winamp/Src/external_dependencies/openmpt-trunk/common/serialization_utils.h

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2024-09-24 13:54:57 +01:00
/*
* serialization_utils.h
* ---------------------
* Purpose: Serializing data to and from MPTM files.
* Notes : (currently none)
* Authors: OpenMPT Devs
* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
*/
#pragma once
#include "openmpt/all/BuildSettings.hpp"
#include "mpt/io/io.hpp"
#include "mpt/io/io_stdstream.hpp"
#include "openmpt/base/Endian.hpp"
#include "../common/mptBaseTypes.h"
#include <algorithm>
#include <bitset>
#include <ios>
#include <iosfwd>
#include <limits>
#include <string>
#include <vector>
#include <istream>
#include <ostream>
#include <cstring>
OPENMPT_NAMESPACE_BEGIN
namespace srlztn //SeRiaLiZaTioN
{
typedef std::ios::off_type Offtype;
typedef Offtype Postype;
typedef uintptr_t DataSize; // Data size type.
typedef uintptr_t RposType; // Relative position type.
typedef uintptr_t NumType; // Entry count type.
const DataSize invalidDatasize = DataSize(-1);
enum
{
SNT_PROGRESS = 0x08000000, // = 1 << 27
SNT_FAILURE = 0x40000000, // = 1 << 30
SNT_NOTE = 0x20000000, // = 1 << 29
SNT_WARNING = 0x10000000, // = 1 << 28
SNT_NONE = 0,
SNRW_BADGIVEN_STREAM = 1 | SNT_FAILURE,
// Read failures.
SNR_BADSTREAM_AFTER_MAPHEADERSEEK = 2 | SNT_FAILURE,
SNR_STARTBYTE_MISMATCH = 3 | SNT_FAILURE,
SNR_BADSTREAM_AT_MAP_READ = 4 | SNT_FAILURE,
SNR_INSUFFICIENT_STREAM_OFFTYPE = 5 | SNT_FAILURE,
SNR_OBJECTCLASS_IDMISMATCH = 6 | SNT_FAILURE,
SNR_TOO_MANY_ENTRIES_TO_READ = 7 | SNT_FAILURE,
SNR_INSUFFICIENT_RPOSTYPE = 8 | SNT_FAILURE,
// Read notes and warnings.
SNR_ZEROENTRYCOUNT = 0x80 | SNT_NOTE, // 0x80 == 1 << 7
SNR_NO_ENTRYIDS_WITH_CUSTOMID_DEFINED = 0x100 | SNT_NOTE,
SNR_LOADING_OBJECT_WITH_LARGER_VERSION = 0x200 | SNT_NOTE,
// Write failures.
SNW_INSUFFICIENT_FIXEDSIZE = (0x10) | SNT_FAILURE,
SNW_CHANGING_IDSIZE_WITH_FIXED_IDSIZESETTING = (0x11) | SNT_FAILURE,
SNW_DATASIZETYPE_OVERFLOW = (0x13) | SNT_FAILURE,
SNW_MAX_WRITE_COUNT_REACHED = (0x14) | SNT_FAILURE,
SNW_INSUFFICIENT_DATASIZETYPE = (0x16) | SNT_FAILURE
};
enum
{
IdSizeVariable = std::numeric_limits<uint16>::max(),
IdSizeMaxFixedSize = (std::numeric_limits<uint8>::max() >> 1)
};
typedef int32 SsbStatus;
struct ReadEntry
{
ReadEntry() : nIdpos(0), rposStart(0), nSize(invalidDatasize), nIdLength(0) {}
uintptr_t nIdpos; // Index of id start in ID array.
RposType rposStart; // Entry start position.
DataSize nSize; // Entry size.
uint16 nIdLength; // Length of id.
};
enum Rwf
{
RwfWMapStartPosEntry, // Write. True to include data start pos entry to map.
RwfWMapSizeEntry, // Write. True to include data size entry to map.
RwfWMapDescEntry, // Write. True to include description entry to map.
RwfWVersionNum, // Write. True to include version numeric.
RwfRMapCached, // Read. True if map has been cached.
RwfRMapHasId, // Read. True if map has IDs
RwfRMapHasStartpos, // Read. True if map data start pos.
RwfRMapHasSize, // Read. True if map has entry size.
RwfRMapHasDesc, // Read. True if map has entry description.
RwfRTwoBytesDescChar, // Read. True if map description characters are two bytes.
RwfRHeaderIsRead, // Read. True when header is read.
