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path: root/src/Ryujinx.Graphics.Shader/Translation/Transforms/TexturePass.cs
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using Ryujinx.Graphics.Shader.IntermediateRepresentation;
using System.Collections.Generic;
using System.Linq;
using static Ryujinx.Graphics.Shader.IntermediateRepresentation.OperandHelper;

namespace Ryujinx.Graphics.Shader.Translation.Transforms
{
    class TexturePass : ITransformPass
    {
        public static bool IsEnabled(IGpuAccessor gpuAccessor, ShaderStage stage, TargetLanguage targetLanguage, FeatureFlags usedFeatures)
        {
            return true;
        }

        public static LinkedListNode<INode> RunPass(TransformContext context, LinkedListNode<INode> node)
        {
            if (node.Value is TextureOperation texOp)
            {
                node = InsertTexelFetchScale(context.Hfm, node, context.ResourceManager, context.Stage);
                node = InsertTextureSizeUnscale(context.Hfm, node, context.ResourceManager, context.Stage);

                if (texOp.Inst == Instruction.TextureSample)
                {
                    node = InsertCoordNormalization(context.Hfm, node, context.ResourceManager, context.GpuAccessor, context.Stage);
                    node = InsertCoordGatherBias(node, context.ResourceManager, context.GpuAccessor);
                    node = InsertConstOffsets(node, context.GpuAccessor, context.Stage);

                    if (texOp.Type == SamplerType.TextureBuffer && !context.GpuAccessor.QueryHostSupportsSnormBufferTextureFormat())
                    {
                        node = InsertSnormNormalization(node, context.ResourceManager, context.GpuAccessor);
                    }
                }
            }

            return node;
        }

        private static LinkedListNode<INode> InsertTexelFetchScale(
            HelperFunctionManager hfm,
            LinkedListNode<INode> node,
            ResourceManager resourceManager,
            ShaderStage stage)
        {
            TextureOperation texOp = (TextureOperation)node.Value;

            bool isBindless = (texOp.Flags & TextureFlags.Bindless) != 0;
            bool intCoords = (texOp.Flags & TextureFlags.IntCoords) != 0;
            bool isIndexed = (texOp.Type & SamplerType.Indexed) != 0;

            int coordsCount = texOp.Type.GetDimensions();

            int coordsIndex = isBindless || isIndexed ? 1 : 0;

            bool isImage = IsImageInstructionWithScale(texOp.Inst);

            if ((texOp.Inst == Instruction.TextureSample || isImage) &&
                (intCoords || isImage) &&
                !isBindless &&
                !isIndexed &&
                stage.SupportsRenderScale() &&
                TypeSupportsScale(texOp.Type))
            {
                int functionId = hfm.GetOrCreateFunctionId(HelperFunctionName.TexelFetchScale);
                int samplerIndex = isImage
                    ? resourceManager.GetTextureDescriptors().Length + resourceManager.FindImageDescriptorIndex(texOp.Binding)
                    : resourceManager.FindTextureDescriptorIndex(texOp.Binding);

                for (int index = 0; index < coordsCount; index++)
                {
                    Operand scaledCoord = Local();
                    Operand[] callArgs;

                    if (stage == ShaderStage.Fragment)
                    {
                        callArgs = new Operand[] { Const(functionId), texOp.GetSource(coordsIndex + index), Const(samplerIndex), Const(index) };
                    }
                    else
                    {
                        callArgs = new Operand[] { Const(functionId), texOp.GetSource(coordsIndex + index), Const(samplerIndex) };
                    }

                    node.List.AddBefore(node, new Operation(Instruction.Call, 0, scaledCoord, callArgs));

                    texOp.SetSource(coordsIndex + index, scaledCoord);
                }
            }

            return node;
        }

        private static LinkedListNode<INode> InsertTextureSizeUnscale(
            HelperFunctionManager hfm,
            LinkedListNode<INode> node,
            ResourceManager resourceManager,
            ShaderStage stage)
        {
            TextureOperation texOp = (TextureOperation)node.Value;

