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Ryujinx/ARMeilleure/CodeGen/Arm64/PreAllocator.cs
gdkchan f0562b9c75
CPU: Avoid argument value copies on the JIT (#4484) 
* Minor refactoring of the pre-allocator

* Avoid LoadArgument copies

* PPTC version bump
2023-03-08 23:25:35 +01:00

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using ARMeilleure.CodeGen.RegisterAllocators;
using ARMeilleure.IntermediateRepresentation;
using ARMeilleure.Translation;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using static ARMeilleure.IntermediateRepresentation.Operand.Factory;
using static ARMeilleure.IntermediateRepresentation.Operation.Factory;
namespace ARMeilleure.CodeGen.Arm64
{
static class PreAllocator
{
private class ConstantDict
{
private readonly Dictionary<(ulong, OperandType), Operand> _constants;
public ConstantDict()
{
_constants = new Dictionary<(ulong, OperandType), Operand>();
}
public void Add(ulong value, OperandType type, Operand local)
{
_constants.Add((value, type), local);
}
public bool TryGetValue(ulong value, OperandType type, out Operand local)
{
return _constants.TryGetValue((value, type), out local);
}
}
public static void RunPass(CompilerContext cctx, StackAllocator stackAlloc, out int maxCallArgs)
{
maxCallArgs = -1;
Span<Operation> buffer = default;
Operand[] preservedArgs = new Operand[CallingConvention.GetArgumentsOnRegsCount()];
for (BasicBlock block = cctx.Cfg.Blocks.First; block != null; block = block.ListNext)
{
ConstantDict constants = new ConstantDict();
Operation nextNode;
for (Operation node = block.Operations.First; node != default; node = nextNode)
{
nextNode = node.ListNext;
if (node.Instruction == Instruction.Phi)
{
continue;
}
InsertConstantRegCopies(constants, block.Operations, node);
InsertDestructiveRegCopies(block.Operations, node);
switch (node.Instruction)
{
case Instruction.Call:
// Get the maximum number of arguments used on a call.
// On windows, when a struct is returned from the call,
// we also need to pass the pointer where the struct
// should be written on the first argument.
int argsCount = node.SourcesCount - 1;
if (node.Destination != default && node.Destination.Type == OperandType.V128)
{
argsCount++;
}
if (maxCallArgs < argsCount)
{
maxCallArgs = argsCount;
}
// Copy values to registers expected by the function
// being called, as mandated by the ABI.
InsertCallCopies(constants, block.Operations, node);
break;
case Instruction.CompareAndSwap:
case Instruction.CompareAndSwap16:
case Instruction.CompareAndSwap8:
nextNode = GenerateCompareAndSwap(block.Operations, node);
break;
case Instruction.LoadArgument:
nextNode = InsertLoadArgumentCopy(cctx, ref buffer, block.Operations, preservedArgs, node);
break;
case Instruction.Return:
InsertReturnCopy(block.Operations, node);
break;
case Instruction.Tailcall:
InsertTailcallCopies(constants, block.Operations, stackAlloc, node, node);
break;
}
}
}
}
private static void InsertConstantRegCopies(ConstantDict constants, IntrusiveList<Operation> nodes, Operation node)
{
if (node.SourcesCount == 0 || IsIntrinsicWithConst(node))
{
return;
}
Instruction inst = node.Instruction;
Operand src1 = node.GetSource(0);
Operand src2;
if (src1.Kind == OperandKind.Constant)
{
if (!src1.Type.IsInteger())
{
// Handle non-integer types (FP32, FP64 and V128).
// For instructions without an immediate operand, we do the following:
// - Insert a copy with the constant value (as integer) to a GPR.
// - Insert a copy from the GPR to a XMM register.
// - Replace the constant use with the XMM register.
src1 = AddFloatConstantCopy(constants, nodes, node, src1);
node.SetSource(0, src1);
}
else if (!HasConstSrc1(node, src1.Value))
{
// Handle integer types.
// Most ALU instructions accepts a 32-bits immediate on the second operand.
// We need to ensure the following:
// - If the constant is on operand 1, we need to move it.
// -- But first, we try to swap operand 1 and 2 if the instruction is commutative.
// -- Doing so may allow us to encode the constant as operand 2 and avoid a copy.