RwfRwHasMap, // Read/write. True if map exists.
RwfNumFlags
};
template<class T>
inline void Binarywrite(std::ostream& oStrm, const T& data)
{
mpt::IO::WriteIntLE(oStrm, data);
}
template<>
inline void Binarywrite(std::ostream& oStrm, const float& data)
{
IEEE754binary32LE tmp = IEEE754binary32LE(data);
mpt::IO::Write(oStrm, tmp);
}
template<>
inline void Binarywrite(std::ostream& oStrm, const double& data)
{
IEEE754binary64LE tmp = IEEE754binary64LE(data);
mpt::IO::Write(oStrm, tmp);
}
template <class T>
inline void WriteItem(std::ostream& oStrm, const T& data)
{
static_assert(std::is_trivial<T>::value == true, "");
Binarywrite(oStrm, data);
}
void WriteItemString(std::ostream& oStrm, const std::string &str);
template <>
inline void WriteItem<std::string>(std::ostream& oStrm, const std::string& str) {WriteItemString(oStrm, str);}
template<class T>
inline void Binaryread(std::istream& iStrm, T& data)
{
mpt::IO::ReadIntLE(iStrm, data);
}
template<>
inline void Binaryread(std::istream& iStrm, float& data)
{
IEEE754binary32LE tmp = IEEE754binary32LE(0.0f);
mpt::IO::Read(iStrm, tmp);
data = tmp;
}
template<>
inline void Binaryread(std::istream& iStrm, double& data)
{
IEEE754binary64LE tmp = IEEE754binary64LE(0.0);
mpt::IO::Read(iStrm, tmp);
data = tmp;
}
//Read only given number of bytes to the beginning of data; data bytes are memset to 0 before reading.
template <class T>
inline void Binaryread(std::istream& iStrm, T& data, const Offtype bytecount)
{
mpt::IO::ReadBinaryTruncatedLE(iStrm, data, static_cast<std::size_t>(bytecount));
}
template <>
inline void Binaryread<float>(std::istream& iStrm, float& data, const Offtype bytecount)
{
typedef IEEE754binary32LE T;
std::byte bytes[sizeof(T)];
std::memset(bytes, 0, sizeof(T));
mpt::IO::ReadRaw(iStrm, bytes, std::min(static_cast<std::size_t>(bytecount), sizeof(T)));
// There is not much we can sanely do for truncated floats,
// thus we ignore what we just read and return 0.
data = 0.0f;
}
template <>
inline void Binaryread<double>(std::istream& iStrm, double& data, const Offtype bytecount)
{
typedef IEEE754binary64LE T;
std::byte bytes[sizeof(T)];
std::memset(bytes, 0, sizeof(T));
mpt::IO::ReadRaw(iStrm, bytes, std::min(static_cast<std::size_t>(bytecount), sizeof(T)));
// There is not much we can sanely do for truncated floats,
// thus we ignore what we just read and return 0.
data = 0.0;
}
template <class T>
inline void ReadItem(std::istream& iStrm, T& data, const DataSize nSize)
{
static_assert(std::is_trivial<T>::value == true, "");
if (nSize == sizeof(T) || nSize == invalidDatasize)
Binaryread(iStrm, data);
else
Binaryread(iStrm, data, nSize);
}
void ReadItemString(std::istream& iStrm, std::string& str, const DataSize);
template <>
inline void ReadItem<std::string>(std::istream& iStrm, std::string& str, const DataSize nSize)
{
ReadItemString(iStrm, str, nSize);
}
class ID
{
private:
std::string m_ID; // NOTE: can contain null characters ('\0')
public:
ID() { }
ID(const std::string &id) : m_ID(id) { }
ID(const char *beg, const char *end) : m_ID(beg, end) { }
ID(const char *id) : m_ID(id?id:"") { }
ID(const char * str, std::size_t len) : m_ID(str, str + len) { }
template <typename T>
static ID FromInt(const T &val)
{
static_assert(std::numeric_limits<T>::is_integer);
typename mpt::make_le<T>::type valle;
valle = val;
return ID(std::string(mpt::byte_cast<const char*>(mpt::as_raw_memory(valle).data()), mpt::byte_cast<const char*>(mpt::as_raw_memory(valle).data() + sizeof(valle))));
}
bool IsPrintable() const;
mpt::ustring AsString() const;
const char *GetBytes() const { return m_ID.c_str(); }
std::size_t GetSize() const { return m_ID.length(); }
bool operator == (const ID &other) const { return m_ID == other.m_ID; }
bool operator != (const ID &other) const { return m_ID != other.m_ID; }
};
class Ssb
{
protected:
Ssb();
public:
SsbStatus GetStatus() const
{
return m_Status;
}
protected:
// When writing, returns the number of entries written.
