libcmo21/LibCmo/CK2/CKFileWriter.cpp

212 lines
6.4 KiB
C++

#include "CKFile.hpp"
#include "CKContext.hpp"
#include "CKStateChunk.hpp"
#include "ObjImpls/CKObject.hpp"
#include "MgrImpls/CKBaseManager.hpp"
#include "../VxMath/VxMemoryMappedFile.hpp"
#include <memory>
namespace LibCmo::CK2 {
CKERROR CKFileWriter::Save(CKSTRING u8_filename) {
// check document status
if (this->m_Done) CKERROR::CKERR_CANCELLED;
// try detect filename legality
CKERROR err = PrepareFile(u8_filename);
if (err != CKERROR::CKERR_OK) return err;
// ========== Prepare Stage ==========
// todo: add TOBEDELETED flag for all Referenced objects's m_ObjectFlags
// MARK: ignore the notification to all CKBehavior based objects.
// ========== StateChunk convertion ==========
// iterate all objects and transform it into CKStateChunk
// MARK: Drop the support of collecting the sum of InterfaceChunk's size.
// because it is useless.
for (auto& obj : m_FileObjects) {
// if there is a chunk, skip
if (obj.Data != nullptr) continue;
obj.Data = new CKStateChunk(&m_Visitor, m_Ctx);
obj.Data->StartWrite();
bool suc = obj.ObjPtr->Save(obj.Data, &m_Visitor, obj.SaveFlags);
obj.Data->StopWrite();
if (!suc) {
// fail to parse
delete obj.Data;
obj.Data = nullptr;
}
}
// iterate manager
// if copied from reader. skip
if (!m_IsCopyFromReader) {
CKINT mgrcount = m_Ctx->GetManagerCount();
CKINT availablemgr = 0;
// place manager
// if no data, skip it
m_ManagersData.resize(mgrcount);
for (CKINT i = 0; i < mgrcount; ++i) {
MgrImpls::CKBaseManager* mgr = m_Ctx->GetManager(i);
m_ManagersData[availablemgr].Manager = mgr->GetGuid();
m_ManagersData[availablemgr].Data = new CKStateChunk(&m_Visitor, m_Ctx);
m_ManagersData[availablemgr].Data->StartWrite();
bool suc = mgr->SaveData(m_ManagersData[availablemgr].Data, &m_Visitor);
m_ManagersData[availablemgr].Data->StopWrite();
if (!suc) {
delete m_ManagersData[availablemgr].Data;
m_ManagersData[availablemgr].Data = nullptr;
} else {
++availablemgr;
}
}
// resize to the new size which erase all skipped manager
m_ManagersData.resize(availablemgr);
}
// if copied from reader, skip plugin dep
if (!m_IsCopyFromReader) {
// todo: finish plugin dep filling
}
// MARK: skip include file filling.
// we order user manually fill it.
// ========== Size Calc ==========
// iterate 3 list to get each parts' size
CKDWORD sumDataObjSize = 0,
sumHdrObjSize = 0;
for (auto& obj : m_FileObjects) {
// += 4DWORD(ObjId, ObjCid, FileIndex, NameLen) + Name size
sumHdrObjSize += 4 * sizeof(CKDWORD) + obj.Name.size();
if (obj.Data == nullptr) {
obj.PackSize = 0;
} else {
obj.PackSize = obj.Data->ConvertToBuffer(nullptr);
}
// += chunk size + chunk
sumDataObjSize += obj.PackSize + sizeof(CKDWORD);
}
CKDWORD sumDataMgrSize = 0;
for (auto& mgr : m_ManagersData) {
CKDWORD chunksize;
if (mgr.Data == nullptr) {
chunksize = 0;
} else {
chunksize = mgr.Data->ConvertToBuffer(nullptr);
}
// += GUID(2 DWORD) + chunk size + chunk
sumDataMgrSize += chunksize + 3 * sizeof(CKDWORD);
}
// += Plugin Dep list size
CKDWORD sumHdrPlgSize = sizeof(CKDWORD);
