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jinx/Ryujinx.Graphics.Shader/Translation/ShaderHeader.cs
gdkchan f93089a64f
Implement geometry shader passthrough (#1961)
* Implement geometry shader passthrough

* Cache version change
2021-01-29 14:38:51 +11:00

196 lines
No EOL
5.6 KiB
C#

using Ryujinx.Graphics.Shader.Decoders;
using System;
namespace Ryujinx.Graphics.Shader.Translation
{
enum PixelImap
{
Unused = 0,
Constant = 1,
Perspective = 2,
ScreenLinear = 3
}
struct ImapPixelType
{
public PixelImap X { get; }
public PixelImap Y { get; }
public PixelImap Z { get; }
public PixelImap W { get; }
public ImapPixelType(PixelImap x, PixelImap y, PixelImap z, PixelImap w)
{
X = x;
Y = y;
Z = z;
W = w;
}
public PixelImap GetFirstUsedType()
{
if (X != PixelImap.Unused) return X;
if (Y != PixelImap.Unused) return Y;
if (Z != PixelImap.Unused) return Z;
return W;
}
}
struct OmapTarget
{
public bool Red { get; }
public bool Green { get; }
public bool Blue { get; }
public bool Alpha { get; }
public bool Enabled => Red || Green || Blue || Alpha;
public OmapTarget(bool red, bool green, bool blue, bool alpha)
{
Red = red;
Green = green;
Blue = blue;
Alpha = alpha;
}
public bool ComponentEnabled(int component)
{
switch (component)
{
case 0: return Red;
case 1: return Green;
case 2: return Blue;
case 3: return Alpha;
}
throw new ArgumentOutOfRangeException(nameof(component));
}
}
class ShaderHeader
{
public int SphType { get; }
public int Version { get; }
public ShaderStage Stage { get; }
public bool MrtEnable { get; }
public bool KillsPixels { get; }
public bool DoesGlobalStore { get; }
public int SassVersion { get; }
public bool GpPassthrough { get; }
public bool DoesLoadOrStore { get; }
public bool DoesFp64 { get; }
public int StreamOutMask { get; }
public int ShaderLocalMemoryLowSize { get; }
public int PerPatchAttributeCount { get; }
public int ShaderLocalMemoryHighSize { get; }
public int ThreadsPerInputPrimitive { get; }
public int ShaderLocalMemoryCrsSize { get; }
public OutputTopology OutputTopology { get; }
public int MaxOutputVertexCount { get; }
public int StoreReqStart { get; }
public int StoreReqEnd { get; }
public ImapPixelType[] ImapTypes { get; }
public OmapTarget[] OmapTargets { get; }
public bool OmapSampleMask { get; }
public bool OmapDepth { get; }
public ShaderHeader(IGpuAccessor gpuAccessor, ulong address)
{
int commonWord0 = gpuAccessor.MemoryRead<int>(address + 0);
int commonWord1 = gpuAccessor.MemoryRead<int>(address + 4);
int commonWord2 = gpuAccessor.MemoryRead<int>(address + 8);
int commonWord3 = gpuAccessor.MemoryRead<int>(address + 12);
int commonWord4 = gpuAccessor.MemoryRead<int>(address + 16);
SphType = commonWord0.Extract(0, 5);
Version = commonWord0.Extract(5, 5);
Stage = (ShaderStage)commonWord0.Extract(10, 4);
// Invalid.
if (Stage == ShaderStage.Compute)
{
Stage = ShaderStage.Vertex;
}
MrtEnable = commonWord0.Extract(14);
KillsPixels = commonWord0.Extract(15);
DoesGlobalStore = commonWord0.Extract(16);
SassVersion = commonWord0.Extract(17, 4);
GpPassthrough = commonWord0.Extract(24);
DoesLoadOrStore = commonWord0.Extract(26);
DoesFp64 = commonWord0.Extract(27);
StreamOutMask = commonWord0.Extract(28, 4);
ShaderLocalMemoryLowSize = commonWord1.Extract(0, 24);
PerPatchAttributeCount = commonWord1.Extract(24, 8);
ShaderLocalMemoryHighSize = commonWord2.Extract(0, 24);
ThreadsPerInputPrimitive = commonWord2.Extract(24, 8);
ShaderLocalMemoryCrsSize = commonWord3.Extract(0, 24);
OutputTopology = (OutputTopology)commonWord3.Extract(24, 4);
MaxOutputVertexCount = commonWord4.Extract(0, 12);
StoreReqStart = commonWord4.Extract(12, 8);
StoreReqEnd = commonWord4.Extract(24, 8);
ImapTypes = new ImapPixelType[32];
for (ulong i = 0; i < 32; i++)
{
byte imap = gpuAccessor.MemoryRead<byte>(address + 0x18 + i);
ImapTypes[i] = new ImapPixelType(
(PixelImap)((imap >> 0) & 3),
(PixelImap)((imap >> 2) & 3),
(PixelImap)((imap >> 4) & 3),
(PixelImap)((imap >> 6) & 3));
}
int type2OmapTarget = gpuAccessor.MemoryRead<int>(address + 0x48);
int type2Omap = gpuAccessor.MemoryRead<int>(address + 0x4c);
OmapTargets = new OmapTarget[8];
for (int offset = 0; offset < OmapTargets.Length * 4; offset += 4)
{
OmapTargets[offset >> 2] = new OmapTarget(
type2OmapTarget.Extract(offset + 0),
type2OmapTarget.Extract(offset + 1),
type2OmapTarget.Extract(offset + 2),
type2OmapTarget.Extract(offset + 3));
}
OmapSampleMask = type2Omap.Extract(0);
OmapDepth = type2Omap.Extract(1);
}
}
}