finish writing
This commit is contained in:
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bac9f2ae25
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f3e7cdf004
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@ -42,7 +42,8 @@ namespace LibCmo::CK2 {
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}
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LIBCMO_DISABLE_COPY_MOVE(CKBufferParser);
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const void* GetPtr(void) { return (this->m_MemBegin + m_MemPos); }
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const void* GetPtr(ptrdiff_t extraoff = 0) { return (this->m_MemBegin + m_MemPos + extraoff); }
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void* GetMutablePtr(ptrdiff_t extraoff = 0) { return (this->m_MemBegin + m_MemPos + extraoff); }
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void Read(void* data, size_t data_size) {
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std::memcpy(data, (this->m_MemBegin + m_MemPos), data_size);
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this->m_MemPos += data_size;
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@ -54,7 +55,7 @@ namespace LibCmo::CK2 {
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void* GetBase(void) { return this->m_MemBegin; }
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size_t GetSize(void) { return this->m_MemSize; }
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size_t GetCursor(void) { return this->m_MemPos; }
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void MoveCursor(size_t off) { this->m_MemPos += off; }
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void MoveCursor(ptrdiff_t off) { this->m_MemPos += off; }
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void SetCursor(size_t off) { this->m_MemPos = off; }
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};
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@ -239,7 +240,7 @@ namespace LibCmo::CK2 {
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XContainer::XArray<CKFileManagerData> m_ManagersData; /**< Manager Data loaded */
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XContainer::XArray<CKFilePluginDependencies> m_PluginsDep; /**< Plugins dependencies for this file */
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XContainer::XArray<XContainer::XString> m_IncludedFiles; /**< List of files that should be inserted in the CMO file. */
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//CKFileInfo m_FileInfo; /**< Headers summary */
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CKFileInfo m_FileInfo; /**< Headers summary */
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CKERROR PrepareFile(CKSTRING filename);
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@ -164,14 +164,16 @@ namespace LibCmo::CK2 {
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m_Ctx(ctx), m_Visitor(this),
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m_Done(false), m_IsCopyFromReader(false),
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m_SaveIDMax(0),
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m_FileObjects(), m_ManagersData(), m_PluginsDep(), m_IncludedFiles()
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m_FileObjects(), m_ManagersData(), m_PluginsDep(), m_IncludedFiles(),
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m_FileInfo()
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{}
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CKFileWriter::CKFileWriter(CKContext* ctx, CKFileReader* reader) :
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m_Ctx(ctx), m_Visitor(this),
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m_Done(false), m_IsCopyFromReader(true),
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m_SaveIDMax(0),
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m_FileObjects(), m_ManagersData(), m_PluginsDep(), m_IncludedFiles()
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m_FileObjects(), m_ManagersData(), m_PluginsDep(), m_IncludedFiles(),
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m_FileInfo()
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{
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// sync save id max
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this->m_SaveIDMax = reader->GetSaveIdMax();
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@ -100,9 +100,11 @@ namespace LibCmo::CK2 {
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parser->SetCursor(sizeof(CKRawFileInfo));
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// compare size to decide wheher use compress feature
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void* decomp_buffer = CKUnPackData(this->m_FileInfo.Hdr1UnPackSize, parser->GetPtr(), this->m_FileInfo.Hdr1PackSize);
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if (decomp_buffer != nullptr) {
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parser = std::unique_ptr<CKBufferParser>(new CKBufferParser(decomp_buffer, this->m_FileInfo.Hdr1UnPackSize, true));
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if (this->m_FileInfo.Hdr1PackSize != this->m_FileInfo.Hdr1UnPackSize) {
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void* decomp_buffer = CKUnPackData(this->m_FileInfo.Hdr1UnPackSize, parser->GetPtr(), this->m_FileInfo.Hdr1PackSize);
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if (decomp_buffer != nullptr) {
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parser = std::unique_ptr<CKBufferParser>(new CKBufferParser(decomp_buffer, this->m_FileInfo.Hdr1UnPackSize, true));
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}
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}
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}
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@ -312,7 +314,7 @@ namespace LibCmo::CK2 {
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// read file body
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FILE* fp = m_Ctx->OpenTempFile(file.c_str(), "wb");
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if (fp != nullptr) {
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StreamHelper::CopyStream(parser->GetPtr(), fp, filebodylen);
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fwrite(parser->GetPtr(), sizeof(char), filebodylen, fp);
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fclose(fp);
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}
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@ -12,17 +12,20 @@ namespace LibCmo::CK2 {
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// check document status
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if (this->m_Done) CKERROR::CKERR_CANCELLED;
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// encoding conv helper
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std::string name_conv;
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// try detect filename legality
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CKERROR err = PrepareFile(u8_filename);
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if (err != CKERROR::CKERR_OK) return err;
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// ========== Prepare Stage ==========
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// todo: add TOBEDELETED flag for all Referenced objects's m_ObjectFlags
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// MARK: ignore the notification to all CKBehavior based objects.
