using Ryujinx.Graphics.Shader.Decoders; using Ryujinx.Graphics.Shader.IntermediateRepresentation; using System.Collections.Generic; using System.Diagnostics; using System.Numerics; using System.Runtime.CompilerServices; using static Ryujinx.Graphics.Shader.IntermediateRepresentation.OperandHelper; namespace Ryujinx.Graphics.Shader.Translation { class EmitterContext { public DecodedProgram Program { get; } public ShaderConfig Config { get; } public bool IsNonMain { get; } public Block CurrBlock { get; set; } public InstOp CurrOp { get; set; } public int OperationsCount => _operations.Count; private readonly struct BrxTarget { public readonly Operand Selector; public readonly int ExpectedValue; public readonly ulong NextTargetAddress; public BrxTarget(Operand selector, int expectedValue, ulong nextTargetAddress) { Selector = selector; ExpectedValue = expectedValue; NextTargetAddress = nextTargetAddress; } } private class BlockLabel { public readonly Operand Label; public BrxTarget BrxTarget; public BlockLabel(Operand label) { Label = label; } } private readonly List _operations; private readonly Dictionary _labels; public EmitterContext(DecodedProgram program, ShaderConfig config, bool isNonMain) { Program = program; Config = config; IsNonMain = isNonMain; _operations = new List(); _labels = new Dictionary(); EmitStart(); } private void EmitStart() { if (Config.Stage == ShaderStage.Vertex && Config.Options.TargetApi == TargetApi.Vulkan && (Config.Options.Flags & TranslationFlags.VertexA) == 0) { // Vulkan requires the point size to be always written on the shader if the primitive topology is points. this.Store(StorageKind.Output, IoVariable.PointSize, null, ConstF(Config.GpuAccessor.QueryPointSize())); } } public T GetOp() where T : unmanaged { Debug.Assert(Unsafe.SizeOf() == sizeof(ulong)); ulong op = CurrOp.RawOpCode; return Unsafe.As(ref op); } public Operand Add(Instruction inst, Operand dest = null, params Operand[] sources) { Operation operation = new Operation(inst, dest, sources); _operations.Add(operation); return dest; } public Operand Add(Instruction inst, StorageKind storageKind, Operand dest = null, params Operand[] sources) { Operation operation = new Operation(inst, storageKind, dest, sources); _operations.Add(operation); return dest; } public (Operand, Operand) Add(Instruction inst, (Operand, Operand) dest, params Operand[] sources) { Operand[] dests = new[] { dest.Item1, dest.Item2 }; Operation operation = new Operation(inst, 0, dests, sources); Add(operation); return dest; } public void Add(Operation operation) { _operations.Add(operation); } public TextureOperation CreateTextureOperation( Instruction inst, SamplerType type, TextureFlags flags, int handle, int compIndex, Operand[] dests, params Operand[] sources) { return CreateTextureOperation(inst, type, TextureFormat.Unknown, flags, handle, compIndex, dests, sources); } public TextureOperation CreateTextureOperation( Instruction inst, SamplerType type, TextureFormat format, TextureFlags flags, int handle, int compIndex, Operand[] dests, params Operand[] sources) { if (!flags.HasFlag(TextureFlags.Bindless)) { Config.SetUsedTexture(inst, type, format, flags, TextureOperation.DefaultCbufSlot, handle); } return new TextureOperation(inst, type, format, flags, handle, compIndex, dests, sources); } public void FlagAttributeRead(int attribute) { if (Config.Stage == ShaderStage.Vertex && attribute == AttributeConsts.InstanceId) { Config.SetUsedFeature(FeatureFlags.InstanceId); } else if (Config.Stage == ShaderStage.Fragment) { switch (attribute) { case AttributeConsts.PositionX: case AttributeConsts.PositionY: Config.SetUsedFeature(FeatureFlags.FragCoordXY); break; } } } public void FlagAttributeWritten(int attribute) { if (Config.Stage == ShaderStage.Vertex) { switch (attribute) { case AttributeConsts.ClipDistance0: case AttributeConsts.ClipDistance1: case AttributeConsts.ClipDistance2: case AttributeConsts.ClipDistance3: case AttributeConsts.ClipDistance4: case AttributeConsts.ClipDistance5: case AttributeConsts.ClipDistance6: case AttributeConsts.ClipDistance7: Config.SetClipDistanceWritten((attribute - AttributeConsts.ClipDistance0) / 4); break; } } if (Config.Stage != ShaderStage.Fragment && attribute == AttributeConsts.Layer) { Config.SetUsedFeature(FeatureFlags.RtLayer); } } public void MarkLabel(Operand label) { Add(Instruction.MarkLabel, label); } public Operand GetLabel(ulong address) { return EnsureBlockLabel(address).Label; } public void SetBrxTarget(ulong address, Operand selector, int targetValue, ulong nextTargetAddress) { BlockLabel blockLabel = EnsureBlockLabel(address); Debug.Assert(blockLabel.BrxTarget.Selector == null); blockLabel.BrxTarget = new BrxTarget(selector, targetValue, nextTargetAddress); } public void EnterBlock(ulong address) { BlockLabel blockLabel = EnsureBlockLabel(address); MarkLabel(blockLabel.Label); BrxTarget brxTarget = blockLabel.BrxTarget; if (brxTarget.Selector != null) { this.BranchIfFalse(GetLabel(brxTarget.NextTargetAddress), this.ICompareEqual(brxTarget.Selector, Const(brxTarget.ExpectedValue))); } } private BlockLabel EnsureBlockLabel(ulong address) { if (!_labels.TryGetValue(address, out BlockLabel blockLabel)) { blockLabel = new BlockLabel(Label()); _labels.Add(address, blockLabel); } return blockLabel; } public void PrepareForVertexReturn() { if (Config.GpuAccessor.QueryViewportTransformDisable()) { Operand x = this.Load(StorageKind.Output, IoVariable.Position, null, Const(0)); Operand y = this.Load(StorageKind.Output, IoVariable.Position, null, Const(1)); Operand xScale = this.Load(StorageKind.ConstantBuffer, SupportBuffer.Binding, Const((int)SupportBufferField.ViewportInverse), Const(0)); Operand yScale = this.Load(StorageKind.ConstantBuffer, SupportBuffer.Binding, Const((int)SupportBufferField.ViewportInverse), Const(1)); Operand negativeOne = ConstF(-1.0f); this.Store(StorageKind.Output, IoVariable.Position, null, Const(0), this.FPFusedMultiplyAdd(x, xScale, negativeOne)); this.Store(StorageKind.Output, IoVariable.Position, null, Const(1), this.FPFusedMultiplyAdd(y, yScale, negativeOne)); } if (Config.Options.TargetApi == TargetApi.Vulkan && Config.GpuAccessor.QueryTransformDepthMinusOneToOne()) { Operand z = this.Load(StorageKind.Output, IoVariable.Position, null, Const(2)); Operand w = this.Load(StorageKind.Output, IoVariable.Position, null, Const(3)); Operand halfW = this.FPMultiply(w, ConstF(0.5f)); this.Store(StorageKind.Output, IoVariable.Position, null, Const(2), this.FPFusedMultiplyAdd(z, ConstF(0.5f), halfW)); } if (Config.Stage != ShaderStage.Geometry && Config.HasLayerInputAttribute) { Config.SetUsedFeature(FeatureFlags.RtLayer); int attrVecIndex = Config.GpLayerInputAttribute >> 2; int attrComponentIndex = Config.GpLayerInputAttribute & 3; Operand layer = this.Load(StorageKind.Output, IoVariable.UserDefined, null, Const(attrVecIndex), Const(attrComponentIndex)); this.Store(StorageKind.Output, IoVariable.Layer, null, layer); } } public void PrepareForVertexReturn(out Operand