNVIRT_TERMCOL_LIGHT_MAGENTA(("")), stdout); } else { if (name[0] == '\0') { fputs(UNVIRT_TERMCOL_LIGHT_MAGENTA(("")), stdout); } else { fputs(name, stdout); } } } static void PrintPointer(const void* ptr) { if (ptr == nullptr) { fputs(UNVIRT_TERMCOL_LIGHT_CYAN(("")), stdout); } else { #if UINTPTR_MAX == UINT32_MAX // 32 bit. padding 8 zero fprintf(stdout, "<0x%08" PRIxPTR ">", reinterpret_cast(ptr)); #else // 64 bit. padding 16 zero fprintf(stdout, "<0x%016" PRIxPTR ">", reinterpret_cast(ptr)); #endif } } static void PrintCKGUID(const LibCmo::CK2::CKGUID& guid) { fprintf(stdout, "<0x%08" PRIxCKDWORD ", 0x%08" PRIxCKDWORD ">", guid.d1, guid.d2); } template static void GeneralPrintList( const std::vector<_Ty>& data, size_t page, size_t pageitems, std::function printHdrFct, std::function printEntryFct) { size_t fulllen = data.size(), startpos = page * pageitems, fullpage = fulllen / pageitems; // print header printHdrFct(); // print body for (size_t counter = startpos; counter < fulllen && (counter - startpos) < pageitems; ++counter) { printEntryFct(counter, data[counter]); } fprintf(stdout, "Page %" PRIuSIZET " of %" PRIuSIZET "\n", page + 1, fullpage + 1); } #pragma endregion #pragma region Object Printer static void PrintCKObjectDetail(LibCmo::CK2::ObjImpls::CKObject* obj) { fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKObject\n")), stdout); fputs(UNVIRT_TERMCOL_LIGHT_RED(("No Data\n")), stdout); } static void PrintCKSceneObjectDetail(LibCmo::CK2::ObjImpls::CKSceneObject* obj) { PrintCKObjectDetail(obj); fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKSceneObject\n")), stdout); fputs(UNVIRT_TERMCOL_LIGHT_RED(("No Data\n")), stdout); } static void PrintCKBeObjectDetail(LibCmo::CK2::ObjImpls::CKBeObject* obj) { PrintCKSceneObjectDetail(obj); fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKBeObject\n")), stdout); fputs(UNVIRT_TERMCOL_LIGHT_RED(("No Data\n")), stdout); } static void PrintCKGroupDetail(LibCmo::CK2::ObjImpls::CKGroup* obj) { PrintCKBeObjectDetail(obj); fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKGroup\n")), stdout); fputs(UNVIRT_TERMCOL_LIGHT_RED(("No Data\n")), stdout); } static void PrintCKRenderObjectDetail(LibCmo::CK2::ObjImpls::CKRenderObject* obj) { PrintCKBeObjectDetail(obj); fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKRenderObject\n")), stdout); fputs(UNVIRT_TERMCOL_LIGHT_RED(("No Data\n")), stdout); } static void PrintCK3dEntityDetail(LibCmo::CK2::ObjImpls::CK3dEntity* obj) { PrintCKRenderObjectDetail(obj); fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CK3dEntity\n")), stdout); fputs(UNVIRT_TERMCOL_LIGHT_RED(("No Data\n")), stdout); } static void PrintCK3dObjectDetail(LibCmo::CK2::ObjImpls::CK3dObject* obj) { PrintCK3dEntityDetail(obj); fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CK3dObject\n")), stdout); fputs(UNVIRT_TERMCOL_LIGHT_RED(("No Data\n")), stdout); } static void