Ryujinx/Ryujinx.Graphics.Vulkan/VulkanRenderer.cs
gdkchan 9f12e50a54
Refactor attribute handling on the shader generator (#4565)
* Refactor attribute handling on the shader generator

* Implement gl_ViewportMask[]

* Add back the Intel FrontFacing bug workaround

* Fix GLSL transform feedback outputs mistmatch with fragment stage

* Shader cache version bump

* Fix geometry shader recognition

* PR feedback

* Delete GetOperandDef and GetOperandUse

* Remove replacements that are no longer needed on GLSL compilation on Vulkan

* Fix incorrect load for per-patch outputs

* Fix build
2023-04-25 19:51:07 -03:00

820 lines
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33 KiB
C#

using Ryujinx.Common.Configuration;
using Ryujinx.Common.Logging;
using Ryujinx.Graphics.GAL;
using Ryujinx.Graphics.Shader;
using Ryujinx.Graphics.Shader.Translation;
using Ryujinx.Graphics.Vulkan.MoltenVK;
using Ryujinx.Graphics.Vulkan.Queries;
using Silk.NET.Vulkan;
using Silk.NET.Vulkan.Extensions.EXT;
using Silk.NET.Vulkan.Extensions.KHR;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Runtime.InteropServices;
namespace Ryujinx.Graphics.Vulkan
{
public sealed class VulkanRenderer : IRenderer
{
private VulkanInstance _instance;
private SurfaceKHR _surface;
private VulkanPhysicalDevice _physicalDevice;
private Device _device;
private WindowBase _window;
private bool _initialized;
internal FormatCapabilities FormatCapabilities { get; private set; }
internal HardwareCapabilities Capabilities;
internal Vk Api { get; private set; }
internal KhrSurface SurfaceApi { get; private set; }
internal KhrSwapchain SwapchainApi { get; private set; }
internal ExtConditionalRendering ConditionalRenderingApi { get; private set; }
internal ExtExtendedDynamicState ExtendedDynamicStateApi { get; private set; }
internal KhrPushDescriptor PushDescriptorApi { get; private set; }
internal ExtTransformFeedback TransformFeedbackApi { get; private set; }
internal KhrDrawIndirectCount DrawIndirectCountApi { get; private set; }
internal uint QueueFamilyIndex { get; private set; }
internal Queue Queue { get; private set; }
internal Queue BackgroundQueue { get; private set; }
internal object BackgroundQueueLock { get; private set; }
internal object QueueLock { get; private set; }
internal MemoryAllocator MemoryAllocator { get; private set; }
internal CommandBufferPool CommandBufferPool { get; private set; }
internal DescriptorSetManager DescriptorSetManager { get; private set; }
internal PipelineLayoutCache PipelineLayoutCache { get; private set; }
internal BackgroundResources BackgroundResources { get; private set; }
internal Action<Action> InterruptAction { get; private set; }
internal SyncManager SyncManager { get; private set; }
internal BufferManager BufferManager { get; private set; }
internal HashSet<ShaderCollection> Shaders { get; }
internal HashSet<ITexture> Textures { get; }
internal HashSet<SamplerHolder> Samplers { get; }
private VulkanDebugMessenger _debugMessenger;
private Counters _counters;
private PipelineFull _pipeline;
internal HelperShader HelperShader { get; private set; }
internal PipelineFull PipelineInternal => _pipeline;
public IPipeline Pipeline => _pipeline;
public IWindow Window => _window;
private readonly Func<Instance, Vk, SurfaceKHR> _getSurface;
private readonly Func<string[]> _getRequiredExtensions;
private readonly string _preferredGpuId;
internal Vendor Vendor { get; private set; }
internal bool IsAmdWindows { get; private set; }
internal bool IsIntelWindows { get; private set; }
internal bool IsAmdGcn { get; private set; }
internal bool IsMoltenVk { get; private set; }
internal bool IsTBDR { get; private set; }
internal bool IsSharedMemory { get; private set; }
public string GpuVendor { get; private set; }
public string GpuRenderer { get; private set; }
public string GpuVersion { get; private set; }
public bool PreferThreading => true;
public event EventHandler<ScreenCaptureImageInfo> ScreenCaptured;
public VulkanRenderer(Func<Instance, Vk, SurfaceKHR> surfaceFunc, Func<string[]> requiredExtensionsFunc, string preferredGpuId)
{
_getSurface = surfaceFunc;
_getRequiredExtensions = requiredExtensionsFunc;
_preferredGpuId = preferredGpuId;
Shaders = new HashSet<ShaderCollection>();
Textures = new HashSet<ITexture>();
Samplers = new HashSet<SamplerHolder>();
if (OperatingSystem.IsMacOS())
{
MVKInitialization.Initialize();
// Any device running on MacOS is using MoltenVK, even Intel and AMD vendors.
