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Changed cChunkMat.cpp back to normal. Made more changes to the denotch map converter. Testing cNBTData parser.

git-svn-id: http://mc-server.googlecode.com/svn/trunk@21 0a769ca7-a7f5-676a-18bf-c427514a06d6
This commit is contained in:
admin@omencraft.com 2011-10-30 02:16:01 +00:00
parent 625a4accda
commit 9f3b6fe838
5 changed files with 55 additions and 31 deletions

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@ -109,6 +109,9 @@ int main () {
char temparr[compdlength]; //can't get fread to read more than one char at a time into a char array... so that's what I'll do. :( At least it works.
if( fread( temparr, compdlength, 1, f) != 1 ) { cout << "ERROR rf22 READING FROM FILE " << SourceFile; fclose(f); return false; }
frloc = frloc + compdlength;
/*
int re = 0;
char tempbyte = 0;
while (re < compdlength) { //loop through file and read contents into char array a byte at a time.
@ -118,7 +121,7 @@ int main () {
frloc++;
}
*/
//if( fread( comp_data, compdlength, sizeof(unsigned char), f) != 1 ) { cout << "ERROR 1234 READING FROM FILE " << SourceFile <<endl; fclose(f); return false; } //actual compressed chunk data
//frloc += compdlength;
@ -169,6 +172,12 @@ int main () {
//cout << BlockDataString << endl;
//testing of nbtparser.
cNBTData* NBTData = new cNBTData::cNBTData(BlockData, testr);
//NBTData->m_bDecompressed = true;
NBTData->ParseData();
NBTData->PrintData();
return 1;
fwrite( BlockData, DestSize, 1, wf ); //write contents of uncompressed block data to file to check to see if it's valid... It is! :D
//fwrite( &temparr, compdlength, sizeof(unsigned char), wf );
//cin >> n; //just to see screen output

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@ -27,12 +27,13 @@ cNBTData::cNBTData( char* a_Buffer, unsigned int a_BufferSize )
{
m_ParseFunctions[i] = 0;
}
m_ParseFunctions[TAG_Byte] = &cNBTData::ParseByte;
m_ParseFunctions[TAG_Short] = &cNBTData::ParseShort;
m_ParseFunctions[TAG_Int] = &cNBTData::ParseInt;
m_ParseFunctions[TAG_Byte] = &cNBTData::ParseByte;
m_ParseFunctions[TAG_Short] = &cNBTData::ParseShort;
m_ParseFunctions[TAG_Int] = &cNBTData::ParseInt;
m_ParseFunctions[TAG_String] = &cNBTData::ParseString;
m_ParseFunctions[TAG_List] = &cNBTData::ParseList;
m_ParseFunctions[TAG_Compound] = &cNBTData::ParseCompound;
m_ParseFunctions[TAG_List] = &cNBTData::ParseList;
m_ParseFunctions[TAG_Compound] = &cNBTData::ParseCompound;
m_ParseFunctions[TAG_ByteArray] = &cNBTData::ParseByteArray;
m_Buffer = a_Buffer;
@ -41,7 +42,7 @@ cNBTData::cNBTData( char* a_Buffer, unsigned int a_BufferSize )
m_CurrentCompound = this;
m_bDecompressed = false;
m_bDecompressed = true;
}
bool cNBTData::OpenCompound( std::string a_Name )
@ -102,7 +103,7 @@ bool cNBTData::CloseList()
void cNBTData::Compress()
{
//printf("Before Compress size: %i\n", m_BufferSize );
const int MAXNBTSIZE = 1024 * 2;
const int MAXNBTSIZE = 1024 * 1024 * 120;
int ret;
unsigned have;
@ -180,7 +181,7 @@ bool cNBTData::Decompress()
//printf("Before Decompress size: %i\n", m_BufferSize );
const int MAXNBTSIZE = 1024 * 2;
const int MAXNBTSIZE = 1024 * 1024 * 120 ;
int ret;
z_stream strm;
@ -518,6 +519,17 @@ void cNBTData::ParseString( bool a_bNamed )
//printf("STRING: %s (%s)\n", Name.c_str(), String.c_str() );
}
void cNBTData::ParseByteArray( bool a_bNamed )
{
std::string Name;
if( a_bNamed ) Name = ReadName();
std::string String = ReadName();
PutString( Name, String );
//printf("STRING: %s (%s)\n", Name.c_str(), String.c_str() );
}
std::string cNBTData::ReadName()
{
short Length = ReadShort();

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@ -24,6 +24,7 @@ public:
TAG_Short,
TAG_Int,
TAG_String = 8,
TAG_ByteArray,
TAG_List,
TAG_Compound,
TAG_NumTags // Not a real tag, but contains number of tags
@ -35,13 +36,15 @@ public:
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, char 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]; }
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]; }
int GetInteger( std::string Name ) { return m_Integers[Name]; }
std::string GetString( std::string Name ) { return m_Strings[Name]; }
char GetByteArray( std::string Name ) { return m_ByteArrays[Name]; }
cNBTCompound* GetCompound( std::string Name );
cNBTList* GetList( std::string Name ) { return m_Lists[Name]; }
@ -61,16 +64,18 @@ private:
cNBTCompound* m_ParentCompound;
cNBTList* m_CurrentList;
typedef std::map<std::string, char> ByteMap;
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, int> IntegerMap;
typedef std::map<std::string, std::string> StringMap;
typedef std::map<std::string, char> 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;
ShortMap m_Shorts;
IntegerMap m_Integers;
StringMap m_Strings;
ByteArrayMap m_ByteArrays;
CompoundMap m_Compounds;
ListMap m_Lists;
};
@ -117,16 +122,18 @@ public:
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 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, char 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 ); }
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); }
cNBTCompound* GetCompound( std::string Name ) { return m_CurrentCompound->GetCompound(Name); }
cNBTList* GetList( std::string Name ) { return m_CurrentCompound->GetList(Name); }
int GetInteger( std::string Name ) { return m_CurrentCompound->GetInteger(Name); }
std::string GetString( std::string Name ) { return m_CurrentCompound->GetString(Name); }
char 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; }
@ -144,6 +151,7 @@ private:
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 );

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@ -12,8 +12,6 @@
#include <stdio.h> // sprintf and stuff
#endif
#include <iostream>
#include "zlib.h"
#include <json/json.h>
@ -365,7 +363,6 @@ cChunk* cChunkMap::GetChunk( int a_X, int a_Y, int a_Z )
else
{
cChunk* Chunk = new cChunk(a_X, a_Y, a_Z);
//std::cout << BlockData;
memcpy( Chunk->m_BlockData, BlockData, cChunk::c_BlockDataSize );
Chunk->CalculateHeightmap();
Data->m_LiveChunk = Chunk;
@ -559,7 +556,6 @@ void cChunkMap::SaveLayer( cChunkLayer* a_Layer )
sprintf_s(SourceFile, 128, "world/X%i_Z%i.pak", a_Layer->m_X, a_Layer->m_Z );
#else
sprintf(SourceFile, "world/X%i_Z%i.pak", a_Layer->m_X, a_Layer->m_Z );
//std::cout << SourceFile << std::endl;
#endif
@ -689,7 +685,6 @@ cChunkMap::cChunkLayer* cChunkMap::LoadLayer(int a_LayerX, int a_LayerZ )
}
OrderedData[i] = Data;
//std::cout << Data;
}
// Loop over chunks again, in the order they were loaded, and load their compressed data