libcmo21/LibCmo/CKStateChunk.cpp

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#include "VTUtils.hpp"
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#include "CKStateChunk.hpp"
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namespace LibCmo::CK2 {
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#pragma region Ctor Dtor
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CKStateChunk::CKStateChunk() :
m_ClassId(CK_CLASSID::CKCID_OBJECT), m_DataDwSize(0u), m_pData(nullptr),
m_DataVersion(CK_STATECHUNK_DATAVERSION::CHUNKDATA_CURRENTVERSION), m_ChunkVersion(CK_STATECHUNK_CHUNKVERSION::CHUNK_VERSION4),
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m_Parser{ CKStateChunkStatus::IDLE, 0u, 0u, 0u },
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m_ObjectList(), m_ChunkList(), m_ManagerList()
{
;
}
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CKStateChunk::CKStateChunk(const CKStateChunk& rhs) :
m_ClassId(rhs.m_ClassId), m_DataVersion(rhs.m_DataVersion), m_ChunkVersion(rhs.m_ChunkVersion),
m_Parser(rhs.m_Parser),
m_ObjectList(rhs.m_ObjectList), m_ManagerList(rhs.m_ManagerList), m_ChunkList(rhs.m_ChunkList),
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m_pData(nullptr), m_DataDwSize(rhs.m_DataDwSize) {
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// copy buffer
if (rhs.m_pData != nullptr) {
this->m_pData = new(std::nothrow) CKDWORD[rhs.m_DataDwSize];
if (this->m_pData != nullptr) {
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std::memcpy(this->m_pData, rhs.m_pData, sizeof(CKDWORD) * rhs.m_DataDwSize);
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}
}
}
CKStateChunk& CKStateChunk::operator=(const CKStateChunk& rhs) {
this->Clear();
this->m_DataVersion = rhs.m_DataVersion;
this->m_ChunkVersion = rhs.m_ChunkVersion;
this->m_ClassId = rhs.m_ClassId;
this->m_Parser = rhs.m_Parser;
this->m_ObjectList = rhs.m_ObjectList;
this->m_ManagerList = rhs.m_ManagerList;
this->m_ChunkList = rhs.m_ChunkList;
// copy buffer
if (rhs.m_pData != nullptr) {
this->m_pData = new(std::nothrow) CKDWORD[rhs.m_DataDwSize];
if (this->m_pData != nullptr) {
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std::memcpy(this->m_pData, rhs.m_pData, sizeof(CKDWORD) * rhs.m_DataDwSize);
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}
}
this->m_DataDwSize = rhs.m_DataDwSize;
return *this;
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}
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CKStateChunk::~CKStateChunk() {
if (this->m_pData != nullptr)
delete[] this->m_pData;
}
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#pragma endregion
#pragma region Misc Funcs
void CKStateChunk::Clear(void) {
this->m_ClassId = CK_CLASSID::CKCID_OBJECT;
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this->m_DataVersion = CK_STATECHUNK_DATAVERSION::CHUNK_DEV_2_1;
this->m_ChunkVersion = CK_STATECHUNK_CHUNKVERSION::CHUNK_VERSION4;
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this->m_Parser.m_CurrentPos = 0;
this->m_Parser.m_DataSize = 0;
this->m_Parser.m_PrevIdentifierPos = 0;
this->m_DataDwSize = 0;
if (this->m_pData != nullptr) {
delete[] this->m_pData;
this->m_pData = nullptr;
}
this->m_ObjectList.clear();
this->m_ManagerList.clear();
this->m_ChunkList.clear();
}
CKDWORD CKStateChunk::GetDataSize(void) {
return sizeof(CKDWORD) * this->m_DataDwSize;
}
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CK_STATECHUNK_DATAVERSION CKStateChunk::GetDataVersion() {
return this->m_DataVersion;
}
void CKStateChunk::SetDataVersion(CK_STATECHUNK_DATAVERSION version) {
this->m_DataVersion = version;
}
bool CKStateChunk::EnsureReadSpace(CKDWORD dword_required) {
return (m_Parser.m_Status == CKStateChunkStatus::READ) &&
(this->m_Parser.m_CurrentPos + dword_required <= this->m_Parser.m_DataSize);
}
bool CKStateChunk::ResizeBuffer(CKDWORD new_dwsize) {
if (new_dwsize == 0u) {
// if reuqired size is zero, we just delete it
