Ryujinx/Ryujinx.Graphics.Vulkan/HelperShader.cs
gdkchan f1d1670b0b
Implement HLE macro for DrawElementsIndirect (#3748)
* Implement HLE macro for DrawElementsIndirect

* Shader cache version bump

* Use GL_ARB_shader_draw_parameters extension on OpenGL

* Fix DrawIndexedIndirectCount on Vulkan when extension is not supported

* Implement DrawIndex

* Alignment

* Fix some validation errors

* Rename BaseIds to DrawParameters

* Fix incorrect index buffer and vertex buffer size in some cases

* Add HLE macros for DrawArraysInstanced and DrawElementsInstanced

* Perform a regular draw when indirect data is not modified

* Use non-indirect draw methods if indirect buffer was not GPU modified

* Only check if draw parameters match if the shader actually uses them

* Expose Macro HLE setting on GUI

* Reset FirstVertex and FirstInstance after draw

* Update shader cache version again since some people already tested this

* PR feedback

Co-authored-by: riperiperi <rhy3756547@hotmail.com>
2022-11-16 14:53:04 -03:00

851 lines
32 KiB
C#

using Ryujinx.Graphics.GAL;
using Ryujinx.Graphics.Shader;
using Ryujinx.Graphics.Shader.Translation;
using Ryujinx.Graphics.Vulkan.Shaders;
using Silk.NET.Vulkan;
using System;
using System.Collections.Generic;
using VkFormat = Silk.NET.Vulkan.Format;
namespace Ryujinx.Graphics.Vulkan
{
class HelperShader : IDisposable
{
private const int UniformBufferAlignment = 256;
private readonly PipelineHelperShader _pipeline;
private readonly ISampler _samplerLinear;
private readonly ISampler _samplerNearest;
private readonly IProgram _programColorBlit;
private readonly IProgram _programColorBlitClearAlpha;
private readonly IProgram _programColorClear;
private readonly IProgram _programStrideChange;
private readonly IProgram _programColorCopyBetweenMsNonMs;
private readonly IProgram _programConvertIndexBuffer;
private readonly IProgram _programConvertIndirectData;
public HelperShader(VulkanRenderer gd, Device device)
{
_pipeline = new PipelineHelperShader(gd, device);
_pipeline.Initialize();
_samplerLinear = gd.CreateSampler(GAL.SamplerCreateInfo.Create(MinFilter.Linear, MagFilter.Linear));
_samplerNearest = gd.CreateSampler(GAL.SamplerCreateInfo.Create(MinFilter.Nearest, MagFilter.Nearest));
var vertexBindings = new ShaderBindings(
new[] { 1 },
Array.Empty<int>(),
Array.Empty<int>(),
Array.Empty<int>());
var fragmentBindings = new ShaderBindings(
Array.Empty<int>(),
Array.Empty<int>(),
new[] { 0 },
Array.Empty<int>());
_programColorBlit = gd.CreateProgramWithMinimalLayout(new[]
{
new ShaderSource(ShaderBinaries.ColorBlitVertexShaderSource, vertexBindings, ShaderStage.Vertex, TargetLanguage.Spirv),
new ShaderSource(ShaderBinaries.ColorBlitFragmentShaderSource, fragmentBindings, ShaderStage.Fragment, TargetLanguage.Spirv),
});
_programColorBlitClearAlpha = gd.CreateProgramWithMinimalLayout(new[]
{
new ShaderSource(ShaderBinaries.ColorBlitVertexShaderSource, vertexBindings, ShaderStage.Vertex, TargetLanguage.Spirv),
new ShaderSource(ShaderBinaries.ColorBlitClearAlphaFragmentShaderSource, fragmentBindings, ShaderStage.Fragment, TargetLanguage.Spirv),
