GhostEngine/Ghost.Graphics/D3D12/D3D12PipelineLibrary.cs

using Ghost.Core;
using Ghost.Core.Graphics;
using Ghost.Core.Utilities;
using Ghost.Graphics.Contracts;
using Ghost.Graphics.Core;
using Ghost.Graphics.D3D12.Utilities;
using Ghost.Graphics.RHI;
using Misaki.HighPerformance.LowLevel;
using Misaki.HighPerformance.LowLevel.Buffer;
using Misaki.HighPerformance.LowLevel.Collections;
using System.Runtime.InteropServices;
using TerraFX.Interop.DirectX;
using TerraFX.Interop.Windows;

using static TerraFX.Aliases.D3D_Alias;
using static TerraFX.Aliases.D3D12_Alias;

namespace Ghost.Graphics.D3D12;

internal struct D3D12PipelineState : IDisposable
{
    public D3DX12_MESH_SHADER_PIPELINE_STATE_DESC psoDesc;
    public UniquePtr<ID3D12PipelineState> pso;
    public ShaderPassKey shaderPass;

    public void Dispose()
    {
        pso.Dispose();
    }
}

internal unsafe class D3D12PipelineLibrary : IPipelineLibrary
{
    private readonly D3D12RenderDevice _device;
    private readonly D3D12ResourceDatabase _resourceDatabase;

    private UniquePtr<ID3D12PipelineLibrary1> _library;
    private UniquePtr<ID3D12RootSignature> _defaultRootSignature;

    private readonly Dictionary<GraphicsPipelineKey, D3D12PipelineState> _pipelineCache;

    public ID3D12RootSignature* DefaultRootSignature => _defaultRootSignature.Get();

    public D3D12PipelineLibrary(D3D12RenderDevice device, D3D12ResourceDatabase resourceDatabase)
    {
        _device = device;
        _resourceDatabase = resourceDatabase;

        _pipelineCache = new Dictionary<GraphicsPipelineKey, D3D12PipelineState>();

        CreateDefaultRootSignature().ThrowIfFailed();
    }

    private Result CreateDefaultRootSignature()
    {
        _defaultRootSignature = default;

        // NOTE: Since we are targeting SM 6.6, we can use ResourceDescriptorHeap and SamplerDescriptorHeap directly without needing to set up viewGroup tables.
        var rootParameters = stackalloc D3D12_ROOT_PARAMETER1[RootSignatureLayout.ROOT_PARAMETER_COUNT];
        rootParameters[0] = new D3D12_ROOT_PARAMETER1
        {
            ParameterType = D3D12_ROOT_PARAMETER_TYPE_CBV,
            ShaderVisibility = D3D12_SHADER_VISIBILITY_ALL,
            Descriptor = new D3D12_ROOT_DESCRIPTOR1(RootSignatureLayout.GLOBAL_BUFFER_SLOT, 0), // b0
        };

        rootParameters[1] = new D3D12_ROOT_PARAMETER1
        {
            ParameterType = D3D12_ROOT_PARAMETER_TYPE_CBV,
            ShaderVisibility = D3D12_SHADER_VISIBILITY_ALL,
            Descriptor = new D3D12_ROOT_DESCRIPTOR1(RootSignatureLayout.PER_VIEW_BUFFER_SLOT, 0), // b1
        };

        rootParameters[2] = new D3D12_ROOT_PARAMETER1
        {
            ParameterType = D3D12_ROOT_PARAMETER_TYPE_CBV,
            ShaderVisibility = D3D12_SHADER_VISIBILITY_ALL,
            Descriptor = new D3D12_ROOT_DESCRIPTOR1(RootSignatureLayout.PER_OBJECT_BUFFER_SLOT, 0), // b2
        };

        rootParameters[3] = new D3D12_ROOT_PARAMETER1
        {
            ParameterType = D3D12_ROOT_PARAMETER_TYPE_CBV,
            ShaderVisibility = D3D12_SHADER_VISIBILITY_ALL,
            Descriptor = new D3D12_ROOT_DESCRIPTOR1(RootSignatureLayout.PER_MATERIAL_BUFFER_SLOT, 0), // b3
        };

