Ryujinx/Ryujinx.Graphics/Shader/Instructions/InstEmitTexture.cs

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New shader translator implementation (#654) * Start implementing a new shader translator * Fix shift instructions and a typo * Small refactoring on StructuredProgram, move RemovePhis method to a separate class * Initial geometry shader support * Implement TLD4 * Fix -- There's no negation on FMUL32I * Add constant folding and algebraic simplification optimizations, nits * Some leftovers from constant folding * Avoid cast for constant assignments * Add a branch elimination pass, and misc small fixes * Remove redundant branches, add expression propagation and other improvements on the code * Small leftovers -- add missing break and continue, remove unused properties, other improvements * Add null check to handle empty block cases on block visitor * Add HADD2 and HMUL2 half float shader instructions * Optimize pack/unpack sequences, some fixes related to half float instructions * Add TXQ, TLD, TLDS and TLD4S shader texture instructions, and some support for bindless textures, some refactoring on codegen * Fix copy paste mistake that caused RZ to be ignored on the AST instruction * Add workaround for conditional exit, and fix half float instruction with constant buffer * Add missing 0.0 source for TLDS.LZ variants * Simplify the switch for TLDS.LZ * Texture instructions related fixes * Implement the HFMA instruction, and some misc. fixes * Enable constant folding on UnpackHalf2x16 instructions * Refactor HFMA to use OpCode* for opcode decoding rather than on the helper methods * Remove the old shader translator * Remove ShaderDeclInfo and other unused things * Add dual vertex shader support * Add ShaderConfig, used to pass shader type and maximum cbuffer size * Move and rename some instruction enums * Move texture instructions into a separate file * Move operand GetExpression and locals management to OperandManager * Optimize opcode decoding using a simple list and binary search * Add missing condition for do-while on goto elimination * Misc. fixes on texture instructions * Simplify TLDS switch * Address PR feedback, and a nit
2019-04-17 16:57:08 -07:00
using Ryujinx.Graphics.Shader.Decoders;
using Ryujinx.Graphics.Shader.IntermediateRepresentation;
using Ryujinx.Graphics.Shader.Translation;
using System;
using System.Collections.Generic;
using static Ryujinx.Graphics.Shader.IntermediateRepresentation.OperandHelper;
namespace Ryujinx.Graphics.Shader.Instructions
{
static partial class InstEmit
{
public static void Tex(EmitterContext context)
{
Tex(context, TextureFlags.None);
}
public static void Tex_B(EmitterContext context)
{
Tex(context, TextureFlags.Bindless);
}
public static void Tld(EmitterContext context)
{
Tex(context, TextureFlags.IntCoords);
}
public static void Tld_B(EmitterContext context)
{
Tex(context, TextureFlags.IntCoords | TextureFlags.Bindless);
}
public static void Texs(EmitterContext context)
{
OpCodeTextureScalar op = (OpCodeTextureScalar)context.CurrOp;
if (op.Rd0.IsRZ && op.Rd1.IsRZ)
{
return;
}
List<Operand> sourcesList = new List<Operand>();
int raIndex = op.Ra.Index;
int rbIndex = op.Rb.Index;
Operand Ra()
{
if (raIndex > RegisterConsts.RegisterZeroIndex)
{
return Const(0);
}
return context.Copy(Register(raIndex++, RegisterType.Gpr));
}
Operand Rb()
{
if (rbIndex > RegisterConsts.RegisterZeroIndex)
{
return Const(0);
}
return context.Copy(Register(rbIndex++, RegisterType.Gpr));
}