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// ========== StateChunk convertion ==========
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// iterate all objects and transform it into CKStateChunk
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// MARK: Drop the support of collecting the sum of InterfaceChunk's size.
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// because it is useless.
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@ -128,18 +131,20 @@ namespace LibCmo::CK2 {
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// calc the remains
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for (size_t i = 1; i < m_FileObjects.size(); ++i) {
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// prev obj PackSize + prev obj FileIndex + prev obj chunk size
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m_FileObjects[i].FileIndex = m_FileObjects[i - 1].FileIndex + m_FileObjects[i - 1].PackSize + sizeof(CKDWORD);
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m_FileObjects[i].FileIndex = m_FileObjects[i - 1].FileIndex + m_FileObjects[i - 1].PackSize + sizeof(CKDWORD);
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}
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}
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// ========== Construct File Header ==========
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CK_FILE_WRITEMODE fileWriteMode = m_Ctx->GetFileWriteMode();
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CKRawFileInfo rawHeader;
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std::memcpy(&rawHeader.NeMo, CKNEMOFI, sizeof(CKRawFileInfo::NeMo));
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rawHeader.Crc = 0;
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rawHeader.Zero = 0;
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rawHeader.CKVersion = CKVERSION;
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rawHeader.FileVersion = 8;
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rawHeader.FileWriteMode = static_cast<CKDWORD>(m_Ctx->GetFileWriteMode());
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rawHeader.FileWriteMode = static_cast<CKDWORD>(fileWriteMode);
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rawHeader.ObjectCount = static_cast<CKDWORD>(m_FileObjects.size());
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rawHeader.ManagerCount = static_cast<CKDWORD>(m_ManagersData.size());
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rawHeader.Hdr1UnPackSize = sumHdrSize;
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@ -151,10 +156,7 @@ namespace LibCmo::CK2 {
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rawHeader.MaxIDSaved = m_SaveIDMax;
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// crc will filled later
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// create a encoding conversion helper string
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std::string name_conv;
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// ========== Writing header ==========
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// ========== Write header ==========
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// create a buffer
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std::unique_ptr<CKBufferParser> hdrparser(new CKBufferParser(sumHdrSize));
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@ -190,6 +192,142 @@ namespace LibCmo::CK2 {
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}
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}
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// write included file
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{
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CKDWORD cache = sizeof(CKDWORD);
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hdrparser->Write(&cache, sizeof(CKDWORD));
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cache = static_cast<CKDWORD>(m_IncludedFiles.size());
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hdrparser->Write(&cache, sizeof(CKDWORD));
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}
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// compress header if needed
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if (EnumsHelper::Has(fileWriteMode, CK_FILE_WRITEMODE::CKFILE_CHUNKCOMPRESSED_OLD) ||
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EnumsHelper::Has(fileWriteMode, CK_FILE_WRITEMODE::CKFILE_WHOLECOMPRESSED)) {
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CKDWORD comp_buf_size = 0;
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void* comp_buffer = CKPackData(hdrparser->GetBase(), static_cast<CKDWORD>(hdrparser->GetSize()), comp_buf_size, m_Ctx->GetCompressionLevel());
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if (comp_buffer != nullptr) {
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hdrparser = std::unique_ptr<CKBufferParser>(new CKBufferParser(comp_buffer, comp_buf_size, true));
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rawHeader.Hdr1PackSize = comp_buf_size;
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} else {
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// fallback
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rawHeader.Hdr1PackSize = rawHeader.Hdr1UnPackSize;
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}
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}
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// ========== Write data ==========
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// create a buffer
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std::unique_ptr<CKBufferParser> datparser(new CKBufferParser(sumDataSize));
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// write manager
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for (auto& mgr : m_ManagersData) {
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datparser->Write(&mgr.Manager, sizeof(CKGUID));
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CKDWORD writtenSize = 0;
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if (mgr.Data != nullptr) {
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writtenSize = mgr.Data->ConvertToBuffer(datparser->GetMutablePtr(sizeof(CKDWORD)));
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delete mgr.Data;
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mgr.Data = nullptr;
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}
