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using System ;
using System.Collections.Generic ;
using System.Linq ;
using System.Drawing ;
using System.Text ;
using Switch_Toolbox.Library.IO ;
using Switch_Toolbox.Library ;
using System.IO ;
using Syroot.BinaryData ;
using System.Windows.Forms ;
using Switch_Toolbox.Library.Forms ;
using Bfres.Structs ;
namespace FirstPlugin
{
public class PTCL_WiiU
{
public class Header
{
public List < EmitterSet > emitterSets = new List < EmitterSet > ( ) ;
public List < TextureInfo > Textures = new List < TextureInfo > ( ) ;
public bool IsSPBD = false ;
public uint EffectNameTableOffset ;
public uint TextureBlockTableOffset ;
public uint TextureBlockTableSize ;
public uint ShaderGtxTableOffset ;
public uint ShaderGtxTableSize ;
public void Read ( FileReader reader , PTCL pctl )
{
uint Position = ( uint ) reader . Position ; //Offsets are relative to this
reader . ByteOrder = Syroot . BinaryData . ByteOrder . BigEndian ;
string Signature = reader . ReadString ( 4 , Encoding . ASCII ) ;
if ( Signature = = "SPBD" )
IsSPBD = true ;
uint Version = reader . ReadUInt32 ( ) ;
uint EmitterCount = reader . ReadUInt32 ( ) ;
uint Padding = reader . ReadUInt32 ( ) ;
EffectNameTableOffset = reader . ReadUInt32 ( ) ;
TextureBlockTableOffset = reader . ReadUInt32 ( ) ;
TextureBlockTableSize = reader . ReadUInt32 ( ) ;
ShaderGtxTableOffset = reader . ReadUInt32 ( ) ;
ShaderGtxTableSize = reader . ReadUInt32 ( ) ;
uint KeyAnimationTableOffset = reader . ReadUInt32 ( ) ;
uint KeyAnimationTableSize = reader . ReadUInt32 ( ) ;
uint PrimativeTableOffset = reader . ReadUInt32 ( ) ;
uint PrimativeTableSize = reader . ReadUInt32 ( ) ;
uint ShaderParamTableOffset = reader . ReadUInt32 ( ) ;
uint ShaderParamTableSize = reader . ReadUInt32 ( ) ;
var groupEmitterSets = new TreeNode ( "Emitter Sets" ) ;
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var textureFolder = new PTCL . Header . TextureFolder ( "Textures" ) ;
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pctl . Nodes . Add ( textureFolder ) ;
pctl . Nodes . Add ( groupEmitterSets ) ;
if ( IsSPBD )
reader . Seek ( 0x40 , SeekOrigin . Begin ) ;
else
reader . Seek ( 72 , SeekOrigin . Begin ) ;
for ( int i = 0 ; i < EmitterCount ; i + + )
{
EmitterSet emitterSet = new EmitterSet ( ) ;
emitterSet . Read ( reader , this ) ;
emitterSets . Add ( emitterSet ) ;
groupEmitterSets . Nodes . Add ( emitterSet ) ;
}
int index = 0 ;
foreach ( var tex in Textures )
{
tex . Text = $"Texture{index++}" ;
textureFolder . Nodes . Add ( tex ) ;
}
reader . Dispose ( ) ;
reader . Close ( ) ;
}
public void Write ( FileWriter writer , PTCL ptcl )
{
writer . ByteOrder = ByteOrder . BigEndian ;
writer . Write ( ptcl . data . ToArray ( ) ) ;
foreach ( TextureInfo tex in ptcl . headerU . Textures )
{
//write texture blocks. Some slots are empty so check if it exists
tex . Write ( writer , this ) ;
}
foreach ( EmitterSet emitterSets in emitterSets )
{
foreach ( EmitterU emitter in emitterSets . Nodes )
{
writer . Seek ( ( ( EmitterU ) emitter ) . ColorPosition , SeekOrigin . Begin ) ;
foreach ( var color0 in emitter . Color0Array )
{
writer . Write ( color0 . R ) ;
writer . Write ( color0 . G ) ;
writer . Write ( color0 . B ) ;
writer . Write ( color0 . A ) ;
}