            bool isBindless = (texOp.Flags & TextureFlags.Bindless) != 0;
            bool isIndexed = (texOp.Type & SamplerType.Indexed) != 0;

            if (texOp.Inst == Instruction.TextureQuerySize &&
                texOp.Index < 2 &&
                !isBindless &&
                !isIndexed &&
                stage.SupportsRenderScale() &&
                TypeSupportsScale(texOp.Type))
            {
                int functionId = hfm.GetOrCreateFunctionId(HelperFunctionName.TextureSizeUnscale);
                int samplerIndex = resourceManager.FindTextureDescriptorIndex(texOp.Binding);

                for (int index = texOp.DestsCount - 1; index >= 0; index--)
                {
                    Operand dest = texOp.GetDest(index);

                    Operand unscaledSize = Local();

                    // Replace all uses with the unscaled size value.
                    // This must be done before the call is added, since it also is a use of the original size.
                    foreach (INode useOp in dest.UseOps)
                    {
                        for (int srcIndex = 0; srcIndex < useOp.SourcesCount; srcIndex++)
                        {
                            if (useOp.GetSource(srcIndex) == dest)
                            {
                                useOp.SetSource(srcIndex, unscaledSize);
                            }
                        }
                    }

                    Operand[] callArgs = new Operand[] { Const(functionId), dest, Const(samplerIndex) };

                    node.List.AddAfter(node, new Operation(Instruction.Call, 0, unscaledSize, callArgs));
                }
            }

            return node;
        }

        private static LinkedListNode<INode> InsertCoordNormalization(
            HelperFunctionManager hfm,
            LinkedListNode<INode> node,
            ResourceManager resourceManager,
            IGpuAccessor gpuAccessor,
            ShaderStage stage)
        {
            // Emulate non-normalized coordinates by normalizing the coordinates on the shader.
            // Without normalization, the coordinates are expected to the in the [0, W or H] range,
            // and otherwise, it is expected to be in the [0, 1] range.
            // We normalize by dividing the coords by the texture size.

            TextureOperation texOp = (TextureOperation)node.Value;

            bool isBindless = (texOp.Flags & TextureFlags.Bindless) != 0;

            if (isBindless || !resourceManager.TryGetCbufSlotAndHandleForTexture(texOp.Binding, out int cbufSlot, out int handle))
            {
                return node;
            }

            bool intCoords = (texOp.Flags & TextureFlags.IntCoords) != 0;

            bool isCoordNormalized = gpuAccessor.QueryTextureCoordNormalized(handle, cbufSlot);

            if (isCoordNormalized || intCoords)
            {
                return node;
            }

            bool isIndexed = (texOp.Type & SamplerType.Indexed) != 0;

            int coordsCount = texOp.Type.GetDimensions();
            int coordsIndex = isBindless || isIndexed ? 1 : 0;

            int normCoordsCount = (texOp.Type & SamplerType.Mask) == SamplerType.TextureCube ? 2 : coordsCount;

            for (int index = 0; index < normCoordsCount; index++)
            {
                Operand coordSize = Local();

                Operand[] texSizeSources;

                if (isBindless || isIndexed)
                {
                    texSizeSources = new Operand[] { texOp.GetSource(0), Const(0) };
                }
                else
                {
                    texSizeSources = new Operand[] { Const(0) };
                }

                LinkedListNode<INode> textureSizeNode = node.List.AddBefore(node, new TextureOperation(
                    Instruction.TextureQuerySize,
                    texOp.Type,
                    texOp.Format,
                    texOp.Flags,
                    texOp.Binding,
                    index,
                    new[] { coordSize },
                    texSizeSources));

                resourceManager.SetUsageFlagsForTextureQuery(texOp.Binding, texOp.Type);

                Operand source = texOp.GetSource(coordsIndex + index);

                Operand coordNormalized = Local();

                node.List.AddBefore(node, new Operation(Instruction.FP32 | Instruction.Divide, coordNormalized, source, GenerateI2f(node, coordSize)));

                texOp.SetSource(coordsIndex + index, coordNormalized);

                InsertTextureSizeUnscale(hfm, textureSizeNode, resourceManager, stage);
            }

            return node;
        }

        private static LinkedListNode<INode> InsertCoordGatherBias(LinkedListNode<INode> node, ResourceManager resourceManager, IGpuAccessor gpuAccessor)
        {
            // The gather behavior when the coordinate sits right in the middle of two texels is not well defined.
            // To ensure the correct texel is sampled, we add a small bias value to the coordinate.
            // This value is calculated as the minimum value required to change the texel it will sample from,
            // and is 0 if the host does not require the bias.

