1
0
mirror of synced 2024-12-03 19:47:29 +01:00
Switch-Toolbox/Switch_Toolbox_Library/FileFormats/CSharpImageLibrary/Dxt.cs
2019-06-10 16:30:06 -04:00

325 lines
11 KiB
C#

using System;
// https://github.com/KFreon/CSharpImageLibrary
namespace CSharpImageLibrary.DDS
{
public static class Dxt
{
public static byte[] DecompressDxt1(byte[] Data, int Width, int Height)
{
var image = new byte[Height * Width * 4];
var widthBlocks = Width / 4;
var heightBlocks = Height / 4;
int pos = 0;
for (int y = 0; y < heightBlocks; y++)
{
for (int x = 0; x < widthBlocks; x++)
{
DecompressDxt1Block(Data, (int)Width, (int)Height, pos, image, x * 4, y * 4);
pos += 8;
}
}
return image;
}
public static void DecompressDxt1Block(byte[] Data,int Width, int Height, int pos, byte[] output, int xPos, int yPos)
{
if (pos >= Data.Length) return;
Color[] c = new Color[4];
var color0 = BitConverter.ToUInt16(Data, pos);
var color1 = BitConverter.ToUInt16(Data, pos + 2);
var mask = BitConverter.ToUInt32(Data, pos + 4);
Color(color0, ref c[0]);
Color(color1, ref c[1]);
c[0].A = 255;
c[1].A = 255;
if (color0 > color1)
{
c[2].R = (byte)((2 * c[0].R + c[1].R) / 3);
c[2].G = (byte)((2 * c[0].G + c[1].G) / 3);
c[2].B = (byte)((2 * c[0].B + c[1].B) / 3);
c[2].A = 255;
c[3].R = (byte)((c[0].R + 2 * c[1].R) / 3);
c[3].G = (byte)((c[0].G + 2 * c[1].G) / 3);
c[3].B = (byte)((c[0].B + 2 * c[1].B) / 3);
c[3].A = 255;
}
else
{
c[2].R = (byte)((c[0].R + c[1].R) / 2);
c[2].G = (byte)((c[0].G + c[1].G) / 2);
c[2].B = (byte)((c[0].B + c[1].B) / 2);
c[2].A = 255;
c[3].R = 0;
c[3].G = 0;
c[3].B = 0;
c[3].A = 0;
}
for (int y = 0; y < 4; y++)
{
for (int x = 0; x < 4; x++)
{
var index = mask & 3;
mask >>= 2;
var col = c[index];
var x2 = xPos + x;
var y2 = yPos + y;
var offset = (x2 + y2 * Width) * 4;
output[offset] = col.B;
output[offset + 1] = col.G;
output[offset + 2] = col.R;
output[offset + 3] = col.A;
}
}
}
public static byte[] DecompressDxt4(byte[] Data, int Width, int Height)
{
var image = new byte[Height * Width * 4];
var widthBlocks = Width / 4;
var heightBlocks = Height / 4;
int pos = 0;
for (int y = 0; y < heightBlocks; y++)
{
for (int x = 0; x < widthBlocks; x++)
{
DecompressDxt4Block(Data, Width, Height, pos, image, x * 4, y * 4);
pos += 8;
}
}
return image;
}
public static void DecompressDxt4Block(byte[] Data, int Width, int Height, int pos, byte[] output, int xPos, int yPos)
{
if (pos >= Data.Length) return;
byte[] alpha = new byte[8];
var alpha0 = Data[pos];
var alpha1 = Data[pos + 1];
var alphaMask = BitConverter.ToUInt64(Data, pos) >> 16;
alpha[0] = alpha0;
alpha[1] = alpha1;
if (alpha[0] > alpha[1])
{
alpha[2] = (byte)((6 * alpha[0] + 1 * alpha[1] + 3) / 7);
alpha[3] = (byte)((5 * alpha[0] + 2 * alpha[1] + 3) / 7);
alpha[4] = (byte)((4 * alpha[0] + 3 * alpha[1] + 3) / 7);
alpha[5] = (byte)((3 * alpha[0] + 4 * alpha[1] + 3) / 7);
alpha[6] = (byte)((2 * alpha[0] + 5 * alpha[1] + 3) / 7);
alpha[7] = (byte)((1 * alpha[0] + 6 * alpha[1] + 3) / 7);
}
else
{
alpha[2] = (byte)((4 * alpha[0] + 1 * alpha[1] + 2) / 5);
alpha[3] = (byte)((3 * alpha[0] + 2 * alpha[1] + 2) / 5);
alpha[4] = (byte)((2 * alpha[0] + 3 * alpha[1] + 2) / 5);
alpha[5] = (byte)((1 * alpha[0] + 4 * alpha[1] + 2) / 5);
alpha[6] = 0;
alpha[7] = 255;
}
for (int y = 0; y < 4; y++)
{
for (int x = 0; x < 4; x++)
{
var alphaIndex = alphaMask & 7;
alphaMask >>= 3;
var x2 = xPos + x;
var y2 = yPos + y;
var offset = (x2 + y2 * Width) * 4;
output[offset] = alpha[alphaIndex];
output[offset + 1] = alpha[alphaIndex];
output[offset + 2] = alpha[alphaIndex];
output[offset + 3] = 0xFF;
}
}
}
public static byte[] DecompressDxt5(byte[] Data, int Width, int Height)
{
var image = new byte[Height * Width * 4];
var widthBlocks = Width / 4;
var heightBlocks = Height / 4;
int pos = 0;
for (int y = 0; y < heightBlocks; y++)
{
for (int x = 0; x < widthBlocks; x++)