#if USE_TRADITIONAL_BINDLESS
        // Descriptor table for bindless textures
        var srvRange = new D3D12_DESCRIPTOR_RANGE1(
            D3D12_DESCRIPTOR_RANGE_TYPE_SRV,
            ~0u,
            0,
            0,
            D3D12_DESCRIPTOR_RANGE_FLAGS_DATA_VOLATILE);

        rootParameters[4] = new D3D12_ROOT_PARAMETER1
        {
            ParameterType = D3D12_ROOT_PARAMETER_TYPE_DESCRIPTOR_TABLE,
            ShaderVisibility = D3D12_SHADER_VISIBILITY_ALL,
            DescriptorTable = new D3D12_ROOT_DESCRIPTOR_TABLE1(1, &srvRange)
        };

        // Descriptor table for bindless samplers
        var sampRange = new D3D12_DESCRIPTOR_RANGE1(
            D3D12_DESCRIPTOR_RANGE_TYPE_SAMPLER,
            ~0u,
            0,
            0,
            D3D12_DESCRIPTOR_RANGE_FLAGS_DATA_VOLATILE);

        rootParameters[5] = new D3D12_ROOT_PARAMETER1
        {
            ParameterType = D3D12_ROOT_PARAMETER_TYPE_DESCRIPTOR_TABLE,
            ShaderVisibility = D3D12_SHADER_VISIBILITY_ALL,
            DescriptorTable = new D3D12_ROOT_DESCRIPTOR_TABLE1(1, &sampRange)
        };
#endif

        var rootSignatureDesc = new D3D12_ROOT_SIGNATURE_DESC1
        {
            NumParameters = RootSignatureLayout.ROOT_PARAMETER_COUNT,
            pParameters = rootParameters,
            NumStaticSamplers = 0,
            pStaticSamplers = null,
            Flags = D3D12_ROOT_SIGNATURE_FLAG_ALLOW_INPUT_ASSEMBLER_INPUT_LAYOUT
#if !USE_TRADITIONAL_BINDLESS
                | D3D12_ROOT_SIGNATURE_FLAG_CBV_SRV_UAV_HEAP_DIRECTLY_INDEXED
                | D3D12_ROOT_SIGNATURE_FLAG_SAMPLER_HEAP_DIRECTLY_INDEXED
#endif
        };

        var versionedDesc = new D3D12_VERSIONED_ROOT_SIGNATURE_DESC
        {
            Version = D3D_ROOT_SIGNATURE_VERSION_1_1,
            Desc_1_1 = rootSignatureDesc
        };

        using ComPtr<ID3DBlob> pSignature = default;
        using ComPtr<ID3DBlob> pError = default;

        var serializeResult = D3D12SerializeVersionedRootSignature(&versionedDesc, pSignature.GetAddressOf(), pError.GetAddressOf());
        if (serializeResult.FAILED)
        {
            var errorMsg = pError.Get() != null ? Marshal.PtrToStringUTF8((nint)pError.Get()->GetBufferPointer()) : "Unknown error";
            return Result.Failure($"Failed to serialize default root signature: {errorMsg}");
        }

        ID3D12RootSignature* pRootSignature = default;
        ThrowIfFailed(_device.NativeDevice.Get()->CreateRootSignature(0, pSignature.Get()->GetBufferPointer(), pSignature.Get()->GetBufferSize(),
            __uuidof(pRootSignature), (void**)&pRootSignature));

