libcmo21/LibCmo/CK2/CKFileReader.cpp

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#include "CKFile.hpp"
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#include "CKStateChunk.hpp"
#include "ObjImpls/CKObject.hpp"
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#include "../VxMath/VxMemoryMappedFile.hpp"
#include "CKContext.hpp"
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#include <memory>
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namespace LibCmo::CK2 {
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/*
* NOTE:
* We onlt support read Virtools file with FileVersion >= 7.
* The file with FileVersion < 7 is older than NeMo 1.0 (CK 1.1).
* No need to support them.
*/
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CKERROR CKFileReader::ShallowLoad(CKSTRING u8_filename) {
// check document status
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if (this->m_Done) CKERROR::CKERR_CANCELLED;
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// check file and open memory
if (u8_filename == nullptr) return CKERROR::CKERR_INVALIDPARAMETER;
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std::unique_ptr<VxMath::VxMemoryMappedFile> mappedFile(new VxMath::VxMemoryMappedFile(u8_filename));
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if (!mappedFile->IsValid()) {
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this->m_Ctx->OutputToConsoleEx("Fail to create Memory File for \"%s\".", u8_filename);
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return CKERROR::CKERR_INVALIDFILE;
}
// create buffer and start loading
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std::unique_ptr<CKBufferParser> parser(new CKBufferParser(mappedFile->GetBase(), mappedFile->GetFileSize(), false));
CKERROR err = this->ReadFileHeader(parser.get());
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if (err != CKERROR::CKERR_OK) return err;
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err = this->ReadFileData(parser.get());
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if (err != CKERROR::CKERR_OK) return err;
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// other data will be free automatically
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return CKERROR::CKERR_OK;
}
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CKERROR CKFileReader::ReadFileHeader(CKBufferParser* ParserPtr) {
std::unique_ptr<CKBufferParser> parser(new CKBufferParser(ParserPtr->GetBase(), ParserPtr->GetSize(), false));
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parser->SetCursor(ParserPtr->GetCursor());
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std::string name_conv, name_dest;
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// ========== read header ==========
// check header size
if (parser->GetSize() < CKSizeof(CKRawFileInfo)) return CKERROR::CKERR_INVALIDFILE;
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if (std::memcmp(parser->GetPtr(), CKNEMOFI, sizeof(CKRawFileInfo::NeMo))) return CKERROR::CKERR_INVALIDFILE;
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// read header
CKRawFileInfo rawHeader;
parser->Read(&rawHeader, sizeof(CKRawFileInfo));
// ========== header checker ==========
// check zero flag?
if (rawHeader.Zero) return CKERROR::CKERR_INVALIDFILE;
// check file version
if (rawHeader.FileVersion > 9 || rawHeader.FileVersion < 7) return CKERROR::CKERR_OBSOLETEVIRTOOLS;
// force reset too big product ver?