            TextureOperation texOp = (TextureOperation)node.Value;

            bool isBindless = (texOp.Flags & TextureFlags.Bindless) != 0;
            bool isGather = (texOp.Flags & TextureFlags.Gather) != 0;

            int gatherBiasPrecision = gpuAccessor.QueryHostGatherBiasPrecision();

            if (!isGather || gatherBiasPrecision == 0)
            {
                return node;
            }

            bool isIndexed = (texOp.Type & SamplerType.Indexed) != 0;

            int coordsCount = texOp.Type.GetDimensions();
            int coordsIndex = isBindless || isIndexed ? 1 : 0;

            int normCoordsCount = (texOp.Type & SamplerType.Mask) == SamplerType.TextureCube ? 2 : coordsCount;

            for (int index = 0; index < normCoordsCount; index++)
            {
                Operand coordSize = Local();
                Operand scaledSize = Local();
                Operand bias = Local();

                Operand[] texSizeSources;

                if (isBindless || isIndexed)
                {
                    texSizeSources = new Operand[] { texOp.GetSource(0), Const(0) };
                }
                else
                {
                    texSizeSources = new Operand[] { Const(0) };
                }

                node.List.AddBefore(node, new TextureOperation(
                    Instruction.TextureQuerySize,
                    texOp.Type,
                    texOp.Format,
                    texOp.Flags,
                    texOp.Binding,
                    index,
                    new[] { coordSize },
                    texSizeSources));

                node.List.AddBefore(node, new Operation(
                    Instruction.FP32 | Instruction.Multiply,
                    scaledSize,
                    GenerateI2f(node, coordSize),
                    ConstF((float)(1 << (gatherBiasPrecision + 1)))));
                node.List.AddBefore(node, new Operation(Instruction.FP32 | Instruction.Divide, bias, ConstF(1f), scaledSize));

                Operand source = texOp.GetSource(coordsIndex + index);

                Operand coordBiased = Local();

                node.List.AddBefore(node, new Operation(Instruction.FP32 | Instruction.Add, coordBiased, source, bias));

                texOp.SetSource(coordsIndex + index, coordBiased);
            }

            return node;
        }

        private static LinkedListNode<INode> InsertConstOffsets(LinkedListNode<INode> node, IGpuAccessor gpuAccessor, ShaderStage stage)
        {
            // Non-constant texture offsets are not allowed (according to the spec),
            // however some GPUs does support that.
            // For GPUs where it is not supported, we can replace the instruction with the following:
            // For texture*Offset, we replace it by texture*, and add the offset to the P coords.
            // The offset can be calculated as offset / textureSize(lod), where lod = textureQueryLod(coords).
            // For texelFetchOffset, we replace it by texelFetch and add the offset to the P coords directly.
            // For textureGatherOffset, we split the operation into up to 4 operations, one for each component
            // that is accessed, where each textureGather operation has a different offset for each pixel.

            TextureOperation texOp = (TextureOperation)node.Value;

            bool hasOffset = (texOp.Flags & TextureFlags.Offset) != 0;
            bool hasOffsets = (texOp.Flags & TextureFlags.Offsets) != 0;

            bool needsOffsetsEmulation = hasOffsets && !gpuAccessor.QueryHostSupportsTextureGatherOffsets();

            bool hasInvalidOffset = needsOffsetsEmulation || ((hasOffset || hasOffsets) && !gpuAccessor.QueryHostSupportsNonConstantTextureOffset());

            bool isBindless = (texOp.Flags & TextureFlags.Bindless) != 0;