        _defaultRootSignature.Attach(pRootSignature);

        return Result.Success();
    }

    public void InitializeLibrary(string? filePath)
    {
        ID3D12PipelineLibrary1* pLibrary = default;

        if (File.Exists(filePath))
        {
            var fileBytes = File.ReadAllBytes(filePath!);
            fixed (byte* pFileBytes = fileBytes)
            {
                ThrowIfFailed(_device.NativeDevice.Get()->CreatePipelineLibrary(pFileBytes, (nuint)fileBytes.Length, __uuidof(pLibrary), (void**)&pLibrary));
            }
        }
        else
        {
            ThrowIfFailed(_device.NativeDevice.Get()->CreatePipelineLibrary(null, 0, __uuidof(pLibrary), (void**)&pLibrary));
        }

        _library.Attach(pLibrary);
    }

    public void SaveLibraryToDisk(string filePath)
    {
        var dir = Path.GetDirectoryName(filePath);
        if (!Directory.Exists(dir))
        {
            throw new InvalidOperationException($"Directory does not exist: {dir}");
        }

        var size = _library.Get()->GetSerializedSize();
        using var buffer = new UnsafeArray<byte>((int)size, Allocator.Persistent); // We use persistent heap allocation instead of stack allocation to avoid stack overflow for large pipeline libraries.

        ThrowIfFailed(_library.Get()->Serialize(buffer.GetUnsafePtr(), size));

        using var fs = File.Open(filePath, FileMode.Create, FileAccess.Write, FileShare.None);
        fs.Write(buffer.AsSpan());
    }

    private static Result<CBufferInfo> ValidateReflectionData(ShaderReflectionData reflectionData)
    {
        var cbufferInfo = default(CBufferInfo);

        foreach (var info in reflectionData.ResourcesBindings)
        {
            if (info.BindPoint >= RootSignatureLayout.ROOT_PARAMETER_COUNT)
            {
                return Result.Failure($"Resource binding point {info.BindPoint} is out of range. Only binding points 0-3 are supported in the current root signature.");
            }

            if (info.Type != ShaderInputType.ConstantBuffer)
            {
                return Result.Failure($"Resource binding type {info.Type} is not supported. Please consider using bindless resources for buffers, textures and samplers.");
            }

            if (info.BindPoint == RootSignatureLayout.PER_OBJECT_BUFFER_SLOT)
            {
                if (info.Size != sizeof(PerObjectData))
                {
                    return Result.Failure($"Per-object constant buffer size mismatch. Expected size: {sizeof(PerObjectData)}, Actual size: {info.Size}");
                }
            }

            if (info.BindPoint == RootSignatureLayout.PER_MATERIAL_BUFFER_SLOT)
            {
                cbufferInfo = new CBufferInfo
                {
                    Name = info.Name,
                    RegisterSlot = info.BindPoint,
                    RegisterSpace = info.Space,
                    SizeInBytes = info.Size,
                    Properties = info.Properties ?? Array.Empty<CBufferPropertyInfo>(),
                };
            }
        }

        return Result.Success(cbufferInfo);
    }

    private static D3D12_COMPARISON_FUNC ToD3DCompare(ZTestOptions z) => z switch
    {
        ZTestOptions.Disabled => D3D12_COMPARISON_FUNC_NEVER,
        ZTestOptions.Less => D3D12_COMPARISON_FUNC_LESS,
        ZTestOptions.LessEqual => D3D12_COMPARISON_FUNC_LESS_EQUAL,
        ZTestOptions.Equal => D3D12_COMPARISON_FUNC_EQUAL,
        ZTestOptions.GreaterEqual => D3D12_COMPARISON_FUNC_GREATER_EQUAL,
        ZTestOptions.Greater => D3D12_COMPARISON_FUNC_GREATER,
        ZTestOptions.NotEqual => D3D12_COMPARISON_FUNC_NOT_EQUAL,
        ZTestOptions.Always => D3D12_COMPARISON_FUNC_ALWAYS,
        _ => D3D12_COMPARISON_FUNC_LESS_EQUAL
    };

    private static D3D12_DEPTH_STENCIL_DESC BuildDepthStencil(ZTestOptions ztest, ZWriteOptions zwrite)
    {
        var depthEnabled = ztest != ZTestOptions.Disabled;
        var writeEnabled = zwrite == ZWriteOptions.On;
        var cmp = ToD3DCompare(ztest);
        return D3D12Utility.D3D12_DEPTH_STENCIL_DESC_CREATE(depthEnabled, writeEnabled, cmp);
    }