// - If the constant is on operand 2, we check if the instruction supports it,
// if not, we also add a copy. 64-bits constants are usually not supported.
if (IsCommutative(node))
{
src2 = node.GetSource(1);
Operand temp = src1;
src1 = src2;
src2 = temp;
node.SetSource(0, src1);
node.SetSource(1, src2);
}
if (src1.Kind == OperandKind.Constant)
{
src1 = AddIntConstantCopy(constants, nodes, node, src1);
node.SetSource(0, src1);
}
}
}
if (node.SourcesCount < 2)
{
return;
}
src2 = node.GetSource(1);
if (src2.Kind == OperandKind.Constant)
{
if (!src2.Type.IsInteger())
{
src2 = AddFloatConstantCopy(constants, nodes, node, src2);
node.SetSource(1, src2);
}
else if (!HasConstSrc2(inst, src2))
{
src2 = AddIntConstantCopy(constants, nodes, node, src2);
node.SetSource(1, src2);
}
}
if (node.SourcesCount < 3 ||
node.Instruction == Instruction.BranchIf ||
node.Instruction == Instruction.Compare ||
node.Instruction == Instruction.VectorInsert ||
node.Instruction == Instruction.VectorInsert16 ||
node.Instruction == Instruction.VectorInsert8)
{
return;
}
for (int srcIndex = 2; srcIndex < node.SourcesCount; srcIndex++)
{
Operand src = node.GetSource(srcIndex);
if (src.Kind == OperandKind.Constant)
{
if (!src.Type.IsInteger())
{
src = AddFloatConstantCopy(constants, nodes, node, src);
node.SetSource(srcIndex, src);
}
else
{
src = AddIntConstantCopy(constants, nodes, node, src);
node.SetSource(srcIndex, src);
}
}
}
}
private static void InsertDestructiveRegCopies(IntrusiveList<Operation> nodes, Operation node)
{
if (node.Destination == default || node.SourcesCount == 0)
{
return;
}
Operand dest = node.Destination;
Operand src1 = node.GetSource(0);
if (IsSameOperandDestSrc1(node) && src1.Kind == OperandKind.LocalVariable)
{
bool useNewLocal = false;
for (int srcIndex = 1; srcIndex < node.SourcesCount; srcIndex++)
{
if (node.GetSource(srcIndex) == dest)
{
useNewLocal = true;
break;
}
}
if (useNewLocal)
{
// Dest is being used as some source already, we need to use a new
// local to store the temporary value, otherwise the value on dest
// local would be overwritten.
Operand temp = Local(dest.Type);
nodes.AddBefore(node, Operation(Instruction.Copy, temp, src1));
node.SetSource(0, temp);
nodes.AddAfter(node, Operation(Instruction.Copy, dest, temp));
node.Destination = temp;
}
else
{
nodes.AddBefore(node, Operation(Instruction.Copy, dest, src1));
node.SetSource(0, dest);
}
}
}
private static void InsertCallCopies(ConstantDict constants, IntrusiveList<Operation> nodes, Operation node)
{
Operation operation = node;
Operand dest = operation.Destination;
List<Operand> sources = new List<Operand>
{
operation.GetSource(0)
};
int argsCount = operation.SourcesCount - 1;
int intMax = CallingConvention.GetArgumentsOnRegsCount();
int vecMax = CallingConvention.GetArgumentsOnRegsCount();
int intCount = 0;
int vecCount = 0;
int stackOffset = 0;
for (int index = 0; index < argsCount; index++)
{
Operand source = operation.GetSource(index + 1);
bool passOnReg;
if (source.Type.IsInteger())
{
passOnReg = intCount < intMax;
}
else if (source.Type == OperandType.V128)
{
passOnReg = intCount + 1 < intMax;
}
else
{
passOnReg = vecCount < vecMax;
}
if (source.Type == OperandType.V128 && passOnReg)
{
// V128 is a struct, we pass each half on a GPR if possible.
