ryujinx-mirror/src/Ryujinx.Graphics.Vulkan/FramebufferParams.cs
riperiperi ca59c3f499
Vulkan: Feedback loop detection and barriers (#7226)
* Vulkan: Feedback loop improvements

This PR allows the Vulkan backend to detect attachment feedback loops. These are currently used in the following ways:

- Partial use of VK_EXT_attachment_feedback_loop_layout
  - All renderable textures have AttachmentFeedbackLoopBitExt
  - Compile pipelines with Color/DepthStencil feedback loop flags when present
- Support using FragmentBarrier for feedback loops (fixes regressions from https://github.com/Ryujinx/Ryujinx/pull/7012 )

TODO:
- AMD GPUs may need layout transitions for it to properly allow textures to be used in feedback loops.
- Use dynamic state for feedback loops. The background pipeline will always miss since feedback loop state isn't known on the GPU project.
- How is the barrier dependency flag used? (DXVK just ignores it, there's no vulkan validation...)
- Improve subpass dependencies to fix validation errors

* Mark field readonly

* Add feedback loop dynamic state

* fix: add MoltenVK resolver workaround

fix: add MoltenVK resolver workaround

* Formatting

* Fix more complaints

* RADV dcc workaround

* Use dynamic state properly, cleanup.

* Use aspects flags in more places
2024-09-01 21:28:16 -03:00

344 lines
11 KiB
C#

using Ryujinx.Graphics.GAL;
using Silk.NET.Vulkan;
using System;
using System.Linq;
using VkFormat = Silk.NET.Vulkan.Format;
namespace Ryujinx.Graphics.Vulkan
{
class FramebufferParams
{
private readonly Device _device;
private readonly Auto<DisposableImageView>[] _attachments;
private readonly TextureView[] _colors;
private readonly TextureView _depthStencil;
private readonly TextureView[] _colorsCanonical;
private readonly TextureView _baseAttachment;
private readonly uint _validColorAttachments;
public uint Width { get; }
public uint Height { get; }
public uint Layers { get; }
public uint[] AttachmentSamples { get; }
public VkFormat[] AttachmentFormats { get; }
public int[] AttachmentIndices { get; }
public uint AttachmentIntegerFormatMask { get; }
public bool LogicOpsAllowed { get; }
public int AttachmentsCount { get; }
public int MaxColorAttachmentIndex => AttachmentIndices.Length > 0 ? AttachmentIndices[^1] : -1;
public bool HasDepthStencil { get; }
public int ColorAttachmentsCount => AttachmentsCount - (HasDepthStencil ? 1 : 0);
public FramebufferParams(Device device, TextureView view, uint width, uint height)
{
var format = view.Info.Format;
bool isDepthStencil = format.IsDepthOrStencil();
_device = device;
_attachments = new[] { view.GetImageViewForAttachment() };
_validColorAttachments = isDepthStencil ? 0u : 1u;
_baseAttachment = view;
if (isDepthStencil)
{
_depthStencil = view;
}
else
{
_colors = new TextureView[] { view };
_colorsCanonical = _colors;
}
Width = width;
Height = height;
Layers = 1;
AttachmentSamples = new[] { (uint)view.Info.Samples };
AttachmentFormats = new[] { view.VkFormat };
AttachmentIndices = isDepthStencil ? Array.Empty<int>() : new[] { 0 };
AttachmentIntegerFormatMask = format.IsInteger() ? 1u : 0u;
LogicOpsAllowed = !format.IsFloatOrSrgb();
AttachmentsCount = 1;
HasDepthStencil = isDepthStencil;
}
public FramebufferParams(Device device, ITexture[] colors, ITexture depthStencil)
{
_device = device;
int colorsCount = colors.Count(IsValidTextureView);
int count = colorsCount + (IsValidTextureView(depthStencil) ? 1 : 0);
_attachments = new Auto<DisposableImageView>[count];
_colors = new TextureView[colorsCount];
_colorsCanonical = colors.Select(color => color is TextureView view && view.Valid ? view : null).ToArray();
AttachmentSamples = new uint[count];
AttachmentFormats = new VkFormat[count];
AttachmentIndices = new int[colorsCount];
uint width = uint.MaxValue;
uint height = uint.MaxValue;
uint layers = uint.MaxValue;
int index = 0;
int bindIndex = 0;
uint attachmentIntegerFormatMask = 0;
bool allFormatsFloatOrSrgb = colorsCount != 0;
foreach (ITexture color in colors)
{
if (IsValidTextureView(color))
{
var texture = (TextureView)color;
_attachments[index] = texture.GetImageViewForAttachment();
_colors[index] = texture;
_validColorAttachments |= 1u << bindIndex;
_baseAttachment = texture;
AttachmentSamples[index] = (uint)texture.Info.Samples;
AttachmentFormats[index] = texture.VkFormat;
AttachmentIndices[index] = bindIndex;
var format = texture.Info.Format;
if (format.IsInteger())
{
attachmentIntegerFormatMask |= 1u << bindIndex;
}
allFormatsFloatOrSrgb &= format.IsFloatOrSrgb();
width = Math.Min(width, (uint)texture.Width);
height = Math.Min(height, (uint)texture.Height);