    public Result<GraphicsPipelineKey> CompilePSO(ref readonly GraphicsPSODescriptor descriptor, ref readonly GraphicsCompiledResult compiled)
    {
        static Result<CBufferInfo> ValidatePassReflectionData(ref readonly GraphicsCompiledResult compiled)
        {
            var msr = ValidateReflectionData(compiled.msResult.reflectionData);
            if (msr.IsFailure)
            {
                return Result.Failure("Validation of mesh shader reflection data failed: " + msr.Message);
            }

            var psr = ValidateReflectionData(compiled.psResult.reflectionData);
            if (psr.IsFailure)
            {
                return Result.Failure("Validation of pixel shader reflection data failed: " + psr.Message);
            }

            if (msr.Value.Properties != null
                && msr.Value.SizeInBytes != psr.Value.SizeInBytes)
            {
                return Result.Failure("Mesh shader and pixel shader constant buffer layouts do not match.");
            }

            if (compiled.tsResult.IsCreated)
            {
                var tsr = ValidateReflectionData(compiled.tsResult.reflectionData);
                if (tsr.IsFailure)
                {
                    return Result.Failure("Validation of task shader reflection data failed: " + tsr.Message);
                }

                if (tsr.Value.Properties != null
                    && tsr.Value.SizeInBytes != psr.Value.SizeInBytes)
                {
                    return Result.Failure("Task shader and pixel shader constant buffer layouts do not match.");
                }
            }

            // ts and ms may not use per material cbuffer at all, so we return the psr value.
            return psr.Value;
        }

        var hash = new GraphicsPipelineHash
        {
            Id = descriptor.PassId,
            RtvCount = (uint)descriptor.RtvFormats.Length,
            DsvFormat = descriptor.DsvFormat,
        };

        var rtvCount = (uint)Math.Min(descriptor.RtvFormats.Length, D3D12_SIMULTANEOUS_RENDER_TARGET_COUNT);

        for (var i = 0; i < rtvCount && i < D3D12_SIMULTANEOUS_RENDER_TARGET_COUNT; i++)
        {
            hash.RtvFormats[i] = descriptor.RtvFormats[i];
        }

        var key = hash.GetKey();

        if (!_pipelineCache.ContainsKey(key))
        {
            var result = ValidatePassReflectionData(in compiled);
            if (result.IsFailure)
            {
                return Result.Failure(result.Message);
            }

            var desc = new D3DX12_MESH_SHADER_PIPELINE_STATE_DESC
            {
                pRootSignature = _defaultRootSignature.Get(),
                MS = new D3D12_SHADER_BYTECODE(compiled.msResult.bytecode.GetUnsafePtr(), (nuint)compiled.msResult.bytecode.Count),
                PS = new D3D12_SHADER_BYTECODE(compiled.psResult.bytecode.GetUnsafePtr(), (nuint)compiled.psResult.bytecode.Count),
                PrimitiveTopologyType = D3D12_PRIMITIVE_TOPOLOGY_TYPE_TRIANGLE,
                SampleMask = UINT32_MAX,
                SampleDesc = new DXGI_SAMPLE_DESC(1, 0),
                NumRenderTargets = rtvCount,
                DSVFormat = descriptor.DsvFormat.ToDXGIFormat(),
                DepthStencilState = BuildDepthStencil(descriptor.ZTest, descriptor.ZWrite),
                NodeMask = 0,
                Flags = D3D12_PIPELINE_STATE_FLAG_NONE,