IsMoltenVk = true;
}
}
private unsafe void LoadFeatures(uint maxQueueCount, uint queueFamilyIndex)
{
FormatCapabilities = new FormatCapabilities(Api, _physicalDevice.PhysicalDevice);
if (Api.TryGetDeviceExtension(_instance.Instance, _device, out ExtConditionalRendering conditionalRenderingApi))
{
ConditionalRenderingApi = conditionalRenderingApi;
}
if (Api.TryGetDeviceExtension(_instance.Instance, _device, out ExtExtendedDynamicState extendedDynamicStateApi))
{
ExtendedDynamicStateApi = extendedDynamicStateApi;
}
if (Api.TryGetDeviceExtension(_instance.Instance, _device, out KhrPushDescriptor pushDescriptorApi))
{
PushDescriptorApi = pushDescriptorApi;
}
if (Api.TryGetDeviceExtension(_instance.Instance, _device, out ExtTransformFeedback transformFeedbackApi))
{
TransformFeedbackApi = transformFeedbackApi;
}
if (Api.TryGetDeviceExtension(_instance.Instance, _device, out KhrDrawIndirectCount drawIndirectCountApi))
{
DrawIndirectCountApi = drawIndirectCountApi;
}
if (maxQueueCount >= 2)
{
Api.GetDeviceQueue(_device, queueFamilyIndex, 1, out var backgroundQueue);
BackgroundQueue = backgroundQueue;
BackgroundQueueLock = new object();
}
PhysicalDeviceProperties2 properties2 = new PhysicalDeviceProperties2()
{
SType = StructureType.PhysicalDeviceProperties2
};
PhysicalDeviceBlendOperationAdvancedPropertiesEXT propertiesBlendOperationAdvanced = new PhysicalDeviceBlendOperationAdvancedPropertiesEXT()
{
SType = StructureType.PhysicalDeviceBlendOperationAdvancedPropertiesExt
};
bool supportsBlendOperationAdvanced = _physicalDevice.IsDeviceExtensionPresent("VK_EXT_blend_operation_advanced");
if (supportsBlendOperationAdvanced)
{
propertiesBlendOperationAdvanced.PNext = properties2.PNext;
properties2.PNext = &propertiesBlendOperationAdvanced;
}
PhysicalDeviceSubgroupSizeControlPropertiesEXT propertiesSubgroupSizeControl = new PhysicalDeviceSubgroupSizeControlPropertiesEXT()
{
SType = StructureType.PhysicalDeviceSubgroupSizeControlPropertiesExt
};
bool supportsSubgroupSizeControl = _physicalDevice.IsDeviceExtensionPresent("VK_EXT_subgroup_size_control");
if (supportsSubgroupSizeControl)
{
properties2.PNext = &propertiesSubgroupSizeControl;
}
bool supportsTransformFeedback = _physicalDevice.IsDeviceExtensionPresent(ExtTransformFeedback.ExtensionName);
PhysicalDeviceTransformFeedbackPropertiesEXT propertiesTransformFeedback = new PhysicalDeviceTransformFeedbackPropertiesEXT()
{
SType = StructureType.PhysicalDeviceTransformFeedbackPropertiesExt
};
if (supportsTransformFeedback)
{
propertiesTransformFeedback.PNext = properties2.PNext;
properties2.PNext = &propertiesTransformFeedback;
}
PhysicalDevicePortabilitySubsetPropertiesKHR propertiesPortabilitySubset = new PhysicalDevicePortabilitySubsetPropertiesKHR()
{
SType = StructureType.PhysicalDevicePortabilitySubsetPropertiesKhr
};
PhysicalDeviceFeatures2 features2 = new PhysicalDeviceFeatures2()
{
SType = StructureType.PhysicalDeviceFeatures2
};
PhysicalDevicePrimitiveTopologyListRestartFeaturesEXT featuresPrimitiveTopologyListRestart = new PhysicalDevicePrimitiveTopologyListRestartFeaturesEXT()
{