if (rawHeader.ProductVersion >= 12u) {
rawHeader.ProductVersion = 0u;
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rawHeader.ProductBuild = 0x01010000u;
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}
// ========== assign value ==========
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this->m_FileInfo.ProductVersion = rawHeader.ProductVersion;
this->m_FileInfo.ProductBuild = rawHeader.ProductBuild;
this->m_FileInfo.FileWriteMode = static_cast<CK_FILE_WRITEMODE>(rawHeader.FileWriteMode);
this->m_FileInfo.CKVersion = rawHeader.CKVersion;
this->m_FileInfo.FileVersion = rawHeader.FileVersion;
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this->m_FileInfo.FileSize = parser->GetSize();
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this->m_FileInfo.ManagerCount = rawHeader.ManagerCount;
this->m_FileInfo.ObjectCount = rawHeader.ObjectCount;
this->m_FileInfo.MaxIDSaved = rawHeader.MaxIDSaved;
this->m_FileInfo.Hdr1PackSize = rawHeader.FileVersion >= 8 ? rawHeader.Hdr1PackSize : 0u;
this->m_FileInfo.Hdr1UnPackSize = rawHeader.FileVersion >= 8 ? rawHeader.Hdr1UnPackSize : 0u;
this->m_FileInfo.DataPackSize = rawHeader.DataPackSize;
this->m_FileInfo.DataUnPackSize = rawHeader.DataUnPackSize;
this->m_FileInfo.Crc = rawHeader.Crc;
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// ========== crc and body unpacker ==========
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if (this->m_FileInfo.FileVersion >= 8) {
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// crc checker for file ver >= 8
// reset crc field of header
rawHeader.Crc = 0u;
// compute crc
CKDWORD gotten_crc = CKComputeDataCRC(&rawHeader, CKSizeof(CKRawFileInfo), 0u);
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parser->SetCursor(sizeof(CKRawFileInfo));
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gotten_crc = CKComputeDataCRC(parser->GetPtr(), this->m_FileInfo.Hdr1PackSize, gotten_crc);
parser->MoveCursor(this->m_FileInfo.Hdr1PackSize);
gotten_crc = CKComputeDataCRC(parser->GetPtr(), this->m_FileInfo.DataPackSize, gotten_crc);
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if (gotten_crc != this->m_FileInfo.Crc) {
this->m_Ctx->OutputToConsole("Virtools file CRC error.");
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return CKERROR::CKERR_FILECRCERROR;
}
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// reset cursor
parser->SetCursor(sizeof(CKRawFileInfo));
// compare size to decide wheher use compress feature
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if (this->m_FileInfo.Hdr1PackSize != this->m_FileInfo.Hdr1UnPackSize) {
void* decomp_buffer = CKUnPackData(this->m_FileInfo.Hdr1UnPackSize, parser->GetPtr(), this->m_FileInfo.Hdr1PackSize);
if (decomp_buffer != nullptr) {
parser = std::unique_ptr<CKBufferParser>(new CKBufferParser(decomp_buffer, this->m_FileInfo.Hdr1UnPackSize, true));
}
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}
}
// ========== object list read ==========
// file ver >= 7 have this features
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{
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// apply max id saved
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this->m_SaveIDMax = this->m_FileInfo.MaxIDSaved;
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// resize
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this->m_FileObjects.resize(this->m_FileInfo.ObjectCount);
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// read data
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for (auto& fileobj : this->m_FileObjects) {
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// read basic fields
parser->Read(&(fileobj.ObjectId), sizeof(CK_ID));
parser->Read(&(fileobj.ObjectCid), sizeof(CK_CLASSID));
parser->Read(&(fileobj.FileIndex), sizeof(CKDWORD));
CKDWORD namelen;
parser->Read(&namelen, sizeof(CKDWORD));
if (namelen != 0) {
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name_conv.resize(namelen);
parser->Read(name_conv.data(), namelen);
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m_Ctx->GetUtf8String(name_conv, name_dest);
fileobj.Name = name_dest;
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}
}
}
// ========== dep list read ==========
// file ver >= 8 have this feature
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if (this->m_FileInfo.FileVersion >= 8) {
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// get size and resize
CKDWORD depSize;
parser->Read(&depSize, sizeof(CKDWORD));
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this->m_PluginsDep.resize(depSize);
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CKDWORD guid_size;
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for (auto& dep : this->m_PluginsDep) {
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// read category
parser->Read(&(dep.m_PluginCategory), sizeof(CK_PLUGIN_TYPE));
// get size and resize
parser->Read(&guid_size, sizeof(CKDWORD));
dep.m_Guids.resize(guid_size);
// read data
if (guid_size != 0) {
parser->Read(dep.m_Guids.data(), sizeof(CKGUID) * guid_size);
}
}
}
// ========== included file list read ==========
// file ver >= 8 have this feature
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if (this->m_FileInfo.FileVersion >= 8) {
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// MARK: i don't knwo what is this!