});
var fragmentBindings2 = new ShaderBindings(
Array.Empty<int>(),
Array.Empty<int>(),
Array.Empty<int>(),
Array.Empty<int>());
_programColorClear = gd.CreateProgramWithMinimalLayout(new[]
{
new ShaderSource(ShaderBinaries.ColorClearVertexShaderSource, vertexBindings, ShaderStage.Vertex, TargetLanguage.Spirv),
new ShaderSource(ShaderBinaries.ColorClearFragmentShaderSource, fragmentBindings2, ShaderStage.Fragment, TargetLanguage.Spirv),
});
var strideChangeBindings = new ShaderBindings(
new[] { 0 },
new[] { 1, 2 },
Array.Empty<int>(),
Array.Empty<int>());
_programStrideChange = gd.CreateProgramWithMinimalLayout(new[]
{
new ShaderSource(ShaderBinaries.ChangeBufferStrideShaderSource, strideChangeBindings, ShaderStage.Compute, TargetLanguage.Spirv),
});
var colorCopyMSBindings = new ShaderBindings(
new[] { 0 },
Array.Empty<int>(),
new[] { 0 },
new[] { 0 });
_programColorCopyBetweenMsNonMs = gd.CreateProgramWithMinimalLayout(new[]
{
new ShaderSource(ShaderBinaries.ColorCopyBetweenMsNonMs, colorCopyMSBindings, ShaderStage.Compute, TargetLanguage.Spirv),
}, new[]
{
new SpecDescription((0, SpecConstType.Int32))
});
var convertIndexBufferBindings = new ShaderBindings(
new[] { 0 },
new[] { 1, 2 },
Array.Empty<int>(),
Array.Empty<int>());
_programConvertIndexBuffer = gd.CreateProgramWithMinimalLayout(new[]
{
new ShaderSource(ShaderBinaries.ConvertIndexBufferShaderSource, convertIndexBufferBindings, ShaderStage.Compute, TargetLanguage.Spirv),
});
var convertIndirectDataBindings = new ShaderBindings(
new[] { 0 },
new[] { 1, 2, 3 },
Array.Empty<int>(),
Array.Empty<int>());
_programConvertIndirectData = gd.CreateProgramWithMinimalLayout(new[]
{
new ShaderSource(ShaderBinaries.ConvertIndirectDataShaderSource, convertIndirectDataBindings, ShaderStage.Compute, TargetLanguage.Spirv),
});
}
public void Blit(
VulkanRenderer gd,
TextureView src,
Auto<DisposableImageView> dst,
int dstWidth,
int dstHeight,
VkFormat dstFormat,
Extents2D srcRegion,
Extents2D dstRegion,
bool linearFilter,
bool clearAlpha = false)
{
gd.FlushAllCommands();
using var cbs = gd.CommandBufferPool.Rent();
Blit(gd, cbs, src, dst, dstWidth, dstHeight, dstFormat, srcRegion, dstRegion, linearFilter, clearAlpha);
}
public void Blit(
VulkanRenderer gd,
CommandBufferScoped cbs,
TextureView src,
Auto<DisposableImageView> dst,
int dstWidth,
int dstHeight,
VkFormat dstFormat,
Extents2D srcRegion,
Extents2D dstRegion,
bool linearFilter,
bool clearAlpha = false)
{
_pipeline.SetCommandBuffer(cbs);
const int RegionBufferSize = 16;
var sampler = linearFilter ? _samplerLinear : _samplerNearest;
_pipeline.SetTextureAndSampler(ShaderStage.Fragment, 0, src, sampler);
Span<float> region = stackalloc float[RegionBufferSize / sizeof(float)];
region[0] = (float)srcRegion.X1 / src.Width;
region[1] = (float)srcRegion.X2 / src.Width;
region[2] = (float)srcRegion.Y1 / src.Height;
region[3] = (float)srcRegion.Y2 / src.Height;
if (dstRegion.X1 > dstRegion.X2)
{
(region[0], region[1]) = (region[1], region[0]);
}
if (dstRegion.Y1 > dstRegion.Y2)
{
(region[2], region[3]) = (region[3], region[2]);