SType = StructureType.PhysicalDevicePrimitiveTopologyListRestartFeaturesExt
};
PhysicalDeviceRobustness2FeaturesEXT featuresRobustness2 = new PhysicalDeviceRobustness2FeaturesEXT()
{
SType = StructureType.PhysicalDeviceRobustness2FeaturesExt
};
PhysicalDeviceShaderFloat16Int8FeaturesKHR featuresShaderInt8 = new PhysicalDeviceShaderFloat16Int8FeaturesKHR()
{
SType = StructureType.PhysicalDeviceShaderFloat16Int8Features
};
PhysicalDeviceCustomBorderColorFeaturesEXT featuresCustomBorderColor = new PhysicalDeviceCustomBorderColorFeaturesEXT()
{
SType = StructureType.PhysicalDeviceCustomBorderColorFeaturesExt
};
PhysicalDevicePortabilitySubsetFeaturesKHR featuresPortabilitySubset = new PhysicalDevicePortabilitySubsetFeaturesKHR()
{
SType = StructureType.PhysicalDevicePortabilitySubsetFeaturesKhr
};
if (_physicalDevice.IsDeviceExtensionPresent("VK_EXT_primitive_topology_list_restart"))
{
features2.PNext = &featuresPrimitiveTopologyListRestart;
}
if (_physicalDevice.IsDeviceExtensionPresent("VK_EXT_robustness2"))
{
featuresRobustness2.PNext = features2.PNext;
features2.PNext = &featuresRobustness2;
}
if (_physicalDevice.IsDeviceExtensionPresent("VK_KHR_shader_float16_int8"))
{
featuresShaderInt8.PNext = features2.PNext;
features2.PNext = &featuresShaderInt8;
}
if (_physicalDevice.IsDeviceExtensionPresent("VK_EXT_custom_border_color"))
{
featuresCustomBorderColor.PNext = features2.PNext;
features2.PNext = &featuresCustomBorderColor;
}
bool usePortability = _physicalDevice.IsDeviceExtensionPresent("VK_KHR_portability_subset");
if (usePortability)
{
propertiesPortabilitySubset.PNext = properties2.PNext;
properties2.PNext = &propertiesPortabilitySubset;
featuresPortabilitySubset.PNext = features2.PNext;
features2.PNext = &featuresPortabilitySubset;
}
Api.GetPhysicalDeviceProperties2(_physicalDevice.PhysicalDevice, &properties2);
Api.GetPhysicalDeviceFeatures2(_physicalDevice.PhysicalDevice, &features2);
var portabilityFlags = PortabilitySubsetFlags.None;
uint vertexBufferAlignment = 1;
if (usePortability)
{
vertexBufferAlignment = propertiesPortabilitySubset.MinVertexInputBindingStrideAlignment;
portabilityFlags |= featuresPortabilitySubset.TriangleFans ? 0 : PortabilitySubsetFlags.NoTriangleFans;
portabilityFlags |= featuresPortabilitySubset.PointPolygons ? 0 : PortabilitySubsetFlags.NoPointMode;
portabilityFlags |= featuresPortabilitySubset.ImageView2DOn3DImage ? 0 : PortabilitySubsetFlags.No3DImageView;
portabilityFlags |= featuresPortabilitySubset.SamplerMipLodBias ? 0 : PortabilitySubsetFlags.NoLodBias;
}
bool supportsCustomBorderColor = _physicalDevice.IsDeviceExtensionPresent("VK_EXT_custom_border_color") &&
featuresCustomBorderColor.CustomBorderColors &&
featuresCustomBorderColor.CustomBorderColorWithoutFormat;
ref var properties = ref properties2.Properties;
SampleCountFlags supportedSampleCounts =
properties.Limits.FramebufferColorSampleCounts &
properties.Limits.FramebufferDepthSampleCounts &
properties.Limits.FramebufferStencilSampleCounts;
Capabilities = new HardwareCapabilities(
_physicalDevice.IsDeviceExtensionPresent("VK_EXT_index_type_uint8"),