oldXLocal, out Operand oldYLocal, out Operand oldZLocal) { if (Config.GpuAccessor.QueryViewportTransformDisable()) { oldXLocal = Local(); this.Copy(oldXLocal, this.Load(StorageKind.Output, IoVariable.Position, null, Const(0))); oldYLocal = Local(); this.Copy(oldYLocal, this.Load(StorageKind.Output, IoVariable.Position, null, Const(1))); } else { oldXLocal = null; oldYLocal = null; } if (Config.Options.TargetApi == TargetApi.Vulkan && Config.GpuAccessor.QueryTransformDepthMinusOneToOne()) { oldZLocal = Local(); this.Copy(oldZLocal, this.Load(StorageKind.Output, IoVariable.Position, null, Const(2))); } else { oldZLocal = null; } PrepareForVertexReturn(); } public void PrepareForReturn() { if (IsNonMain) { return; } if (Config.LastInVertexPipeline && (Config.Stage == ShaderStage.Vertex || Config.Stage == ShaderStage.TessellationEvaluation) && (Config.Options.Flags & TranslationFlags.VertexA) == 0) { PrepareForVertexReturn(); } else if (Config.Stage == ShaderStage.Geometry) { void WritePositionOutput(int primIndex) { Operand x = this.Load(StorageKind.Input, IoVariable.Position, Const(primIndex), Const(0)); Operand y = this.Load(StorageKind.Input, IoVariable.Position, Const(primIndex), Const(1)); Operand z = this.Load(StorageKind.Input, IoVariable.Position, Const(primIndex), Const(2)); Operand w = this.Load(StorageKind.Input, IoVariable.Position, Const(primIndex), Const(3)); this.Store(StorageKind.Output, IoVariable.Position, null, Const(0), x); this.Store(StorageKind.Output, IoVariable.Position, null, Const(1), y); this.Store(StorageKind.Output, IoVariable.Position, null, Const(2), z); this.Store(StorageKind.Output, IoVariable.Position, null, Const(3), w); } void WriteUserDefinedOutput(int index, int primIndex) { Operand x = this.Load(StorageKind.Input, IoVariable.UserDefined, Const(index), Const(primIndex), Const(0)); Operand y = this.Load(StorageKind.Input, IoVariable.UserDefined, Const(index), Const(primIndex), Const(1)); Operand z = this.Load(StorageKind.Input, IoVariable.UserDefined, Const(index), Const(primIndex), Const(2)); Operand w = this.Load(StorageKind.Input, IoVariable.UserDefined, Const(index), Const(primIndex), Const(3)); this.Store(StorageKind.Output, IoVariable.UserDefined, null, Const(index), Const(0), x); this.Store(StorageKind.Output, IoVariable.UserDefined, null, Const(index), Const(1), y); this.Store(StorageKind.Output, IoVariable.UserDefined, null, Const(index), Const(2), z); this.Store(StorageKind.Output, IoVariable.UserDefined, null, Const(index), Const(3), w); } if (Config.GpPassthrough && !Config.GpuAccessor.QueryHostSupportsGeometryShaderPassthrough()) { int inputVertices = Config.GpuAccessor.QueryPrimitiveTopology().ToInputVertices(); for (int primIndex = 0; primIndex < inputVertices; primIndex++) { WritePositionOutput(primIndex); int passthroughAttributes = Config.PassthroughAttributes; while (passthroughAttributes != 0) { int index = BitOperations.TrailingZeroCount(passthroughAttributes); WriteUserDefinedOutput(index, primIndex); Config.SetOutputUserAttribute(index); passthroughAttributes &= ~(1 << index); } this.EmitVertex(); } this.EndPrimitive(); } } else if (Config.Stage == ShaderStage.Fragment) { GenerateAlphaToCoverageDitherDiscard(); bool supportsBgra = Config.GpuAccessor.QueryHostSupportsBgraFormat(); if (Config.OmapDepth) { Operand src = Register(Config.GetDepthRegister(), RegisterType.Gpr); this.Store(StorageKind.Output, IoVariable.FragmentOutputDepth, null, src); } AlphaTestOp alphaTestOp = Config.GpuAccessor.QueryAlphaTestCompare(); if (alphaTestOp != AlphaTestOp.Always && (Config.OmapTargets & 8) != 0) { if (alphaTestOp == AlphaTestOp.Never) { this.Discard(); } else { Instruction comparator = alphaTestOp switch { AlphaTestOp.Equal => Instruction.CompareEqual, AlphaTestOp.Greater => Instruction.CompareGreater, AlphaTestOp.GreaterOrEqual => Instruction.CompareGreaterOrEqual, AlphaTestOp.Less => Instruction.CompareLess, AlphaTestOp.LessOrEqual => Instruction.CompareLessOrEqual, AlphaTestOp.NotEqual => Instruction.CompareNotEqual, _ => 0 }; Debug.Assert(comparator != 0, $"Invalid alpha test operation \"{alphaTestOp}\"."); Operand alpha = Register(3, RegisterType.Gpr); Operand alphaRef = ConstF(Config.GpuAccessor.QueryAlphaTestReference()); Operand alphaPass = Add(Instruction.FP32 | comparator, Local(), alpha, alphaRef); Operand alphaPassLabel = Label(); this.BranchIfTrue(alphaPassLabel, alphaPass); this.Discard(); this.MarkLabel(alphaPassLabel); } } int regIndexBase = 0; for (int rtIndex = 0; rtIndex < 8; rtIndex++) { for (int component = 0; component < 4; component++) { bool componentEnabled = (Config.OmapTargets & (1 << (rtIndex * 4 + component))) != 0; if (!componentEnabled) { continue; } Operand src = Register(regIndexBase + component, RegisterType.Gpr); // Perform B <-> R swap if needed, for BGRA formats (not supported on OpenGL). if (!supportsBgra && (component == 0 || component == 2)) { Operand isBgra = this.Load(StorageKind.ConstantBuffer, SupportBuffer.Binding, Const((int)SupportBufferField.FragmentIsBgra), Const(rtIndex)); Operand lblIsBgra = Label(); Operand lblEnd = Label(); this.BranchIfTrue(lblIsBgra, isBgra); this.Store(StorageKind.Output, IoVariable.FragmentOutputColor, null, Const(rtIndex), Const(component), src); this.Branch(lblEnd); MarkLabel(lblIsBgra); this.Store(StorageKind.Output, IoVariable.FragmentOutputColor, null, Const(rtIndex), Const(2 - component), src); MarkLabel(lblEnd); } else { this.Store(StorageKind.Output, IoVariable.FragmentOutputColor, null, Const(rtIndex), Const(component), src); } } bool targetEnabled = (Config.OmapTargets & (0xf << (rtIndex * 4))) != 0; if (targetEnabled) { Config.SetOutputUserAttribute(rtIndex); regIndexBase += 4; } } } } private void GenerateAlphaToCoverageDitherDiscard() { // If the feature is disabled, or alpha is not written, then we're done. if (!Config.GpuAccessor.QueryAlphaToCoverageDitherEnable() || (Config.OmapTargets & 8) == 0) { return; } // 11 11 11 10 10 10 10 00 // 11 01 01 01 01 00 00 00 Operand ditherMask = Const(unchecked((int)0xfbb99110u)); Operand fragCoordX = this.Load(StorageKind.Input, IoVariable.FragmentCoord, null, Const(0)); Operand fragCoordY = this.Load(StorageKind.Input, IoVariable.FragmentCoord, null, Const(1)); Operand x = this.BitwiseAnd(this.FP32ConvertToU32(fragCoordX), Const(1)); Operand y = this.BitwiseAnd(this.FP32ConvertToU32(fragCoordY), Const(1)); Operand xy = this.BitwiseOr(x, this.ShiftLeft(y, Const(1))); Operand alpha = Register(3, RegisterType.Gpr); Operand scaledAlpha = this.FPMultiply(this.FPSaturate(alpha), ConstF(8)); Operand quantizedAlpha = this.IMinimumU32(this.FP32ConvertToU32(scaledAlpha), Const(7)); Operand shift = this.BitwiseOr(this.ShiftLeft(quantizedAlpha, Const(2)), xy); Operand opaque = this.BitwiseAnd(this.ShiftRightU32(ditherMask, shift), Const(1)); Operand a2cDitherEndLabel = Label(); this.BranchIfTrue(a2cDitherEndLabel, opaque); this.Discard(); this.MarkLabel(a2cDitherEndLabel); } public Operation[] GetOperations() { return _operations.ToArray(); } } }