            if (!hasInvalidOffset)
            {
                return node;
            }

            bool isGather = (texOp.Flags & TextureFlags.Gather) != 0;
            bool hasDerivatives = (texOp.Flags & TextureFlags.Derivatives) != 0;
            bool intCoords = (texOp.Flags & TextureFlags.IntCoords) != 0;
            bool hasLodBias = (texOp.Flags & TextureFlags.LodBias) != 0;
            bool hasLodLevel = (texOp.Flags & TextureFlags.LodLevel) != 0;

            bool isArray = (texOp.Type & SamplerType.Array) != 0;
            bool isIndexed = (texOp.Type & SamplerType.Indexed) != 0;
            bool isMultisample = (texOp.Type & SamplerType.Multisample) != 0;
            bool isShadow = (texOp.Type & SamplerType.Shadow) != 0;

            int coordsCount = texOp.Type.GetDimensions();

            int offsetsCount;

            if (hasOffsets)
            {
                offsetsCount = coordsCount * 4;
            }
            else if (hasOffset)
            {
                offsetsCount = coordsCount;
            }
            else
            {
                offsetsCount = 0;
            }

            Operand[] offsets = new Operand[offsetsCount];
            Operand[] sources = new Operand[texOp.SourcesCount - offsetsCount];

            int copyCount = 0;

            if (isBindless || isIndexed)
            {
                copyCount++;
            }

            Operand[] lodSources = new Operand[copyCount + coordsCount];

            for (int index = 0; index < lodSources.Length; index++)
            {
                lodSources[index] = texOp.GetSource(index);
            }

            copyCount += coordsCount;

            if (isArray)
            {
                copyCount++;
            }

            if (isShadow)
            {
                copyCount++;
            }

            if (hasDerivatives)
            {
                copyCount += coordsCount * 2;
            }

            if (isMultisample)
            {
                copyCount++;
            }
            else if (hasLodLevel)
            {
                copyCount++;
            }

            int srcIndex = 0;
            int dstIndex = 0;

            for (int index = 0; index < copyCount; index++)
            {
                sources[dstIndex++] = texOp.GetSource(srcIndex++);
            }

            bool areAllOffsetsConstant = true;

            for (int index = 0; index < offsetsCount; index++)
            {
                Operand offset = texOp.GetSource(srcIndex++);

                areAllOffsetsConstant &= offset.Type == OperandType.Constant;

                offsets[index] = offset;
            }

            if (!needsOffsetsEmulation)
            {
                hasInvalidOffset &= !areAllOffsetsConstant;

                if (!hasInvalidOffset)
                {
                    return node;
                }
            }

            if (hasLodBias)
            {
                sources[dstIndex++] = texOp.GetSource(srcIndex++);
            }

            if (isGather && !isShadow)
            {
                sources[dstIndex++] = texOp.GetSource(srcIndex++);
            }

            int coordsIndex = isBindless || isIndexed ? 1 : 0;

            int componentIndex = texOp.Index;

            Operand[] dests = new Operand[texOp.DestsCount];

            for (int i = 0; i < texOp.DestsCount; i++)
            {
                dests[i] = texOp.GetDest(i);
            }

            Operand bindlessHandle = isBindless || isIndexed ? sources[0] : null;

            LinkedListNode<INode> oldNode = node;

            if (isGather && !isShadow && hasOffsets)
            {
                Operand[] newSources = new Operand[sources.Length];

                sources.CopyTo(newSources, 0);

                Operand[] texSizes = InsertTextureBaseSize(node, texOp, bindlessHandle, coordsCount);

                int destIndex = 0;

                for (int compIndex = 0; compIndex < 4; compIndex++)
                {
                    if (((texOp.Index >> compIndex) & 1) == 0)
                    {
                        continue;
                    }

                    for (int index = 0; index < coordsCount; index++)
                    {
                        Operand offset = Local();

                        Operand intOffset = offsets[index + compIndex * coordsCount];

                        node.List.AddBefore(node, new Operation(
                            Instruction.FP32 | Instruction.Divide,
                            offset,
                            GenerateI2f(node, intOffset),
                            GenerateI2f(node, texSizes[index])));