supportsCustomBorderColor,
supportsBlendOperationAdvanced,
propertiesBlendOperationAdvanced.AdvancedBlendCorrelatedOverlap,
propertiesBlendOperationAdvanced.AdvancedBlendNonPremultipliedSrcColor,
propertiesBlendOperationAdvanced.AdvancedBlendNonPremultipliedDstColor,
_physicalDevice.IsDeviceExtensionPresent(KhrDrawIndirectCount.ExtensionName),
_physicalDevice.IsDeviceExtensionPresent("VK_EXT_fragment_shader_interlock"),
_physicalDevice.IsDeviceExtensionPresent("VK_NV_geometry_shader_passthrough"),
supportsSubgroupSizeControl,
featuresShaderInt8.ShaderInt8,
_physicalDevice.IsDeviceExtensionPresent("VK_EXT_shader_stencil_export"),
_physicalDevice.IsDeviceExtensionPresent(ExtConditionalRendering.ExtensionName),
_physicalDevice.IsDeviceExtensionPresent(ExtExtendedDynamicState.ExtensionName),
features2.Features.MultiViewport,
featuresRobustness2.NullDescriptor || IsMoltenVk,
_physicalDevice.IsDeviceExtensionPresent(KhrPushDescriptor.ExtensionName),
featuresPrimitiveTopologyListRestart.PrimitiveTopologyListRestart,
featuresPrimitiveTopologyListRestart.PrimitiveTopologyPatchListRestart,
supportsTransformFeedback,
propertiesTransformFeedback.TransformFeedbackQueries,
features2.Features.OcclusionQueryPrecise,
_physicalDevice.PhysicalDeviceFeatures.PipelineStatisticsQuery,
_physicalDevice.PhysicalDeviceFeatures.GeometryShader,
_physicalDevice.IsDeviceExtensionPresent("VK_NV_viewport_array2"),
propertiesSubgroupSizeControl.MinSubgroupSize,
propertiesSubgroupSizeControl.MaxSubgroupSize,
propertiesSubgroupSizeControl.RequiredSubgroupSizeStages,
supportedSampleCounts,
portabilityFlags,
vertexBufferAlignment,
properties.Limits.SubTexelPrecisionBits);
IsSharedMemory = MemoryAllocator.IsDeviceMemoryShared(_physicalDevice);
MemoryAllocator = new MemoryAllocator(Api, _physicalDevice, _device);
CommandBufferPool = new CommandBufferPool(Api, _device, Queue, QueueLock, queueFamilyIndex);
DescriptorSetManager = new DescriptorSetManager(_device);
PipelineLayoutCache = new PipelineLayoutCache();
BackgroundResources = new BackgroundResources(this, _device);
BufferManager = new BufferManager(this, _device);
SyncManager = new SyncManager(this, _device);
_pipeline = new PipelineFull(this, _device);
_pipeline.Initialize();
HelperShader = new HelperShader(this, _device);
_counters = new Counters(this, _device, _pipeline);
}
private unsafe void SetupContext(GraphicsDebugLevel logLevel)
{
var api = Vk.GetApi();
Api = api;
_instance = VulkanInitialization.CreateInstance(api, logLevel, _getRequiredExtensions());
_debugMessenger = new VulkanDebugMessenger(api, _instance.Instance, logLevel);
if (api.TryGetInstanceExtension(_instance.Instance, out KhrSurface surfaceApi))
{
SurfaceApi = surfaceApi;
}
_surface = _getSurface(_instance.Instance, api);
_physicalDevice = VulkanInitialization.FindSuitablePhysicalDevice(api, _instance, _surface, _preferredGpuId);
var queueFamilyIndex = VulkanInitialization.FindSuitableQueueFamily(api, _physicalDevice, _surface, out uint maxQueueCount);
_device = VulkanInitialization.CreateDevice(api, _physicalDevice, queueFamilyIndex, maxQueueCount);
