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Switch-Toolbox/Switch_Toolbox_Library/FileFormats/CSharpImageLibrary/BC7.cs
KillzXGaming 7cb5885e6f More archive improvements
2019-06-01 17:49:39 -04:00

250 lines
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// https://github.com/KFreon/CSharpImageLibrary
// ReSharper disable InconsistentNaming
using System.Diagnostics;
namespace CSharpImageLibrary.DDS
{
/// <summary>
/// Adapted almost wholesale from DirectXTex from Microsoft. https://github.com/Microsoft/DirectXTex
/// </summary>
internal static class BC7
{
struct Mode
{
public readonly int Partitions;
public readonly int PartitionBits;
public readonly int IndexPrecision;
public readonly DX10_Helpers.LDRColour RawRGBPrecision;
public readonly DX10_Helpers.LDRColour RGBPrecisionWithP;
public readonly int APrecision;
public readonly int PBits;
public readonly int RotationBits;
public readonly int IndexModeBits;
public Mode(int partitions, int partitionBits, int IndexPrecision, DX10_Helpers.LDRColour rawrgbPrecision, DX10_Helpers.LDRColour RGBPrecisionWithP, int APrecision, int PBits, int RotationBits, int IndexModeBits)
{
Partitions = partitions;
PartitionBits = partitionBits;
this.IndexPrecision = IndexPrecision;
RawRGBPrecision = rawrgbPrecision;
this.RGBPrecisionWithP = RGBPrecisionWithP;
this.APrecision = APrecision;
this.PBits = PBits;
this.RotationBits = RotationBits;
this.IndexModeBits = IndexModeBits;
}
}
// Mode: Partitions, partitionBits, indexPrecision, rgbPrecision, rgbPrecisionWithP, APrecision, PBits, Rotation, IndexMode
static Mode[] Modes = {
/* Mode 0: */ new Mode(2, 4, 3, new DX10_Helpers.LDRColour(4, 4, 4, 0), new DX10_Helpers.LDRColour(5, 5, 5, 0), 0, 6, 0, 0),
/* Mode 1: */ new Mode(1, 6, 3, new DX10_Helpers.LDRColour(6, 6, 6, 0), new DX10_Helpers.LDRColour(7, 7, 7, 0), 0, 2, 0, 0),
/* Mode 2: */ new Mode(2, 6, 2, new DX10_Helpers.LDRColour(5, 5, 5, 0), new DX10_Helpers.LDRColour(5, 5, 5, 0), 0, 0, 0, 0),
/* Mode 3: */ new Mode(1, 6, 2, new DX10_Helpers.LDRColour(7, 7, 7, 0), new DX10_Helpers.LDRColour(8, 8, 8, 0), 0, 4, 0, 0),
/* Mode 4: */ new Mode(0, 0, 2, new DX10_Helpers.LDRColour(5, 5, 5, 6), new DX10_Helpers.LDRColour(5, 5, 5, 6), 3, 0, 2, 1),
/* Mode 5: */ new Mode(0, 0, 2, new DX10_Helpers.LDRColour(7, 7, 7, 8), new DX10_Helpers.LDRColour(7, 7, 7, 8), 2, 0, 2, 0),
/* Mode 6: */ new Mode(0, 0, 4, new DX10_Helpers.LDRColour(7, 7, 7, 7), new DX10_Helpers.LDRColour(8, 8, 8, 8), 0, 2, 0, 0),
/* Mode 7: */ new Mode(1, 6, 2, new DX10_Helpers.LDRColour(5, 5, 5, 5), new DX10_Helpers.LDRColour(6, 6, 6, 6), 0, 4, 0, 0)
};
private static DX10_Helpers.LDRColour Interpolate(DX10_Helpers.LDRColour lDRColour1, DX10_Helpers.LDRColour lDRColour2, int wc, int wa, int wcPrec, int waPrec)
{
DX10_Helpers.LDRColour temp = DX10_Helpers.InterpolateRGB(lDRColour1, lDRColour2, wc, wcPrec);
temp.A = DX10_Helpers.InterpolateA(lDRColour1, lDRColour2, wa, waPrec);
return temp;
}
internal static void SetColoursFromDX10(DX10_Helpers.LDRColour[] block, byte[] destination, int xPos, int yPos, int width)
{
for (int i = 0; i < 4; i++)
{
for (int j = 0; j < 4; j++)
{
var offset = (xPos + j + (yPos+ i) * width) * 4;
var colour = block[(i * 4) + j];
destination[offset] = (byte) colour.B;
destination[offset + 1] = (byte) colour.G;
destination[offset + 2] = (byte) colour.R;
destination[offset + 3] = (byte) colour.A;
}
}
}
public static DX10_Helpers.LDRColour[] DecompressBC7(byte[] source, int sourceStart)
{
int start = 0;
while (start < 128 && DX10_Helpers.GetBit(source, sourceStart, ref start) == 0) { }
int modeVal = start - 1;
Mode mode = Modes[modeVal];
var outColours = new DX10_Helpers.LDRColour[DX10_Helpers.NUM_PIXELS_PER_BLOCK];
if (modeVal < 8)
{
int partitions = mode.Partitions;