// When reading, returns the number of entries read not including unrecognized entries.
NumType GetCounter() const {return m_nCounter;}
void SetFlag(Rwf flag, bool val) {m_Flags.set(flag, val);}
bool GetFlag(Rwf flag) const {return m_Flags[flag];}
protected:
SsbStatus m_Status;
uint32 m_nFixedEntrySize; // Read/write: If > 0, data entries have given fixed size.
Postype m_posStart; // Read/write: Stream position at the beginning of object.
uint16 m_nIdbytes; // Read/Write: Tells map ID entry size in bytes. If size is variable, value is IdSizeVariable.
NumType m_nCounter; // Read/write: Keeps count of entries written/read.
std::bitset<RwfNumFlags> m_Flags; // Read/write: Various flags.
protected:
enum : uint8 { s_DefaultFlagbyte = 0 };
static const char s_EntryID[3];
};
class SsbRead
: public Ssb
{
public:
enum ReadRv // Read return value.
{
EntryRead,
EntryNotFound
};
enum IdMatchStatus
{
IdMatch, IdMismatch
};
typedef std::vector<ReadEntry>::const_iterator ReadIterator;
SsbRead(std::istream& iStrm);
// Call this to begin reading: must be called before other read functions.
void BeginRead(const ID &id, const uint64& nVersion);
// After calling BeginRead(), this returns number of entries in the file.
NumType GetNumEntries() const {return m_nReadEntrycount;}
// Returns read iterator to the beginning of entries.
// The behaviour of read iterators is undefined if map doesn't
// contain entry ids or data begin positions.
ReadIterator GetReadBegin();
// Returns read iterator to the end(one past last) of entries.
ReadIterator GetReadEnd();
// Compares given id with read entry id
IdMatchStatus CompareId(const ReadIterator& iter, const ID &id);
uint64 GetReadVersion() {return m_nReadVersion;}
// Read item using default read implementation.
template <class T>
ReadRv ReadItem(T& obj, const ID &id) {return ReadItem(obj, id, srlztn::ReadItem<T>);}
// Read item using given function.
template <class T, class FuncObj>
ReadRv ReadItem(T& obj, const ID &id, FuncObj);
// Read item using read iterator.
template <class T>
ReadRv ReadIterItem(const ReadIterator& iter, T& obj) {return ReadIterItem(iter, obj, srlztn::ReadItem<T>);}
template <class T, class FuncObj>
ReadRv ReadIterItem(const ReadIterator& iter, T& obj, FuncObj func);
private:
// Reads map to cache.
void CacheMap();
// Searches for entry with given ID. If found, returns pointer to corresponding entry, else
// returns nullptr.
const ReadEntry* Find(const ID &id);
// Called after reading an object.
ReadRv OnReadEntry(const ReadEntry* pE, const ID &id, const Postype& posReadBegin);
void AddReadNote(const SsbStatus s);
// Called after reading entry. pRe is a pointer to associated map entry if exists.
void AddReadNote(const ReadEntry* const pRe, const NumType nNum);
void ResetReadstatus();
private:
// mapData is a cache that facilitates faster access to the stored data
// without having to reparse on every access.
// Iterator invalidation in CacheMap() is not a problem because every code
// path that ever returns an iterator into mapData does CacheMap exactly once
// beforehand. Following calls use this already cached map. As the data is
// immutable when reading, there is no need to ever invalidate the cache and
// redo CacheMap().
std::istream& iStrm;
std::vector<char> m_Idarray; // Read: Holds entry ids.
std::vector<ReadEntry> mapData; // Read: Contains map information.
uint64 m_nReadVersion; // Read: Version is placed here when reading.
RposType m_rposMapBegin; // Read: If map exists, rpos of map begin, else m_rposEndofHdrData.
Postype m_posMapEnd; // Read: If map exists, map end position, else pos of end of hdrData.
Postype m_posDataBegin; // Read: Data begin position.
RposType m_rposEndofHdrData; // Read: rpos of end of header data.
NumType m_nReadEntrycount; // Read: Number of entries.
NumType m_nNextReadHint; // Read: Hint where to start looking for the next read entry.