                        Operand source = sources[coordsIndex + index];

                        Operand coordPlusOffset = Local();

                        node.List.AddBefore(node, new Operation(Instruction.FP32 | Instruction.Add, coordPlusOffset, source, offset));

                        newSources[coordsIndex + index] = coordPlusOffset;
                    }

                    TextureOperation newTexOp = new(
                        Instruction.TextureSample,
                        texOp.Type,
                        texOp.Format,
                        texOp.Flags & ~(TextureFlags.Offset | TextureFlags.Offsets),
                        texOp.Binding,
                        1 << 3, // W component: i=0, j=0
                        new[] { dests[destIndex++] },
                        newSources);

                    node = node.List.AddBefore(node, newTexOp);
                }
            }
            else
            {
                if (intCoords)
                {
                    for (int index = 0; index < coordsCount; index++)
                    {
                        Operand source = sources[coordsIndex + index];

                        Operand coordPlusOffset = Local();

                        node.List.AddBefore(node, new Operation(Instruction.Add, coordPlusOffset, source, offsets[index]));

                        sources[coordsIndex + index] = coordPlusOffset;
                    }
                }
                else
                {
                    Operand[] texSizes = isGather
                        ? InsertTextureBaseSize(node, texOp, bindlessHandle, coordsCount)
                        : InsertTextureLod(node, texOp, lodSources, bindlessHandle, coordsCount, stage);

                    for (int index = 0; index < coordsCount; index++)
                    {
                        Operand offset = Local();

                        Operand intOffset = offsets[index];

                        node.List.AddBefore(node, new Operation(
                            Instruction.FP32 | Instruction.Divide,
                            offset,
                            GenerateI2f(node, intOffset),
                            GenerateI2f(node, texSizes[index])));

                        Operand source = sources[coordsIndex + index];

                        Operand coordPlusOffset = Local();

                        node.List.AddBefore(node, new Operation(Instruction.FP32 | Instruction.Add, coordPlusOffset, source, offset));

                        sources[coordsIndex + index] = coordPlusOffset;
                    }
                }

                TextureOperation newTexOp = new(
                    Instruction.TextureSample,
                    texOp.Type,
                    texOp.Format,
                    texOp.Flags & ~(TextureFlags.Offset | TextureFlags.Offsets),
                    texOp.Binding,
                    componentIndex,
                    dests,
                    sources);

                node = node.List.AddBefore(node, newTexOp);
            }

            node.List.Remove(oldNode);

            for (int index = 0; index < texOp.SourcesCount; index++)
            {
                texOp.SetSource(index, null);
            }

            return node;
        }

        private static Operand[] InsertTextureBaseSize(
            LinkedListNode<INode> node,
            TextureOperation texOp,
            Operand bindlessHandle,
            int coordsCount)
        {
            Operand[] texSizes = new Operand[coordsCount];

            for (int index = 0; index < coordsCount; index++)
            {
                texSizes[index] = Local();

                Operand[] texSizeSources;

                if (bindlessHandle != null)
                {
                    texSizeSources = new Operand[] { bindlessHandle, Const(0) };
                }
                else
                {
                    texSizeSources = new Operand[] { Const(0) };
                }

                node.List.AddBefore(node, new TextureOperation(
                    Instruction.TextureQuerySize,
                    texOp.Type,
                    texOp.Format,
                    texOp.Flags,
                    texOp.Binding,
                    index,
                    new[] { texSizes[index] },
                    texSizeSources));
            }

            return texSizes;
        }

        private static Operand[] InsertTextureLod(
            LinkedListNode<INode> node,
            TextureOperation texOp,
            Operand[] lodSources,
            Operand bindlessHandle,
            int coordsCount,
            ShaderStage stage)
        {
            Operand[] texSizes = new Operand[coordsCount];