int numEndPoints = (partitions + 1) << 1;
int indexPrecision = mode.IndexPrecision;
int APrecision = mode.APrecision;
int i;
int[] P = new int[mode.PBits];
int shape = DX10_Helpers.GetBits(source, sourceStart, ref start, mode.PartitionBits);
int rotation = DX10_Helpers.GetBits(source, sourceStart, ref start, mode.RotationBits);
int indexMode = DX10_Helpers.GetBits(source, sourceStart, ref start, mode.IndexModeBits);
DX10_Helpers.LDRColour[] c = new DX10_Helpers.LDRColour[6];
DX10_Helpers.LDRColour RGBPrecision = mode.RawRGBPrecision;
DX10_Helpers.LDRColour RGBPrecisionWithP = mode.RGBPrecisionWithP;
// Red
for(i = 0; i < numEndPoints; i++)
{
if (start + RGBPrecision.R > 128)
Debugger.Break(); // Error
c[i].R = DX10_Helpers.GetBits(source, sourceStart, ref start, RGBPrecision.R);
}
// Green
for (i = 0; i < numEndPoints; i++)
{
if (start + RGBPrecision.G > 128)
Debugger.Break(); // Error
c[i].G = DX10_Helpers.GetBits(source, sourceStart, ref start, RGBPrecision.G);
}
// Blue
for (i = 0; i < numEndPoints; i++)
{
if (start + RGBPrecision.B > 128)
Debugger.Break(); // Error
c[i].B = DX10_Helpers.GetBits(source, sourceStart, ref start, RGBPrecision.B);
}
// Alpha
for (i = 0; i < numEndPoints; i++)
{
if (start + RGBPrecision.A > 128)
Debugger.Break(); // Error
c[i].A = RGBPrecision.A == 0 ? 255 : DX10_Helpers.GetBits(source, sourceStart, ref start, RGBPrecision.A);
}
// P Bits
for (i = 0; i < mode.PBits; i++)
{
if (start > 127)
{
Debugger.Break();
// Error
}
P[i] = DX10_Helpers.GetBit(source, sourceStart, ref start);
}
// Adjust for P bits
bool rDiff = RGBPrecision.R != RGBPrecisionWithP.R;
bool gDiff = RGBPrecision.G != RGBPrecisionWithP.B;
bool bDiff = RGBPrecision.G != RGBPrecisionWithP.G;
bool aDiff = RGBPrecision.A != RGBPrecisionWithP.A;
if (mode.PBits != 0)
{
for (i = 0; i < numEndPoints; i++)
{
int pi = i * mode.PBits / numEndPoints;
if (rDiff)
c[i].R = (c[i].R << 1) | P[pi];
if (gDiff)
c[i].G = (c[i].G << 1) | P[pi];
if (bDiff)
c[i].B = (c[i].B << 1) | P[pi];
if (aDiff)
c[i].A = (c[i].A << 1) | P[pi];
}
}
for (i = 0; i < numEndPoints; i++)
c[i] = DX10_Helpers.Unquantise(c[i], RGBPrecisionWithP);
int[] w1 = new int[DX10_Helpers.NUM_PIXELS_PER_BLOCK];
int[] w2 = new int[DX10_Helpers.NUM_PIXELS_PER_BLOCK];
// Read colour indicies
for (i = 0; i < DX10_Helpers.NUM_PIXELS_PER_BLOCK; i++)
{
int numBits = DX10_Helpers.IsFixUpOffset(partitions, shape, i) ? indexPrecision - 1 : indexPrecision;
if (start + numBits > 128)
{
Debugger.Break();
// Error
}
w1[i] = DX10_Helpers.GetBits(source, sourceStart, ref start, numBits);
}
// Read Alpha
if (APrecision != 0)
{
for (i = 0; i < DX10_Helpers.NUM_PIXELS_PER_BLOCK; i++)
{
int numBits = i != 0 ? APrecision : APrecision - 1;
if (start + numBits > 128)
{
Debugger.Break();
// Error
}
w2[i] = DX10_Helpers.GetBits(source, sourceStart, ref start, numBits);
}
}
for (i = 0; i < DX10_Helpers.NUM_PIXELS_PER_BLOCK; i++)
{
int region = DX10_Helpers.PartitionTable[partitions][shape][i];
DX10_Helpers.LDRColour outPixel;
if (APrecision == 0)
outPixel = Interpolate(c[region << 1], c[(region << 1) + 1], w1[i], w1[i], indexPrecision, indexPrecision);
else
{
if (indexMode == 0)
outPixel = Interpolate(c[region << 1], c[(region << 1) + 1], w1[i], w2[i], indexPrecision, APrecision);
else
outPixel = Interpolate(c[region << 1], c[(region << 1) + 1], w2[i], w1[i], APrecision, indexPrecision);
}
switch (rotation)
{
case 1:
int temp = outPixel.R;
outPixel.R = outPixel.A;
outPixel.A = temp;
break;
case 2:
temp = outPixel.G;
outPixel.G = outPixel.A;
outPixel.A = temp;
break;
case 3:
temp = outPixel.B;
outPixel.B = outPixel.A;
outPixel.A = temp;
break;
}
outColours[i] = outPixel;
}
return outColours;
}
return outColours;
}
}
}
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