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// BlockArea.h
// Interfaces to the cBlockArea object representing an area of block data that can be queried from cWorld and then accessed again without further queries
// The object also supports writing the blockdata back into cWorld, even into other coords
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// NOTE: All Nibble values (meta, blocklight, skylight) are stored one-nibble-per-byte for faster access / editting!
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# pragma once
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// fwd: World.h
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class cWorld ;
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// fwd: FastNBT.h
class cParsedNBT ;
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// tolua_begin
class cBlockArea
{
// tolua_end
DISALLOW_COPY_AND_ASSIGN ( cBlockArea ) ;
// tolua_begin
public :
/// What data is to be queried (bit-mask)
enum
{
baTypes = 1 ,
baMetas = 2 ,
baLight = 4 ,
baSkyLight = 8 ,
} ;
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enum eMergeStrategy
{
msOverwrite ,
msFillAir ,
msImprint ,
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msLake ,
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} ;
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cBlockArea ( void ) ;
~ cBlockArea ( ) ;
/// Clears the data stored to reclaim memory
void Clear ( void ) ;
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/** Creates a new area of the specified size and contents.
Origin is set to all zeroes .
BlockTypes are set to air , block metas to zero , blocklights to zero and skylights to full light .
*/
void Create ( int a_SizeX , int a_SizeY , int a_SizeZ , int a_DataTypes = baTypes | baMetas ) ;
/// Resets the origin. No other changes are made, contents are untouched.
void SetOrigin ( int a_OriginX , int a_OriginY , int a_OriginZ ) ;
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/// Reads an area of blocks specified. Returns true if successful. All coords are inclusive.
bool Read ( cWorld * a_World , int a_MinBlockX , int a_MaxBlockX , int a_MinBlockY , int a_MaxBlockY , int a_MinBlockZ , int a_MaxBlockZ , int a_DataTypes = baTypes | baMetas ) ;
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// TODO: Write() is not too good an interface: if it fails, there's no way to repeat only for the parts that didn't write
// A better way may be to return a list of cBlockAreas for each part that didn't succeed writing, so that the caller may try again
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/// Writes the area back into cWorld at the coords specified. Returns true if successful in all chunks, false if only partially / not at all
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bool Write ( cWorld * a_World , int a_MinBlockX , int a_MinBlockY , int a_MinBlockZ , int a_DataTypes = baTypes | baMetas ) ;
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/// Copies this object's contents into the specified BlockArea.
void CopyTo ( cBlockArea & a_Into ) const ;
/// Copies the contents from the specified BlockArea into this object.
void CopyFrom ( const cBlockArea & a_From ) ;
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/// For testing purposes only, dumps the area into a file.
void DumpToRawFile ( const AString & a_FileName ) ;
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/// Loads an area from a .schematic file. Returns true if successful
bool LoadFromSchematicFile ( const AString & a_FileName ) ;
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/// Saves the area into a .schematic file. Returns true if successful
bool SaveToSchematicFile ( const AString & a_FileName ) ;
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/// Crops the internal contents by the specified amount of blocks from each border.
void Crop ( int a_AddMinX , int a_SubMaxX , int a_AddMinY , int a_SubMaxY , int a_AddMinZ , int a_SubMaxZ ) ;
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/// Expands the internal contents by the specified amount of blocks from each border
void Expand ( int a_SubMinX , int a_AddMaxX , int a_SubMinY , int a_AddMaxY , int a_SubMinZ , int a_AddMaxZ ) ;
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/** Merges another block area into this one, using the specified block combinating strategy
This function combines another BlockArea into the current object .