};
class SsbWrite
: public Ssb
{
public:
SsbWrite(std::ostream& oStrm);
// Write header
void BeginWrite(const ID &id, const uint64& nVersion);
// Write item using default write implementation.
template <class T>
void WriteItem(const T& obj, const ID &id) {WriteItem(obj, id, &srlztn::WriteItem<T>);}
// Write item using given function.
template <class T, class FuncObj>
void WriteItem(const T& obj, const ID &id, FuncObj);
// Writes mapping.
void FinishWrite();
private:
// Called after writing an item.
void OnWroteItem(const ID &id, const Postype& posBeforeWrite);
void AddWriteNote(const SsbStatus s);
void AddWriteNote(const ID &id,
const NumType nEntryNum,
const DataSize nBytecount,
const RposType rposStart);
// Writes mapping item to mapstream.
void WriteMapItem(const ID &id,
const RposType& rposDataStart,
const DataSize& nDatasize,
const char* pszDesc);
void ResetWritestatus() {m_Status = SNT_NONE;}
void IncrementWriteCounter();
private:
std::ostream& oStrm;
Postype m_posEntrycount; // Write: Pos of entrycount field.
Postype m_posMapPosField; // Write: Pos of map position field.
std::string m_MapStreamString; // Write: Map stream string.
};
template <class T, class FuncObj>
void SsbWrite::WriteItem(const T& obj, const ID &id, FuncObj Func)
{
const Postype pos = oStrm.tellp();
Func(oStrm, obj);
OnWroteItem(id, pos);
}
template <class T, class FuncObj>
SsbRead::ReadRv SsbRead::ReadItem(T& obj, const ID &id, FuncObj Func)
{
const ReadEntry* pE = Find(id);
const Postype pos = iStrm.tellg();
if (pE != nullptr || GetFlag(RwfRMapHasId) == false)
Func(iStrm, obj, (pE) ? (pE->nSize) : invalidDatasize);
return OnReadEntry(pE, id, pos);
}
template <class T, class FuncObj>
SsbRead::ReadRv SsbRead::ReadIterItem(const ReadIterator& iter, T& obj, FuncObj func)
{
iStrm.clear();
if (iter->rposStart != 0)
iStrm.seekg(m_posStart + Postype(iter->rposStart));
const Postype pos = iStrm.tellg();
func(iStrm, obj, iter->nSize);
return OnReadEntry(&(*iter), ID(&m_Idarray[iter->nIdpos], iter->nIdLength), pos);
}
inline SsbRead::IdMatchStatus SsbRead::CompareId(const ReadIterator& iter, const ID &id)
{
if(iter->nIdpos >= m_Idarray.size()) return IdMismatch;
return (id == ID(&m_Idarray[iter->nIdpos], iter->nIdLength)) ? IdMatch : IdMismatch;
}
inline SsbRead::ReadIterator SsbRead::GetReadBegin()
{
MPT_ASSERT(GetFlag(RwfRMapHasId) && (GetFlag(RwfRMapHasStartpos) || GetFlag(RwfRMapHasSize) || m_nFixedEntrySize > 0));
if (GetFlag(RwfRMapCached) == false)
CacheMap();
return mapData.begin();
}
inline SsbRead::ReadIterator SsbRead::GetReadEnd()
{
if (GetFlag(RwfRMapCached) == false)
CacheMap();
return mapData.end();
}
template <class T>
struct VectorWriter
{
VectorWriter(size_t nCount) : m_nCount(nCount) {}
void operator()(std::ostream &oStrm, const std::vector<T> &vec)
{
for(size_t i = 0; i < m_nCount; i++)
{
Binarywrite(oStrm, vec[i]);
}
}
size_t m_nCount;
};
template <class T>
struct VectorReader
{
VectorReader(size_t nCount) : m_nCount(nCount) {}
void operator()(std::istream& iStrm, std::vector<T> &vec, const size_t)
{
vec.resize(m_nCount);
for(std::size_t i = 0; i < m_nCount; ++i)
{
Binaryread(iStrm, vec[i]);
}
}
size_t m_nCount;
};
template <class T>
struct ArrayReader
{
ArrayReader(size_t nCount) : m_nCount(nCount) {}
void operator()(std::istream& iStrm, T* pData, const size_t)
{
for(std::size_t i=0; i<m_nCount; ++i)
{
Binaryread(iStrm, pData[i]);
}
}
size_t m_nCount;
};
} //namespace srlztn.
OPENMPT_NAMESPACE_END