if (this->m_pData != nullptr) {
delete[] this->m_pData;
this->m_pData = nullptr;
}
} else {
// otherwise, we create a new buffer instead it
CKDWORD* newbuf = new(std::nothrow) CKDWORD[new_dwsize];
if (newbuf == nullptr) return false; // if fail to create, return
// if no original data, we do not need copy it and free it
if (this->m_pData != nullptr) {
std::memcpy(newbuf, this->m_pData, sizeof(CKDWORD) * new_dwsize);
delete[] this->m_pData;
}
// assign new buffer
this->m_pData = newbuf;
}
return true;
}
bool CKStateChunk::EnsureWriteSpace(CKDWORD dwsize) {
if (this->m_Parser.m_Status != CKStateChunkStatus::WRITE) return false;
// check whether need enlarge
CKDWORD needed = dwsize + this->m_Parser.m_CurrentPos;
if (needed > this->m_Parser.m_DataSize) {
// add a very enough space to buffer
if (dwsize < 512) dwsize = 512;
needed = dwsize + this->m_Parser.m_CurrentPos;
// try resizing it
this->ResizeBuffer(needed);
// update size
this->m_Parser.m_DataSize = needed;
}
}
bool CKStateChunk::Skip(CKDWORD DwordCount) {
bool result;
switch (this->m_Parser.m_Status) {
case CKStateChunkStatus::READ:
result = EnsureReadSpace(DwordCount);
break;
case CKStateChunkStatus::WRITE:
result = EnsureWriteSpace(DwordCount);
break;
case CKStateChunkStatus::IDLE:
default:
result = false;
break;
}
// if success, move cursor
if (result) {
this->m_Parser.m_CurrentPos += DwordCount;
}
return result;
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}
#pragma endregion
#pragma region Buffer Related
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bool CKStateChunk::ConvertFromBuffer(const void* buf) {
if (buf == nullptr) return false;
// read chunk ver and data ver first
// chunk ver always set in the 3rd BYTE in every format
this->m_ChunkVersion = static_cast<CK_STATECHUNK_CHUNKVERSION>(
reinterpret_cast<const char*>(buf)[2]
);
// data ver always set in the 1st BYTE in every format
this->m_DataVersion = static_cast<CK_STATECHUNK_DATAVERSION>(
reinterpret_cast<const char*>(buf)[0]
);
// switch according to chunk ver
const CKDWORD* dwbuf = reinterpret_cast<const CKDWORD*>(buf);
size_t bufpos = 0u;
if (this->m_ChunkVersion < CK_STATECHUNK_CHUNKVERSION::CHUNK_VERSION2) {
// very old file
this->m_ClassId = static_cast<CK_CLASSID>(dwbuf[1]);
this->m_DataDwSize = dwbuf[2];
this->m_ObjectList.resize(dwbuf[4]);
this->m_ChunkList.resize(dwbuf[5]);
bufpos = 6u;
if (this->m_DataDwSize != 0) {
this->m_pData = new(std::nothrow) CKDWORD[this->m_DataDwSize];
if (m_pData == nullptr) return false;
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std::memcpy(this->m_pData, dwbuf + bufpos, sizeof(CKDWORD) * this->m_DataDwSize);
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bufpos += this->m_DataDwSize;
}
if (!this->m_ObjectList.empty()) {
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std::memcpy(this->m_ObjectList.data(), dwbuf + bufpos, sizeof(CKDWORD) * this->m_ObjectList.size());
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bufpos += this->m_ObjectList.size();
}
if (!this->m_ChunkList.empty()) {
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std::memcpy(this->m_ChunkList.data(), dwbuf + bufpos, sizeof(CKDWORD) * this->m_ChunkList.size());
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bufpos += this->m_ChunkList.size();
}
} else if (this->m_ChunkVersion == CK_STATECHUNK_CHUNKVERSION::CHUNK_VERSION2) {
// medium ver file
this->m_ClassId = static_cast<CK_CLASSID>(dwbuf[1]);
this->m_DataDwSize = dwbuf[2];
this->m_ObjectList.resize(dwbuf[4]);
this->m_ChunkList.resize(dwbuf[5]);
this->m_ManagerList.resize(dwbuf[6]);
bufpos = 7u;
if (this->m_DataDwSize != 0) {
this->m_pData = new(std::nothrow) CKDWORD[this->m_DataDwSize];
if (m_pData == nullptr) return false;
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std::memcpy(this->m_pData, dwbuf + bufpos, sizeof(CKDWORD) * this->m_DataDwSize);
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bufpos += this->m_DataDwSize;
}