The strategy parameter specifies how individual blocks are combined together , using the table below .
| area block | result |
| this | Src | msOverwrite | msFillAir | msImprint |
+ - - - - - - + - - - - - + - - - - - - - - - - - - - + - - - - - - - - - - - + - - - - - - - - - - - +
| air | air | air | air | air |
| A | air | air | A | A |
| air | B | B | B | B |
| A | B | B | A | B |
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So to sum up :
- msOverwrite completely overwrites all blocks with the Src ' s blocks
- msFillAir overwrites only those blocks that were air
- msImprint overwrites with only those blocks that are non - air
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Special strategies :
msLake ( evaluate top - down , first match wins ) :
| area block | |
| this | Src | result |
+ - - - - - - - - - - + - - - - - - - - + - - - - - - - - +
| A | sponge | A | Sponge is the NOP block
| * | air | air | Air always gets hollowed out , even under the oceans
| water | * | water | Water is never overwritten
| lava | * | lava | Lava is never overwritten
| * | water | water | Water always overwrites anything
| * | lava | lava | Lava always overwrites anything
| dirt | stone | stone | Stone overwrites dirt
| grass | stone | stone | . . . and grass
| mycelium | stone | stone | . . . and mycelium
| A | stone | A | . . . but nothing else
| A | * | A | Everything else is left as it is
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*/
void Merge ( const cBlockArea & a_Src , int a_RelX , int a_RelY , int a_RelZ , eMergeStrategy a_Strategy ) ;
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/// Fills the entire block area with the specified data
void Fill ( int a_DataTypes , BLOCKTYPE a_BlockType , NIBBLETYPE a_BlockMeta = 0 , NIBBLETYPE a_BlockLight = 0 , NIBBLETYPE a_BlockSkyLight = 0x0f ) ;
/// Fills a cuboid inside the block area with the specified data
void FillRelCuboid ( int a_MinRelX , int a_MaxRelX , int a_MinRelY , int a_MaxRelY , int a_MinRelZ , int a_MaxRelZ ,
int a_DataTypes , BLOCKTYPE a_BlockType , NIBBLETYPE a_BlockMeta = 0 ,
NIBBLETYPE a_BlockLight = 0 , NIBBLETYPE a_BlockSkyLight = 0x0f
) ;
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/// Draws a line from between two points with the specified data
void RelLine ( int a_RelX1 , int a_RelY1 , int a_RelZ1 , int a_RelX2 , int a_RelY2 , int a_RelZ2 ,
int a_DataTypes , BLOCKTYPE a_BlockType , NIBBLETYPE a_BlockMeta = 0 ,
NIBBLETYPE a_BlockLight = 0 , NIBBLETYPE a_BlockSkyLight = 0x0f
) ;
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/// Rotates the entire area counter-clockwise around the Y axis
void RotateCCW ( void ) ;
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/// Rotates the entire area clockwise around the Y axis
void RotateCW ( void ) ;
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/// Mirrors the entire area around the XY plane
void MirrorXY ( void ) ;
/// Mirrors the entire area around the XZ plane
void MirrorXZ ( void ) ;
/// Mirrors the entire area around the YZ plane
void MirrorYZ ( void ) ;
/// Rotates the entire area counter-clockwise around the Y axis, doesn't use blockhandlers for block meta
void RotateCCWNoMeta ( void ) ;
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/// Rotates the entire area clockwise around the Y axis, doesn't use blockhandlers for block meta
void RotateCWNoMeta ( void ) ;
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/// Mirrors the entire area around the XY plane, doesn't use blockhandlers for block meta
void MirrorXYNoMeta ( void ) ;
/// Mirrors the entire area around the XZ plane, doesn't use blockhandlers for block meta
void MirrorXZNoMeta ( void ) ;
