d63b092e02
git-svn-id: http://mc-server.googlecode.com/svn/trunk@381 0a769ca7-a7f5-676a-18bf-c427514a06d6
338 lines
9.3 KiB
C++
338 lines
9.3 KiB
C++
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// WSSAnvil.cpp
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// Implements the cWSSAnvil class representing the Anvil world storage scheme
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#include "Globals.h"
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#include "WSSAnvil.h"
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#include "cWorld.h"
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#include "zlib.h"
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#include "NBT.h"
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#include "BlockID.h"
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/** Maximum number of MCA files that are cached in memory.
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Since only the header is actually in the memory, this number can be high, but still, each file means an OS FS handle.
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*/
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#define MAX_MCA_FILES 32
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/// The maximum size of an inflated chunk
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#define CHUNK_INFLATE_MAX 128 KiB
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///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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// cWSSAnvil:
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cWSSAnvil::~cWSSAnvil()
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{
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cCSLock Lock(m_CS);
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for (cMCAFiles::iterator itr = m_Files.begin(); itr != m_Files.end(); ++itr)
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{
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delete *itr;
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} // for itr - m_Files[]
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}
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bool cWSSAnvil::LoadChunk(const cChunkCoords & a_Chunk)
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{
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AString ChunkData;
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if (!GetChunkData(a_Chunk, ChunkData))
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{
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// The reason for failure is already printed in GetChunkData()
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return false;
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}
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return LoadChunkFromData(a_Chunk, ChunkData);
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}
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bool cWSSAnvil::SaveChunk(const cChunkCoords & a_Chunk)
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{
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// TODO: We're read-only for now
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return false;
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}
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bool cWSSAnvil::GetChunkData(const cChunkCoords & a_Chunk, AString & a_Data)
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{
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cCSLock Lock(m_CS);
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cMCAFile * File = LoadMCAFile(a_Chunk);
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if (File == NULL)
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{
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return false;
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}
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return File->GetChunkData(a_Chunk, a_Data);
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}
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cWSSAnvil::cMCAFile * cWSSAnvil::LoadMCAFile(const cChunkCoords & a_Chunk)
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{
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// ASSUME m_CS is locked
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const int RegionX = (int)(floorf((float)a_Chunk.m_ChunkX / 32.0f));
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const int RegionZ = (int)(floorf((float)a_Chunk.m_ChunkZ / 32.0f));
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// Is it already cached?
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for (cMCAFiles::iterator itr = m_Files.begin(); itr != m_Files.end(); ++itr)
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{
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if (((*itr) != NULL) && ((*itr)->GetRegionX() == RegionX) && ((*itr)->GetRegionZ() == RegionZ))
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{
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// Move the file to front and return it:
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cMCAFile * f = *itr;
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if (itr != m_Files.begin())
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{
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m_Files.erase(itr);
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m_Files.push_front(f);
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}
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return f;
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}
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}
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// Load it anew:
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AString FileName;
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Printf(FileName, "%s/r.%d.%d.mca", m_World->GetName().c_str(), RegionX, RegionZ);
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cMCAFile * f = new cMCAFile(FileName, RegionX, RegionZ);
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if (f == NULL)
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{
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return NULL;
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}
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m_Files.push_front(f);
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// If there are too many MCA files cached, delete the last one used:
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if (m_Files.size() > MAX_MCA_FILES)
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{
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delete m_Files.back();
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m_Files.pop_back();
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}
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return f;
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}
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bool cWSSAnvil::LoadChunkFromData(const cChunkCoords & a_Chunk, const AString & a_Data)
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{
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// Decompress the data:
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char Uncompressed[CHUNK_INFLATE_MAX];
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z_stream strm;
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strm.zalloc = (alloc_func)NULL;