}
var bufferHandle = gd.BufferManager.CreateWithHandle(gd, RegionBufferSize, false);
gd.BufferManager.SetData<float>(bufferHandle, 0, region);
_pipeline.SetUniformBuffers(1, stackalloc[] { new BufferRange(bufferHandle, 0, RegionBufferSize) });
Span<GAL.Viewport> viewports = stackalloc GAL.Viewport[1];
var rect = new Rectangle<float>(
MathF.Min(dstRegion.X1, dstRegion.X2),
MathF.Min(dstRegion.Y1, dstRegion.Y2),
MathF.Abs(dstRegion.X2 - dstRegion.X1),
MathF.Abs(dstRegion.Y2 - dstRegion.Y1));
viewports[0] = new GAL.Viewport(
rect,
ViewportSwizzle.PositiveX,
ViewportSwizzle.PositiveY,
ViewportSwizzle.PositiveZ,
ViewportSwizzle.PositiveW,
0f,
1f);
Span<Rectangle<int>> scissors = stackalloc Rectangle<int>[1];
scissors[0] = new Rectangle<int>(0, 0, dstWidth, dstHeight);
_pipeline.SetProgram(clearAlpha ? _programColorBlitClearAlpha : _programColorBlit);
_pipeline.SetRenderTarget(dst, (uint)dstWidth, (uint)dstHeight, false, dstFormat);
_pipeline.SetRenderTargetColorMasks(new uint[] { 0xf });
_pipeline.SetScissors(scissors);
if (clearAlpha)
{
_pipeline.ClearRenderTargetColor(0, 0, 1, new ColorF(0f, 0f, 0f, 1f));
}
_pipeline.SetViewports(viewports, false);
_pipeline.SetPrimitiveTopology(GAL.PrimitiveTopology.TriangleStrip);
_pipeline.Draw(4, 1, 0, 0);
_pipeline.Finish(gd, cbs);
gd.BufferManager.Delete(bufferHandle);
}
public void Clear(
VulkanRenderer gd,
Auto<DisposableImageView> dst,
ReadOnlySpan<float> clearColor,
uint componentMask,
int dstWidth,
int dstHeight,
VkFormat dstFormat,
Rectangle<int> scissor)
{
const int ClearColorBufferSize = 16;
gd.FlushAllCommands();
using var cbs = gd.CommandBufferPool.Rent();
_pipeline.SetCommandBuffer(cbs);
var bufferHandle = gd.BufferManager.CreateWithHandle(gd, ClearColorBufferSize, false);
gd.BufferManager.SetData<float>(bufferHandle, 0, clearColor);
_pipeline.SetUniformBuffers(1, stackalloc[] { new BufferRange(bufferHandle, 0, ClearColorBufferSize) });
Span<GAL.Viewport> viewports = stackalloc GAL.Viewport[1];
viewports[0] = new GAL.Viewport(
new Rectangle<float>(0, 0, dstWidth, dstHeight),
ViewportSwizzle.PositiveX,
ViewportSwizzle.PositiveY,
ViewportSwizzle.PositiveZ,
ViewportSwizzle.PositiveW,
0f,
1f);
Span<Rectangle<int>> scissors = stackalloc Rectangle<int>[1];
scissors[0] = scissor;
_pipeline.SetProgram(_programColorClear);
_pipeline.SetRenderTarget(dst, (uint)dstWidth, (uint)dstHeight, false, dstFormat);
_pipeline.SetRenderTargetColorMasks(new uint[] { componentMask });
_pipeline.SetViewports(viewports, false);
_pipeline.SetScissors(scissors);
_pipeline.SetPrimitiveTopology(GAL.PrimitiveTopology.TriangleStrip);
_pipeline.Draw(4, 1, 0, 0);
_pipeline.Finish();
gd.BufferManager.Delete(bufferHandle);
}
public void DrawTexture(
VulkanRenderer gd,
PipelineBase pipeline,
TextureView src,
ISampler srcSampler,
Extents2DF srcRegion,
Extents2DF dstRegion)
{
const int RegionBufferSize = 16;
pipeline.SetTextureAndSampler(ShaderStage.Fragment, 0, src, srcSampler);
Span<float> region = stackalloc float[RegionBufferSize / sizeof(float)];
region[0] = srcRegion.X1 / src.Width;