/// Mirrors the entire area around the YZ plane, doesn't use blockhandlers for block meta
void MirrorYZNoMeta ( void ) ;
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// Setters:
void SetRelBlockType ( int a_RelX , int a_RelY , int a_RelZ , BLOCKTYPE a_BlockType ) ;
void SetBlockType ( int a_BlockX , int a_BlockY , int a_BlockZ , BLOCKTYPE a_BlockType ) ;
void SetRelBlockMeta ( int a_RelX , int a_RelY , int a_RelZ , NIBBLETYPE a_BlockMeta ) ;
void SetBlockMeta ( int a_BlockX , int a_BlockY , int a_BlockZ , NIBBLETYPE a_BlockMeta ) ;
void SetRelBlockLight ( int a_RelX , int a_RelY , int a_RelZ , NIBBLETYPE a_BlockLight ) ;
void SetBlockLight ( int a_BlockX , int a_BlockY , int a_BlockZ , NIBBLETYPE a_BlockLight ) ;
void SetRelBlockSkyLight ( int a_RelX , int a_RelY , int a_RelZ , NIBBLETYPE a_BlockSkyLight ) ;
void SetBlockSkyLight ( int a_BlockX , int a_BlockY , int a_BlockZ , NIBBLETYPE a_BlockSkyLight ) ;
// Getters:
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BLOCKTYPE GetRelBlockType ( int a_RelX , int a_RelY , int a_RelZ ) const ;
BLOCKTYPE GetBlockType ( int a_BlockX , int a_BlockY , int a_BlockZ ) const ;
NIBBLETYPE GetRelBlockMeta ( int a_RelX , int a_RelY , int a_RelZ ) const ;
NIBBLETYPE GetBlockMeta ( int a_BlockX , int a_BlockY , int a_BlockZ ) const ;
NIBBLETYPE GetRelBlockLight ( int a_RelX , int a_RelY , int a_RelZ ) const ;
NIBBLETYPE GetBlockLight ( int a_BlockX , int a_BlockY , int a_BlockZ ) const ;
NIBBLETYPE GetRelBlockSkyLight ( int a_RelX , int a_RelY , int a_RelZ ) const ;
NIBBLETYPE GetBlockSkyLight ( int a_BlockX , int a_BlockY , int a_BlockZ ) const ;
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void SetBlockTypeMeta ( int a_BlockX , int a_BlockY , int a_BlockZ , BLOCKTYPE a_BlockType , NIBBLETYPE a_BlockMeta ) ;
void SetRelBlockTypeMeta ( int a_RelX , int a_RelY , int a_RelZ , BLOCKTYPE a_BlockType , NIBBLETYPE a_BlockMeta ) ;
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void GetBlockTypeMeta ( int a_BlockX , int a_BlockY , int a_BlockZ , BLOCKTYPE & a_BlockType , NIBBLETYPE & a_BlockMeta ) const ;
void GetRelBlockTypeMeta ( int a_RelX , int a_RelY , int a_RelZ , BLOCKTYPE & a_BlockType , NIBBLETYPE & a_BlockMeta ) const ;
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int GetSizeX ( void ) const { return m_SizeX ; }
int GetSizeY ( void ) const { return m_SizeY ; }
int GetSizeZ ( void ) const { return m_SizeZ ; }
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int GetOriginX ( void ) const { return m_OriginX ; }
int GetOriginY ( void ) const { return m_OriginY ; }
int GetOriginZ ( void ) const { return m_OriginZ ; }
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/// Returns the datatypes that are stored in the object (bitmask of baXXX values)
int GetDataTypes ( void ) const ;
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bool HasBlockTypes ( void ) const { return ( m_BlockTypes ! = NULL ) ; }
bool HasBlockMetas ( void ) const { return ( m_BlockMetas ! = NULL ) ; }
bool HasBlockLights ( void ) const { return ( m_BlockLight ! = NULL ) ; }
bool HasBlockSkyLights ( void ) const { return ( m_BlockSkyLight ! = NULL ) ; }
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// tolua_end
// Clients can use these for faster access to all blocktypes. Be careful though!
/// Returns the internal pointer to the block types
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BLOCKTYPE * GetBlockTypes ( void ) const { return m_BlockTypes ; }
NIBBLETYPE * GetBlockMetas ( void ) const { return m_BlockMetas ; } // NOTE: one byte per block!
NIBBLETYPE * GetBlockLight ( void ) const { return m_BlockLight ; } // NOTE: one byte per block!
NIBBLETYPE * GetBlockSkyLight ( void ) const { return m_BlockSkyLight ; } // NOTE: one byte per block!