void AddTextureOffset(int coordsCount, int stride, int size)
{
Operand packedOffs = Rb();
for (int index = 0; index < coordsCount; index++)
{
sourcesList.Add(context.BitfieldExtractS32(packedOffs, Const(index * stride), Const(size)));
}
}
TextureType type;
TextureFlags flags;
if (op is OpCodeTexs texsOp)
{
type = GetTextureType (texsOp.Type);
flags = GetTextureFlags(texsOp.Type);
if ((type & TextureType.Array) != 0)
{
Operand arrayIndex = Ra();
sourcesList.Add(Ra());
sourcesList.Add(Rb());
sourcesList.Add(arrayIndex);
if ((type & TextureType.Shadow) != 0)
{
sourcesList.Add(Rb());
}
if ((flags & TextureFlags.LodLevel) != 0)
{
sourcesList.Add(ConstF(0));
}
}
else
{
switch (texsOp.Type)
{
case TextureScalarType.Texture1DLodZero:
sourcesList.Add(Ra());
break;
case TextureScalarType.Texture2D:
sourcesList.Add(Ra());
sourcesList.Add(Rb());
break;
case TextureScalarType.Texture2DLodZero:
sourcesList.Add(Ra());
sourcesList.Add(Rb());
sourcesList.Add(ConstF(0));
break;
case TextureScalarType.Texture2DLodLevel:
case TextureScalarType.Texture2DDepthCompare:
case TextureScalarType.Texture3D:
case TextureScalarType.TextureCube:
sourcesList.Add(Ra());
sourcesList.Add(Ra());
sourcesList.Add(Rb());
break;
case TextureScalarType.Texture2DLodZeroDepthCompare:
case TextureScalarType.Texture3DLodZero:
sourcesList.Add(Ra());
sourcesList.Add(Ra());
sourcesList.Add(Rb());
sourcesList.Add(ConstF(0));
break;
case TextureScalarType.Texture2DLodLevelDepthCompare:
case TextureScalarType.TextureCubeLodLevel:
sourcesList.Add(Ra());
sourcesList.Add(Ra());
sourcesList.Add(Rb());
sourcesList.Add(Rb());
break;
}
}
}
else if (op is OpCodeTlds tldsOp)
{
type = GetTextureType (tldsOp.Type);
flags = GetTextureFlags(tldsOp.Type) | TextureFlags.IntCoords;
switch (tldsOp.Type)
{
case TexelLoadScalarType.Texture1DLodZero:
sourcesList.Add(Ra());
sourcesList.Add(Const(0));
break;
case TexelLoadScalarType.Texture1DLodLevel:
sourcesList.Add(Ra());
sourcesList.Add(Rb());
break;
case TexelLoadScalarType.Texture2DLodZero:
sourcesList.Add(Ra());
sourcesList.Add(Rb());
sourcesList.Add(Const(0));
break;
case TexelLoadScalarType.Texture2DLodZeroOffset:
sourcesList.Add(Ra());
sourcesList.Add(Ra());
sourcesList.Add(Const(0));
break;
case TexelLoadScalarType.Texture2DLodZeroMultisample:
case TexelLoadScalarType.Texture2DLodLevel:
case TexelLoadScalarType.Texture2DLodLevelOffset:
sourcesList.Add(Ra());
sourcesList.Add(Ra());
sourcesList.Add(Rb());
break;
case TexelLoadScalarType.Texture3DLodZero:
sourcesList.Add(Ra());
sourcesList.Add(Ra());
sourcesList.Add(Rb());
sourcesList.Add(Const(0));
break;
case TexelLoadScalarType.Texture2DArrayLodZero:
sourcesList.Add(Rb());
sourcesList.Add(Rb());
sourcesList.Add(Ra());
sourcesList.Add(Const(0));
break;
}
if ((flags & TextureFlags.Offset) != 0)
{
AddTextureOffset(type.GetCoordsCount(), 4, 4);
}
}
else if (op is OpCodeTld4s tld4sOp)
{
if (!(tld4sOp.HasDepthCompare || tld4sOp.HasOffset))
{
sourcesList.Add(Ra());
sourcesList.Add(Rb());
}
else
{
sourcesList.Add(Ra());
sourcesList.Add(Ra());
}
type = TextureType.Texture2D;
flags = TextureFlags.Gather;
if (tld4sOp.HasDepthCompare)
{
sourcesList.Add(Rb());
type |= TextureType.Shadow;
}
if (tld4sOp.HasOffset)
{
AddTextureOffset(type.GetCoordsCount(), 8, 6);
flags |= TextureFlags.Offset;
}
sourcesList.Add(Const(tld4sOp.GatherCompIndex));
}
else
{
throw new InvalidOperationException($"Invalid opcode type \"{op.GetType().Name}\".");
}
Operand[] sources = sourcesList.ToArray();
Operand[] rd0 = new Operand[2] { ConstF(0), ConstF(0) };
