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using Ryujinx.Graphics.Shader.Instructions;
using Ryujinx.Graphics.Shader.IntermediateRepresentation;
using Ryujinx.Graphics.Shader.StructuredIr;
using System;
using System.Collections.Generic;
namespace Ryujinx.Graphics.Shader.Translation.Optimizations
{
class BindlessElimination
{
public static void RunPass(BasicBlock block, ResourceManager resourceManager, IGpuAccessor gpuAccessor)
{
// We can turn a bindless into regular access by recognizing the pattern
// produced by the compiler for separate texture and sampler.
// We check for the following conditions:
// - The handle is a constant buffer value.
// - The handle is the result of a bitwise OR logical operation.
// - Both sources of the OR operation comes from a constant buffer.
LinkedListNode<INode> nextNode;
for (LinkedListNode<INode> node = block.Operations.First; node != null; node = nextNode)
{
nextNode = node.Next;
if (node.Value is not TextureOperation texOp)
{
continue;
}
if ((texOp.Flags & TextureFlags.Bindless) == 0)
{
continue;
}
if (!TryConvertBindless(block, resourceManager, gpuAccessor, texOp) &&
!GenerateBindlessAccess(block, resourceManager, gpuAccessor, texOp, node))
{
// If we can't do bindless elimination, remove the texture operation.
// Set any destination variables to zero.
string typeName = texOp.Inst.IsImage()
? texOp.Type.ToGlslImageType(texOp.Format.GetComponentType())
: texOp.Type.ToGlslTextureType();
gpuAccessor.Log($"Failed to find handle source for bindless access of type \"{typeName}\".");
for (int destIndex = 0; destIndex < texOp.DestsCount; destIndex++)
{
block.Operations.AddBefore(node, new Operation(Instruction.Copy, texOp.GetDest(destIndex), OperandHelper.Const(0)));
}
Utils.DeleteNode(node, texOp);
}
}
}
private static bool GenerateBindlessAccess(
BasicBlock block,
ResourceManager resourceManager,
IGpuAccessor gpuAccessor,
TextureOperation texOp,
LinkedListNode<INode> node)
{
if (!gpuAccessor.QueryHostSupportsSeparateSampler())
{
// We depend on combining samplers and textures in the shader being supported for this.
return false;
}
Operand bindlessHandle = texOp.GetSource(0);
if (bindlessHandle.AsgOp is PhiNode phi)
{
for (int srcIndex = 0; srcIndex < phi.SourcesCount; srcIndex++)
{
Operand phiSource = phi.GetSource(srcIndex);
if (phiSource.AsgOp is not PhiNode && !IsBindlessAccessAllowed(phiSource))
{
return false;
}
}
}
else if (!IsBindlessAccessAllowed(bindlessHandle))
{
return false;
}
Operand textureHandle = OperandHelper.Local();
Operand samplerHandle = OperandHelper.Local();
Operand textureIndex = OperandHelper.Local();
block.Operations.AddBefore(node, new Operation(Instruction.BitwiseAnd, textureHandle, bindlessHandle, OperandHelper.Const(0xfffff)));
block.Operations.AddBefore(node, new Operation(Instruction.ShiftRightU32, samplerHandle, bindlessHandle, OperandHelper.Const(20)));
int texturePoolLength = Math.Max(BindlessToArray.MinimumArrayLength, gpuAccessor.QueryTextureArrayLengthFromPool());
block.Operations.AddBefore(node, new Operation(Instruction.MinimumU32, textureIndex, textureHandle, OperandHelper.Const(texturePoolLength - 1)));
texOp.SetSource(0, textureIndex);
bool hasSampler = !texOp.Inst.IsImage();
SetBindingPair textureSetAndBinding = resourceManager.GetTextureOrImageBinding(
texOp.Inst,
texOp.Type,
texOp.Format,
texOp.Flags & ~TextureFlags.Bindless,
0,
TextureHandle.PackOffsets(0, 0, TextureHandleType.Direct),
texturePoolLength,
hasSampler);
if (hasSampler)
{
Operand samplerIndex = OperandHelper.Local();
int samplerPoolLength = Math.Max(BindlessToArray.MinimumArrayLength, gpuAccessor.QuerySamplerArrayLengthFromPool());
block.Operations.AddBefore(node, new Operation(Instruction.MinimumU32, samplerIndex, samplerHandle, OperandHelper.Const(samplerPoolLength - 1)));
texOp.InsertSource(1, samplerIndex);
SetBindingPair samplerSetAndBinding = resourceManager.GetTextureOrImageBinding(
texOp.Inst,
SamplerType.None,
texOp.Format,
TextureFlags.None,
0,
TextureHandle.PackOffsets(0, 0, TextureHandleType.Direct),
samplerPoolLength);
texOp.TurnIntoArray(textureSetAndBinding, samplerSetAndBinding);
}
else
{
texOp.TurnIntoArray(textureSetAndBinding);
}
return true;
}
private static bool IsBindlessAccessAllowed(Operand bindlessHandle)
{
if (bindlessHandle.Type == OperandType.ConstantBuffer)
{
// Bindless access with handles from constant buffer is allowed.