if (api.TryGetDeviceExtension(_instance.Instance, _device, out KhrSwapchain swapchainApi))
{
SwapchainApi = swapchainApi;
}
api.GetDeviceQueue(_device, queueFamilyIndex, 0, out var queue);
Queue = queue;
QueueLock = new object();
LoadFeatures(maxQueueCount, queueFamilyIndex);
_window = new Window(this, _surface, _physicalDevice.PhysicalDevice, _device);
_initialized = true;
}
public BufferHandle CreateBuffer(int size, BufferHandle storageHint)
{
return BufferManager.CreateWithHandle(this, size, BufferAllocationType.Auto, storageHint);
}
public IProgram CreateProgram(ShaderSource[] sources, ShaderInfo info)
{
bool isCompute = sources.Length == 1 && sources[0].Stage == ShaderStage.Compute;
if (info.State.HasValue || isCompute)
{
return new ShaderCollection(this, _device, sources, info.State ?? default, info.FromCache);
}
else
{
return new ShaderCollection(this, _device, sources);
}
}
internal ShaderCollection CreateProgramWithMinimalLayout(ShaderSource[] sources, SpecDescription[] specDescription = null)
{
return new ShaderCollection(this, _device, sources, specDescription: specDescription, isMinimal: true);
}
public ISampler CreateSampler(GAL.SamplerCreateInfo info)
{
return new SamplerHolder(this, _device, info);
}
public ITexture CreateTexture(TextureCreateInfo info, float scale)
{
if (info.Target == Target.TextureBuffer)
{
return new TextureBuffer(this, info, scale);
}
return CreateTextureView(info, scale);
}
internal TextureView CreateTextureView(TextureCreateInfo info, float scale)
{
// This should be disposed when all views are destroyed.
var storage = CreateTextureStorage(info, scale);
return storage.CreateView(info, 0, 0);
}
internal TextureStorage CreateTextureStorage(TextureCreateInfo info, float scale)
{
return new TextureStorage(this, _device, info, scale);
}
public void DeleteBuffer(BufferHandle buffer)
{
BufferManager.Delete(buffer);
}
internal void FlushAllCommands()
{
_pipeline?.FlushCommandsImpl();
}
internal void RegisterFlush()
{
SyncManager.RegisterFlush();
}
public PinnedSpan<byte> GetBufferData(BufferHandle buffer, int offset, int size)
{
return BufferManager.GetData(buffer, offset, size);
}
public unsafe Capabilities GetCapabilities()
{
FormatFeatureFlags compressedFormatFeatureFlags =
FormatFeatureFlags.SampledImageBit |
FormatFeatureFlags.SampledImageFilterLinearBit |
FormatFeatureFlags.BlitSrcBit |
FormatFeatureFlags.TransferSrcBit |
FormatFeatureFlags.TransferDstBit;
bool supportsBc123CompressionFormat = FormatCapabilities.OptimalFormatsSupport(compressedFormatFeatureFlags,
GAL.Format.Bc1RgbaSrgb,
GAL.Format.Bc1RgbaUnorm,
GAL.Format.Bc2Srgb,
GAL.Format.Bc2Unorm,
GAL.Format.Bc3Srgb,
GAL.Format.Bc3Unorm);
bool supportsBc45CompressionFormat = FormatCapabilities.OptimalFormatsSupport(compressedFormatFeatureFlags,
GAL.Format.Bc4Snorm,
GAL.Format.Bc4Unorm,
GAL.Format.Bc5Snorm,
GAL.Format.Bc5Unorm);
bool supportsBc67CompressionFormat = FormatCapabilities.OptimalFormatsSupport(compressedFormatFeatureFlags,
GAL.Format.Bc6HSfloat,
GAL.Format.Bc6HUfloat,
GAL.Format.Bc7Srgb,
GAL.Format.Bc7Unorm);