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datparser->Write(&writtenSize, sizeof(CKDWORD));
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datparser->MoveCursor(writtenSize);
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}
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// write object
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for (auto& obj : m_FileObjects) {
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datparser->Write(&obj.PackSize, sizeof(CKDWORD));
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if (obj.Data != nullptr) {
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obj.Data->ConvertToBuffer(datparser->GetMutablePtr());
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delete obj.Data;
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obj.Data = nullptr;
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}
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datparser->MoveCursor(obj.PackSize);
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}
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// compress header if needed
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if (EnumsHelper::Has(fileWriteMode, CK_FILE_WRITEMODE::CKFILE_CHUNKCOMPRESSED_OLD) ||
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EnumsHelper::Has(fileWriteMode, CK_FILE_WRITEMODE::CKFILE_WHOLECOMPRESSED)) {
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CKDWORD comp_buf_size = 0;
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void* comp_buffer = CKPackData(datparser->GetBase(), static_cast<CKDWORD>(datparser->GetSize()), comp_buf_size, m_Ctx->GetCompressionLevel());
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if (comp_buffer != nullptr) {
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datparser = std::unique_ptr<CKBufferParser>(new CKBufferParser(comp_buffer, comp_buf_size, true));
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rawHeader.DataPackSize = comp_buf_size;
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} else {
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// fallback
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rawHeader.DataPackSize = rawHeader.DataUnPackSize;
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}
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}
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// ========== Construct File Info ==========
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// compute crc
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CKDWORD computedcrc = CKComputeDataCRC(&rawHeader, sizeof(CKRawFileInfo), 0u);
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computedcrc = CKComputeDataCRC(hdrparser->GetBase(), hdrparser->GetSize(), computedcrc);
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computedcrc = CKComputeDataCRC(datparser->GetBase(), datparser->GetSize(), computedcrc);
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// copy to file info
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this->m_FileInfo.ProductVersion = rawHeader.ProductVersion;
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this->m_FileInfo.ProductBuild = rawHeader.ProductBuild;
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this->m_FileInfo.FileWriteMode = static_cast<CK_FILE_WRITEMODE>(rawHeader.FileWriteMode);
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this->m_FileInfo.CKVersion = rawHeader.CKVersion;
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this->m_FileInfo.FileVersion = rawHeader.FileVersion;
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this->m_FileInfo.Hdr1PackSize = rawHeader.Hdr1PackSize;
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this->m_FileInfo.Hdr1UnPackSize = rawHeader.Hdr1UnPackSize;
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this->m_FileInfo.DataPackSize = rawHeader.DataPackSize;
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this->m_FileInfo.DataUnPackSize = rawHeader.DataUnPackSize;
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this->m_FileInfo.ManagerCount = rawHeader.ManagerCount;
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this->m_FileInfo.ObjectCount = rawHeader.ObjectCount;
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this->m_FileInfo.MaxIDSaved = rawHeader.MaxIDSaved;
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// fill file size and crc
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this->m_FileInfo.FileSize = sizeof(CKRawFileInfo) + rawHeader.DataPackSize + rawHeader.Hdr1PackSize;
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this->m_FileInfo.Crc = computedcrc;
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rawHeader.Crc = computedcrc;
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// ========== Open File & Write Essential Data ==========
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// open file and test
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FILE* fs = m_Ctx->OpenFile(u8_filename, "wb");
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if (fs == nullptr) return CKERROR::CKERR_CANTWRITETOFILE;
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// write small header + header + data
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std::fwrite(&rawHeader, sizeof(CKRawFileInfo), 1, fs);
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std::fwrite(hdrparser->GetBase(), sizeof(char), hdrparser->GetSize(), fs);
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std::fwrite(datparser->GetBase(), sizeof(char), datparser->GetSize(), fs);
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// free buffer
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hdrparser.reset();
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datparser.reset();
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// ========== Included Files ==========
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for (auto& fentry : m_IncludedFiles) {
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// write filename
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m_Ctx->GetNativeString(fentry, name_conv);
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CKDWORD filenamelen = static_cast<CKDWORD>(name_conv.size());
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fwrite(&filenamelen, sizeof(CKDWORD), 1, fs);
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fwrite(name_conv.data(), sizeof(char), filenamelen, fs);
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// try mapping file.