region[1] = srcRegion.X2 / src.Width;
region[2] = srcRegion.Y1 / src.Height;
region[3] = srcRegion.Y2 / src.Height;
if (dstRegion.X1 > dstRegion.X2)
{
(region[0], region[1]) = (region[1], region[0]);
}
if (dstRegion.Y1 > dstRegion.Y2)
{
(region[2], region[3]) = (region[3], region[2]);
}
var bufferHandle = gd.BufferManager.CreateWithHandle(gd, RegionBufferSize, false);
gd.BufferManager.SetData<float>(bufferHandle, 0, region);
pipeline.SetUniformBuffers(1, stackalloc[] { new BufferRange(bufferHandle, 0, RegionBufferSize) });
Span<GAL.Viewport> viewports = stackalloc GAL.Viewport[1];
var rect = new Rectangle<float>(
MathF.Min(dstRegion.X1, dstRegion.X2),
MathF.Min(dstRegion.Y1, dstRegion.Y2),
MathF.Abs(dstRegion.X2 - dstRegion.X1),
MathF.Abs(dstRegion.Y2 - dstRegion.Y1));
viewports[0] = new GAL.Viewport(
rect,
ViewportSwizzle.PositiveX,
ViewportSwizzle.PositiveY,
ViewportSwizzle.PositiveZ,
ViewportSwizzle.PositiveW,
0f,
1f);
Span<Rectangle<int>> scissors = stackalloc Rectangle<int>[1];
pipeline.SetProgram(_programColorBlit);
pipeline.SetViewports(viewports, false);
pipeline.SetPrimitiveTopology(GAL.PrimitiveTopology.TriangleStrip);
pipeline.Draw(4, 1, 0, 0);
gd.BufferManager.Delete(bufferHandle);
}
public unsafe void ConvertI8ToI16(VulkanRenderer gd, CommandBufferScoped cbs, BufferHolder src, BufferHolder dst, int srcOffset, int size)
{
ChangeStride(gd, cbs, src, dst, srcOffset, size, 1, 2);
}
public unsafe void ChangeStride(VulkanRenderer gd, CommandBufferScoped cbs, BufferHolder src, BufferHolder dst, int srcOffset, int size, int stride, int newStride)
{
bool supportsUint8 = gd.Capabilities.SupportsShaderInt8;
int elems = size / stride;
int newSize = elems * newStride;
var srcBufferAuto = src.GetBuffer();
var dstBufferAuto = dst.GetBuffer();
var srcBuffer = srcBufferAuto.Get(cbs, srcOffset, size).Value;
var dstBuffer = dstBufferAuto.Get(cbs, 0, newSize).Value;
var access = supportsUint8 ? AccessFlags.AccessShaderWriteBit : AccessFlags.AccessTransferWriteBit;
var stage = supportsUint8 ? PipelineStageFlags.PipelineStageComputeShaderBit : PipelineStageFlags.PipelineStageTransferBit;
BufferHolder.InsertBufferBarrier(
gd,
cbs.CommandBuffer,
dstBuffer,
BufferHolder.DefaultAccessFlags,
access,
PipelineStageFlags.PipelineStageAllCommandsBit,
stage,
0,
newSize);
if (supportsUint8)
{
const int ParamsBufferSize = 16;
Span<int> shaderParams = stackalloc int[ParamsBufferSize / sizeof(int)];
shaderParams[0] = stride;
shaderParams[1] = newStride;
shaderParams[2] = size;
shaderParams[3] = srcOffset;
var bufferHandle = gd.BufferManager.CreateWithHandle(gd, ParamsBufferSize, false);
gd.BufferManager.SetData<int>(bufferHandle, 0, shaderParams);
_pipeline.SetCommandBuffer(cbs);
_pipeline.SetUniformBuffers(0, stackalloc[] { new BufferRange(bufferHandle, 0, ParamsBufferSize) });
Span<Auto<DisposableBuffer>> sbRanges = new Auto<DisposableBuffer>[2];
sbRanges[0] = srcBufferAuto;
sbRanges[1] = dstBufferAuto;
_pipeline.SetStorageBuffers(1, sbRanges);
_pipeline.SetProgram(_programStrideChange);
_pipeline.DispatchCompute(1, 1, 1);
gd.BufferManager.Delete(bufferHandle);