bool supportsEtc2CompressionFormat = FormatCapabilities.OptimalFormatsSupport(compressedFormatFeatureFlags,
GAL.Format.Etc2RgbaSrgb,
GAL.Format.Etc2RgbaUnorm,
GAL.Format.Etc2RgbPtaSrgb,
GAL.Format.Etc2RgbPtaUnorm,
GAL.Format.Etc2RgbSrgb,
GAL.Format.Etc2RgbUnorm);
bool supports5BitComponentFormat = FormatCapabilities.OptimalFormatsSupport(compressedFormatFeatureFlags,
GAL.Format.R5G6B5Unorm,
GAL.Format.R5G5B5A1Unorm,
GAL.Format.R5G5B5X1Unorm,
GAL.Format.B5G6R5Unorm,
GAL.Format.B5G5R5A1Unorm,
GAL.Format.A1B5G5R5Unorm);
bool supportsR4G4B4A4Format = FormatCapabilities.OptimalFormatsSupport(compressedFormatFeatureFlags,
GAL.Format.R4G4B4A4Unorm);
bool supportsAstcFormats = FormatCapabilities.OptimalFormatsSupport(compressedFormatFeatureFlags,
GAL.Format.Astc4x4Unorm,
GAL.Format.Astc5x4Unorm,
GAL.Format.Astc5x5Unorm,
GAL.Format.Astc6x5Unorm,
GAL.Format.Astc6x6Unorm,
GAL.Format.Astc8x5Unorm,
GAL.Format.Astc8x6Unorm,
GAL.Format.Astc8x8Unorm,
GAL.Format.Astc10x5Unorm,
GAL.Format.Astc10x6Unorm,
GAL.Format.Astc10x8Unorm,
GAL.Format.Astc10x10Unorm,
GAL.Format.Astc12x10Unorm,
GAL.Format.Astc12x12Unorm,
GAL.Format.Astc4x4Srgb,
GAL.Format.Astc5x4Srgb,
GAL.Format.Astc5x5Srgb,
GAL.Format.Astc6x5Srgb,
GAL.Format.Astc6x6Srgb,
GAL.Format.Astc8x5Srgb,
GAL.Format.Astc8x6Srgb,
GAL.Format.Astc8x8Srgb,
GAL.Format.Astc10x5Srgb,
GAL.Format.Astc10x6Srgb,
GAL.Format.Astc10x8Srgb,
GAL.Format.Astc10x10Srgb,
GAL.Format.Astc12x10Srgb,
GAL.Format.Astc12x12Srgb);
PhysicalDeviceVulkan12Features featuresVk12 = new PhysicalDeviceVulkan12Features()
{
SType = StructureType.PhysicalDeviceVulkan12Features
};
PhysicalDeviceFeatures2 features2 = new PhysicalDeviceFeatures2()
{
SType = StructureType.PhysicalDeviceFeatures2,
PNext = &featuresVk12
};
Api.GetPhysicalDeviceFeatures2(_physicalDevice.PhysicalDevice, &features2);
var limits = _physicalDevice.PhysicalDeviceProperties.Limits;
return new Capabilities(
api: TargetApi.Vulkan,
GpuVendor,
hasFrontFacingBug: IsIntelWindows,
hasVectorIndexingBug: Vendor == Vendor.Qualcomm,
needsFragmentOutputSpecialization: IsMoltenVk,
reduceShaderPrecision: IsMoltenVk,
supportsAstcCompression: features2.Features.TextureCompressionAstcLdr && supportsAstcFormats,
supportsBc123Compression: supportsBc123CompressionFormat,
supportsBc45Compression: supportsBc45CompressionFormat,
supportsBc67Compression: supportsBc67CompressionFormat,
supportsEtc2Compression: supportsEtc2CompressionFormat,
supports3DTextureCompression: true,
supportsBgraFormat: true,
supportsR4G4Format: false,
supportsR4G4B4A4Format: supportsR4G4B4A4Format,
supportsSnormBufferTextureFormat: true,
supports5BitComponentFormat: supports5BitComponentFormat,
supportsBlendEquationAdvanced: Capabilities.SupportsBlendEquationAdvanced,
supportsFragmentShaderInterlock: Capabilities.SupportsFragmentShaderInterlock,
supportsFragmentShaderOrderingIntel: false,
supportsGeometryShader: Capabilities.SupportsGeometryShader,
supportsGeometryShaderPassthrough: Capabilities.SupportsGeometryShaderPassthrough,
supportsImageLoadFormatted: features2.Features.ShaderStorageImageReadWithoutFormat,
supportsLayerVertexTessellation: featuresVk12.ShaderOutputLayer,
