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ryujinx-final/Ryujinx.Graphics.Shader/Instructions/InstEmitVideoMinMax.cs
gdkchan d512ce122c
Initial tessellation shader support (#2534)
* Initial tessellation shader support

* Nits

* Re-arrange built-in table

* This is not needed anymore

* PR feedback
2021-10-18 18:38:04 -03:00

205 lines
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7.8 KiB
C#

using Ryujinx.Graphics.Shader.Decoders;
using Ryujinx.Graphics.Shader.IntermediateRepresentation;
using Ryujinx.Graphics.Shader.Translation;
using static Ryujinx.Graphics.Shader.Instructions.InstEmitHelper;
using static Ryujinx.Graphics.Shader.IntermediateRepresentation.OperandHelper;
namespace Ryujinx.Graphics.Shader.Instructions
{
static partial class InstEmit
{
public static void Vmnmx(EmitterContext context)
{
InstVmnmx op = context.GetOp<InstVmnmx>();
Operand srcA = Extend(context, GetSrcReg(context, op.SrcA), op.ASelect);
Operand srcC = GetSrcReg(context, op.SrcC);
Operand srcB;
if (op.BVideo)
{
srcB = Extend(context, GetSrcReg(context, op.SrcB), op.BSelect);
}
else
{
int imm = op.Imm16;
if ((op.BSelect & VectorSelect.S8B0) != 0)
{
imm = (imm << 16) >> 16;
}
srcB = Const(imm);
}
Operand res;
bool resSigned;
if ((op.ASelect & VectorSelect.S8B0) != (op.BSelect & VectorSelect.S8B0))
{
// Signedness is different, but for max, result will always fit a U32,
// since one of the inputs can't be negative, and the result is the one
// with highest value. For min, it will always fit on a S32, since
// one of the input can't be greater than INT_MAX and we want the lowest value.
resSigned = !op.Mn;
res = op.Mn ? context.IMaximumU32(srcA, srcB) : context.IMinimumS32(srcA, srcB);
if ((op.ASelect & VectorSelect.S8B0) != 0)
{
Operand isBGtIntMax = context.ICompareLess(srcB, Const(0));
res = context.ConditionalSelect(isBGtIntMax, srcB, res);
}
else
{
Operand isAGtIntMax = context.ICompareLess(srcA, Const(0));
res = context.ConditionalSelect(isAGtIntMax, srcA, res);
}
}
else
{
// Ra and Rb have the same signedness, so doesn't matter which one we test.
resSigned = (op.ASelect & VectorSelect.S8B0) != 0;
if (op.Mn)
{
res = resSigned
? context.IMaximumS32(srcA, srcB)
: context.IMaximumU32(srcA, srcB);
}
else
{
res = resSigned
? context.IMinimumS32(srcA, srcB)
: context.IMinimumU32(srcA, srcB);
}
}
if (op.Sat)
{
if (op.DFormat && !resSigned)
{
res = context.IMinimumU32(res, Const(int.MaxValue));
}
else if (!op.DFormat && resSigned)
{
res = context.IMaximumS32(res, Const(0));
}
}
switch (op.VideoOp)
{
case VideoOp.Acc:
res = context.IAdd(res, srcC);
break;
case VideoOp.Max:
res = op.DFormat ? context.IMaximumS32(res, srcC) : context.IMaximumU32(res, srcC);
break;
case VideoOp.Min:
res = op.DFormat ? context.IMinimumS32(res, srcC) : context.IMinimumU32(res, srcC);
break;
case VideoOp.Mrg16h:
res = context.BitfieldInsert(srcC, res, Const(16), Const(16));
break;
case VideoOp.Mrg16l:
res = context.BitfieldInsert(srcC, res, Const(0), Const(16));
break;
case VideoOp.Mrg8b0:
res = context.BitfieldInsert(srcC, res, Const(0), Const(8));
break;
case VideoOp.Mrg8b2:
res = context.BitfieldInsert(srcC, res, Const(16), Const(8));
break;
}
context.Copy(GetDest(op.Dest), res);
}
public static void Vsetp(EmitterContext context)
{
InstVsetp op = context.GetOp<InstVsetp>();
Operand srcA = Extend(context, GetSrcReg(context, op.SrcA), op.ASelect);
Operand srcB;
if (op.BVideo)
{
srcB = Extend(context, GetSrcReg(context, op.SrcB), op.BSelect);
}
else
{
int imm = op.Imm16;
if ((op.BSelect & VectorSelect.S8B0) != 0)
{
imm = (imm << 16) >> 16;
}
srcB = Const(imm);
}
Operand p0Res;
bool signedA = (op.ASelect & VectorSelect.S8B0) != 0;
bool signedB = (op.BSelect & VectorSelect.S8B0) != 0;
if (signedA != signedB)
{
bool a32 = (op.ASelect & ~VectorSelect.S8B0) == VectorSelect.U32;
bool b32 = (op.BSelect & ~VectorSelect.S8B0) == VectorSelect.U32;
if (!a32 && !b32)
{
// Both values are extended small integer and can always fit in a S32, just do a signed comparison.
p0Res = GetIntComparison(context, op.VComp, srcA, srcB, isSigned: true, extended: false);
}
else
{
// TODO: Mismatching sign case.
p0Res = Const(0);
}
}
else
{
// Sign matches, just do a regular comparison.
p0Res = GetIntComparison(context, op.VComp, srcA, srcB, signedA, extended: false);
}
Operand p1Res = context.BitwiseNot(p0Res);
Operand pred = GetPredicate(context, op.SrcPred, op.SrcPredInv);
p0Res = InstEmitAluHelper.GetPredLogicalOp(context, op.BoolOp, p0Res, pred);
p1Res = InstEmitAluHelper.GetPredLogicalOp(context, op.BoolOp, p1Res, pred);
context.Copy(Register(op.DestPred, RegisterType.Predicate), p0Res);
context.Copy(Register(op.DestPredInv, RegisterType.Predicate), p1Res);
}
private static Operand Extend(EmitterContext context, Operand src, VectorSelect type)
{
return type switch
{
VectorSelect.U8B0 => ZeroExtendTo32(context, context.ShiftRightU32(src, Const(0)), 8),
VectorSelect.U8B1 => ZeroExtendTo32(context, context.ShiftRightU32(src, Const(8)), 8),
VectorSelect.U8B2 => ZeroExtendTo32(context, context.ShiftRightU32(src, Const(16)), 8),
VectorSelect.U8B3 => ZeroExtendTo32(context, context.ShiftRightU32(src, Const(24)), 8),
VectorSelect.U16H0 => ZeroExtendTo32(context, context.ShiftRightU32(src, Const(0)), 16),
VectorSelect.U16H1 => ZeroExtendTo32(context, context.ShiftRightU32(src, Const(16)), 16),
VectorSelect.S8B0 => SignExtendTo32(context, context.ShiftRightU32(src, Const(0)), 8),
VectorSelect.S8B1 => SignExtendTo32(context, context.ShiftRightU32(src, Const(8)), 8),
VectorSelect.S8B2 => SignExtendTo32(context, context.ShiftRightU32(src, Const(16)), 8),
VectorSelect.S8B3 => SignExtendTo32(context, context.ShiftRightU32(src, Const(24)), 8),
VectorSelect.S16H0 => SignExtendTo32(context, context.ShiftRightU32(src, Const(0)), 16),
VectorSelect.S16H1 => SignExtendTo32(context, context.ShiftRightU32(src, Const(16)), 16),
_ => src
};
}
}
}