#pragma once
#include <map>
#include <list>
#include <string>
class cNBTList;
class cNBTData;
class cNBTCompound
{
public:
cNBTCompound( cNBTCompound* a_ParentCompound ) : m_ParentCompound( a_ParentCompound ), m_CurrentList(0) { }
virtual ~cNBTCompound() {}
public:
#ifdef _WIN32
enum ENUM_TAG : unsigned char
#else
enum ENUM_TAG
#endif
{
TAG_End = 0,
TAG_Byte,
TAG_Short,
TAG_Int,
TAG_ByteArray = 7,
TAG_String,
TAG_List,
TAG_Compound,
TAG_NumTags // Not a real tag, but contains number of tags
};
void Clear();
void PutByte( std::string Name, char Value ) { m_Bytes[Name] = Value; }
void PutShort( std::string Name, short Value ) { m_Shorts[Name] = Value; }
void PutInteger( std::string Name, int Value ) { m_Integers[Name] = Value; }
void PutString( std::string Name, std::string Value ) { m_Strings[Name] = Value; }
void PutByteArray( std::string Name, std::string Value ) { m_ByteArrays[Name] = Value; }
void PutCompound( std::string Name );
void PutList( std::string Name, ENUM_TAG Type );
char GetByte( std::string Name ) { return m_Bytes[Name]; }
short GetShort( std::string Name ) { return m_Shorts[Name]; }
int GetInteger( std::string Name ) { return m_Integers[Name]; }
std::string GetString( std::string Name ) { return m_Strings[Name]; }
std::string GetByteArray( std::string Name ) { return m_ByteArrays[Name]; }
cNBTCompound* GetCompound( std::string Name );
cNBTList* GetList( std::string Name ) { return m_Lists[Name]; }
cNBTList* GetCurrentList() { return m_CurrentList; }
cNBTCompound* GetParentCompound() { return m_ParentCompound; }
bool OpenList( std::string a_Name );
bool CloseList();
void Serialize(std::string & a_Buffer);
void PrintData( int a_Depth, std::string a_Name );
private:
void AppendShort( std::string & a_Buffer, short a_Value );
void AppendInteger( std::string & a_Buffer, int a_Value );
cNBTCompound* m_ParentCompound;
cNBTList* m_CurrentList;
typedef std::map<std::string, char> ByteMap;
typedef std::map<std::string, short> ShortMap;
typedef std::map<std::string, int> IntegerMap;
typedef std::map<std::string, std::string> StringMap;
typedef std::map<std::string, std::string> ByteArrayMap;
typedef std::map<std::string, cNBTCompound*> CompoundMap;
typedef std::map<std::string, cNBTList*> ListMap;
ByteMap m_Bytes;
ShortMap m_Shorts;
IntegerMap m_Integers;
StringMap m_Strings;
ByteArrayMap m_ByteArrays;
CompoundMap m_Compounds;
ListMap m_Lists;
};
class cNBTList
{
public:
cNBTList( cNBTList* a_ParentList, cNBTCompound::ENUM_TAG a_Type ) : m_ParentList( a_ParentList ), m_Type( a_Type ) {}
void AddToList( void* a_Item ) { m_List.push_back( a_Item ); }
void* GetLastElement() { return m_List.back(); }
cNBTCompound::ENUM_TAG GetType() { return m_Type; }
cNBTList* GetParentList() { return m_ParentList; }
unsigned int GetSize() { return m_List.size(); }
void Serialize(std::string & a_Buffer);
void PrintData(int a_Depth, std::string a_Name);
typedef std::list<void*> VoidList;
VoidList GetList() { return m_List; }
void Clear();
private:
cNBTList* m_ParentList;
cNBTCompound::ENUM_TAG m_Type;
VoidList m_List;
};
class cNBTData : public cNBTCompound
{
public:
cNBTData( char* a_Buffer, unsigned int a_BufferSize );
virtual ~cNBTData();
void Clear();
void PrintData();
void ParseData();
bool OpenCompound( std::string a_Name );
bool CloseCompound();
bool OpenList( std::string a_Name );
bool CloseList();
void PutByte( std::string Name, char Value ) { m_CurrentCompound->PutByte( Name, Value ); }
void PutShort( std::string Name, short Value ) { m_CurrentCompound->PutShort( Name, Value ); }
void PutInteger( std::string Name, int Value ) { m_CurrentCompound->PutInteger( Name, Value ); }
void PutString( std::string Name, std::string Value ) { m_CurrentCompound->PutString(Name, Value); }
void PutByteArray( std::string Name, std::string Value ) { m_CurrentCompound->PutByteArray( Name, Value ); }
void PutCompound( std::string Name ) { m_CurrentCompound->PutCompound( Name ); }
void PutList( std::string Name, ENUM_TAG Type ) { m_CurrentCompound->PutList( Name, Type ); }
int GetInteger( std::string Name ) { return m_CurrentCompound->GetInteger(Name); }
std::string GetString( std::string Name ) { return m_CurrentCompound->GetString(Name); }
std::string GetByteArray( std::string Name ) { return m_CurrentCompound->GetByteArray(Name); }
cNBTCompound* GetCompound( std::string Name ) { return m_CurrentCompound->GetCompound(Name); }
cNBTList* GetList( std::string Name ) { return m_CurrentCompound->GetList(Name); }
char* GetBuffer() { return m_Buffer; }
unsigned int GetBufferSize() { return m_BufferSize; }
void Compress();
bool Decompress();
void Serialize();
private:
int m_NumUnnamedElements;
bool m_bDecompressed;
void ParseTags();
void ParseCompound( bool a_bNamed );
void ParseList( bool a_bNamed );
void ParseString( bool a_bNamed );
void ParseByte( bool a_bNamed );
void ParseByteArray( bool a_bNamed );
void ParseInt( bool a_bNamed );
void ParseShort( bool a_bNamed );
short ReadShort();
std::string ReadName();
char ReadByte();
int ReadInt();
cNBTCompound* m_CurrentCompound;
char* m_Buffer;
unsigned int m_BufferSize;
unsigned int m_Index;
void (cNBTData::*m_ParseFunctions[TAG_NumTags])(bool);
};