{
DecompressDxt5Block(Data, Width, Height, pos, image, x * 4, y * 4);
pos += 16;
}
}
return image;
}
public static void DecompressDxt5Block(byte[] Data, int Width, int Height, int pos, byte[] output, int xPos, int yPos)
{
if (pos >= Data.Length) return;
Color[] c = new Color[4];
byte[] alpha = new byte[8];
var alpha0 = Data[pos];
var alpha1 = Data[pos + 1];
var alphaMask = BitConverter.ToUInt64(Data, pos) >> 16;
var color0 = BitConverter.ToUInt16(Data, pos + 8);
var color1 = BitConverter.ToUInt16(Data, pos + 10);
var mask = BitConverter.ToUInt32(Data, pos + 12);
alpha[0] = alpha0;
alpha[1] = alpha1;
if (alpha[0] > alpha[1])
{
alpha[2] = (byte)((6 * alpha[0] + 1 * alpha[1] + 3) / 7);
alpha[3] = (byte)((5 * alpha[0] + 2 * alpha[1] + 3) / 7);
alpha[4] = (byte)((4 * alpha[0] + 3 * alpha[1] + 3) / 7);
alpha[5] = (byte)((3 * alpha[0] + 4 * alpha[1] + 3) / 7);
alpha[6] = (byte)((2 * alpha[0] + 5 * alpha[1] + 3) / 7);
alpha[7] = (byte)((1 * alpha[0] + 6 * alpha[1] + 3) / 7);
}
else
{
alpha[2] = (byte)((4 * alpha[0] + 1 * alpha[1] + 2) / 5);
alpha[3] = (byte)((3 * alpha[0] + 2 * alpha[1] + 2) / 5);
alpha[4] = (byte)((2 * alpha[0] + 3 * alpha[1] + 2) / 5);
alpha[5] = (byte)((1 * alpha[0] + 4 * alpha[1] + 2) / 5);
alpha[6] = 0;
alpha[7] = 255;
}
Color(color0, ref c[0]);
Color(color1, ref c[1]);
c[2].R = (byte)((2 * c[0].R + c[1].R) / 3);
c[2].G = (byte)((2 * c[0].G + c[1].G) / 3);
c[2].B = (byte)((2 * c[0].B + c[1].B) / 3);
c[3].R = (byte)((c[0].R + 2 * c[1].R) / 3);
c[3].G = (byte)((c[0].G + 2 * c[1].G) / 3);
c[3].B = (byte)((c[0].B + 2 * c[1].B) / 3);
for (int y = 0; y < 4; y++)
{
for (int x = 0; x < 4; x++)
{
var index = mask & 3;
mask >>= 2;
var alphaIndex = alphaMask & 7;
alphaMask >>= 3;
var col = c[index];
var x2 = xPos + x;
var y2 = yPos + y;
var offset = (x2 + y2 * Width) * 4;
output[offset] = col.B;
output[offset + 1] = col.G;
output[offset + 2] = col.R;
output[offset + 3] = alpha[alphaIndex];
}
}
}
static byte ExpandTo255(double v)
{
if (double.IsNaN(v) || v == 0)
return 128;
else
return (byte)(((v + 1d) / 2d) * 255d);
}
internal static int GetDecompressedOffset(int start, int lineLength, int pixelIndex)
{
return start + (lineLength * (pixelIndex / 4)) + (pixelIndex % 4) * 4;
}
public static byte[] DecompressBc7(byte[] Data, int Width, int Height)
{
var image = new byte [Height * Width * 4];
var widthBlocks = Width / 4;
var heightBlocks = Height / 4;
int pos = 0;
for (int y = 0; y < heightBlocks; y++)
{
for (int x = 0; x < widthBlocks; x++)
{
DecompressBC7Block(Data, Width, Height, pos, image, x * 4, y * 4);
pos += 16;
}
}
return image;
}
internal static void DecompressBC7Block(byte[] Data, int Width, int Height, int pos, byte[] output, int xPos, int yPos)
{
var colours = BC7.DecompressBC7(Data, pos);
BC7.SetColoursFromDX10(colours, output, xPos, yPos, Width);
}
public static byte[] DecompressBc6(byte[] Data, int Width, int Height, bool IsSigned)
{
var image = new byte[Height * Width * 4];
var widthBlocks = Width / 4;
var heightBlocks = Height / 4;
int pos = 0;
for (int y = 0; y < heightBlocks; y++)
{
for (int x = 0; x < widthBlocks; x++)
{
DecompressBC6Block(Data, Width, Height, IsSigned, pos, image, x * 4, y * 4);
pos += 16;
}
}
return image;
}
internal static void DecompressBC6Block(byte[] Data, int Width, int Height, bool IsSigned, int pos, byte[] output, int xPos, int yPos)
{
var colours = BC6.DecompressBC6(Data, pos, IsSigned);
BC7.SetColoursFromDX10(colours, output, xPos, yPos, Width);
}
public static void Color(ushort color, ref Color c)
{
c.R = (byte)((color >> 11) & 0x1f);
c.G = (byte)((color >> 5) & 0x3f);
c.B = (byte)(color & 0x1f);
c.R = (byte)((c.R << 3) | (c.R >> 2));
c.G = (byte)((c.G << 2) | (c.G >> 4));
c.B = (byte)((c.B << 3) | (c.B >> 2));
}
}
public struct Color
{
public byte R;
public byte G;
public byte B;
public byte A;
}
}