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int GetBlockCount ( void ) const { return m_SizeX * m_SizeY * m_SizeZ ; }
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int MakeIndex ( int a_RelX , int a_RelY , int a_RelZ ) const ;
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protected :
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friend class cChunkDesc ;
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class cChunkReader :
public cChunkDataCallback
{
public :
cChunkReader ( cBlockArea & a_Area ) ;
protected :
cBlockArea & m_Area ;
int m_OriginX ;
int m_OriginY ;
int m_OriginZ ;
int m_CurrentChunkX ;
int m_CurrentChunkZ ;
void CopyNibbles ( NIBBLETYPE * a_AreaDst , const NIBBLETYPE * a_ChunkSrc ) ;
// cChunkDataCallback overrides:
virtual bool Coords ( int a_ChunkX , int a_ChunkZ ) override ;
virtual void BlockTypes ( const BLOCKTYPE * a_BlockTypes ) override ;
virtual void BlockMeta ( const NIBBLETYPE * a_BlockMetas ) override ;
virtual void BlockLight ( const NIBBLETYPE * a_BlockLight ) override ;
virtual void BlockSkyLight ( const NIBBLETYPE * a_BlockSkyLight ) override ;
} ;
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typedef NIBBLETYPE * NIBBLEARRAY ;
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int m_OriginX ;
int m_OriginY ;
int m_OriginZ ;
int m_SizeX ;
int m_SizeY ;
int m_SizeZ ;
BLOCKTYPE * m_BlockTypes ;
NIBBLETYPE * m_BlockMetas ; // Each meta is stored as a separate byte for faster access
NIBBLETYPE * m_BlockLight ; // Each light value is stored as a separate byte for faster access
NIBBLETYPE * m_BlockSkyLight ; // Each light value is stored as a separate byte for faster access
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/// Clears the data stored and prepares a fresh new block area with the specified dimensions
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bool SetSize ( int a_SizeX , int a_SizeY , int a_SizeZ , int a_DataTypes ) ;
// Basic Setters:
void SetRelNibble ( int a_RelX , int a_RelY , int a_RelZ , NIBBLETYPE a_Value , NIBBLETYPE * a_Array ) ;
void SetNibble ( int a_BlockX , int a_BlockY , int a_BlockZ , NIBBLETYPE a_Value , NIBBLETYPE * a_Array ) ;
// Basic Getters:
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NIBBLETYPE GetRelNibble ( int a_RelX , int a_RelY , int a_RelZ , NIBBLETYPE * a_Array ) const ;
NIBBLETYPE GetNibble ( int a_BlockX , int a_BlockY , int a_BlockZ , NIBBLETYPE * a_Array ) const ;
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// Crop helpers:
void CropBlockTypes ( int a_AddMinX , int a_SubMaxX , int a_AddMinY , int a_SubMaxY , int a_AddMinZ , int a_SubMaxZ ) ;
void CropNibbles ( NIBBLEARRAY & a_Array , int a_AddMinX , int a_SubMaxX , int a_AddMinY , int a_SubMaxY , int a_AddMinZ , int a_SubMaxZ ) ;
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// Expand helpers:
void ExpandBlockTypes ( int a_SubMinX , int a_AddMaxX , int a_SubMinY , int a_AddMaxY , int a_SubMinZ , int a_AddMaxZ ) ;
void ExpandNibbles ( NIBBLEARRAY & a_Array , int a_SubMinX , int a_AddMaxX , int a_SubMinY , int a_AddMaxY , int a_SubMinZ , int a_AddMaxZ ) ;
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/// Loads the area from a schematic file uncompressed and parsed into a NBT tree. Returns true if successful.
bool LoadFromSchematicNBT ( cParsedNBT & a_NBT ) ;
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/// Sets the specified datatypes at the specified location.
void RelSetData (
int a_RelX , int a_RelY , int a_RelZ ,
int a_DataTypes , BLOCKTYPE a_BlockType , NIBBLETYPE a_BlockMeta ,
NIBBLETYPE a_BlockLight , NIBBLETYPE a_BlockSkyLight
) ;
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// tolua_begin
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} ;
// tolua_end