Operand[] rd1 = new Operand[2] { ConstF(0), ConstF(0) };
int destIncrement = 0;
Operand GetDest()
{
int high = destIncrement >> 1;
int low = destIncrement & 1;
destIncrement++;
if (op.IsFp16)
{
return high != 0
? (rd1[low] = Local())
: (rd0[low] = Local());
}
else
{
int rdIndex = high != 0 ? op.Rd1.Index : op.Rd0.Index;
if (rdIndex < RegisterConsts.RegisterZeroIndex)
{
rdIndex += low;
}
return Register(rdIndex, RegisterType.Gpr);
}
}
int handle = op.Immediate;
for (int compMask = op.ComponentMask, compIndex = 0; compMask != 0; compMask >>= 1, compIndex++)
{
if ((compMask & 1) != 0)
{
Operand dest = GetDest();
TextureOperation operation = new TextureOperation(
Instruction.TextureSample,
type,
flags,
handle,
compIndex,
dest,
sources);
context.Add(operation);
}
}
if (op.IsFp16)
{
context.Copy(Register(op.Rd0), context.PackHalf2x16(rd0[0], rd0[1]));
context.Copy(Register(op.Rd1), context.PackHalf2x16(rd1[0], rd1[1]));
}
}
public static void Tld4(EmitterContext context)
{
OpCodeTld4 op = (OpCodeTld4)context.CurrOp;
if (op.Rd.IsRZ)
{
return;
}
int raIndex = op.Ra.Index;
int rbIndex = op.Rb.Index;
Operand Ra()
{
if (raIndex > RegisterConsts.RegisterZeroIndex)
{
return Const(0);
}
return context.Copy(Register(raIndex++, RegisterType.Gpr));
}
Operand Rb()
{
if (rbIndex > RegisterConsts.RegisterZeroIndex)
{
return Const(0);
}
return context.Copy(Register(rbIndex++, RegisterType.Gpr));
}
Operand arrayIndex = op.IsArray ? Ra() : null;
List<Operand> sourcesList = new List<Operand>();
TextureType type = GetTextureType(op.Dimensions);
TextureFlags flags = TextureFlags.Gather;
int coordsCount = type.GetCoordsCount();
for (int index = 0; index < coordsCount; index++)
{
sourcesList.Add(Ra());
}
if (op.IsArray)
{
sourcesList.Add(arrayIndex);
type |= TextureType.Array;
}
Operand[] packedOffs = new Operand[2];
packedOffs[0] = op.Offset != TextureGatherOffset.None ? Rb() : null;
packedOffs[1] = op.Offset == TextureGatherOffset.Offsets ? Rb() : null;
if (op.HasDepthCompare)
{
sourcesList.Add(Rb());
type |= TextureType.Shadow;
}
if (op.Offset != TextureGatherOffset.None)
{
int offsetTexelsCount = op.Offset == TextureGatherOffset.Offsets ? 4 : 1;
for (int index = 0; index < coordsCount * offsetTexelsCount; index++)
{
Operand packed = packedOffs[(index >> 2) & 1];
sourcesList.Add(context.BitfieldExtractS32(packed, Const((index & 3) * 8), Const(6)));
}
flags |= op.Offset == TextureGatherOffset.Offsets
? TextureFlags.Offsets
: TextureFlags.Offset;
}
sourcesList.Add(Const(op.GatherCompIndex));
Operand[] sources = sourcesList.ToArray();
int rdIndex = op.Rd.Index;
Operand GetDest()
{
if (rdIndex > RegisterConsts.RegisterZeroIndex)
{
return Const(0);
}
return Register(rdIndex++, RegisterType.Gpr);
}
int handle = op.Immediate;
for (int compMask = op.ComponentMask, compIndex = 0; compMask != 0; compMask >>= 1, compIndex++)
{
if ((compMask & 1) != 0)
{
Operand dest = GetDest();
TextureOperation operation = new TextureOperation(
Instruction.TextureSample,
type,
flags,
handle,
compIndex,
dest,
sources);
context.Add(operation);
}
}
}
public static void Txq(EmitterContext context)
{
Txq(context, bindless: false);
}
public static void Txq_B(EmitterContext context)
{
Txq(context, bindless: true);
}
private static void Txq(EmitterContext context, bool bindless)
{
OpCodeTex op = (OpCodeTex)context.CurrOp;
if (op.Rd.IsRZ)
{
return;
}
TextureProperty property = (TextureProperty)op.RawOpCode.Extract(22, 6);
// TODO: Validate and use property.