_pipeline.Finish(gd, cbs);
}
else
{
gd.Api.CmdFillBuffer(cbs.CommandBuffer, dstBuffer, 0, Vk.WholeSize, 0);
var bufferCopy = new BufferCopy[elems];
for (ulong i = 0; i < (ulong)elems; i++)
{
bufferCopy[i] = new BufferCopy((ulong)srcOffset + i * (ulong)stride, i * (ulong)newStride, (ulong)stride);
}
fixed (BufferCopy* pBufferCopy = bufferCopy)
{
gd.Api.CmdCopyBuffer(cbs.CommandBuffer, srcBuffer, dstBuffer, (uint)elems, pBufferCopy);
}
}
BufferHolder.InsertBufferBarrier(
gd,
cbs.CommandBuffer,
dstBuffer,
access,
BufferHolder.DefaultAccessFlags,
stage,
PipelineStageFlags.PipelineStageAllCommandsBit,
0,
newSize);
}
public unsafe void ConvertIndexBuffer(VulkanRenderer gd,
CommandBufferScoped cbs,
BufferHolder src,
BufferHolder dst,
IndexBufferPattern pattern,
int indexSize,
int srcOffset,
int indexCount)
{
// TODO: Support conversion with primitive restart enabled.
// TODO: Convert with a compute shader?
int convertedCount = pattern.GetConvertedCount(indexCount);
int outputIndexSize = 4;
var srcBuffer = src.GetBuffer().Get(cbs, srcOffset, indexCount * indexSize).Value;
var dstBuffer = dst.GetBuffer().Get(cbs, 0, convertedCount * outputIndexSize).Value;
gd.Api.CmdFillBuffer(cbs.CommandBuffer, dstBuffer, 0, Vk.WholeSize, 0);
var bufferCopy = new List<BufferCopy>();
int outputOffset = 0;
// Try to merge copies of adjacent indices to reduce copy count.
int sequenceStart = 0;
int sequenceLength = 0;
foreach (var index in pattern.GetIndexMapping(indexCount))
{
if (sequenceLength > 0)
{
if (index == sequenceStart + sequenceLength && indexSize == outputIndexSize)
{
sequenceLength++;
continue;
}
// Commit the copy so far.
bufferCopy.Add(new BufferCopy((ulong)(srcOffset + sequenceStart * indexSize), (ulong)outputOffset, (ulong)(indexSize * sequenceLength)));
outputOffset += outputIndexSize * sequenceLength;
}
sequenceStart = index;
sequenceLength = 1;
}
if (sequenceLength > 0)
{
// Commit final pending copy.
bufferCopy.Add(new BufferCopy((ulong)(srcOffset + sequenceStart * indexSize), (ulong)outputOffset, (ulong)(indexSize * sequenceLength)));
}
var bufferCopyArray = bufferCopy.ToArray();
BufferHolder.InsertBufferBarrier(
gd,
cbs.CommandBuffer,
dstBuffer,
BufferHolder.DefaultAccessFlags,
AccessFlags.AccessTransferWriteBit,
PipelineStageFlags.PipelineStageAllCommandsBit,
PipelineStageFlags.PipelineStageTransferBit,
0,
convertedCount * outputIndexSize);
fixed (BufferCopy* pBufferCopy = bufferCopyArray)
{
gd.Api.CmdCopyBuffer(cbs.CommandBuffer, srcBuffer, dstBuffer, (uint)bufferCopyArray.Length, pBufferCopy);
}
BufferHolder.InsertBufferBarrier(
gd,
cbs.CommandBuffer,
dstBuffer,
AccessFlags.AccessTransferWriteBit,
BufferHolder.DefaultAccessFlags,
PipelineStageFlags.PipelineStageTransferBit,
PipelineStageFlags.PipelineStageAllCommandsBit,
0,
convertedCount * outputIndexSize);
}
public void CopyMSToNonMS(VulkanRenderer gd, CommandBufferScoped cbs, TextureView src, TextureView dst, int srcLayer, int dstLayer, int depth)
{
CopyMS(gd, cbs, src, dst, srcLayer, dstLayer, depth, src.Info.Samples, dst.Info.Width, dst.Info.Height);
}