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strm.zfree = (free_func)NULL;
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strm.opaque = NULL;
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inflateInit(&strm);
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strm.next_out = (Bytef *)Uncompressed;
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strm.avail_out = sizeof(Uncompressed);
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strm.next_in = (Bytef *)a_Data.data();
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strm.avail_in = a_Data.size();
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int res = inflate(&strm, Z_FINISH);
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inflateEnd(&strm);
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if (res != Z_STREAM_END)
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{
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return false;
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}
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// Parse the NBT data:
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std::auto_ptr<cNBTTree> Tree(cNBTParser::Parse(Uncompressed, strm.total_out));
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if (Tree.get() == NULL)
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{
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return false;
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}
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// Load the data from NBT:
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return LoadChunkFromNBT(a_Chunk, *Tree.get());
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}
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bool cWSSAnvil::LoadChunkFromNBT(const cChunkCoords & a_Chunk, cNBTTag & a_NBT)
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{
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// The data arrays, in MCA-native y/z/x ordering (will be reordered for the final chunk data)
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char BlockData[cChunk::c_NumBlocks];
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char MetaData[cChunk::c_NumBlocks / 2];
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char BlockLight[cChunk::c_NumBlocks / 2];
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char SkyLight[cChunk::c_NumBlocks / 2];
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memset(BlockData, E_BLOCK_AIR, sizeof(BlockData));
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memset(MetaData, 0, sizeof(MetaData));
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memset(BlockLight, 0, sizeof(BlockLight));
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memset(SkyLight, 0xff, sizeof(SkyLight)); // By default, data not present in the NBT means air, which means full skylight
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// Load the blockdata, blocklight and skylight:
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cNBTList * Sections = (cNBTList *)a_NBT.FindChildByPath("Level\\Sections");
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if ((Sections == NULL) || (Sections->GetType() != cNBTTag::TAG_List) || (Sections->GetChildrenType() != cNBTTag::TAG_Compound))
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{
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return false;
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}
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const cNBTTags & LevelSections = Sections->GetChildren();
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for (cNBTTags::const_iterator itr = LevelSections.begin(); itr != LevelSections.end(); ++itr)
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{
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int y = 0;
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cNBTByte * SectionY = (cNBTByte *)((*itr)->FindChildByName("Y"));
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if ((SectionY == NULL) || (SectionY->GetType() != cNBTTag::TAG_Byte) || (SectionY->m_Value < 0) || (SectionY->m_Value > 15))
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{
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continue;
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}
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y = SectionY->m_Value;
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cNBTByteArray * baBlocks = (cNBTByteArray *)((*itr)->FindChildByName("Blocks"));
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if ((baBlocks != NULL) && (baBlocks->GetType() == cNBTTag::TAG_ByteArray) && (baBlocks->m_Value.size() == 4096))
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{
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memcpy(&(BlockData[y * 4096]), baBlocks->m_Value.data(), 4096);
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}
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cNBTByteArray * baMetaData = (cNBTByteArray *)((*itr)->FindChildByName("Data"));
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if ((baMetaData != NULL) && (baMetaData->GetType() == cNBTTag::TAG_ByteArray) && (baMetaData->m_Value.size() == 2048))
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{
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memcpy(&(MetaData[y * 2048]), baMetaData->m_Value.data(), 2048);
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}
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cNBTByteArray * baSkyLight = (cNBTByteArray *)((*itr)->FindChildByName("SkyLight"));
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if ((baSkyLight != NULL) && (baSkyLight->GetType() == cNBTTag::TAG_ByteArray) && (baSkyLight->m_Value.size() == 2048))
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{
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memcpy(&(SkyLight[y * 2048]), baSkyLight->m_Value.data(), 2048);
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}
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cNBTByteArray * baBlockLight = (cNBTByteArray *)((*itr)->FindChildByName("BlockLight"));
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if ((baBlockLight != NULL) && (baBlockLight->GetType() == cNBTTag::TAG_ByteArray) && (baBlockLight->m_Value.size() == 2048))
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{
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memcpy(&(BlockLight[y * 2048]), baBlockLight->m_Value.data(), 2048);
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}
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} // for itr - LevelSections[]
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cEntityList Entities;
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cBlockEntityList BlockEntities;
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// TODO: Load the entities from NBT
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// Reorder the chunk data - walk the MCA-formatted data sequentially and copy it into the right place in the ChunkData:
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char ChunkData[cChunk::c_BlockDataSize];
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memset(ChunkData, 0, sizeof(ChunkData));
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int Index = 0; // Index into the MCA-formatted data, incremented sequentially