PrintCKTextureDetail(LibCmo::CK2::ObjImpls::CKTexture* obj) { PrintCKBeObjectDetail(obj); fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKTexture\n")), stdout); fputs(UNVIRT_TERMCOL_LIGHT_RED(("No Data\n")), stdout); } static void PrintCKMaterialDetail(LibCmo::CK2::ObjImpls::CKMaterial* obj) { PrintCKBeObjectDetail(obj); fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKMaterial\n")), stdout); fputs(UNVIRT_TERMCOL_LIGHT_RED(("No Data\n")), stdout); } static void PrintCKMeshDetail(LibCmo::CK2::ObjImpls::CKMesh* obj) { PrintCKBeObjectDetail(obj); fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKMesh\n")), stdout); fputs("Vertex:\n", stdout); fprintf(stdout, "Vertex Count: %" PRIuCKDWORD "\n", obj->GetVertexCount()); fputs("VertexPositions: ", stdout); PrintPointer(obj->GetVertexPositions()); fputc('\n', stdout); fputs("VertexNormals: ", stdout); PrintPointer(obj->GetVertexNormals()); fputc('\n', stdout); fputs("VertexUVs: ", stdout); PrintPointer(obj->GetVertexUVs()); fputc('\n', stdout); fputs("VertexColors: ", stdout); PrintPointer(obj->GetVertexColors()); fputc('\n', stdout); fputs("VertexSpecularColors: ", stdout); PrintPointer(obj->GetVertexSpecularColors()); fputc('\n', stdout); fputs("VertexWeights: ", stdout); PrintPointer(obj->GetVertexWeights()); fputc('\n', stdout); fputs("Face:\n", stdout); fprintf(stdout, "Face Count: %" PRIuCKDWORD "\n", obj->GetFaceCount()); fputs("FaceIndices: ", stdout); PrintPointer(obj->GetFaceIndices()); fputc('\n', stdout); fputs("FaceMaterialSlotIndexs: ", stdout); PrintPointer(obj->GetFaceMaterialSlotIndexs()); fputc('\n', stdout); } #pragma endregion void PrintCKFileInfo(const LibCmo::CK2::CKFileInfo& fileinfo) { fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKFileInfo\n")), stdout); fprintf(stdout, "FileVersion: %" PRIuCKDWORD "\n", fileinfo.FileVersion); fprintf(stdout, "CKVersion: %02" PRIxCKDWORD "/%02" PRIxCKDWORD "/%04" PRIxCKDWORD "\n", (fileinfo.CKVersion >> 24) & 0xFF, (fileinfo.CKVersion >> 16) & 0xFF, (fileinfo.CKVersion >> 0) & 0xFFFF ); LibCmo::CKDWORD product_series[4] { (fileinfo.ProductBuild >> 24) & 0xFF, (fileinfo.ProductBuild >> 16) & 0xFF, (fileinfo.ProductBuild >> 8) & 0xFF, (fileinfo.ProductBuild >> 0) & 0xFF, }; fprintf(stdout, "Product (Version / Build): %" PRIuCKDWORD " / %" PRIuCKDWORD ".%" PRIuCKDWORD ".%" PRIuCKDWORD ".%" PRIuCKDWORD "\n", fileinfo.ProductVersion, product_series[0], product_series[1], product_series[2], product_series[3] ); fprintf(stdout, "Save Flags: %s\n", AccessibleValue::GetFlagEnumName( fileinfo.FileWriteMode, AccessibleValue::EnumDesc::CK_FILE_WRITEMODE ).c_str()); fprintf(stdout, "File Size: %s\n", AccessibleValue::GetReadableFileSize(fileinfo.FileSize).c_str()); fprintf(stdout, "Crc: 0x%" PRIxCKDWORD "\n", fileinfo.Crc); fputc('\n', stdout); fputs("Hdr1 (Pack / UnPack): ", stdout); fprintf(stdout, "%s / ", AccessibleValue::GetReadableFileSize(fileinfo.Hdr1PackSize).c_str()); fprintf(stdout, "%s\n", AccessibleValue::GetReadableFileSize(fileinfo.Hdr1UnPackSize).c_str()); fputs("Data (Pack / UnPack): ", stdout); fprintf(stdout, "%s / ", AccessibleValue::GetReadableFileSize(fileinfo.DataPackSize).c_str()); fprintf(stdout, "%s\n", AccessibleValue::GetReadableFileSize(fileinfo.DataUnPackSize).c_str()); fputc('\n', stdout); fprintf(stdout, "Manager Count: %" PRIuCKDWORD "\nObject Count: %" PRIuCKDWORD "\nMax ID Saved: %" PRIuCKDWORD "\n", fileinfo.ManagerCount, fileinfo.ObjectCount, fileinfo.MaxIDSaved ); } void PrintObjectList( const LibCmo::XContainer::XArray& ls, const LibCmo::CK2::CKFileInfo& fileinfo, size_t page, size_t pageitems) { fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKFileObject\n")), stdout); GeneralPrintList(ls, page, pageitems, []() -> void { fputs("SaveFlags\tOptions\tCK ID\tFile CK ID\tFile Index\tPack Size\tIndex\tType\tCKObject\tCKStateChunk\tName\n", stdout); }, [&fileinfo](size_t index, const LibCmo::CK2::CKFileObject& obj) -> void { fprintf(stdout, "0x%08" PRIxCKDWORD "\t", obj.SaveFlags); fputs(AccessibleValue::GetEnumName(obj.Options, AccessibleValue::EnumDesc::CK_FO_OPTIONS).c_str(), stdout); fputc('\t', stdout); fprintf(stdout, "%" PRIuCKID "\t", obj.CreatedObjectId); fprintf(stdout, "%" PRIuCKID "\t", obj.ObjectId); fprintf(stdout, "0x%08" PRIxCKDWORD " (Rel: 0x%08" PRIxCKDWORD ")\t", obj.FileIndex, obj.FileIndex - CKSizeof(LibCmo::CK2::CKRawFileInfo) - fileinfo.Hdr1UnPackSize); fprintf(stdout, "0x%08" PRIxCKDWORD "\t", obj.PackSize); fprintf(stdout, "#%" PRIuSIZET "\t", index); fputs(AccessibleValue::GetClassIdName(obj.ObjectCid).c_str(), stdout); fputc('\t', stdout); PrintPointer(obj.ObjPtr); fputc('\t', stdout); PrintPointer(obj.Data); fputc('\t', stdout); PrintCKSTRING(LibCmo::XContainer::NSXString::ToCKSTRING(obj.Name)); fputc('\n', stdout); } ); } void PrintManagerList( const LibCmo::XContainer::XArray& ls, size_t page, size_t pageitems) { fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKFileManager\n")), stdout); GeneralPrintList(ls, page, pageitems, []() -> void { // print header fputs("Index\tCKGUID\tCKStateChunk\n", stdout); }, [](size_t index, const LibCmo::CK2::CKFileManagerData& mgr) -> void { // print body fprintf(stdout, "#%" PRIuSIZET "\t", index); PrintCKGUID(mgr.Manager); fputc('\t', stdout); PrintPointer(mgr.Data); fputc('\n', stdout); } ); } void PrintCKObject(const LibCmo::CK2::ObjImpls::CKObject* obj) { if (obj == nullptr) { fputs(UNVIRT_TERMCOL_LIGHT_RED(("Null Object\n")), stdout); return; } LibCmo::CK2::ObjImpls::CKObject* mobj = const_cast(obj); switch (mobj->GetClassID()) { case LibCmo::CK2::CK_CLASSID::CKCID_OBJECT: PrintCKObjectDetail(static_cast(mobj)); break; case LibCmo::CK2::CK_CLASSID::CKCID_SCENEOBJECT: PrintCKSceneObjectDetail(static_cast(mobj)); break; case LibCmo::CK2::CK_CLASSID::CKCID_BEOBJECT: PrintCKBeObjectDetail(static_cast(mobj)); break; case LibCmo::CK2::CK_CLASSID::CKCID_GROUP: PrintCKGroupDetail(static_cast(mobj)); break; case LibCmo::CK2::CK_CLASSID::CKCID_RENDEROBJECT: PrintCKRenderObjectDetail(static_cast(mobj)); break; case LibCmo::CK2::CK_CLASSID::CKCID_3DENTITY: PrintCK3dEntityDetail(static_cast(mobj)); break; case LibCmo::CK2::CK_CLASSID::CKCID_3DOBJECT: PrintCK3dObjectDetail(static_cast(mobj)); break; case LibCmo::CK2::CK_CLASSID::CKCID_TEXTURE: PrintCKTextureDetail(static_cast(mobj)); break; case LibCmo::CK2::CK_CLASSID::CKCID_MATERIAL: PrintCKMaterialDetail(static_cast(mobj)); break; case LibCmo::CK2::CK_CLASSID::CKCID_MESH: PrintCKMeshDetail(static_cast(mobj)); break; default: fputs(UNVIRT_TERMCOL_LIGHT_RED(("Not Implemented.\n")), stdout); break; } } void PrintCKBaseManager(const LibCmo::CK2::MgrImpls::CKBaseManager* mgr) { fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKBaseManager\n")), stdout); if (mgr == nullptr) { fputs(UNVIRT_TERMCOL_LIGHT_RED(("Null Manager\n")), stdout); return; } fputs(UNVIRT_TERMCOL_LIGHT_RED(("Not Implemented.\n")), stdout); } void PrintCKStateChunk(const LibCmo::CK2::CKStateChunk* chunk) { fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("CKStateChunk\n")), stdout); if (chunk == nullptr) { fputs(UNVIRT_TERMCOL_LIGHT_RED(("Null Chunk\n")), stdout); return; } // hack const state chunk LibCmo::CK2::CKStateChunk* operchunk = const_cast(chunk); // write profile const auto profile = operchunk->GetStateChunkProfile(); fputs("Type: ", stdout); fputs(AccessibleValue::GetClassIdName(profile.m_ClassId).c_str(), stdout); fputc('\n', stdout); fprintf(stdout, "Version (Data / Chunk): %" PRIuCKDWORD " (%s) / %" PRIuCKDWORD " (%s)\n", static_cast(profile.m_DataVersion), AccessibleValue::GetEnumName(profile.m_DataVersion, AccessibleValue::EnumDesc::CK_STATECHUNK_DATAVERSION).c_str(), static_cast(profile.m_ChunkVersion), AccessibleValue::GetEnumName(profile.m_ChunkVersion, AccessibleValue::EnumDesc::CK_STATECHUNK_CHUNKVERSION).c_str()); fprintf(stdout, "List (Object / Chunk / Manager): %" PRIuCKDWORD " / %" PRIuCKDWORD " / %" PRIuCKDWORD "\n", static_cast(profile.m_ObjectListSize), static_cast(profile.m_ChunkListSize), static_cast(profile.m_ManagerListSize)); fputs("Data: ", stdout); PrintPointer(profile.m_pData); fprintf(stdout, " (0x%" PRIxCKDWORD " DWORD)\n", profile.m_DataDwSize); fputs("Bind CKFile: ", stdout); PrintPointer(profile.m_BindFile); fputc('\n', stdout); fputs("Bind CKContext: ", stdout); PrintPointer(profile.m_BindContext); fputc('\n', stdout); // write identifiers operchunk->StartRead(); const auto collection = operchunk->GetIdentifiersProfile(); operchunk->StopRead(); fputs(UNVIRT_TERMCOL_LIGHT_YELLOW(("Identifiers\n")), stdout); fputs("Identifier\tData Pointer\tData Size\n", stdout); for (const auto& ident : collection) { fprintf(stdout, "0x%08" PRIxCKDWORD "\t", ident.m_Identifier); PrintPointer(ident.m_DataPtr); fputc('\t', stdout); fprintf(stdout, "%" PRIuCKDWORD " (%" PRIuCKDWORD " DWORD + %" PRIuCKDWORD ")\n", ident.m_AreaSize, ident.m_AreaSize / CKSizeof(LibCmo::CKDWORD), ident.m_AreaSize % CKSizeof(LibCmo::CKDWORD)); } } }