qzdoom-gpl/src/farchive.h
Christoph Oelckers 4a72c7d2f1 - fixed: Decals may not be serialized before thinkers.
Since decals may have thinkers attached this will crash when such a savegame gets loaded, because the thinker lists get reset in P_SerializeThinkers, deleting any thinker that already was processed.
I also added an error message that immediately aborts the save process if such an out-of-sequence thinker is attempted to be written out.
This obviously breaks savegame compatibility again...
2016-04-29 11:44:17 +02:00

358 lines
10 KiB
C++

/*
** farchive.h
**
**---------------------------------------------------------------------------
** Copyright 1998-2006 Randy Heit
** All rights reserved.
**
** Redistribution and use in source and binary forms, with or without
** modification, are permitted provided that the following conditions
** are met:
**
** 1. Redistributions of source code must retain the above copyright
** notice, this list of conditions and the following disclaimer.
** 2. Redistributions in binary form must reproduce the above copyright
** notice, this list of conditions and the following disclaimer in the
** documentation and/or other materials provided with the distribution.
** 3. The name of the author may not be used to endorse or promote products
** derived from this software without specific prior written permission.
**
** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
**---------------------------------------------------------------------------
**
*/
#ifndef __FARCHIVE_H__
#define __FARCHIVE_H__
#include <stdio.h>
#include "dobject.h"
#include "r_state.h"
#include "tflags.h"
class FFile
{
public:
enum EOpenMode
{
EReading,
EWriting,
ENotOpen
};
enum ESeekPos
{
ESeekSet,
ESeekRelative,
ESeekEnd
};
virtual ~FFile () {}
virtual bool Open (const char *name, EOpenMode mode) = 0;
virtual void Close () = 0;
virtual void Flush () = 0;
virtual EOpenMode Mode () const = 0;
virtual bool IsPersistent () const = 0;
virtual bool IsOpen () const = 0;
virtual FFile& Write (const void *, unsigned int) = 0;
virtual FFile& Read (void *, unsigned int) = 0;
virtual unsigned int Tell () const = 0;
virtual FFile& Seek (int, ESeekPos) = 0;
inline FFile& Seek (unsigned int i, ESeekPos p) { return Seek ((int)i, p); }
};
class FCompressedFile : public FFile
{
public:
FCompressedFile ();
FCompressedFile (const char *name, EOpenMode mode, bool dontcompress = false);
FCompressedFile (FILE *file, EOpenMode mode, bool dontcompress = false, bool postopen=true);
~FCompressedFile ();
bool Open (const char *name, EOpenMode mode);
void Close ();
void Flush ();
EOpenMode Mode () const;
bool IsPersistent () const { return true; }
bool IsOpen () const;
unsigned int GetSize () const { return m_BufferSize; }
FFile &Write (const void *, unsigned int);
FFile &Read (void *, unsigned int);
unsigned int Tell () const;
FFile &Seek (int, ESeekPos);
protected:
unsigned int m_Pos;
unsigned int m_BufferSize;
unsigned int m_MaxBufferSize;
unsigned char *m_Buffer;
bool m_NoCompress;
EOpenMode m_Mode;
FILE *m_File;
void Implode ();
void Explode ();
virtual bool FreeOnExplode () { return true; }
void PostOpen ();
private:
void BeEmpty ();
};
class FCompressedMemFile : public FCompressedFile
{
public:
FCompressedMemFile ();
FCompressedMemFile (FILE *file); // Create for reading
~FCompressedMemFile ();
bool Open (const char *name, EOpenMode mode); // Works for reading only
bool Open (void *memblock); // Open for reading only
bool Open (); // Open for writing only
bool Reopen (); // Re-opens imploded file for reading only
void Close ();
bool IsOpen () const;
void GetSizes(unsigned int &one, unsigned int &two) const;
void Serialize (FArchive &arc);
protected:
bool FreeOnExplode () { return !m_SourceFromMem; }
private:
bool m_SourceFromMem;
unsigned char *m_ImplodedBuffer;
};
class FPNGChunkFile : public FCompressedFile
{
public:
FPNGChunkFile (FILE *file, DWORD id); // Create for writing
FPNGChunkFile (FILE *file, DWORD id, size_t chunklen); // Create for reading
void Close ();
private:
DWORD m_ChunkID;
};
class FArchive
{
public:
FArchive (FFile &file);
virtual ~FArchive ();
inline bool IsLoading () const { return m_Loading; }
inline bool IsStoring () const { return m_Storing; }
inline bool IsPeristent () const { return m_Persistent; }
void SetHubTravel () { m_HubTravel = true; }
void Close ();
virtual void Write (const void *mem, unsigned int len);
virtual void Read (void *mem, unsigned int len);
void WriteString(const FString &str);
void WriteString (const char *str);
void WriteByte(BYTE val);
void WriteInt16(WORD val);
void WriteInt32(DWORD val);
void WriteInt64(QWORD val);
void WriteCount (DWORD count);
DWORD ReadCount ();
void UserWriteClass (PClass *info);
void UserReadClass (PClass *&info);
template<typename T> void UserReadClass(T *&info)
{
PClass *myclass;
UserReadClass(myclass);
info = dyn_cast<T>(myclass);
}
FArchive& operator<< (BYTE &c);