foreach ( var color1 in emitter . Color1Array )
{
writer . Write ( color1 . R ) ;
writer . Write ( color1 . G ) ;
writer . Write ( color1 . B ) ;
writer . Write ( color1 . A ) ;
}
}
}
writer . Flush ( ) ;
writer . Close ( ) ;
writer . Dispose ( ) ;
}
}
public class EmitterSet : TreeNodeCustom
{
public void Read ( FileReader reader , Header header )
{
uint NameOffset = 0 ;
uint EmitterCount = 0 ;
uint EmitterTableOffset = 0 ;
if ( header . IsSPBD )
{
uint Description = reader . ReadUInt32 ( ) ;
uint Unknown = reader . ReadUInt32 ( ) ;
NameOffset = reader . ReadUInt32 ( ) ;
uint NamePointer = reader . ReadUInt32 ( ) ;
EmitterCount = reader . ReadUInt32 ( ) ;
EmitterTableOffset = reader . ReadUInt32 ( ) ;
uint Unknown2 = reader . ReadUInt32 ( ) ;
}
else
{
uint padding = reader . ReadUInt32 ( ) ;
uint padding2 = reader . ReadUInt32 ( ) ;
NameOffset = reader . ReadUInt32 ( ) ;
uint padding3 = reader . ReadUInt32 ( ) ;
EmitterCount = reader . ReadUInt32 ( ) ;
EmitterTableOffset = reader . ReadUInt32 ( ) ;
uint padding4 = reader . ReadUInt32 ( ) ;
}
using ( reader . TemporarySeek ( header . EffectNameTableOffset + NameOffset , SeekOrigin . Begin ) )
{
Text = reader . ReadString ( BinaryStringFormat . ZeroTerminated ) ;
}
long pos = reader . Position ;
reader . Seek ( EmitterTableOffset , SeekOrigin . Begin ) ;
for ( int i = 0 ; i < EmitterCount ; i + + )
{
EmitterTable table = new EmitterTable ( ) ;
table . Read ( reader , header ) ;
Nodes . Add ( table . emitter ) ;
}
reader . Seek ( pos , SeekOrigin . Begin ) ;
}
public void Write ( FileWriter writer )
{
}
}
public class EmitterTable
{
public EmitterU emitter ;
public uint EmitterOffset ;
public void Read ( FileReader reader , Header header )
{
if ( header . IsSPBD )
{
EmitterOffset = reader . ReadUInt32 ( ) ;
uint padding = reader . ReadUInt32 ( ) ;
}
else
{
EmitterOffset = reader . ReadUInt32 ( ) ;
uint padding = reader . ReadUInt32 ( ) ;
uint padding2 = reader . ReadUInt32 ( ) ;
uint padding3 = reader . ReadUInt32 ( ) ;
}
long pos = reader . Position ;
reader . Seek ( EmitterOffset , SeekOrigin . Begin ) ;
emitter = new EmitterU ( ) ;
emitter . Read ( reader , header ) ;
reader . Seek ( pos , SeekOrigin . Begin ) ;
}
public void Write ( FileWriter writer )
{
}
}
public class EmitterU : PTCL . Emitter
{
public long ColorPosition ;
public override void OnClick ( TreeView treeview )
{
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EmitterEditor editor = ( EmitterEditor ) LibraryGUI . GetActiveContent ( typeof ( EmitterEditor ) ) ;
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if ( editor = = null )
{
editor = new EmitterEditor ( ) ;
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LibraryGUI . LoadEditor ( editor ) ;
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}
editor . Text = Text ;
editor . Dock = DockStyle . Fill ;
editor . LoadEmitter ( this ) ;
}
public void Read ( FileReader reader , Header header )
{
long pos = reader . Position ;
reader . Seek ( 56 ) ;
uint NameOffset = reader . ReadUInt32 ( ) ;
uint padding = reader . ReadUInt32 ( ) ;
if ( NameOffset ! = PTCL . NullOffset )
{
using ( reader . TemporarySeek ( header . EffectNameTableOffset + NameOffset , SeekOrigin . Begin ) )
{
Text = reader . ReadString ( BinaryStringFormat . ZeroTerminated ) ;
}
}