Operand argReg = Gpr(CallingConvention.GetIntArgumentRegister(intCount++), OperandType.I64);
Operand argReg2 = Gpr(CallingConvention.GetIntArgumentRegister(intCount++), OperandType.I64);
nodes.AddBefore(node, Operation(Instruction.VectorExtract, argReg, source, Const(0)));
nodes.AddBefore(node, Operation(Instruction.VectorExtract, argReg2, source, Const(1)));
continue;
}
if (passOnReg)
{
Operand argReg = source.Type.IsInteger()
? Gpr(CallingConvention.GetIntArgumentRegister(intCount++), source.Type)
: Xmm(CallingConvention.GetVecArgumentRegister(vecCount++), source.Type);
Operation copyOp = Operation(Instruction.Copy, argReg, source);
InsertConstantRegCopies(constants, nodes, nodes.AddBefore(node, copyOp));
sources.Add(argReg);
}
else
{
Operand offset = Const(stackOffset);
Operation spillOp = Operation(Instruction.SpillArg, default, offset, source);
InsertConstantRegCopies(constants, nodes, nodes.AddBefore(node, spillOp));
stackOffset += source.Type.GetSizeInBytes();
}
}
if (dest != default)
{
if (dest.Type == OperandType.V128)
{
Operand retLReg = Gpr(CallingConvention.GetIntReturnRegister(), OperandType.I64);
Operand retHReg = Gpr(CallingConvention.GetIntReturnRegisterHigh(), OperandType.I64);
node = nodes.AddAfter(node, Operation(Instruction.VectorCreateScalar, dest, retLReg));
nodes.AddAfter(node, Operation(Instruction.VectorInsert, dest, dest, retHReg, Const(1)));
operation.Destination = default;
}
else
{
Operand retReg = dest.Type.IsInteger()
? Gpr(CallingConvention.GetIntReturnRegister(), dest.Type)
: Xmm(CallingConvention.GetVecReturnRegister(), dest.Type);
Operation copyOp = Operation(Instruction.Copy, dest, retReg);
nodes.AddAfter(node, copyOp);
operation.Destination = retReg;
}
}
operation.SetSources(sources.ToArray());
}
private static void InsertTailcallCopies(
ConstantDict constants,
IntrusiveList<Operation> nodes,
StackAllocator stackAlloc,
Operation node,
Operation operation)
{
List<Operand> sources = new List<Operand>
{
operation.GetSource(0)
};
int argsCount = operation.SourcesCount - 1;
int intMax = CallingConvention.GetArgumentsOnRegsCount();
int vecMax = CallingConvention.GetArgumentsOnRegsCount();
int intCount = 0;
int vecCount = 0;
// Handle arguments passed on registers.
for (int index = 0; index < argsCount; index++)
{
Operand source = operation.GetSource(1 + index);
bool passOnReg;
if (source.Type.IsInteger())
{
passOnReg = intCount + 1 < intMax;
}
else
{
passOnReg = vecCount < vecMax;
}
if (source.Type == OperandType.V128 && passOnReg)
{
// V128 is a struct, we pass each half on a GPR if possible.
Operand argReg = Gpr(CallingConvention.GetIntArgumentRegister(intCount++), OperandType.I64);
Operand argReg2 = Gpr(CallingConvention.GetIntArgumentRegister(intCount++), OperandType.I64);
nodes.AddBefore(node, Operation(Instruction.VectorExtract, argReg, source, Const(0)));
nodes.AddBefore(node, Operation(Instruction.VectorExtract, argReg2, source, Const(1)));
continue;
}
if (passOnReg)
{
Operand argReg = source.Type.IsInteger()
? Gpr(CallingConvention.GetIntArgumentRegister(intCount++), source.Type)
: Xmm(CallingConvention.GetVecArgumentRegister(vecCount++), source.Type);
Operation copyOp = Operation(Instruction.Copy, argReg, source);
InsertConstantRegCopies(constants, nodes, nodes.AddBefore(node, copyOp));
sources.Add(argReg);
}
else
{
throw new NotImplementedException("Spilling is not currently supported for tail calls. (too many arguments)");
}
}
// The target address must be on the return registers, since we
// don't return anything and it is guaranteed to not be a
// callee saved register (which would be trashed on the epilogue).