return true;
}
if (bindlessHandle.AsgOp is not Operation handleOp ||
handleOp.Inst != Instruction.Load ||
(handleOp.StorageKind != StorageKind.Input && handleOp.StorageKind != StorageKind.StorageBuffer))
{
// Right now, we only allow bindless access when the handle comes from a shader input or storage buffer.
// This is an artificial limitation to prevent it from being used in cases where it
// would have a large performance impact of loading all textures in the pool.
// It might be removed in the future, if we can mitigate the performance impact.
return false;
}
return true;
}
private static bool TryConvertBindless(BasicBlock block, ResourceManager resourceManager, IGpuAccessor gpuAccessor, TextureOperation texOp)
{
if (texOp.Inst == Instruction.TextureSample || texOp.Inst.IsTextureQuery())
{
Operand bindlessHandle = texOp.GetSource(0);
// In some cases the compiler uses a shuffle operation to get the handle,
// for some textureGrad implementations. In those cases, we can skip the shuffle.
if (bindlessHandle.AsgOp is Operation shuffleOp && shuffleOp.Inst == Instruction.Shuffle)
{
bindlessHandle = shuffleOp.GetSource(0);
}
bindlessHandle = Utils.FindLastOperation(bindlessHandle, block);
// Some instructions do not encode an accurate sampler type:
// - Most instructions uses the same type for 1D and Buffer.
// - Query instructions may not have any type.
// For those cases, we need to try getting the type from current GPU state,
// as long bindless elimination is successful and we know where the texture descriptor is located.
bool rewriteSamplerType =
texOp.Type == SamplerType.TextureBuffer ||
texOp.Inst == Instruction.TextureQuerySamples ||
texOp.Inst == Instruction.TextureQuerySize;
if (bindlessHandle.Type == OperandType.ConstantBuffer)
{
SetHandle(
resourceManager,
gpuAccessor,
texOp,
bindlessHandle.GetCbufOffset(),
bindlessHandle.GetCbufSlot(),
rewriteSamplerType,
isImage: false);
return true;
}
if (!TryGetOperation(bindlessHandle.AsgOp, out Operation handleCombineOp))
{
return false;
}
if (handleCombineOp.Inst != Instruction.BitwiseOr)
{
return false;
}
Operand src0 = Utils.FindLastOperation(handleCombineOp.GetSource(0), block);
Operand src1 = Utils.FindLastOperation(handleCombineOp.GetSource(1), block);
// For cases where we have a constant, ensure that the constant is always
// the second operand.
// Since this is a commutative operation, both are fine,
// and having a "canonical" representation simplifies some checks below.
if (src0.Type == OperandType.Constant && src1.Type != OperandType.Constant)
{
(src0, src1) = (src1, src0);
}
TextureHandleType handleType = TextureHandleType.SeparateSamplerHandle;
// Try to match the following patterns:
// Masked pattern:
// - samplerHandle = samplerHandle & 0xFFF00000;
// - textureHandle = textureHandle & 0xFFFFF;
// - combinedHandle = samplerHandle | textureHandle;
// Where samplerHandle and textureHandle comes from a constant buffer.
