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Ryujinx/src/Ryujinx.Graphics.Shader/SupportBuffer.cs
gdkchan f09bba82b9
Geometry shader emulation for macOS (#5551) 
* Implement vertex and geometry shader conversion to compute

* Call InitializeReservedCounts for compute too

* PR feedback

* Set clip distance mask for geometry and tessellation shaders too

* Transform feedback emulation only for vertex
2023-08-29 21:10:34 -03:00

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using Ryujinx.Common.Memory;
using Ryujinx.Graphics.Shader.StructuredIr;
using Ryujinx.Graphics.Shader.Translation;
using System.Runtime.CompilerServices;
namespace Ryujinx.Graphics.Shader
{
public struct Vector4<T>
{
public T X;
public T Y;
public T Z;
public T W;
}
enum SupportBufferField
{
// Must match the order of the fields on the struct.
FragmentAlphaTest,
FragmentIsBgra,
ViewportInverse,
ViewportSize,
FragmentRenderScaleCount,
RenderScale,
TfeOffset,
TfeVertexCount,
}
public struct SupportBuffer
{
public const int Binding = 0;
public static readonly int FieldSize;
public static readonly int RequiredSize;
public static readonly int FragmentAlphaTestOffset;
public static readonly int FragmentIsBgraOffset;
public static readonly int ViewportInverseOffset;
public static readonly int ViewportSizeOffset;
public static readonly int FragmentRenderScaleCountOffset;
public static readonly int GraphicsRenderScaleOffset;
public static readonly int ComputeRenderScaleOffset;
public static readonly int TfeOffsetOffset;
public static readonly int TfeVertexCountOffset;
public const int FragmentIsBgraCount = 8;
// One for the render target, 64 for the textures, and 8 for the images.
public const int RenderScaleMaxCount = 1 + 64 + 8;
private static int OffsetOf<T>(ref SupportBuffer storage, ref T target)
{
return (int)Unsafe.ByteOffset(ref Unsafe.As<SupportBuffer, T>(ref storage), ref target);
}
static SupportBuffer()
{
FieldSize = Unsafe.SizeOf<Vector4<float>>();
RequiredSize = Unsafe.SizeOf<SupportBuffer>();
SupportBuffer instance = new();
FragmentAlphaTestOffset = OffsetOf(ref instance, ref instance.FragmentAlphaTest);
FragmentIsBgraOffset = OffsetOf(ref instance, ref instance.FragmentIsBgra);
ViewportInverseOffset = OffsetOf(ref instance, ref instance.ViewportInverse);
ViewportSizeOffset = OffsetOf(ref instance, ref instance.ViewportSize);
FragmentRenderScaleCountOffset = OffsetOf(ref instance, ref instance.FragmentRenderScaleCount);
GraphicsRenderScaleOffset = OffsetOf(ref instance, ref instance.RenderScale);
ComputeRenderScaleOffset = GraphicsRenderScaleOffset + FieldSize;
TfeOffsetOffset = OffsetOf(ref instance, ref instance.TfeOffset);
TfeVertexCountOffset = OffsetOf(ref instance, ref instance.TfeVertexCount);
}
internal static StructureType GetStructureType()
{
return new StructureType(new[]
{
new StructureField(AggregateType.U32, "alpha_test"),
new StructureField(AggregateType.Array | AggregateType.U32, "is_bgra", FragmentIsBgraCount),
new StructureField(AggregateType.Vector4 | AggregateType.FP32, "viewport_inverse"),
new StructureField(AggregateType.Vector4 | AggregateType.FP32, "viewport_size"),
new StructureField(AggregateType.S32, "frag_scale_count"),
new StructureField(AggregateType.Array | AggregateType.FP32, "render_scale", RenderScaleMaxCount),
new StructureField(AggregateType.Vector4 | AggregateType.S32, "tfe_offset"),
new StructureField(AggregateType.S32, "tfe_vertex_count"),
});
}
public Vector4<int> FragmentAlphaTest;
public Array8<Vector4<int>> FragmentIsBgra;
public Vector4<float> ViewportInverse;
public Vector4<float> ViewportSize;
public Vector4<int> FragmentRenderScaleCount;
// Render scale max count: 1 + 64 + 8. First scale is fragment output scale, others are textures/image inputs.
public Array73<Vector4<float>> RenderScale;
public Vector4<int> TfeOffset;
public Vector4<int> TfeVertexCount;
}
}
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