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Add render graph proof of concept and refactor graphics

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Implemented a transient render graph system as a proof of concept, including resource aliasing, pass culling, and typed pass data. Added new project `Ghost.RenderGraph.Concept` targeting `.NET 10.0`.

Refactored graphics-related components:
- Simplified resource state transitions in `RenderingContext`.
- Improved resize handling in `GraphicsTestWindow`.
- Updated `D3D12GraphicsEngine` to streamline frame rendering.
- Enhanced `D3D12ResourceDatabase` and `D3D12SwapChain` for better resource management.

Added detailed documentation:
- `ALIASING.md` explains resource aliasing techniques.
- `API_DESIGN.md` outlines the render graph API design.

Updated solution to include the new render graph project.
This commit is contained in:
Misaki
2025-12-01 22:31:17 +09:00
parent 85280c746d
commit 676f8bb74c
31 changed files with 2167 additions and 142 deletions
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Ghost.RenderGraph.Concept/Program.cs Normal file
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using Ghost.RenderGraph.Concept;
Console.WriteLine("==================================================");
Console.WriteLine(" Transient Render Graph - Proof of Concept");
Console.WriteLine(" Using Typed Pass Data and Blackboard Pattern");
Console.WriteLine("==================================================\n");
var renderGraph = new RenderGraph();
// Import external resources
var backbuffer = renderGraph.ImportTexture(
"Backbuffer",
new TextureDescriptor(1920, 1080, TextureFormat.RGBA8, "Backbuffer"));
// ===== GBuffer Pass =====
GBufferData gbufferData;
using (var builder = renderGraph.AddRenderPass<GBufferData>("GBuffer Pass", out gbufferData))
{
// Create GBuffer textures
var albedo = builder.CreateTexture(new TextureDescriptor(1920, 1080, TextureFormat.RGBA8, "GBuffer.Albedo"));
var normal = builder.CreateTexture(new TextureDescriptor(1920, 1080, TextureFormat.RGBA16F, "GBuffer.Normal"));
var depth = builder.CreateTexture(new TextureDescriptor(1920, 1080, TextureFormat.Depth32F, "GBuffer.Depth"));
// Store in pass data and mark as written
gbufferData.Albedo = builder.WriteTexture(albedo);
gbufferData.Normal = builder.WriteTexture(normal);
gbufferData.Depth = builder.UseDepthBuffer(depth, writeAccess: true);
builder.SetRenderFunc((data, cmd) =>
{
cmd.SetRenderTarget(data.Albedo.Name);
cmd.SetRenderTarget(data.Normal.Name);
cmd.SetDepthStencil(data.Depth.Name);
cmd.ClearRenderTarget(data.Albedo.Name, 0, 0, 0, 1);
cmd.ClearRenderTarget(data.Normal.Name, 0.5f, 0.5f, 1.0f, 1);
cmd.ClearDepth(data.Depth.Name, 1.0f);
cmd.Draw(36000);
});
}
// Store GBuffer data in blackboard for other passes
renderGraph.Blackboard.Add(gbufferData);
// ===== Lighting Pass =====
RenderGraphTextureHandle lightingOutput;
using (var builder = renderGraph.AddRenderPass<LightingPassData>("Lighting Pass", out var lightingData))
{
// Read GBuffer from blackboard
var gbuffer = renderGraph.Blackboard.Get<GBufferData>();
lightingData.GBufferAlbedo = builder.ReadTexture(gbuffer.Albedo);
lightingData.GBufferNormal = builder.ReadTexture(gbuffer.Normal);
lightingData.GBufferDepth = builder.ReadTexture(gbuffer.Depth);
// Create output texture
lightingOutput = builder.CreateTexture(
new TextureDescriptor(1920, 1080, TextureFormat.RGBA16F, "LightingResult"));
lightingData.OutputLighting = builder.WriteTexture(lightingOutput);
builder.SetRenderFunc((data, cmd) =>
{
cmd.BindShaderResource(data.GBufferAlbedo.Name, 0);
cmd.BindShaderResource(data.GBufferNormal.Name, 1);