public void CopyNonMSToMS(VulkanRenderer gd, CommandBufferScoped cbs, TextureView src, TextureView dst, int srcLayer, int dstLayer, int depth)
{
CopyMS(gd, cbs, src, dst, srcLayer, dstLayer, depth, dst.Info.Samples, src.Info.Width, src.Info.Height);
}
private void CopyMS(
VulkanRenderer gd,
CommandBufferScoped cbs,
TextureView src,
TextureView dst,
int srcLayer,
int dstLayer,
int depth,
int samples,
int nonMSWidth,
int nonMSHeight)
{
const int ParamsBufferSize = 16;
Span<int> shaderParams = stackalloc int[ParamsBufferSize / sizeof(int)];
// X and Y are the expected texture samples.
// Z and W are the actual texture samples used.
// They may differ if the GPU does not support the samples count requested and we had to use a lower amount.
(shaderParams[0], shaderParams[1]) = GetSampleCountXYLog2(samples);
(shaderParams[2], shaderParams[3]) = GetSampleCountXYLog2((int)TextureStorage.ConvertToSampleCountFlags((uint)samples));
var bufferHandle = gd.BufferManager.CreateWithHandle(gd, ParamsBufferSize, false);
gd.BufferManager.SetData<int>(bufferHandle, 0, shaderParams);
TextureView.InsertImageBarrier(
gd.Api,
cbs.CommandBuffer,
src.GetImage().Get(cbs).Value,
TextureStorage.DefaultAccessMask,
AccessFlags.AccessShaderReadBit,
PipelineStageFlags.PipelineStageAllCommandsBit,
PipelineStageFlags.PipelineStageComputeShaderBit,
ImageAspectFlags.ImageAspectColorBit,
src.FirstLayer + srcLayer,
src.FirstLevel,
depth,
1);
_pipeline.SetCommandBuffer(cbs);
_pipeline.SetProgram(_programColorCopyBetweenMsNonMs);
var format = GetFormat(src.Info.BytesPerPixel);
int dispatchX = (nonMSWidth + 31) / 32;
int dispatchY = (nonMSHeight + 31) / 32;
// Specialize shader.
bool srcIsMs = src.Info.Target.IsMultisample();
int conversionType = srcIsMs ? src.Info.BytesPerPixel : -src.Info.BytesPerPixel;
_pipeline.Specialize(conversionType);
_pipeline.SetUniformBuffers(0, stackalloc[] { new BufferRange(bufferHandle, 0, ParamsBufferSize) });
if (src.Info.Target == Target.Texture2DMultisampleArray ||
dst.Info.Target == Target.Texture2DMultisampleArray)
{
for (int z = 0; z < depth; z++)
{
var srcView = Create2DLayerView(src, srcLayer + z, format);
var dstView = Create2DLayerView(dst, dstLayer + z);
_pipeline.SetTextureAndSampler(ShaderStage.Compute, 0, srcView, null);
_pipeline.SetImage(0, dstView, format);
_pipeline.DispatchCompute(dispatchX, dispatchY, 1);
srcView.Release();
dstView.Release();
}
}
else
{
var srcView = Create2DLayerView(src, srcLayer, format);
_pipeline.SetTextureAndSampler(ShaderStage.Compute, 0, srcView, null);
_pipeline.SetImage(0, dst, format);
_pipeline.DispatchCompute(dispatchX, dispatchY, 1);
srcView.Release();
}
gd.BufferManager.Delete(bufferHandle);
_pipeline.Finish(gd, cbs);
TextureView.InsertImageBarrier(
gd.Api,
cbs.CommandBuffer,
dst.GetImage().Get(cbs).Value,
AccessFlags.AccessShaderWriteBit,
TextureStorage.DefaultAccessMask,
PipelineStageFlags.PipelineStageComputeShaderBit,
PipelineStageFlags.PipelineStageAllCommandsBit,
ImageAspectFlags.ImageAspectColorBit,
dst.FirstLayer + dstLayer,
dst.FirstLevel,
depth,
1);
}
private static (int, int) GetSampleCountXYLog2(int samples)