// Shifted pattern:
// - samplerHandle = samplerId << 20;
// - combinedHandle = samplerHandle | textureHandle;
// Where samplerId and textureHandle comes from a constant buffer.
// Constant pattern:
// - combinedHandle = samplerHandleConstant | textureHandle;
// Where samplerHandleConstant is a constant value, and textureHandle comes from a constant buffer.
if (src0.AsgOp is Operation src0AsgOp)
{
if (src1.AsgOp is Operation src1AsgOp &&
src0AsgOp.Inst == Instruction.BitwiseAnd &&
src1AsgOp.Inst == Instruction.BitwiseAnd)
{
src0 = GetSourceForMaskedHandle(src0AsgOp, 0xFFFFF);
src1 = GetSourceForMaskedHandle(src1AsgOp, 0xFFF00000);
// The OR operation is commutative, so we can also try to swap the operands to get a match.
if (src0 == null || src1 == null)
{
src0 = GetSourceForMaskedHandle(src1AsgOp, 0xFFFFF);
src1 = GetSourceForMaskedHandle(src0AsgOp, 0xFFF00000);
}
if (src0 == null || src1 == null)
{
return false;
}
}
else if (src0AsgOp.Inst == Instruction.ShiftLeft)
{
Operand shift = src0AsgOp.GetSource(1);
if (shift.Type == OperandType.Constant && shift.Value == 20)
{
src0 = src1;
src1 = src0AsgOp.GetSource(0);
handleType = TextureHandleType.SeparateSamplerId;
}
}
}
else if (src1.AsgOp is Operation src1AsgOp && src1AsgOp.Inst == Instruction.ShiftLeft)
{
Operand shift = src1AsgOp.GetSource(1);
if (shift.Type == OperandType.Constant && shift.Value == 20)
{
src1 = src1AsgOp.GetSource(0);
handleType = TextureHandleType.SeparateSamplerId;
}
}
else if (src1.Type == OperandType.Constant && (src1.Value & 0xfffff) == 0)
{
handleType = TextureHandleType.SeparateConstantSamplerHandle;
}
if (src0.Type != OperandType.ConstantBuffer)
{
return false;
}
if (handleType == TextureHandleType.SeparateConstantSamplerHandle)
{
SetHandle(
resourceManager,
gpuAccessor,
texOp,
TextureHandle.PackOffsets(src0.GetCbufOffset(), (src1.Value >> 20) & 0xfff, handleType),
TextureHandle.PackSlots(src0.GetCbufSlot(), 0),
rewriteSamplerType,
isImage: false);
return true;
}
else if (src1.Type == OperandType.ConstantBuffer)
{
SetHandle(
resourceManager,
gpuAccessor,
texOp,
TextureHandle.PackOffsets(src0.GetCbufOffset(), src1.GetCbufOffset(), handleType),
TextureHandle.PackSlots(src0.GetCbufSlot(), src1.GetCbufSlot()),
rewriteSamplerType,
isImage: false);
return true;
}
}
else if (texOp.Inst.IsImage())
{
Operand src0 = Utils.FindLastOperation(texOp.GetSource(0), block);
if (src0.Type == OperandType.ConstantBuffer)
{
int cbufOffset = src0.GetCbufOffset();
int cbufSlot = src0.GetCbufSlot();
if (texOp.Format == TextureFormat.Unknown)
{
if (texOp.Inst == Instruction.ImageAtomic)
{
texOp.Format = ShaderProperties.GetTextureFormatAtomic(gpuAccessor, cbufOffset, cbufSlot);
}
else
{
texOp.Format = ShaderProperties.GetTextureFormat(gpuAccessor, cbufOffset, cbufSlot);
}
}
bool rewriteSamplerType = texOp.Type == SamplerType.TextureBuffer;
SetHandle(resourceManager, gpuAccessor, texOp, cbufOffset, cbufSlot, rewriteSamplerType, isImage: true);
return true;
}
}
return false;
}
private static bool TryGetOperation(INode asgOp, out Operation outOperation)
{
if (asgOp is PhiNode phi)
{
// If we have a phi, let's check if all inputs are effectively the same value.