if (!this->m_ObjectList.empty()) {
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std::memcpy(this->m_ObjectList.data(), dwbuf + bufpos, sizeof(CKDWORD) * this->m_ObjectList.size());
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bufpos += this->m_ObjectList.size();
}
if (!this->m_ChunkList.empty()) {
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std::memcpy(this->m_ChunkList.data(), dwbuf + bufpos, sizeof(CKDWORD) * this->m_ChunkList.size());
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bufpos += this->m_ChunkList.size();
}
if (!this->m_ManagerList.empty()) {
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std::memcpy(this->m_ManagerList.data(), dwbuf + bufpos, sizeof(CKDWORD) * this->m_ManagerList.size());
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bufpos += this->m_ManagerList.size();
}
} else if (this->m_ChunkVersion <= CK_STATECHUNK_CHUNKVERSION::CHUNK_VERSION4) {
// the latest file
// re-read some extra data
// class id located the 2nd BYTE
this->m_ClassId = static_cast<CK_CLASSID>(
reinterpret_cast<const char*>(buf)[1]
);
// options located the 4th BYTE
CK_STATECHUNK_CHUNKOPTIONS options = static_cast<CK_STATECHUNK_CHUNKOPTIONS>(
reinterpret_cast<const char*>(buf)[3]
);
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// read normal data
this->m_DataDwSize = dwbuf[1];
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bufpos = 2u;
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if (this->m_DataDwSize != 0) {
this->m_pData = new(std::nothrow) CKDWORD[this->m_DataDwSize];
if (m_pData == nullptr) return false;
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std::memcpy(this->m_pData, dwbuf + bufpos, sizeof(CKDWORD) * this->m_DataDwSize);
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bufpos += this->m_DataDwSize;
}
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if (EnumsHelper::FlagEnumHas(options, CK_STATECHUNK_CHUNKOPTIONS::CHNK_OPTION_FILE)) {
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// MARK: set ckfile = nullptr;
;
}
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if (EnumsHelper::FlagEnumHas(options, CK_STATECHUNK_CHUNKOPTIONS::CHNK_OPTION_IDS)) {
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this->m_ObjectList.resize(dwbuf[bufpos]);
bufpos += 1u;
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std::memcpy(this->m_ObjectList.data(), dwbuf + bufpos, sizeof(CKDWORD) * this->m_ObjectList.size());
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bufpos += this->m_ObjectList.size();
}
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if (EnumsHelper::FlagEnumHas(options, CK_STATECHUNK_CHUNKOPTIONS::CHNK_OPTION_CHN)) {
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this->m_ChunkList.resize(dwbuf[bufpos]);
bufpos += 1u;
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std::memcpy(this->m_ChunkList.data(), dwbuf + bufpos, sizeof(CKDWORD) * this->m_ChunkList.size());
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bufpos += this->m_ChunkList.size();
}
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if (EnumsHelper::FlagEnumHas(options, CK_STATECHUNK_CHUNKOPTIONS::CHNK_OPTION_MAN)) {
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this->m_ManagerList.resize(dwbuf[bufpos]);
bufpos += 1u;
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std::memcpy(this->m_ManagerList.data(), dwbuf + bufpos, sizeof(CKDWORD) * this->m_ManagerList.size());
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bufpos += this->m_ManagerList.size();
}
} else {
// too new. can not read, skip
;
}
return true;
}
CKDWORD CKStateChunk::ConvertToBuffer(void* buf) {
return 0u;
}
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#pragma endregion
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//bool CKStateChunk::UnPack(CKDWORD DestSize) {
// // NOTE: in UnPack. pData store the compressed buffer, and
// // dwSize store the length of compressed buffer as CHAR size, not DWORD size!