New shader translator implementation (#654) * Start implementing a new shader translator * Fix shift instructions and a typo * Small refactoring on StructuredProgram, move RemovePhis method to a separate class * Initial geometry shader support * Implement TLD4 * Fix -- There's no negation on FMUL32I * Add constant folding and algebraic simplification optimizations, nits * Some leftovers from constant folding * Avoid cast for constant assignments * Add a branch elimination pass, and misc small fixes * Remove redundant branches, add expression propagation and other improvements on the code * Small leftovers -- add missing break and continue, remove unused properties, other improvements * Add null check to handle empty block cases on block visitor * Add HADD2 and HMUL2 half float shader instructions * Optimize pack/unpack sequences, some fixes related to half float instructions * Add TXQ, TLD, TLDS and TLD4S shader texture instructions, and some support for bindless textures, some refactoring on codegen * Fix copy paste mistake that caused RZ to be ignored on the AST instruction * Add workaround for conditional exit, and fix half float instruction with constant buffer * Add missing 0.0 source for TLDS.LZ variants * Simplify the switch for TLDS.LZ * Texture instructions related fixes * Implement the HFMA instruction, and some misc. fixes * Enable constant folding on UnpackHalf2x16 instructions * Refactor HFMA to use OpCode* for opcode decoding rather than on the helper methods * Remove the old shader translator * Remove ShaderDeclInfo and other unused things * Add dual vertex shader support * Add ShaderConfig, used to pass shader type and maximum cbuffer size * Move and rename some instruction enums * Move texture instructions into a separate file * Move operand GetExpression and locals management to OperandManager * Optimize opcode decoding using a simple list and binary search * Add missing condition for do-while on goto elimination * Misc. fixes on texture instructions * Simplify TLDS switch * Address PR feedback, and a nit
2019-04-17 16:57:08 -07:00
Instruction inst = Instruction.TextureSize;
TextureType type = TextureType.Texture2D;
TextureFlags flags = bindless ? TextureFlags.Bindless : TextureFlags.None;
int raIndex = op.Ra.Index;
Operand Ra()
{
if (raIndex > RegisterConsts.RegisterZeroIndex)
{
return Const(0);
}
return context.Copy(Register(raIndex++, RegisterType.Gpr));
}
List<Operand> sourcesList = new List<Operand>();
if (bindless)
{
sourcesList.Add(Ra());
}
sourcesList.Add(Ra());
Operand[] sources = sourcesList.ToArray();
int rdIndex = op.Rd.Index;
Operand GetDest()
{
if (rdIndex > RegisterConsts.RegisterZeroIndex)
{
return Const(0);
}
return Register(rdIndex++, RegisterType.Gpr);
}
int handle = !bindless ? op.Immediate : 0;
for (int compMask = op.ComponentMask, compIndex = 0; compMask != 0; compMask >>= 1, compIndex++)
{
if ((compMask & 1) != 0)
{
Operand dest = GetDest();
TextureOperation operation = new TextureOperation(
inst,
type,
flags,
handle,
compIndex,
dest,
sources);
context.Add(operation);
}
}
}
