forked from Misaki/GhostEngine
Misaki
a89719bfc9
- Replace old pipeline enums/structs with new strongly-typed PipelineState and enums (ZTest, ZWrite, Cull, Blend, ColorWriteMask) - Redesign pipeline keying: introduce 128-bit GraphicsPipelineKey, MaterialPipelineKey, and PassPipelineKey for robust PSO caching - Replace IRenderTargetStrategy with IRenderOutput; add SwapChainRenderOutput and TextureRenderOutput - Update renderer and window code to use new render output abstraction and handle viewport/scissor updates - Make ShaderPass a readonly struct and Shader a struct; use ID-based pass lookup for efficiency - Materials now support per-pass pipeline overrides with new keying - Add defensive checks in D3D12CommandBuffer; update D3D12PipelineLibrary for new keying/state - Move test shader to test.gsdef and update for new pipeline state syntax - Remove obsolete files/interfaces and perform general code cleanups - Update all usages and parsing logic for new pipeline state system
144 lines
5.1 KiB
C#
144 lines
5.1 KiB
C#
using Ghost.Core.Graphics;
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namespace Ghost.SDL.Compiler.Parser;
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internal class PipelineBlock : IBlockParser<PipelineSyntax, PipelineSemantic>
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{
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public static bool ShouldEnter(Token token)
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{
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return token.Match(TokenType.Keyword, TokenLexicon.KnownKeywords.PIPELINE);
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}
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public static PipelineSyntax Parse(TokenStreamSlice stream)
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{
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stream.Expect(TokenType.Keyword);
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stream.Expect(TokenType.LBrace);
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var pipeline = new PipelineSyntax();
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var bodyStream = stream.Slice(stream.Remaining - 1);
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while (bodyStream.HasMore)
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{
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var stateToken = bodyStream.Expect(TokenType.Identifier);
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bodyStream.Expect(TokenType.Equals);
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var valueToken = bodyStream.Expect(TokenType.Identifier | TokenType.Number);
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pipeline.values ??= new();
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pipeline.values.Add(new ValueDeclaration
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{
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name = stateToken,
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value = valueToken
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});
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bodyStream.Expect(TokenType.Semicolon);
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}
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stream.Expect(TokenType.RBrace);
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return pipeline;
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}
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public static PipelineSemantic? SemanticAnalysis(PipelineSyntax? syntax, List<SDLError> errors)
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{
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if (syntax == null)
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{
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return null;
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}
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var semantic = new PipelineSemantic();
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if (syntax.values != null)
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{
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foreach (var valueDecl in syntax.values)
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{
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switch (valueDecl.name.lexeme)
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{
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case TokenLexicon.KnownPipelineProperties.ZTEST:
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if (Enum.TryParse<ZTest>(valueDecl.value.lexeme, true, out var zTest))
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{
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semantic.zTest = zTest;
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}
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else
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{
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errors.Add(new SDLError
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{
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message = $"Invalid ZTest option: {valueDecl.value.lexeme}",
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line = valueDecl.value.line,
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column = valueDecl.value.column
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});
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}
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break;
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case TokenLexicon.KnownPipelineProperties.ZWRITE:
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if (Enum.TryParse<ZWrite>(valueDecl.value.lexeme, true, out var zWrite))
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{
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semantic.zWrite = zWrite;
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}
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else
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{
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errors.Add(new SDLError
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{
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message = $"Invalid ZWrite option: {valueDecl.value.lexeme}",
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line = valueDecl.value.line,
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column = valueDecl.value.column
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});
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}
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break;
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case TokenLexicon.KnownPipelineProperties.CULL:
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if (Enum.TryParse<Cull>(valueDecl.value.lexeme, true, out var cull))
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{
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semantic.cull = cull;
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}
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else
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{
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errors.Add(new SDLError
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{
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message = $"Invalid Cull option: {valueDecl.value.lexeme}",
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line = valueDecl.value.line,
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column = valueDecl.value.column
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});
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}
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break;
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case TokenLexicon.KnownPipelineProperties.BLEND:
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if (Enum.TryParse<Blend>(valueDecl.value.lexeme, true, out var blend))
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{
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semantic.blend = blend;
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}
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else
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{
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errors.Add(new SDLError
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{
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message = $"Invalid Blend option: {valueDecl.value.lexeme}",
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line = valueDecl.value.line,
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column = valueDecl.value.column
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});
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}
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break;
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case TokenLexicon.KnownPipelineProperties.COLORMASK:
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if (Enum.TryParse<ColorWriteMask>(valueDecl.value.lexeme, true, out var colorMask))
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{
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semantic.colorMask = colorMask;
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}
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else
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{
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errors.Add(new SDLError
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{
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message = $"Invalid Color Mask value: {valueDecl.value.lexeme}",
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line = valueDecl.value.line,
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column = valueDecl.value.column
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});
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}
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break;
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default:
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break;
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}
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}
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}
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return semantic;
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}
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}
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