layers = Math.Min(layers, (uint)texture.Layers);
if (++index >= colorsCount)
{
break;
}
}
bindIndex++;
}
AttachmentIntegerFormatMask = attachmentIntegerFormatMask;
LogicOpsAllowed = !allFormatsFloatOrSrgb;
if (depthStencil is TextureView dsTexture && dsTexture.Valid)
{
_attachments[count - 1] = dsTexture.GetImageViewForAttachment();
_depthStencil = dsTexture;
_baseAttachment ??= dsTexture;
AttachmentSamples[count - 1] = (uint)dsTexture.Info.Samples;
AttachmentFormats[count - 1] = dsTexture.VkFormat;
width = Math.Min(width, (uint)dsTexture.Width);
height = Math.Min(height, (uint)dsTexture.Height);
layers = Math.Min(layers, (uint)dsTexture.Layers);
HasDepthStencil = true;
}
if (count == 0)
{
width = height = layers = 1;
}
Width = width;
Height = height;
Layers = layers;
AttachmentsCount = count;
}
public Auto<DisposableImageView> GetAttachment(int index)
{
if ((uint)index >= _attachments.Length)
{
return null;
}
return _attachments[index];
}
public Auto<DisposableImageView> GetDepthStencilAttachment()
{
if (!HasDepthStencil)
{
return null;
}
return _attachments[AttachmentsCount - 1];
}
public ComponentType GetAttachmentComponentType(int index)
{
if (_colors != null && (uint)index < _colors.Length)
{
var format = _colors[index].Info.Format;
if (format.IsSint())
{
return ComponentType.SignedInteger;
}
if (format.IsUint())
{
return ComponentType.UnsignedInteger;
}
}
return ComponentType.Float;
}
public ImageAspectFlags GetDepthStencilAspectFlags()
{
if (_depthStencil == null)
{
return ImageAspectFlags.None;
}
return _depthStencil.Info.Format.ConvertAspectFlags();
}
public bool IsValidColorAttachment(int bindIndex)
{
return (uint)bindIndex < Constants.MaxRenderTargets && (_validColorAttachments & (1u << bindIndex)) != 0;
}
private static bool IsValidTextureView(ITexture texture)
{
return texture is TextureView view && view.Valid;
}
public ClearRect GetClearRect(Rectangle<int> scissor, int layer, int layerCount)
{
int x = scissor.X;
int y = scissor.Y;
int width = Math.Min((int)Width - scissor.X, scissor.Width);
int height = Math.Min((int)Height - scissor.Y, scissor.Height);
return new ClearRect(new Rect2D(new Offset2D(x, y), new Extent2D((uint)width, (uint)height)), (uint)layer, (uint)layerCount);
}
public unsafe Auto<DisposableFramebuffer> Create(Vk api, CommandBufferScoped cbs, Auto<DisposableRenderPass> renderPass)
{
ImageView* attachments = stackalloc ImageView[_attachments.Length];
for (int i = 0; i < _attachments.Length; i++)
{
attachments[i] = _attachments[i].Get(cbs).Value;
}
var framebufferCreateInfo = new FramebufferCreateInfo
{
SType = StructureType.FramebufferCreateInfo,
RenderPass = renderPass.Get(cbs).Value,
AttachmentCount = (uint)_attachments.Length,
PAttachments = attachments,
Width = Width,
Height = Height,
Layers = Layers,
};
api.CreateFramebuffer(_device, in framebufferCreateInfo, null, out var framebuffer).ThrowOnError();
return new Auto<DisposableFramebuffer>(new DisposableFramebuffer(api, _device, framebuffer), null, _attachments);
}
public TextureView[] GetAttachmentViews()
{
var result = new TextureView[_attachments.Length];
_colors?.CopyTo(result, 0);
if (_depthStencil != null)
{
result[^1] = _depthStencil;
}
return result;
}
public RenderPassCacheKey GetRenderPassCacheKey()
{
return new RenderPassCacheKey(_depthStencil, _colorsCanonical);
}
public void InsertLoadOpBarriers(VulkanRenderer gd, CommandBufferScoped cbs)
{
if (_colors != null)
{
foreach (var color in _colors)
{
// If Clear or DontCare were used, this would need to be write bit.
color.Storage?.QueueLoadOpBarrier(cbs, false);
}
}
_depthStencil?.Storage?.QueueLoadOpBarrier(cbs, true);
gd.Barriers.Flush(cbs, false, null, null);
}
public void AddStoreOpUsage()
{
if (_colors != null)
{
foreach (var color in _colors)
{
color.Storage?.AddStoreOpUsage(false);
}
}
_depthStencil?.Storage?.AddStoreOpUsage(true);
}
public void ClearBindings()
{
_depthStencil?.Storage.ClearBindings();
for (int i = 0; i < _colorsCanonical.Length; i++)
{
_colorsCanonical[i]?.Storage.ClearBindings();
}
}
public void AddBindings()
{
_depthStencil?.Storage.AddBinding(_depthStencil);
for (int i = 0; i < _colorsCanonical.Length; i++)
{
TextureView color = _colorsCanonical[i];
color?.Storage.AddBinding(color);
}
}
public (RenderPassHolder rpHolder, Auto<DisposableFramebuffer> framebuffer) GetPassAndFramebuffer(
VulkanRenderer gd,
Device device,
CommandBufferScoped cbs)
{
return _baseAttachment.GetPassAndFramebuffer(gd, device, cbs, this);
}
public TextureView GetColorView(int index)
{
return _colorsCanonical[index];
}
public TextureView GetDepthStencilView()
{
return _depthStencil;
}
}
}