            Operand lod;

            if (stage == ShaderStage.Fragment)
            {
                lod = Local();

                node.List.AddBefore(node, new TextureOperation(
                    Instruction.Lod,
                    texOp.Type,
                    texOp.Format,
                    texOp.Flags,
                    texOp.Binding,
                    0,
                    new[] { lod },
                    lodSources));
            }
            else
            {
                lod = Const(0);
            }

            for (int index = 0; index < coordsCount; index++)
            {
                texSizes[index] = Local();

                Operand[] texSizeSources;

                if (bindlessHandle != null)
                {
                    texSizeSources = new Operand[] { bindlessHandle, GenerateF2i(node, lod) };
                }
                else
                {
                    texSizeSources = new Operand[] { GenerateF2i(node, lod) };
                }

                node.List.AddBefore(node, new TextureOperation(
                    Instruction.TextureQuerySize,
                    texOp.Type,
                    texOp.Format,
                    texOp.Flags,
                    texOp.Binding,
                    index,
                    new[] { texSizes[index] },
                    texSizeSources));
            }

            return texSizes;
        }

        private static LinkedListNode<INode> InsertSnormNormalization(LinkedListNode<INode> node, ResourceManager resourceManager, IGpuAccessor gpuAccessor)
        {
            TextureOperation texOp = (TextureOperation)node.Value;

            // We can't query the format of a bindless texture,
            // because the handle is unknown, it can have any format.
            if (texOp.Flags.HasFlag(TextureFlags.Bindless) || !resourceManager.TryGetCbufSlotAndHandleForTexture(texOp.Binding, out int cbufSlot, out int handle))
            {
                return node;
            }

            TextureFormat format = gpuAccessor.QueryTextureFormat(handle, cbufSlot);

            int maxPositive = format switch
            {
                TextureFormat.R8Snorm => sbyte.MaxValue,
                TextureFormat.R8G8Snorm => sbyte.MaxValue,
                TextureFormat.R8G8B8A8Snorm => sbyte.MaxValue,
                TextureFormat.R16Snorm => short.MaxValue,
                TextureFormat.R16G16Snorm => short.MaxValue,
                TextureFormat.R16G16B16A16Snorm => short.MaxValue,
                _ => 0,
            };

            // The value being 0 means that the format is not a SNORM format,
            // so there's nothing to do here.
            if (maxPositive == 0)
            {
                return node;
            }

            // Do normalization. We assume SINT formats are being used
            // as replacement for SNORM (which is not supported).
            for (int i = 0; i < texOp.DestsCount; i++)
            {
                Operand dest = texOp.GetDest(i);

                INode[] uses = dest.UseOps.ToArray();

                Operation convOp = new(Instruction.ConvertS32ToFP32, Local(), dest);
                Operation normOp = new(Instruction.FP32 | Instruction.Multiply, Local(), convOp.Dest, ConstF(1f / maxPositive));

                node = node.List.AddAfter(node, convOp);
                node = node.List.AddAfter(node, normOp);

                foreach (INode useOp in uses)
                {
                    if (useOp is not Operation op)
                    {
                        continue;
                    }

                    // Replace all uses of the texture pixel value with the normalized value.
                    for (int index = 0; index < op.SourcesCount; index++)
                    {
                        if (op.GetSource(index) == dest)
                        {
                            op.SetSource(index, normOp.Dest);
                        }
                    }
                }
            }

            return node;
        }

        private static Operand GenerateI2f(LinkedListNode<INode> node, Operand value)
        {
            Operand res = Local();

            node.List.AddBefore(node, new Operation(Instruction.ConvertS32ToFP32, res, value));

            return res;
        }

        private static Operand GenerateF2i(LinkedListNode<INode> node, Operand value)
        {
            Operand res = Local();

            node.List.AddBefore(node, new Operation(Instruction.ConvertFP32ToS32, res, value));

            return res;
        }

        private static bool IsImageInstructionWithScale(Instruction inst)
        {
            // Currently, we don't support scaling images that are modified,
            // so we only need to care about the load instruction.
            return inst == Instruction.ImageLoad;
        }

        private static bool TypeSupportsScale(SamplerType type)
        {
            return (type & SamplerType.Mask) == SamplerType.Texture2D;
        }
    }
}