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uint TextureAmount = 3 ;
if ( header . IsSPBD )
TextureAmount = 2 ;
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for ( int i = 0 ; i < TextureAmount ; i + + ) //Max of 3 or 2 textures depending on version. Seems to fill in texture info even if unused
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{
TextureInfo textureInfo = new TextureInfo ( ) ;
textureInfo . Read ( reader , header , Text ) ;
if ( ! textureInfo . IsEmpty ( ) )
{
DrawableTex . Add ( textureInfo ) ;
bool HasImage = header . Textures . Any ( item = > item . DataPos = = textureInfo . DataPos ) ;
if ( ! HasImage )
{
header . Textures . Add ( textureInfo ) ;
}
}
}
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if ( header . IsSPBD )
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reader . Seek ( pos + 1358 , SeekOrigin . Begin ) ;
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else
reader . Seek ( pos + 1616 , SeekOrigin . Begin ) ;
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ColorPosition = reader . Position ;
for ( int i = 0 ; i < 8 ; i + + )
{
ColorData clr = new ColorData ( ) ;
clr . R = reader . ReadSingle ( ) ;
clr . G = reader . ReadSingle ( ) ;
clr . B = reader . ReadSingle ( ) ;
clr . A = reader . ReadSingle ( ) ;
Color0Array [ i ] = clr ;
int red = Utils . FloatToIntClamp ( clr . R ) ;
int green = Utils . FloatToIntClamp ( clr . G ) ;
int blue = Utils . FloatToIntClamp ( clr . B ) ;
int alpha = Utils . FloatToIntClamp ( clr . A ) ;
// Console.WriteLine($"Color0 {i} R {R} G {G} B {B} A {A}");
// Console.WriteLine($"Color0 {i} R {red} G {green} B {blue} A {alpha}");
Color0s [ i ] = Color . FromArgb ( alpha , red , green , blue ) ;
}
for ( int i = 0 ; i < 8 ; i + + )
{
ColorData clr = new ColorData ( ) ;
clr . R = reader . ReadSingle ( ) ;
clr . G = reader . ReadSingle ( ) ;
clr . B = reader . ReadSingle ( ) ;
clr . A = reader . ReadSingle ( ) ;
Color1Array [ i ] = clr ;
int red = Utils . FloatToIntClamp ( clr . R ) ;
int green = Utils . FloatToIntClamp ( clr . G ) ;
int blue = Utils . FloatToIntClamp ( clr . B ) ;
int alpha = Utils . FloatToIntClamp ( clr . A ) ;
// Console.WriteLine($"Color1 {i} R {R} G {G} B {B} A {A}");
// Console.WriteLine($"Color1 {i} R {red} G {green} B {blue} A {alpha}");
Color1s [ i ] = Color . FromArgb ( alpha , red , green , blue ) ;
}
}
public void Write ( FileWriter writer )
{
}
}
public class TextureInfo : STGenericTexture
{
public const uint Alignment = 8192 ;
public TextureInfo ( )
{
ImageKey = "Texture" ;
SelectedImageKey = "Texture" ;
}
public override void OnClick ( TreeView treeView )
{
UpdateEditor ( ) ;
}
public override string ExportFilter = > FileFilters . GTX ;
public override string ReplaceFilter = > FileFilters . GTX ;
public override void Export ( string FileName )
{
Export ( FileName , false , false , 0 , 0 ) ;
}
public override void Replace ( string FileName )
{
int size = data . Length ;
FTEX ftex = new FTEX ( ) ;
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ftex . ReplaceTexture ( FileName , Format , MipCount , SupportedFormats , true , true , true ) ;
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if ( ftex . texture ! = null )
{
byte [ ] ImageData = ftex . texture . Data ;
if ( ftex . texture . MipData ! = null )