cmd.BindShaderResource(data.GBufferDepth.Name, 2);
cmd.SetRenderTarget(data.OutputLighting.Name);
cmd.Draw(3);
});
}
// ===== SSAO Pass =====
RenderGraphTextureHandle ssaoOutput;
using (var builder = renderGraph.AddRenderPass<SSAOPassData>("SSAO Pass", out var ssaoData))
{
var gbuffer = renderGraph.Blackboard.Get<GBufferData>();
ssaoData.GBufferDepth = builder.ReadTexture(gbuffer.Depth);
ssaoData.GBufferNormal = builder.ReadTexture(gbuffer.Normal);
// This will reuse GBuffer.Albedo's memory allocation
ssaoOutput = builder.CreateTexture(
new TextureDescriptor(1920, 1080, TextureFormat.RGBA8, "SSAO"));
ssaoData.OutputSSAO = builder.WriteTexture(ssaoOutput);
builder.SetRenderFunc((data, cmd) =>
{
cmd.BindShaderResource(data.GBufferDepth.Name, 0);
cmd.BindShaderResource(data.GBufferNormal.Name, 1);
cmd.SetRenderTarget(data.OutputSSAO.Name);
cmd.Draw(3);
});
}
// ===== Bloom Downsample Pass (will alias with albedo) =====
RenderGraphTextureHandle bloomOutput;
using (var builder = renderGraph.AddRenderPass<BloomDownsampleData>("Bloom Downsample", out var bloomData))
{
bloomData.Input = builder.ReadTexture(lightingOutput);
// Create a texture that will alias with SSAO (same size, same format)
bloomOutput = builder.CreateTexture(
new TextureDescriptor(1920, 1080, TextureFormat.RGBA8, "BloomDownsample"));
bloomData.Output = builder.WriteTexture(bloomOutput);
builder.SetRenderFunc((data, cmd) =>
{
cmd.BindShaderResource(data.Input.Name, 0);
cmd.SetRenderTarget(data.Output.Name);
cmd.Draw(3);
});
}
// ===== Temporal AA Pass =====
RenderGraphTextureHandle taaOutput;
using (var builder = renderGraph.AddRenderPass<TAAPassData>("Temporal AA", out var taaData))
{
taaData.InputLighting = builder.ReadTexture(lightingOutput);
taaOutput = builder.CreateTexture(
new TextureDescriptor(1920, 1080, TextureFormat.RGBA16F, "TAA.Result"));
taaData.OutputTAA = builder.WriteTexture(taaOutput);
builder.SetRenderFunc((data, cmd) =>
{
cmd.BindShaderResource(data.InputLighting.Name, 0);
cmd.SetRenderTarget(data.OutputTAA.Name);
cmd.Draw(3);
});
}
// ===== Post Processing Pass =====
using (var builder = renderGraph.AddRenderPass<PostProcessingPassDataV2>("Post Processing", out var postData))
{
postData.InputTAA = builder.ReadTexture(taaOutput);
postData.InputSSAO = builder.ReadTexture(ssaoOutput);
postData.InputBloom = builder.ReadTexture(bloomOutput);
postData.OutputBackbuffer = builder.WriteTexture(backbuffer);
builder.SetRenderFunc((data, cmd) =>
{
cmd.BindShaderResource(data.InputTAA.Name, 0);
cmd.BindShaderResource(data.InputSSAO.Name, 1);
cmd.BindShaderResource(data.InputBloom.Name, 2);
cmd.SetRenderTarget(data.OutputBackbuffer.Name);
cmd.Draw(3);
});
}
// ===== GPU Profiler Marker Pass (non-cullable, textureless) =====
using (var builder = renderGraph.AddRenderPass<ProfilerMarkerData>("GPU Profiler Begin Frame", out var profilerData))
{
builder.SetAllowCulling(false); // Never cull this - it's for debugging/profiling
builder.SetRenderFunc((data, cmd) =>
{
Console.WriteLine(" [PROFILER] BeginEvent('Frame')");
});
}
// ===== Unused Debug Pass (will be culled) =====
using (var builder = renderGraph.AddRenderPass<DebugPassData>("Unused Debug Pass", out var debugData))
{
debugData.DebugTexture = builder.WriteTexture(
builder.CreateTexture(new TextureDescriptor(512, 512, TextureFormat.RGBA8, "DebugTexture")));
builder.SetRenderFunc((data, cmd) =>
{
cmd.SetRenderTarget(data.DebugTexture.Name);
cmd.ClearRenderTarget(data.DebugTexture.Name, 1, 0, 1, 1);
cmd.Draw(100);
});
}
// Compile and execute the render graph
renderGraph.Compile();
renderGraph.Execute();
Console.WriteLine("\nPress any key to exit...");
Console.ReadKey();