int32_t hasIncludedFile;
parser->Read(&hasIncludedFile, sizeof(int32_t));
if (hasIncludedFile > 0) {
// read included file size and resize
CKDWORD includedFileCount;
parser->Read(&includedFileCount, sizeof(CKDWORD));
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this->m_IncludedFiles.resize(includedFileCount);
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hasIncludedFile -= static_cast<int32_t>(sizeof(CKDWORD));
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}
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// MARK: backward pos
// backward with 0?
parser->MoveCursor(hasIncludedFile);
}
// ========== sync main parser ==========
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if (this->m_FileInfo.FileVersion >= 8) {
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// file ver >= 8, use header offset
// because it have compress feature
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ParserPtr->SetCursor(this->m_FileInfo.Hdr1PackSize + sizeof(CKRawFileInfo));
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} else {
// otherwise, sync with current parser.
ParserPtr->SetCursor(parser->GetCursor());
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}
return CKERROR::CKERR_OK;
}
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CKERROR CKFileReader::ReadFileData(CKBufferParser* ParserPtr) {
std::unique_ptr<CKBufferParser> parser(new CKBufferParser(ParserPtr->GetBase(), ParserPtr->GetSize(), false));
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parser->SetCursor(ParserPtr->GetCursor());
std::string name_conv;
// ========== compress feature process ==========
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if (EnumsHelper::Has(this->m_FileInfo.FileWriteMode, CK_FILE_WRITEMODE::CKFILE_CHUNKCOMPRESSED_OLD) ||
EnumsHelper::Has(this->m_FileInfo.FileWriteMode, CK_FILE_WRITEMODE::CKFILE_WHOLECOMPRESSED)) {
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void* decomp_buffer = CKUnPackData(this->m_FileInfo.DataUnPackSize, parser->GetPtr(), this->m_FileInfo.DataPackSize);
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if (decomp_buffer != nullptr) {
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parser = std::unique_ptr<CKBufferParser>(new CKBufferParser(decomp_buffer, this->m_FileInfo.DataUnPackSize, true));
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}
}
// ========== old file crc and obj list read ==========
// only file ver < 8 run this
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if (this->m_FileInfo.FileVersion < 8) {
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// check crc
CKDWORD gotten_crc = CKComputeDataCRC(
parser->GetPtr(),
parser->GetSize() - parser->GetCursor(),
0u
);
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if (gotten_crc != this->m_FileInfo.Crc) {
this->m_Ctx->OutputToConsole("Virtools file CRC error.");
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return CKERROR::CKERR_FILECRCERROR;
}
// MARK: why read again? especially for file ver == 7.
// get save id max
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parser->Read(&this->m_SaveIDMax, sizeof(int32_t));
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// get object count and resize
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parser->Read(&this->m_FileInfo.ObjectCount, sizeof(CKDWORD));
if (this->m_FileObjects.empty()) {
this->m_FileObjects.resize(this->m_FileInfo.ObjectCount);
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}
}
// ========== manager read ==========
// only file ver >= 6 have this
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if (this->m_FileInfo.ManagerCount != 0) {
this->m_ManagersData.resize(this->m_FileInfo.ManagerCount);
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CKDWORD stateChunkLen = 0u;
bool stateChkParseSuccess = false;
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for (auto& mgr : this->m_ManagersData) {
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// read guid
parser->Read(&(mgr.Manager), sizeof(CKGUID));
// read statechunk len
parser->Read(&stateChunkLen, sizeof(CKDWORD));
// check len
if (stateChunkLen == 0) {
mgr.Data = nullptr;
continue;
}
// read statechunk
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mgr.Data = new CKStateChunk(&this->m_Visitor, this->m_Ctx);
stateChkParseSuccess = mgr.Data->ConvertFromBuffer(parser->GetPtr());
if (!stateChkParseSuccess) {
delete mgr.Data;
mgr.Data = nullptr;
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}
parser->MoveCursor(stateChunkLen);
}
}
// ========== object read ==========
// only works file version >= 4. < 4 section has been removed.