supportsMismatchingViewFormat: true,
supportsCubemapView: !IsAmdGcn,
supportsNonConstantTextureOffset: false,
supportsShaderBallot: false,
supportsTextureShadowLod: false,
supportsViewportIndexVertexTessellation: featuresVk12.ShaderOutputViewportIndex,
supportsViewportMask: Capabilities.SupportsViewportArray2,
supportsViewportSwizzle: false,
supportsIndirectParameters: true,
maximumUniformBuffersPerStage: Constants.MaxUniformBuffersPerStage,
maximumStorageBuffersPerStage: Constants.MaxStorageBuffersPerStage,
maximumTexturesPerStage: Constants.MaxTexturesPerStage,
maximumImagesPerStage: Constants.MaxImagesPerStage,
maximumComputeSharedMemorySize: (int)limits.MaxComputeSharedMemorySize,
maximumSupportedAnisotropy: (int)limits.MaxSamplerAnisotropy,
storageBufferOffsetAlignment: (int)limits.MinStorageBufferOffsetAlignment,
gatherBiasPrecision: IsIntelWindows || IsAmdWindows ? (int)Capabilities.SubTexelPrecisionBits : 0);
}
public HardwareInfo GetHardwareInfo()
{
return new HardwareInfo(GpuVendor, GpuRenderer);
}
public static DeviceInfo[] GetPhysicalDevices()
{
try
{
return VulkanInitialization.GetSuitablePhysicalDevices(Vk.GetApi());
}
catch (Exception)
{
// If we got an exception here, Vulkan is most likely not supported.
return Array.Empty<DeviceInfo>();
}
}
private static string ParseStandardVulkanVersion(uint version)
{
return $"{version >> 22}.{(version >> 12) & 0x3FF}.{version & 0xFFF}";
}
private static string ParseDriverVersion(ref PhysicalDeviceProperties properties)
{
uint driverVersionRaw = properties.DriverVersion;
// NVIDIA differ from the standard here and uses a different format.
if (properties.VendorID == 0x10DE)
{
return $"{(driverVersionRaw >> 22) & 0x3FF}.{(driverVersionRaw >> 14) & 0xFF}.{(driverVersionRaw >> 6) & 0xFF}.{driverVersionRaw & 0x3F}";
}
else
{
return ParseStandardVulkanVersion(driverVersionRaw);
}
}
private unsafe void PrintGpuInformation()
{
var properties = _physicalDevice.PhysicalDeviceProperties;
string vendorName = VendorUtils.GetNameFromId(properties.VendorID);
Vendor = VendorUtils.FromId(properties.VendorID);
IsAmdWindows = Vendor == Vendor.Amd && OperatingSystem.IsWindows();
IsIntelWindows = Vendor == Vendor.Intel && OperatingSystem.IsWindows();
IsTBDR = IsMoltenVk ||
Vendor == Vendor.Qualcomm ||
Vendor == Vendor.ARM ||
Vendor == Vendor.Broadcom ||
Vendor == Vendor.ImgTec;
GpuVendor = vendorName;
GpuRenderer = Marshal.PtrToStringAnsi((IntPtr)properties.DeviceName);
GpuVersion = $"Vulkan v{ParseStandardVulkanVersion(properties.ApiVersion)}, Driver v{ParseDriverVersion(ref properties)}";
IsAmdGcn = !IsMoltenVk && Vendor == Vendor.Amd && VendorUtils.AmdGcnRegex().IsMatch(GpuRenderer);
Logger.Notice.Print(LogClass.Gpu, $"{GpuVendor} {GpuRenderer} ({GpuVersion})");
}
public GAL.PrimitiveTopology TopologyRemap(GAL.PrimitiveTopology topology)
{
return topology switch
{
GAL.PrimitiveTopology.Quads => GAL.PrimitiveTopology.Triangles,
GAL.PrimitiveTopology.QuadStrip => GAL.PrimitiveTopology.TriangleStrip,
GAL.PrimitiveTopology.TriangleFan => Capabilities.PortabilitySubset.HasFlag(PortabilitySubsetFlags.NoTriangleFans) ? GAL.PrimitiveTopology.Triangles : topology,