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std::unique_ptr<VxMath::VxMemoryMappedFile> mappedFile(new VxMath::VxMemoryMappedFile(fentry.c_str()));
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// write file length
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CKDWORD filebodylen = static_cast<CKDWORD>(mappedFile->IsValid() ? mappedFile->GetFileSize() : 0);
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fwrite(&filebodylen, sizeof(CKDWORD), 1, fs);
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// write file body
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if (mappedFile->IsValid()) {
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fwrite(mappedFile->GetBase(), sizeof(char), filebodylen, fs);
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}
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// release mapped file
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mappedFile.reset();
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}
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// close file
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fclose(fs);
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return CKERROR::CKERR_OK;
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}
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CKERROR CKFileWriter::PrepareFile(CKSTRING filename) {
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@ -16,7 +16,7 @@ namespace LibCmo::CK2 {
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#pragma region Compression utilities
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void* CKPackData(const void* Data, CKINT size, CKINT& NewSize, CKINT compressionlevel) {
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void* CKPackData(const void* Data, CKDWORD size, CKDWORD& NewSize, CKINT compressionlevel) {
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uLong boundary = compressBound(static_cast<uLong>(size));
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char* DestBuffer = new char[boundary];
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@ -30,17 +30,17 @@ namespace LibCmo::CK2 {
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return nullptr;
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}
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NewSize = static_cast<CKINT>(_destLen);
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NewSize = static_cast<CKDWORD>(_destLen);
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return DestBuffer;
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}
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void* CKUnPackData(CKINT DestSize, const void* SrcBuffer, CKINT SrcSize) {
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void* CKUnPackData(CKDWORD DestSize, const void* SrcBuffer, CKDWORD SrcSize) {
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char* DestBuffer = new char[DestSize];
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uLongf cache = DestSize;
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if (uncompress(
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reinterpret_cast<Bytef*>(DestBuffer), &cache,
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reinterpret_cast<const Bytef*>(SrcBuffer), SrcSize) != Z_OK) {
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reinterpret_cast<const Bytef*>(SrcBuffer), static_cast<uLong>(SrcSize)) != Z_OK) {
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delete[] DestBuffer;
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return nullptr;
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}
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@ -20,7 +20,7 @@ namespace LibCmo::CK2 {
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* NewSize only indicate the size of the part storing useful data in return value.
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* @see CKUnPackData, CKComputeDataCRC
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*/
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void* CKPackData(const void* Data, CKINT size, CKINT& NewSize, CKINT compressionlevel);
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void* CKPackData(const void* Data, CKDWORD size, CKDWORD& NewSize, CKINT compressionlevel);
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/**
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* @brief Decompress a buffer
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* @param[in] DestSize Expected size of the decompressed buffer.
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@ -31,7 +31,7 @@ namespace LibCmo::CK2 {
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* The return pointer should be freed by `delete[]` manually.
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* @see CKPackData, CKComputeDataCRC
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*/
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void* CKUnPackData(CKINT DestSize, const void* SrcBuffer, CKINT SrcSize);
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void* CKUnPackData(CKDWORD DestSize, const void* SrcBuffer, CKDWORD SrcSize);
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/**
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* @brief Computes a CRC for a buffer.
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* @param[in] data A pointer to the buffer to create a CRC for.
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@ -8,23 +8,23 @@ namespace LibCmo {
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std::abort();
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}
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namespace StreamHelper {
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//namespace StreamHelper {
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static constexpr const size_t CHUNK_SIZE = 10240;
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void CopyStream(const void* src, FILE* dest, size_t len) {
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fwrite(src, sizeof(char), len, dest);
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}
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void CopyStream(FILE* src, void* dest, size_t len) {
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size_t expected_size = 0u;
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char* p = reinterpret_cast<char*>(dest);
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// static constexpr const size_t CHUNK_SIZE = 10240;
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// void CopyStream(const void* src, FILE* dest, size_t len) {
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// fwrite(src, sizeof(char), len, dest);
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// }
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// void CopyStream(FILE* src, void* dest, size_t len) {
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// size_t expected_size = 0u;
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// char* p = reinterpret_cast<char*>(dest);
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while (len != 0) {
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expected_size = len < CHUNK_SIZE ? len : CHUNK_SIZE;
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fread(p, sizeof(char), expected_size, src);
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p += expected_size;
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len -= expected_size;
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}
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}
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// while (len != 0) {
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// expected_size = len < CHUNK_SIZE ? len : CHUNK_SIZE;
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// fread(p, sizeof(char), expected_size, src);
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// p += expected_size;
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// len -= expected_size;
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// }
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// }
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}
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//}
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}
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@ -164,10 +164,10 @@ namespace LibCmo {
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}
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}
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namespace StreamHelper {
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//namespace StreamHelper {
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void CopyStream(const void* src, FILE* dest, size_t len);
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void CopyStream(FILE* src, void* dest, size_t len);
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// void CopyStream(const void* src, FILE* dest, size_t len);
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// void CopyStream(FILE* src, void* dest, size_t len);
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}
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//}
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}
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