{
int samplesInXLog2 = 0;
int samplesInYLog2 = 0;
switch (samples)
{
case 2: // 2x1
samplesInXLog2 = 1;
break;
case 4: // 2x2
samplesInXLog2 = 1;
samplesInYLog2 = 1;
break;
case 8: // 4x2
samplesInXLog2 = 2;
samplesInYLog2 = 1;
break;
case 16: // 4x4
samplesInXLog2 = 2;
samplesInYLog2 = 2;
break;
case 32: // 8x4
samplesInXLog2 = 3;
samplesInYLog2 = 2;
break;
case 64: // 8x8
samplesInXLog2 = 3;
samplesInYLog2 = 3;
break;
}
return (samplesInXLog2, samplesInYLog2);
}
private static ITexture Create2DLayerView(TextureView from, int layer, GAL.Format? format = null)
{
var target = from.Info.Target switch
{
Target.Texture1DArray => Target.Texture1D,
Target.Texture2DArray => Target.Texture2D,
Target.Texture2DMultisampleArray => Target.Texture2DMultisample,
_ => from.Info.Target
};
var info = new TextureCreateInfo(
from.Info.Width,
from.Info.Height,
from.Info.Depth,
1,
from.Info.Samples,
from.Info.BlockWidth,
from.Info.BlockHeight,
from.Info.BytesPerPixel,
format ?? from.Info.Format,
from.Info.DepthStencilMode,
target,
from.Info.SwizzleR,
from.Info.SwizzleG,
from.Info.SwizzleB,
from.Info.SwizzleA);
return from.CreateView(info, layer, 0);
}
private static GAL.Format GetFormat(int bytesPerPixel)
{
return bytesPerPixel switch
{
1 => GAL.Format.R8Uint,
2 => GAL.Format.R16Uint,
4 => GAL.Format.R32Uint,
8 => GAL.Format.R32G32Uint,
16 => GAL.Format.R32G32B32A32Uint,
_ => throw new ArgumentException($"Invalid bytes per pixel {bytesPerPixel}.")
};
}
public void ConvertIndexBufferIndirect(
VulkanRenderer gd,
CommandBufferScoped cbs,
BufferHolder srcIndirectBuffer,
BufferHolder dstIndirectBuffer,
BufferRange drawCountBuffer,
BufferHolder srcIndexBuffer,
BufferHolder dstIndexBuffer,
IndexBufferPattern pattern,
int indexSize,
int srcIndexBufferOffset,
int srcIndexBufferSize,
int srcIndirectBufferOffset,
bool hasDrawCount,
int maxDrawCount,
int indirectDataStride)
{
// TODO: Support conversion with primitive restart enabled.
BufferRange drawCountBufferAligned = new BufferRange(
drawCountBuffer.Handle,
drawCountBuffer.Offset & ~(UniformBufferAlignment - 1),
UniformBufferAlignment);
int indirectDataSize = maxDrawCount * indirectDataStride;
int indexCount = srcIndexBufferSize / indexSize;
int primitivesCount = pattern.GetPrimitiveCount(indexCount);
int convertedCount = pattern.GetConvertedCount(indexCount);
int outputIndexSize = 4;
var srcBuffer = srcIndexBuffer.GetBuffer().Get(cbs, srcIndexBufferOffset, indexCount * indexSize).Value;
var dstBuffer = dstIndexBuffer.GetBuffer().Get(cbs, 0, convertedCount * outputIndexSize).Value;
const int ParamsBufferSize = 24 * sizeof(int);
const int ParamsIndirectDispatchOffset = 16 * sizeof(int);
const int ParamsIndirectDispatchSize = 3 * sizeof(int);
Span<int> shaderParams = stackalloc int[ParamsBufferSize / sizeof(int)];
shaderParams[8] = pattern.PrimitiveVertices;
shaderParams[9] = pattern.PrimitiveVerticesOut;
shaderParams[10] = indexSize;
shaderParams[11] = outputIndexSize;
shaderParams[12] = pattern.BaseIndex;
shaderParams[13] = pattern.IndexStride;
shaderParams[14] = srcIndexBufferOffset;
shaderParams[15] = primitivesCount;