// If so, we can "see through" the phi and pick any of the inputs (since they are all the same).
Operand firstSrc = phi.GetSource(0);
for (int index = 1; index < phi.SourcesCount; index++)
{
if (!IsSameOperand(firstSrc, phi.GetSource(index)))
{
outOperation = null;
return false;
}
}
asgOp = firstSrc.AsgOp;
}
if (asgOp is Operation operation)
{
outOperation = operation;
return true;
}
outOperation = null;
return false;
}
private static bool IsSameOperand(Operand x, Operand y)
{
if (x.Type == y.Type && x.Type == OperandType.LocalVariable)
{
return x.AsgOp is Operation xOp &&
y.AsgOp is Operation yOp &&
xOp.Inst == Instruction.BitwiseOr &&
yOp.Inst == Instruction.BitwiseOr &&
AreBothEqualConstantBuffers(xOp.GetSource(0), yOp.GetSource(0)) &&
AreBothEqualConstantBuffers(xOp.GetSource(1), yOp.GetSource(1));
}
return false;
}
private static bool AreBothEqualConstantBuffers(Operand x, Operand y)
{
return x.Type == y.Type && x.Value == y.Value && x.Type == OperandType.ConstantBuffer;
}
private static Operand GetSourceForMaskedHandle(Operation asgOp, uint mask)
{
// Assume it was already checked that the operation is bitwise AND.
Operand src0 = asgOp.GetSource(0);
Operand src1 = asgOp.GetSource(1);
if (src0.Type == OperandType.ConstantBuffer && src1.Type == OperandType.ConstantBuffer)
{
// We can't check if the mask matches here as both operands are from a constant buffer.
// Be optimistic and assume it matches. Avoid constant buffer 1 as official drivers
// uses this one to store compiler constants.
return src0.GetCbufSlot() == 1 ? src1 : src0;
}
else if (src0.Type == OperandType.ConstantBuffer && src1.Type == OperandType.Constant)
{
if ((uint)src1.Value == mask)
{
return src0;
}
}
else if (src0.Type == OperandType.Constant && src1.Type == OperandType.ConstantBuffer)
{
if ((uint)src0.Value == mask)
{
return src1;
}
}
return null;
}
private static void SetHandle(
ResourceManager resourceManager,
IGpuAccessor gpuAccessor,
TextureOperation texOp,
int cbufOffset,
int cbufSlot,
bool rewriteSamplerType,
bool isImage)
{
if (rewriteSamplerType)
{
SamplerType newType = gpuAccessor.QuerySamplerType(cbufOffset, cbufSlot);
if (texOp.Inst.IsTextureQuery())
{
texOp.Type = newType;
}
else if (texOp.Type == SamplerType.TextureBuffer && newType == SamplerType.Texture1D)
{
int coordsCount = 2;
if (InstEmit.Sample1DAs2D)
{
newType = SamplerType.Texture2D;
texOp.InsertSource(coordsCount++, OperandHelper.Const(0));
}
if (!isImage &&
(texOp.Flags & TextureFlags.IntCoords) != 0 &&
(texOp.Flags & TextureFlags.LodLevel) == 0)
{
// IntCoords textures must always have explicit LOD.
texOp.SetLodLevelFlag();
texOp.InsertSource(coordsCount, OperandHelper.Const(0));
}
texOp.Type = newType;
}
}
SetBindingPair setAndBinding = resourceManager.GetTextureOrImageBinding(
texOp.Inst,
texOp.Type,
texOp.Format,
texOp.Flags & ~TextureFlags.Bindless,
cbufSlot,
cbufOffset);
texOp.SetBinding(setAndBinding);
}
}
}
|