for (auto& plg : m_PluginsDep) {
// += GUID list + (dep category + GUID list size)
sumHdrPlgSize += sizeof(CKGUID) * plg.m_Guids.size() + 2 * sizeof(CKDWORD);
}
CKDWORD sumHdrIncludedFiles = sizeof(int32_t) + sizeof(CKDWORD);
// calc the whole size
CKDWORD sumHdrSize = sumHdrObjSize + sumHdrPlgSize + sumHdrIncludedFiles;
CKDWORD sumDataSize = sumDataObjSize + sumDataMgrSize;
// compute file index for all object
if (!m_FileObjects.empty()) {
// set base for first one
m_FileObjects[0].FileIndex = sumHdrSize + sumDataMgrSize + sizeof(CKRawFileInfo);
// calc the remains
for (size_t i = 1; i < m_FileObjects.size(); ++i) {
// prev obj PackSize + prev obj FileIndex + prev obj chunk size
m_FileObjects[i].FileIndex = m_FileObjects[i - 1].FileIndex + m_FileObjects[i - 1].PackSize + sizeof(CKDWORD);
}
}
// ========== Construct File Header ==========
CKRawFileInfo rawHeader;
std::memcpy(&rawHeader.NeMo, CKNEMOFI, sizeof(CKRawFileInfo::NeMo));
rawHeader.Crc = 0;
rawHeader.Zero = 0;
rawHeader.CKVersion = CKVERSION;
rawHeader.FileVersion = 8;
rawHeader.FileWriteMode = static_cast<CKDWORD>(m_Ctx->GetFileWriteMode());
rawHeader.ObjectCount = static_cast<CKDWORD>(m_FileObjects.size());
rawHeader.ManagerCount = static_cast<CKDWORD>(m_ManagersData.size());
rawHeader.Hdr1UnPackSize = sumHdrSize;
rawHeader.DataUnPackSize = sumDataSize;
rawHeader.Hdr1PackSize = sumHdrSize;
rawHeader.DataPackSize = sumDataSize;
rawHeader.ProductVersion = DEVVERSION;
rawHeader.ProductBuild = DEVBUILD;
rawHeader.MaxIDSaved = m_SaveIDMax;
// crc will filled later
// create a encoding conversion helper string
std::string name_conv;
// ========== Writing header ==========
// create a buffer
std::unique_ptr<CKBufferParser> hdrparser(new CKBufferParser(sumHdrSize));
// write obj
for (auto& obj : m_FileObjects) {
// todo: remove TOBEDELETED for referenced objects' m_ObjectFlags
hdrparser->Write(&obj.ObjectId, sizeof(CK_ID));
hdrparser->Write(&obj.ObjectCid, sizeof(CK_CLASSID));
hdrparser->Write(&obj.FileIndex, sizeof(CKDWORD));
if (obj.Name.c_str() != nullptr) {
m_Ctx->GetNativeString(obj.Name.string(), name_conv);
CKDWORD namelen = static_cast<CKDWORD>(name_conv.size());
hdrparser->Write(&namelen, sizeof(CKDWORD));
hdrparser->Write(name_conv.data(), namelen);
}
}
// write plugin dep
{
CKDWORD depsize = static_cast<CKDWORD>(m_PluginsDep.size());
hdrparser->Write(&depsize, sizeof(CKDWORD));
for (auto& dep : m_PluginsDep) {
hdrparser->Write(&dep.m_PluginCategory, sizeof(CK_PLUGIN_TYPE));
CKDWORD guidsize = static_cast<CKDWORD>(dep.m_Guids.size());
hdrparser->Write(&guidsize, sizeof(CKDWORD));
hdrparser->Write(dep.m_Guids.data(), sizeof(CKGUID) * guidsize);
}
}
}
CKERROR CKFileWriter::PrepareFile(CKSTRING filename) {
// check nullptr
if (filename == nullptr) return CKERROR::CKERR_INVALIDFILE;
// try open file to check whether we can write it.
CKERROR err;
FILE* tryfile = m_Ctx->OpenFile(filename, "ab");
if (tryfile == nullptr) {
err = CKERROR::CKERR_CANTWRITETOFILE;
} else {
err = CKERROR::CKERR_OK;
std::fclose(tryfile);
}
return err;
}
}