ImageData = Utils . CombineByteArray ( ftex . texture . Data , ftex . texture . MipData ) ;
// if (ImageData.Length != size)
// MessageBox.Show($"Image size does not match! Make sure mip map count, format, height and width are all the same! Original Size {size} Import {ImageData.Length}", );
Swizzle = ( byte ) ftex . texture . Swizzle ;
byte [ ] NewData = new byte [ size ] ;
Array . Copy ( ImageData , 0 , NewData , 0 , size ) ;
data = NewData ;
UpdateEditor ( ) ;
}
}
public byte [ ] AlignData ( byte [ ] data )
{
using ( var mem = new MemoryStream ( data ) )
{
using ( var writer = new FileWriter ( mem ) )
{
writer . Write ( data ) ;
writer . Align ( ( int ) Alignment ) ;
return mem . ToArray ( ) ;
}
}
}
public void UpdateEditor ( )
{
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ImageEditorBase editor = ( ImageEditorBase ) LibraryGUI . GetActiveContent ( typeof ( ImageEditorBase ) ) ;
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if ( editor = = null )
{
editor = new ImageEditorBase ( ) ;
editor . Dock = DockStyle . Fill ;
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LibraryGUI . LoadEditor ( editor ) ;
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}
editor . Text = Text ;
editor . LoadProperties ( GenericProperties ) ;
editor . LoadImage ( this ) ;
}
public override TEX_FORMAT [ ] SupportedFormats
{
get
{
return new TEX_FORMAT [ ]
{
TEX_FORMAT . BC1_UNORM ,
TEX_FORMAT . BC1_UNORM_SRGB ,
TEX_FORMAT . BC2_UNORM ,
TEX_FORMAT . BC2_UNORM_SRGB ,
TEX_FORMAT . BC3_UNORM ,
TEX_FORMAT . BC3_UNORM_SRGB ,
TEX_FORMAT . BC4_UNORM ,
TEX_FORMAT . BC4_SNORM ,
TEX_FORMAT . BC5_UNORM ,
TEX_FORMAT . BC5_SNORM ,
TEX_FORMAT . B5G5R5A1_UNORM ,
TEX_FORMAT . B5G6R5_UNORM ,
TEX_FORMAT . B8G8R8A8_UNORM_SRGB ,
TEX_FORMAT . B8G8R8A8_UNORM ,
TEX_FORMAT . R10G10B10A2_UNORM ,
TEX_FORMAT . R16_UNORM ,
TEX_FORMAT . B4G4R4A4_UNORM ,
TEX_FORMAT . R8G8B8A8_UNORM_SRGB ,
TEX_FORMAT . R8G8B8A8_UNORM ,
TEX_FORMAT . R8_UNORM ,
TEX_FORMAT . R8G8_UNORM ,
TEX_FORMAT . R32G8X24_FLOAT ,
} ;
}
}
public override bool CanEdit { get ; set ; } = false ;
public enum SurfaceFormat
{
INVALID = 0x0 ,
TCS_R8_G8_B8_A8 = 2 ,
T_BC1_UNORM = 3 ,
T_BC1_SRGB = 4 ,
T_BC2_UNORM = 5 ,
T_BC2_SRGB = 6 ,
T_BC3_UNORM = 7 ,
T_BC3_SRGB = 8 ,
T_BC4_UNORM = 9 ,
T_BC4_SNORM = 10 ,
T_BC5_UNORM = 11 ,
T_BC5_SNORM = 12 ,
TC_R8_UNORM = 13 ,
TC_R8_G8_UNORM = 14 ,
TCS_R8_G8_B8_A8_UNORM = 15 ,
TCS_R5_G6_B5_UNORM = 25 ,
} ;
public uint TileMode ;
public uint Swizzle ;
public byte WrapMode ;
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public byte [ ] CompSel ;
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public uint ImageSize ;
public uint ImageOffset ;
public SurfaceFormat SurfFormat ;
public byte [ ] data ;
public uint DataPos ;
public bool IsEmpty ( )
{
if ( Width = = 0 | | Height = = 0 | | SurfFormat = = 0 )
return true ;
else
return false ;
}
public void Read ( FileReader reader , Header header , string EmitterName )
{
CanReplace = true ;
CanRename = false ;
Width = reader . ReadUInt16 ( ) ;
Height = reader . ReadUInt16 ( ) ;
TileMode = reader . ReadUInt32 ( ) ;
Swizzle = reader . ReadUInt32 ( ) ;
if ( header . IsSPBD )
{
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uint Alignment = reader . ReadUInt32 ( ) ;
uint Pitch = reader . ReadUInt32 ( ) ;
WrapMode = reader . ReadByte ( ) ; //11 = repeat, 22 = mirror