// // create a enough buffer
// char* buffer = new(std::nothrow) char[DestSize];
// if (buffer == nullptr) return false;
// uLongf destSize = DestSize;
// // uncompress it
// auto err = uncompress(
// reinterpret_cast<Bytef*>(buffer), &destSize,
// reinterpret_cast<const Bytef*>(this->m_pData), static_cast<uLong>(this->m_DataDwSize)
// );
// // if no error, assign data
// if (err == Z_OK) {
// // get dw size and copy it to remove useless blank data
// this->m_DataDwSize = static_cast<CKDWORD>(destSize) / sizeof(CKDWORD);
// delete[] this->m_pData;
// this->m_pData = nullptr;
// this->m_pData = new(std::nothrow) CKDWORD[this->m_DataDwSize];
// if (this->m_pData != nullptr) {
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// std::memcpy(this->m_pData, buffer, this->m_DataDwSize * sizeof(CKDWORD));
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// }
// }
// delete[] buffer;
// return true;
//}
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#pragma region Read Functions
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void CKStateChunk::StartRead(void) {
if (this->m_Parser.m_Status != CKStateChunkStatus::IDLE) return;
this->m_Parser.m_CurrentPos = 0u;
this->m_Parser.m_DataSize = this->m_DataDwSize;
this->m_Parser.m_PrevIdentifierPos = 0u;
this->m_Parser.m_Status = CKStateChunkStatus::READ;
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}
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bool CKStateChunk::SeekIdentifier(CKDWORD identifier) {
CKDWORD cache;
return SeekIdentifierAndReturnSize(identifier, &cache);
}
bool CKStateChunk::SeekIdentifierAndReturnSize(CKDWORD identifier, CKDWORD* out_size) {
if (this->m_Parser.m_Status != CKStateChunkStatus::READ) return false;
CKDWORD pos = 0u;
if (this->m_DataDwSize < 2) return false; // impossible to have a identifier
// search identifier
while (this->m_pData[pos] != identifier) {
pos = this->m_pData[pos + 1];
if (pos == 0u) return false; // got tail. no more identifier
if (pos + 1 >= this->m_DataDwSize) return false; // out of buffer
}
// got identifier
this->m_Parser.m_PrevIdentifierPos = pos;
this->m_Parser.m_CurrentPos = pos + 2;
// calc size
CKDWORD nextptr = this->m_pData[pos + 1];
if (nextptr == 0) {
// the last identifier, use chunk size instead
nextptr = this->m_DataDwSize;
}
*out_size = sizeof(CKDWORD) * (nextptr - pos);
return true;
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}
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CKERROR CKStateChunk::ReadString(std::string& strl) {
// get byte based size
CKDWORD strByteSize = 0u;
CKERROR err = this->ReadStructPtr(&strByteSize);
if (err != CKERROR::CKERR_OK) {
strl.clear();
return err;
}
// convert to DWORD based
CKDWORD strDwordSize = this->GetCeilDwordSize(strByteSize);
// cp
if (this->EnsureReadSpace(strDwordSize)) {
strl.resize(strByteSize);
std::memcpy(strl.data(), this->m_pData + this->m_Parser.m_CurrentPos, strByteSize);
this->m_Parser.m_CurrentPos += strDwordSize;
} else strl.clear();
}
void CKStateChunk::StopRead(void) {
if (this->m_Parser.m_Status != CKStateChunkStatus::READ) return;
this->m_Parser.m_CurrentPos = 0u;
this->m_Parser.m_DataSize = this->m_DataDwSize;
this->m_Parser.m_PrevIdentifierPos = 0u;
this->m_Parser.m_Status = CKStateChunkStatus::IDLE;
}
#pragma endregion
#pragma region Write Functions
void CKStateChunk::StartWrite() {
if (this->m_Parser.m_Status != CKStateChunkStatus::IDLE) return;
// delete all current buffer
if (this->m_pData != nullptr) {
delete[] this->m_pData;
this->m_pData = nullptr;
}
this->m_DataDwSize = 0u;
// reset parser
this->m_Parser.m_CurrentPos = 0u;
this->m_Parser.m_DataSize = this->m_DataDwSize;
this->m_Parser.m_PrevIdentifierPos = 0u;
// force chunk version
this->m_ChunkVersion = CK_STATECHUNK_CHUNKVERSION::CHUNK_VERSION4;
// switch status
this->m_Parser.m_Status = CKStateChunkStatus::WRITE;
}
void CKStateChunk::StopWrite(void) {
if (this->m_Parser.m_Status != CKStateChunkStatus::WRITE) return;
// update buffer size
this->m_DataDwSize = this->m_Parser.m_CurrentPos;
// shrink it
ResizeBuffer(this->m_DataDwSize);
// shrink 3 vector also
this->m_ObjectList.shrink_to_fit();
this->m_ManagerList.shrink_to_fit();
this->m_ChunkList.shrink_to_fit();
// reset parser
this->m_Parser.m_CurrentPos = 0u;
this->m_Parser.m_DataSize = this->m_DataDwSize;
this->m_Parser.m_PrevIdentifierPos = 0u;
this->m_Parser.m_Status = CKStateChunkStatus::IDLE;
}
#pragma endregion
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}