private static void Tex(EmitterContext context, TextureFlags flags)
{
OpCodeTexture op = (OpCodeTexture)context.CurrOp;
bool isBindless = (flags & TextureFlags.Bindless) != 0;
bool intCoords = (flags & TextureFlags.IntCoords) != 0;
if (op.Rd.IsRZ)
{
return;
}
int raIndex = op.Ra.Index;
int rbIndex = op.Rb.Index;
Operand Ra()
{
if (raIndex > RegisterConsts.RegisterZeroIndex)
{
return Const(0);
}
return context.Copy(Register(raIndex++, RegisterType.Gpr));
}
Operand Rb()
{
if (rbIndex > RegisterConsts.RegisterZeroIndex)
{
return Const(0);
}
return context.Copy(Register(rbIndex++, RegisterType.Gpr));
}
Operand arrayIndex = op.IsArray ? Ra() : null;
List<Operand> sourcesList = new List<Operand>();
if (isBindless)
{
sourcesList.Add(Rb());
}
TextureType type = GetTextureType(op.Dimensions);
int coordsCount = type.GetCoordsCount();
for (int index = 0; index < coordsCount; index++)
{
sourcesList.Add(Ra());
}
if (op.IsArray)
{
sourcesList.Add(arrayIndex);
type |= TextureType.Array;
}
bool hasLod = op.LodMode > TextureLodMode.LodZero;
Operand lodValue = hasLod ? Rb() : ConstF(0);
Operand packedOffs = op.HasOffset ? Rb() : null;
if (op.HasDepthCompare)
{
sourcesList.Add(Rb());
type |= TextureType.Shadow;
}
if ((op.LodMode == TextureLodMode.LodZero ||
op.LodMode == TextureLodMode.LodLevel ||
op.LodMode == TextureLodMode.LodLevelA) && !op.IsMultisample)
{
sourcesList.Add(lodValue);
flags |= TextureFlags.LodLevel;
}
if (op.HasOffset)
{
for (int index = 0; index < coordsCount; index++)
{
sourcesList.Add(context.BitfieldExtractS32(packedOffs, Const(index * 4), Const(4)));
}
flags |= TextureFlags.Offset;
}
if (op.LodMode == TextureLodMode.LodBias ||
op.LodMode == TextureLodMode.LodBiasA)
{
sourcesList.Add(lodValue);
flags |= TextureFlags.LodBias;
}
if (op.IsMultisample)
{
sourcesList.Add(Rb());
type |= TextureType.Multisample;
}
Operand[] sources = sourcesList.ToArray();
int rdIndex = op.Rd.Index;
Operand GetDest()
{
if (rdIndex > RegisterConsts.RegisterZeroIndex)
{
return Const(0);
}
return Register(rdIndex++, RegisterType.Gpr);
}
int handle = !isBindless ? op.Immediate : 0;
for (int compMask = op.ComponentMask, compIndex = 0; compMask != 0; compMask >>= 1, compIndex++)
{
if ((compMask & 1) != 0)
{
Operand dest = GetDest();
TextureOperation operation = new TextureOperation(
Instruction.TextureSample,
type,
flags,
handle,
compIndex,
dest,
sources);
context.Add(operation);
}
}
}
private static TextureType GetTextureType(TextureDimensions dimensions)
{
switch (dimensions)
{
case TextureDimensions.Texture1D: return TextureType.Texture1D;
case TextureDimensions.Texture2D: return TextureType.Texture2D;
case TextureDimensions.Texture3D: return TextureType.Texture3D;
case TextureDimensions.TextureCube: return TextureType.TextureCube;
}
throw new ArgumentException($"Invalid texture dimensions \"{dimensions}\".");
}
private static TextureType GetTextureType(TextureScalarType type)
{
switch (type)
{
case TextureScalarType.Texture1DLodZero:
return TextureType.Texture1D;
case TextureScalarType.Texture2D:
case TextureScalarType.Texture2DLodZero:
case TextureScalarType.Texture2DLodLevel:
return TextureType.Texture2D;
case TextureScalarType.Texture2DDepthCompare:
case TextureScalarType.Texture2DLodLevelDepthCompare:
case TextureScalarType.Texture2DLodZeroDepthCompare:
return TextureType.Texture2D | TextureType.Shadow;
case TextureScalarType.Texture2DArray:
case TextureScalarType.Texture2DArrayLodZero:
return TextureType.Texture2D | TextureType.Array;
case TextureScalarType.Texture2DArrayLodZeroDepthCompare:
return TextureType.Texture2D | TextureType.Array | TextureType.Shadow;
case TextureScalarType.Texture3D:
case TextureScalarType.Texture3DLodZero:
return TextureType.Texture3D;
case TextureScalarType.TextureCube:
case TextureScalarType.TextureCubeLodLevel:
return TextureType.TextureCube;
}
throw new ArgumentException($"Invalid texture type \"{type}\".");
}
private static TextureType GetTextureType(TexelLoadScalarType type)
{
switch (type)
{
case TexelLoadScalarType.Texture1DLodZero:
case TexelLoadScalarType.Texture1DLodLevel:
return TextureType.Texture1D;
case TexelLoadScalarType.Texture2DLodZero:
case TexelLoadScalarType.Texture2DLodZeroOffset:
case TexelLoadScalarType.Texture2DLodLevel:
case TexelLoadScalarType.Texture2DLodLevelOffset:
return TextureType.Texture2D;
case TexelLoadScalarType.Texture2DLodZeroMultisample:
return TextureType.Texture2D | TextureType.Multisample;
case TexelLoadScalarType.Texture3DLodZero:
return TextureType.Texture3D;
case TexelLoadScalarType.Texture2DArrayLodZero:
return TextureType.Texture2D | TextureType.Array;
}
throw new ArgumentException($"Invalid texture type \"{type}\".");
}
private static TextureFlags GetTextureFlags(TextureScalarType type)
{
switch (type)
{
case TextureScalarType.Texture1DLodZero:
case TextureScalarType.Texture2DLodZero:
case TextureScalarType.Texture2DLodLevel:
case TextureScalarType.Texture2DLodLevelDepthCompare:
case TextureScalarType.Texture2DLodZeroDepthCompare:
case TextureScalarType.Texture2DArrayLodZero:
case TextureScalarType.Texture2DArrayLodZeroDepthCompare:
case TextureScalarType.Texture3DLodZero:
case TextureScalarType.TextureCubeLodLevel:
return TextureFlags.LodLevel;
case TextureScalarType.Texture2D:
case TextureScalarType.Texture2DDepthCompare:
case TextureScalarType.Texture2DArray:
case TextureScalarType.Texture3D:
case TextureScalarType.TextureCube:
return TextureFlags.None;
}
throw new ArgumentException($"Invalid texture type \"{type}\".");
}
private static TextureFlags GetTextureFlags(TexelLoadScalarType type)
{
switch (type)
{
case TexelLoadScalarType.Texture1DLodZero:
case TexelLoadScalarType.Texture1DLodLevel:
case TexelLoadScalarType.Texture2DLodZero:
case TexelLoadScalarType.Texture2DLodLevel:
case TexelLoadScalarType.Texture2DLodZeroMultisample:
case TexelLoadScalarType.Texture3DLodZero:
case TexelLoadScalarType.Texture2DArrayLodZero:
return TextureFlags.LodLevel;
case TexelLoadScalarType.Texture2DLodZeroOffset:
case TexelLoadScalarType.Texture2DLodLevelOffset:
return TextureFlags.LodLevel | TextureFlags.Offset;
}
throw new ArgumentException($"Invalid texture type \"{type}\".");
}
}
}