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if (this->m_FileInfo.ObjectCount != 0) {
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// new file reader section
bool stateChkParseSuccess = false;
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for (auto& obj : this->m_FileObjects) {
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// get statechunk len
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parser->Read(&obj.PackSize, sizeof(CKDWORD));
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// check state chunk len
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if (obj.PackSize == 0) {
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obj.Data = nullptr;
continue;
}
// read state chunk
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obj.Data = new CKStateChunk(&this->m_Visitor, this->m_Ctx);
stateChkParseSuccess = obj.Data->ConvertFromBuffer(parser->GetPtr());
if (!stateChkParseSuccess) {
delete obj.Data;
obj.Data = nullptr;
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}
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parser->MoveCursor(obj.PackSize);
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}
}
// ========== included file get ==========
// before reading, we need switch back to original parser.
// and skip data chunk size
parser = std::unique_ptr<CKBufferParser>(new CKBufferParser(ParserPtr->GetBase(), ParserPtr->GetSize(), false));
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parser->SetCursor(ParserPtr->GetCursor());
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parser->MoveCursor(this->m_FileInfo.DataPackSize);
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// then we can read it.
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if (this->m_IncludedFiles.size() != 0) {
for (auto& file : this->m_IncludedFiles) {
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// get file name length and resize it
CKDWORD filenamelen = 0u;
parser->Read(&filenamelen, sizeof(CKDWORD));
name_conv.resize(filenamelen);
// read filename
if (filenamelen != 0) {
parser->Read(name_conv.data(), filenamelen);
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m_Ctx->GetUtf8String(name_conv, file);
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}
// read file body length
CKDWORD filebodylen = 0u;
parser->Read(&filebodylen, sizeof(CKDWORD));
// read file body
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std::string tempfilename = m_Ctx->GetTempFilePath(file.c_str());
FILE* fp = EncodingHelper::U8FOpen(tempfilename.c_str(), "wb");
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if (fp != nullptr) {
std::fwrite(parser->GetPtr(), sizeof(char), filebodylen, fp);
std::fclose(fp);
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} else {
m_Ctx->OutputToConsoleEx("Fail to open temp file: %s", tempfilename.c_str());
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}
// move to next
parser->MoveCursor(filebodylen);
}
}
return CKERROR::CKERR_OK;
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}
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CKERROR CKFileReader::DeepLoad(CKSTRING u8_filename) {
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// check document status
if (this->m_Done) CKERROR::CKERR_CANCELLED;
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// ========== prepare work ==========
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CKERROR err = CKERROR::CKERR_OK;
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// get shallow document first
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err = this->ShallowLoad(u8_filename);
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if (err != CKERROR::CKERR_OK) return err;
// ========== create object first ==========
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for (auto& obj : this->m_FileObjects) {
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// todo: skip CK_LEVEL
// todo: resolve references
if (obj.Data == nullptr) continue;
// create object and assign created obj ckid
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obj.ObjPtr = m_Ctx->CreateObject(obj.ObjectCid, obj.Name.toCKSTRING());
if (obj.ObjPtr == nullptr) {
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obj.CreatedObjectId = 0u;
} else {
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obj.CreatedObjectId = obj.ObjPtr->GetID();
}
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}
// ========== CKStateChunk remap ==========
// todo: remap
// todo: CK_LEVEL special proc
// ========== consume Managers ==========
// todo...
// ========== analyze objects CKStateChunk ==========
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for (auto& obj : this->m_FileObjects) {
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if (obj.Data == nullptr || obj.ObjPtr == nullptr) continue;
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// todo: special treat for CK_LEVEL
// try parsing data
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obj.Data->StartRead();
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bool success = obj.ObjPtr->Load(obj.Data, &this->m_Visitor);
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obj.Data->StopRead();
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if (success) {
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// if success, clear CKStateChunk*
delete obj.Data;
obj.Data = nullptr;
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} else {
// if failed, delete it
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m_Ctx->DestroyObject(obj.ObjectId);
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obj.ObjPtr = nullptr;
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obj.CreatedObjectId = 0u;
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}
}
// ========== finalize work ==========
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return CKERROR::CKERR_OK;
}
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}