FArchive& operator<< (WORD &s);
FArchive& operator<< (DWORD &i);
FArchive& operator<< (QWORD &i);
FArchive& operator<< (QWORD_UNION &i) { return operator<< (i.AsOne); }
FArchive& operator<< (float &f);
FArchive& operator<< (double &d);
FArchive& operator<< (char *&str);
FArchive& operator<< (FName &n);
FArchive& operator<< (FString &str);
FArchive& SerializePointer (void *ptrbase, BYTE **ptr, DWORD elemSize);
FArchive& SerializeObject (DObject *&object, PClass *type);
FArchive& WriteObject (DObject *obj);
FArchive& ReadObject (DObject *&obj, PClass *wanttype);
void WriteName (const char *name);
const char *ReadName (); // The returned name disappears with the archive, unlike strings
void WriteSprite (int spritenum);
int ReadSprite ();
inline FArchive& operator<< (SBYTE &c) { return operator<< ((BYTE &)c); }
inline FArchive& operator<< (SWORD &s) { return operator<< ((WORD &)s); }
inline FArchive& operator<< (SDWORD &i) { return operator<< ((DWORD &)i); }
inline FArchive& operator<< (SQWORD &i) { return operator<< ((QWORD &)i); }
inline FArchive& operator<< (unsigned char *&str) { return operator<< ((char *&)str); }
inline FArchive& operator<< (signed char *&str) { return operator<< ((char *&)str); }
inline FArchive& operator<< (bool &b) { return operator<< ((BYTE &)b); }
inline FArchive& operator<< (DObject* &object) { return ReadObject (object, RUNTIME_CLASS(DObject)); }
void EnableThinkers()
{
m_ThinkersAllowed = true;
}
bool ThinkersAllowed()
{
return m_ThinkersAllowed;
}
protected:
enum { EObjectHashSize = 137 };
DWORD MapObject (DObject *obj);
DWORD WriteClass (PClass *info);
PClass *ReadClass ();
PClass *ReadClass (const PClass *wanttype);
PClass *ReadStoredClass (const PClass *wanttype);
DWORD AddName (const char *name);
DWORD AddName (unsigned int start); // Name has already been added to storage
DWORD FindName (const char *name) const;
DWORD FindName (const char *name, unsigned int bucket) const;
bool m_Persistent; // meant for persistent storage (disk)?
bool m_Loading; // extracting objects?
bool m_Storing; // inserting objects?
bool m_HubTravel; // travelling inside a hub?
FFile *m_File; // unerlying file object
TMap<PClass *, DWORD> ClassToArchive; // Maps PClass to archive type index
TArray<PClass *> ArchiveToClass; // Maps archive type index to PClass
TMap<DObject *, DWORD> ObjectToArchive; // Maps objects to archive index
TArray<DObject *> ArchiveToObject; // Maps archive index to objects
struct NameMap
{
DWORD StringStart; // index into m_NameStorage
DWORD HashNext; // next in hash bucket
enum { NO_INDEX = 0xffffffff };
};
TArray<NameMap> m_Names;
TArray<char> m_NameStorage;
unsigned int m_NameHash[EObjectHashSize];
int *m_SpriteMap;
size_t m_NumSprites;
bool m_ThinkersAllowed = false;
FArchive ();
void AttachToFile (FFile &file);
private:
FArchive (const FArchive &) {}
void operator= (const FArchive &) {}
};
// Create an FPNGChunkFile and FArchive in one step
class FPNGChunkArchive : public FArchive
{
public:
FPNGChunkArchive (FILE *file, DWORD chunkid);
FPNGChunkArchive (FILE *file, DWORD chunkid, size_t chunklen);
~FPNGChunkArchive ();
FPNGChunkFile Chunk;
};
inline FArchive &operator<< (FArchive &arc, PalEntry &p)
{
return arc << p.a << p.r << p.g << p.b;
}
template<class T>
inline FArchive &operator<< (FArchive &arc, T* &object)
{
return arc.SerializeObject ((DObject*&)object, RUNTIME_TEMPLATE_CLASS(T));
}
class FFont;
FArchive &SerializeFFontPtr (FArchive &arc, FFont* &font);
template<> inline FArchive &operator<< <FFont> (FArchive &arc, FFont* &font)
{
return SerializeFFontPtr (arc, font);
}
struct FStrifeDialogueNode;
struct FSwitchDef;
struct FDoorAnimation;
struct FLinePortal;
template<> FArchive &operator<< (FArchive &arc, FStrifeDialogueNode *&node);
template<> FArchive &operator<< (FArchive &arc, FSwitchDef* &sw);
template<> FArchive &operator<< (FArchive &arc, FDoorAnimation* &da);
FArchive &operator<< (FArchive &arc, FLinePortal &da);
FArchive &operator<< (FArchive &arc, FSectorPortal &da);
template<class T,class TT>
inline FArchive &operator<< (FArchive &arc, TArray<T,TT> &self)
{
if (arc.IsStoring())
{
arc.WriteCount(self.Count);
}
else
{
DWORD numStored = arc.ReadCount();
self.Resize(numStored);
}
for (unsigned int i = 0; i < self.Count; ++i)
{
arc << self.Array[i];
}
return arc;
}
struct sector_t;
struct line_t;
struct vertex_t;
struct side_t;
FArchive &operator<< (FArchive &arc, sector_t *&sec);
FArchive &operator<< (FArchive &arc, const sector_t *&sec);
FArchive &operator<< (FArchive &arc, line_t *&line);
FArchive &operator<< (FArchive &arc, vertex_t *&vert);
FArchive &operator<< (FArchive &arc, side_t *&side);
FArchive &operator<<(FArchive &arc, DAngle &ang);
FArchive &operator<<(FArchive &arc, DVector3 &vec);
FArchive &operator<<(FArchive &arc, DVector2 &vec);
template<typename T, typename TT>
FArchive& operator<< (FArchive& arc, TFlags<T, TT>& flag)
{
return flag.Serialize (arc);
}
#endif //__FARCHIVE_H__