shaderParams[16] = 1;
shaderParams[17] = 1;
shaderParams[18] = 1;
shaderParams[19] = hasDrawCount ? 1 : 0;
shaderParams[20] = maxDrawCount;
shaderParams[21] = (drawCountBuffer.Offset & (UniformBufferAlignment - 1)) / 4;
shaderParams[22] = indirectDataStride / 4;
shaderParams[23] = srcIndirectBufferOffset / 4;
pattern.OffsetIndex.CopyTo(shaderParams.Slice(0, pattern.OffsetIndex.Length));
var patternBufferHandle = gd.BufferManager.CreateWithHandle(gd, ParamsBufferSize, false, out var patternBuffer);
var patternBufferAuto = patternBuffer.GetBuffer();
gd.BufferManager.SetData<int>(patternBufferHandle, 0, shaderParams);
_pipeline.SetCommandBuffer(cbs);
BufferHolder.InsertBufferBarrier(
gd,
cbs.CommandBuffer,
srcIndirectBuffer.GetBuffer().Get(cbs, srcIndirectBufferOffset, indirectDataSize).Value,
BufferHolder.DefaultAccessFlags,
AccessFlags.AccessShaderReadBit,
PipelineStageFlags.PipelineStageAllCommandsBit,
PipelineStageFlags.PipelineStageComputeShaderBit,
srcIndirectBufferOffset,
indirectDataSize);
_pipeline.SetUniformBuffers(0, stackalloc[] { drawCountBufferAligned });
_pipeline.SetStorageBuffers(1, new[] { srcIndirectBuffer.GetBuffer(), dstIndirectBuffer.GetBuffer(), patternBuffer.GetBuffer() });
_pipeline.SetProgram(_programConvertIndirectData);
_pipeline.DispatchCompute(1, 1, 1);
BufferHolder.InsertBufferBarrier(
gd,
cbs.CommandBuffer,
patternBufferAuto.Get(cbs, ParamsIndirectDispatchOffset, ParamsIndirectDispatchSize).Value,
AccessFlags.AccessShaderWriteBit,
AccessFlags.AccessIndirectCommandReadBit,
PipelineStageFlags.PipelineStageComputeShaderBit,
PipelineStageFlags.PipelineStageDrawIndirectBit,
ParamsIndirectDispatchOffset,
ParamsIndirectDispatchSize);
BufferHolder.InsertBufferBarrier(
gd,
cbs.CommandBuffer,
dstBuffer,
BufferHolder.DefaultAccessFlags,
AccessFlags.AccessTransferWriteBit,
PipelineStageFlags.PipelineStageAllCommandsBit,
PipelineStageFlags.PipelineStageTransferBit,
0,
convertedCount * outputIndexSize);
_pipeline.SetUniformBuffers(0, stackalloc[] { new BufferRange(patternBufferHandle, 0, ParamsBufferSize) });
_pipeline.SetStorageBuffers(1, new[] { srcIndexBuffer.GetBuffer(), dstIndexBuffer.GetBuffer() });
_pipeline.SetProgram(_programConvertIndexBuffer);
_pipeline.DispatchComputeIndirect(patternBufferAuto, ParamsIndirectDispatchOffset);
BufferHolder.InsertBufferBarrier(
gd,
cbs.CommandBuffer,
dstBuffer,
AccessFlags.AccessTransferWriteBit,
BufferHolder.DefaultAccessFlags,
PipelineStageFlags.PipelineStageTransferBit,
PipelineStageFlags.PipelineStageAllCommandsBit,
0,
convertedCount * outputIndexSize);
gd.BufferManager.Delete(patternBufferHandle);
_pipeline.Finish(gd, cbs);
}
protected virtual void Dispose(bool disposing)
{
if (disposing)
{
_programColorBlitClearAlpha.Dispose();
_programColorBlit.Dispose();
_programColorClear.Dispose();
_programStrideChange.Dispose();
_programColorCopyBetweenMsNonMs.Dispose();
_programConvertIndexBuffer.Dispose();
_programConvertIndirectData.Dispose();
_samplerNearest.Dispose();
_samplerLinear.Dispose();
_pipeline.Dispose();
}
}
public void Dispose()
{
Dispose(true);
}
}
}