byte unk = reader . ReadByte ( ) ;
byte unk2 = reader . ReadByte ( ) ;
byte unk3 = reader . ReadByte ( ) ;
uint mipCount = reader . ReadUInt32 ( ) ;
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CompSel = reader . ReadBytes ( 4 ) ;
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uint [ ] MipOffsets = reader . ReadUInt32s ( 13 ) ;
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uint enableMipLevel = reader . ReadUInt32 ( ) ;
uint mipBias = reader . ReadUInt32 ( ) ;
uint originalDataFormat = reader . ReadUInt32 ( ) ;
uint originalDataPos = reader . ReadUInt32 ( ) ;
uint originalDataSize = reader . ReadUInt32 ( ) ;
SurfFormat = reader . ReadEnum < SurfaceFormat > ( false ) ;
ImageSize = reader . ReadUInt32 ( ) ;
DataPos = reader . ReadUInt32 ( ) ;
}
else
{
WrapMode = reader . ReadByte ( ) ; //11 = repeat, 22 = mirror
byte unk = reader . ReadByte ( ) ;
Depth = reader . ReadByte ( ) ;
byte unk1 = reader . ReadByte ( ) ;
uint mipCount = reader . ReadUInt32 ( ) ;
if ( mipCount < 14 )
MipCount = mipCount ;
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CompSel = reader . ReadBytes ( 4 ) ;
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uint enableMipLevel = reader . ReadUInt32 ( ) ;
uint mipBias = reader . ReadUInt32 ( ) ;
uint originalDataFormat = reader . ReadUInt32 ( ) ;
uint originalDataPos = reader . ReadUInt32 ( ) ;
uint originalDataSize = reader . ReadUInt32 ( ) ;
SurfFormat = reader . ReadEnum < SurfaceFormat > ( false ) ;
ImageSize = reader . ReadUInt32 ( ) ;
DataPos = reader . ReadUInt32 ( ) ;
}
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RedChannel = SetChannel ( CompSel [ 0 ] ) ;
GreenChannel = SetChannel ( CompSel [ 1 ] ) ;
BlueChannel = SetChannel ( CompSel [ 2 ] ) ;
AlphaChannel = SetChannel ( CompSel [ 3 ] ) ;
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ArrayCount = 1 ;
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Depth = 1 ;
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if ( Width ! = 0 & & Height ! = 0 & & SurfFormat ! = 0 )
{
using ( reader . TemporarySeek ( header . TextureBlockTableOffset + DataPos , SeekOrigin . Begin ) )
{
data = reader . ReadBytes ( ( int ) ImageSize ) ;
}
}
if ( data ! = null & & data . Length > 0 )
{
ConvertFormat ( ) ;
}
reader . Seek ( 164 , SeekOrigin . Current ) ;
}
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private STChannelType SetChannel ( int comp )
{
if ( comp = = 0 ) return STChannelType . Red ;
else if ( comp = = 1 ) return STChannelType . Green ;
else if ( comp = = 2 ) return STChannelType . Blue ;
else if ( comp = = 3 ) return STChannelType . Alpha ;
else if ( comp = = 4 ) return STChannelType . Zero ;
else return STChannelType . One ;
}
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public void Write ( FileWriter writer , Header header )
{
if ( data ! = null & & data . Length > 0 )
{
using ( writer . TemporarySeek ( header . TextureBlockTableOffset + DataPos , SeekOrigin . Begin ) )
{
writer . Write ( data ) ;
}
}
}
public override void SetImageData ( Bitmap bitmap , int ArrayLevel )
{
throw new NotImplementedException ( "Cannot set image data! Operation not implemented!" ) ;
}
uint GX2Format = 0 ;
private void ConvertFormat ( )
{
switch ( SurfFormat )
{
case SurfaceFormat . T_BC1_UNORM :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . T_BC1_UNORM ;