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for (int y = 0; y < cChunk::c_ChunkHeight; y++) for (int z = 0; z < cChunk::c_ChunkWidth; z++) for (int x = 0; x < cChunk::c_ChunkWidth; x++)
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{
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ChunkData[cChunk::MakeIndex(x, y, z)] = BlockData[Index];
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Index++;
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} // for y/z/x
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char * ChunkMeta = ChunkData + cChunk::c_NumBlocks;
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Index = 0;
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for (int y = 0; y < cChunk::c_ChunkHeight; y++) for (int z = 0; z < cChunk::c_ChunkWidth; z++) for (int x = 0; x < cChunk::c_ChunkWidth; x++)
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{
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cChunk::SetNibble(ChunkMeta, x, y, z, MetaData[Index / 2] >> ((Index % 2) * 4));
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Index++;
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} // for y/z/x
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char * ChunkBlockLight = ChunkMeta + cChunk::c_NumBlocks / 2;
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Index = 0;
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for (int y = 0; y < cChunk::c_ChunkHeight; y++) for (int z = 0; z < cChunk::c_ChunkWidth; z++) for (int x = 0; x < cChunk::c_ChunkWidth; x++)
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{
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cChunk::SetNibble(ChunkBlockLight, x, y, z, BlockLight[Index / 2] >> ((Index % 2) * 4));
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Index++;
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} // for y/z/x
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char * ChunkSkyLight = ChunkBlockLight + cChunk::c_NumBlocks / 2;
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Index = 0;
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for (int y = 0; y < cChunk::c_ChunkHeight; y++) for (int z = 0; z < cChunk::c_ChunkWidth; z++) for (int x = 0; x < cChunk::c_ChunkWidth; x++)
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{
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cChunk::SetNibble(ChunkSkyLight, x, y, z, SkyLight[Index / 2] >> ((Index % 2) * 4));
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Index++;
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} // for y/z/x
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m_World->ChunkDataLoaded(a_Chunk.m_ChunkX, a_Chunk.m_ChunkY, a_Chunk.m_ChunkZ, ChunkData, Entities, BlockEntities);
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return true;
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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// cWSSAnvil::cMCAFile:
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cWSSAnvil::cMCAFile::cMCAFile(const AString & a_FileName, int a_RegionX, int a_RegionZ) :
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m_RegionX(a_RegionX),
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m_RegionZ(a_RegionZ),
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m_File(a_FileName, cFile::fmRead),
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m_FileName(a_FileName)
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{
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if (!m_File.IsOpen())
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{
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return;
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}
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// Load the header:
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if (m_File.Read(m_Header, sizeof(m_Header)) != sizeof(m_Header))
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{
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LOGWARNING("Cannot read MCA header from file \"%s\", chunks in that file will be lost", m_FileName.c_str());
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m_File.Close();
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return;
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}
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}
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bool cWSSAnvil::cMCAFile::GetChunkData(const cChunkCoords & a_Chunk, AString & a_Data)
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{
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if (!m_File.IsOpen())
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{
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return false;
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}
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int LocalX = a_Chunk.m_ChunkX % 32;
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if (LocalX < 0)
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{
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LocalX = 32 + LocalX;
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}
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int LocalZ = a_Chunk.m_ChunkZ % 32;
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if (LocalZ < 0)
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{
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LocalZ = 32 + LocalZ;
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}
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unsigned ChunkLocation = ntohl(m_Header[LocalX + 32 * LocalZ]);
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unsigned ChunkOffset = ChunkLocation >> 8;
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unsigned ChunkLen = ChunkLocation & 0xff;
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m_File.Seek(ChunkOffset * 4096);
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int ChunkSize = 0;
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if (m_File.Read(&ChunkSize, 4) != 4)
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{
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return false;
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}
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ChunkSize = ntohl(ChunkSize);
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char CompressionType = 0;
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if (m_File.Read(&CompressionType, 1) != 1)
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{
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return false;
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}
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if (CompressionType != 2)
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{
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// Chunk is in an unknown compression
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return false;
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}
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ChunkSize--;
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// HACK: This depends on the internal knowledge that AString's data() function returns the internal buffer directly
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a_Data.assign(ChunkSize, '\0');
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return (m_File.Read((void *)a_Data.data(), ChunkSize) == ChunkSize);
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}
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