_ => topology
};
}
public bool TopologyUnsupported(GAL.PrimitiveTopology topology)
{
return topology switch
{
GAL.PrimitiveTopology.Quads => true,
GAL.PrimitiveTopology.TriangleFan => Capabilities.PortabilitySubset.HasFlag(PortabilitySubsetFlags.NoTriangleFans),
_ => false
};
}
public void Initialize(GraphicsDebugLevel logLevel)
{
SetupContext(logLevel);
PrintGpuInformation();
}
internal bool NeedsVertexBufferAlignment(int attrScalarAlignment, out int alignment)
{
if (Capabilities.VertexBufferAlignment > 1)
{
alignment = (int)Capabilities.VertexBufferAlignment;
return true;
}
else if (Vendor != Vendor.Nvidia)
{
// Vulkan requires that vertex attributes are globally aligned by their component size,
// so buffer strides that don't divide by the largest scalar element are invalid.
// Guest applications do this, NVIDIA GPUs are OK with it, others are not.
alignment = attrScalarAlignment;
return true;
}
alignment = 1;
return false;
}
public void PreFrame()
{
SyncManager.Cleanup();
}
public ICounterEvent ReportCounter(CounterType type, EventHandler<ulong> resultHandler, bool hostReserved)
{
return _counters.QueueReport(type, resultHandler, hostReserved);
}
public void ResetCounter(CounterType type)
{
_counters.QueueReset(type);
}
public void SetBufferData(BufferHandle buffer, int offset, ReadOnlySpan<byte> data)
{
BufferManager.SetData(buffer, offset, data, _pipeline.CurrentCommandBuffer, _pipeline.EndRenderPass);
}
public void UpdateCounters()
{
_counters.Update();
}
public void ResetCounterPool()
{
_counters.ResetCounterPool();
}
public void ResetFutureCounters(CommandBuffer cmd, int count)
{
_counters?.ResetFutureCounters(cmd, count);
}
public void BackgroundContextAction(Action action, bool alwaysBackground = false)
{
action();
}
public void CreateSync(ulong id, bool strict)
{
SyncManager.Create(id, strict);
}
public IProgram LoadProgramBinary(byte[] programBinary, bool isFragment, ShaderInfo info)
{
throw new NotImplementedException();
}
public void WaitSync(ulong id)
{
SyncManager.Wait(id);
}
public ulong GetCurrentSync()
{
return SyncManager.GetCurrent();
}
public void SetInterruptAction(Action<Action> interruptAction)
{
InterruptAction = interruptAction;
}
public void Screenshot()
{
_window.ScreenCaptureRequested = true;
}
public void OnScreenCaptured(ScreenCaptureImageInfo bitmap)
{
ScreenCaptured?.Invoke(this, bitmap);
}
public unsafe void Dispose()
{
if (!_initialized)
{
return;
}
CommandBufferPool.Dispose();
BackgroundResources.Dispose();
_counters.Dispose();
_window.Dispose();
HelperShader.Dispose();
_pipeline.Dispose();
BufferManager.Dispose();
DescriptorSetManager.Dispose();
PipelineLayoutCache.Dispose();
MemoryAllocator.Dispose();
foreach (var shader in Shaders)
{
shader.Dispose();
}
foreach (var texture in Textures)
{
texture.Release();
}
foreach (var sampler in Samplers)
{
sampler.Dispose();
}
SurfaceApi.DestroySurface(_instance.Instance, _surface, null);
Api.DestroyDevice(_device, null);
_debugMessenger.Dispose();
// Last step destroy the instance
_instance.Dispose();
}
}
}