Format = TEX_FORMAT . BC1_UNORM ;
break ;
case SurfaceFormat . T_BC1_SRGB :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . T_BC1_SRGB ;
Format = TEX_FORMAT . BC1_UNORM_SRGB ;
break ;
case SurfaceFormat . T_BC2_UNORM :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . T_BC2_UNORM ;
Format = TEX_FORMAT . BC2_UNORM ;
break ;
case SurfaceFormat . T_BC2_SRGB :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . T_BC2_SRGB ;
Format = TEX_FORMAT . BC2_UNORM_SRGB ;
break ;
case SurfaceFormat . T_BC3_UNORM :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . T_BC3_UNORM ;
Format = TEX_FORMAT . BC3_UNORM ;
break ;
case SurfaceFormat . T_BC3_SRGB :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . T_BC3_SRGB ;
Format = TEX_FORMAT . BC3_UNORM_SRGB ;
break ;
case SurfaceFormat . T_BC4_UNORM :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . T_BC4_UNORM ;
Format = TEX_FORMAT . BC4_UNORM ;
break ;
case SurfaceFormat . T_BC4_SNORM :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . T_BC4_SNORM ;
Format = TEX_FORMAT . BC4_SNORM ;
break ;
case SurfaceFormat . T_BC5_UNORM :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . T_BC5_UNORM ;
Format = TEX_FORMAT . BC5_UNORM ;
break ;
case SurfaceFormat . T_BC5_SNORM :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . T_BC5_SNORM ;
Format = TEX_FORMAT . BC5_SNORM ;
break ;
case SurfaceFormat . TC_R8_G8_UNORM :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . TC_R8_G8_UNORM ;
Format = TEX_FORMAT . R8G8_UNORM ;
break ;
case SurfaceFormat . TCS_R8_G8_B8_A8_UNORM :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . TCS_R8_G8_B8_A8_UNORM ;
Format = TEX_FORMAT . R8G8B8A8_UNORM ;
break ;
case SurfaceFormat . TCS_R8_G8_B8_A8 :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . TCS_R8_G8_B8_A8_UNORM ;
Format = TEX_FORMAT . R8G8B8A8_UNORM ;
break ;
case SurfaceFormat . TC_R8_UNORM :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . TC_R8_UNORM ;
Format = TEX_FORMAT . R8_UNORM ;
break ;
case SurfaceFormat . TCS_R5_G6_B5_UNORM :
GX2Format = ( uint ) GX2 . GX2SurfaceFormat . TCS_R5_G6_B5_UNORM ;
Format = TEX_FORMAT . B5G6R5_UNORM ;
break ;
default :
throw new Exception ( "Format unsupported! " + SurfFormat ) ;
}
}
public override byte [ ] GetImageData ( int ArrayLevel = 0 , int MipLevel = 0 )
{
int swizzle = ( int ) Swizzle ;
int pitch = ( int ) 0 ;
uint bpp = GX2 . surfaceGetBitsPerPixel ( GX2Format ) > > 3 ;
GX2 . GX2Surface surf = new GX2 . GX2Surface ( ) ;
surf . bpp = bpp ;
surf . height = Height ;
surf . width = Width ;
surf . aa = ( uint ) 0 ;
surf . alignment = Alignment ;
surf . depth = Depth ;
surf . dim = 0x1 ;
surf . format = GX2Format ;
surf . use = 0x1 ;
surf . pitch = 0 ;
surf . data = data ;
surf . numMips = MipCount ;
surf . mipOffset = new uint [ MipCount ] ;
surf . mipData = null ;
surf . tileMode = TileMode ;
surf . swizzle = Swizzle ;
surf . imageSize = ImageSize ;
// GX2.GenerateMipSurfaceData(surf);
foreach ( var mipoffset in surf . mipOffset )
{
Console . WriteLine ( $"mipoffset {mipoffset}" ) ;
}
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return GX2 . Decode ( surf , ArrayLevel , MipLevel ) ;
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}
public void Write ( FileWriter writer )
{
}
}
}
}