                BlendState = descriptor.Blend switch
                {
                    BlendOptions.Opaque => D3D12Utility.D3D12_BLEND_DESC_OPAQUE,
                    BlendOptions.Alpha => D3D12Utility.D3D12_BLEND_DESC_ALPHA_BLEND,
                    BlendOptions.Additive => D3D12Utility.D3D12_BLEND_DESC_ADDITIVE,
                    BlendOptions.Multiply => D3D12Utility.D3D12_BLEND_DESC_MULTIPLY,
                    BlendOptions.PremultipliedAlpha => D3D12Utility.D3D12_BLEND_DESC_PREMULTIPLIED,
                    _ => D3D12Utility.D3D12_BLEND_DESC_OPAQUE
                },
                RasterizerState = descriptor.Cull switch
                {
                    CullOptions.Off => D3D12Utility.D3D12_RASTERIZER_DESC_CULL_NONE,
                    CullOptions.Front => D3D12Utility.D3D12_RASTERIZER_DESC_CULL_CLOCKWISE,
                    CullOptions.Back => D3D12Utility.D3D12_RASTERIZER_DESC_CULL_COUNTER_CLOCKWISE,
                    _ => D3D12Utility.D3D12_RASTERIZER_DESC_CULL_NONE
                },
            };

            if (compiled.tsResult.IsCreated)
            {
                desc.AS = new D3D12_SHADER_BYTECODE(compiled.tsResult.bytecode.GetUnsafePtr(), (nuint)compiled.tsResult.bytecode.Count);
            }

            for (var i = 0; i < rtvCount && i < D3D12_SIMULTANEOUS_RENDER_TARGET_COUNT; i++)
            {
                desc.RTVFormats[i] = descriptor.RtvFormats[i].ToDXGIFormat();
                desc.BlendState.RenderTarget[i].RenderTargetWriteMask = (byte)(descriptor.ColorMask & 0x0F);
            }

            var meshStream = new CD3DX12_PIPELINE_MESH_STATE_STREAM(in desc);
            var streamDesc = new D3D12_PIPELINE_STATE_STREAM_DESC
            {
                pPipelineStateSubobjectStream = &meshStream,
                SizeInBytes = (nuint)sizeof(CD3DX12_PIPELINE_MESH_STATE_STREAM)
            };

            ID3D12PipelineState* pPipelineState = default;

            var pKeyStr = stackalloc char[GraphicsPipelineKey.KEY_STRING_LENGTH];
            var keySpan = new Span<char>(pKeyStr, GraphicsPipelineKey.KEY_STRING_LENGTH);
            var kr = key.GetString(keySpan);
            if (kr.IsFailure)
            {
                return kr;
            }

            var hr = _library.Get()->LoadPipeline(pKeyStr, &streamDesc, __uuidof(pPipelineState), (void**)&pPipelineState);
            if (hr == E.E_INVALIDARG)
            {
                // Pipeline not found in the library, create a new one.
                ThrowIfFailed(_device.NativeDevice.Get()->CreatePipelineState(&streamDesc, __uuidof(pPipelineState), (void**)&pPipelineState));
                ThrowIfFailed(_library.Get()->StorePipeline(pKeyStr, pPipelineState));
            }
            else
            {
                ThrowIfFailed(hr);
            }

            D3D12PipelineState pso = default;
            pso.shaderPass = descriptor.PassId;
            pso.psoDesc = desc;
            pso.pso.Attach(pPipelineState);

            _pipelineCache[key] = pso;
        }

        return key;
    }

    public Result<SharedPtr<ID3D12PipelineState>, ResultStatus> GetGraphicsPSO(GraphicsPipelineKey key)
    {
        if (_pipelineCache.TryGetValue(key, out var cacheEntry))
        {
            return Result.Create(new SharedPtr<ID3D12PipelineState>(cacheEntry.pso.Get()), ResultStatus.Success);
        }

        return Result.Create(default(SharedPtr<ID3D12PipelineState>), ResultStatus.NotFound);
    }

    public void Dispose()
    {
        foreach (var kvp in _pipelineCache)
        {
            kvp.Value.Dispose();
        }

        _pipelineCache.Clear();

        _defaultRootSignature.Dispose();
        _library.Dispose();
    }
}