Operand tcAddress = Gpr(CodeGenCommon.TcAddressRegister, OperandType.I64);
Operation addrCopyOp = Operation(Instruction.Copy, tcAddress, operation.GetSource(0));
nodes.AddBefore(node, addrCopyOp);
sources[0] = tcAddress;
operation.SetSources(sources.ToArray());
}
private static Operation GenerateCompareAndSwap(IntrusiveList<Operation> nodes, Operation node)
{
Operand expected = node.GetSource(1);
if (expected.Type == OperandType.V128)
{
Operand dest = node.Destination;
Operand expectedLow = Local(OperandType.I64);
Operand expectedHigh = Local(OperandType.I64);
Operand desiredLow = Local(OperandType.I64);
Operand desiredHigh = Local(OperandType.I64);
Operand actualLow = Local(OperandType.I64);
Operand actualHigh = Local(OperandType.I64);
Operand address = node.GetSource(0);
Operand desired = node.GetSource(2);
void SplitOperand(Operand source, Operand low, Operand high)
{
nodes.AddBefore(node, Operation(Instruction.VectorExtract, low, source, Const(0)));
nodes.AddBefore(node, Operation(Instruction.VectorExtract, high, source, Const(1)));
}
SplitOperand(expected, expectedLow, expectedHigh);
SplitOperand(desired, desiredLow, desiredHigh);
Operation operation = node;
// Update the sources and destinations with split 64-bit halfs of the whole 128-bit values.
// We also need a additional registers that will be used to store temporary information.
operation.SetDestinations(new[] { actualLow, actualHigh, Local(OperandType.I64), Local(OperandType.I64) });
operation.SetSources(new[] { address, expectedLow, expectedHigh, desiredLow, desiredHigh });
// Add some dummy uses of the input operands, as the CAS operation will be a loop,
// so they can't be used as destination operand.
for (int i = 0; i < operation.SourcesCount; i++)
{
Operand src = operation.GetSource(i);
node = nodes.AddAfter(node, Operation(Instruction.Copy, src, src));
}
// Assemble the vector with the 64-bit values at the given memory location.
node = nodes.AddAfter(node, Operation(Instruction.VectorCreateScalar, dest, actualLow));
node = nodes.AddAfter(node, Operation(Instruction.VectorInsert, dest, dest, actualHigh, Const(1)));
}
else
{
// We need a additional register where the store result will be written to.
node.SetDestinations(new[] { node.Destination, Local(OperandType.I32) });
// Add some dummy uses of the input operands, as the CAS operation will be a loop,
// so they can't be used as destination operand.
Operation operation = node;
for (int i = 0; i < operation.SourcesCount; i++)
{
Operand src = operation.GetSource(i);
node = nodes.AddAfter(node, Operation(Instruction.Copy, src, src));
}
}
return node.ListNext;
}
private static void InsertReturnCopy(IntrusiveList<Operation> nodes, Operation node)
{
if (node.SourcesCount == 0)
{
return;
}
Operand source = node.GetSource(0);
if (source.Type == OperandType.V128)
{
Operand retLReg = Gpr(CallingConvention.GetIntReturnRegister(), OperandType.I64);
Operand retHReg = Gpr(CallingConvention.GetIntReturnRegisterHigh(), OperandType.I64);
nodes.AddBefore(node, Operation(Instruction.VectorExtract, retLReg, source, Const(0)));
nodes.AddBefore(node, Operation(Instruction.VectorExtract, retHReg, source, Const(1)));
}
else
{
Operand retReg = source.Type.IsInteger()
? Gpr(CallingConvention.GetIntReturnRegister(), source.Type)
: Xmm(CallingConvention.GetVecReturnRegister(), source.Type);
Operation retCopyOp = Operation(Instruction.Copy, retReg, source);
nodes.AddBefore(node, retCopyOp);
}
}
private static Operation InsertLoadArgumentCopy(
CompilerContext cctx,
ref Span<Operation> buffer,
IntrusiveList<Operation> nodes,
Operand[] preservedArgs,
Operation node)
{
Operand source = node.GetSource(0);
Debug.Assert(source.Kind == OperandKind.Constant, "Non-constant LoadArgument source kind.");
int index = source.AsInt32();
int intCount = 0;
int vecCount = 0;
for (int cIndex = 0; cIndex < index; cIndex++)
{
OperandType argType = cctx.FuncArgTypes[cIndex];
if (argType.IsInteger())
{
intCount++;
}
else if (argType == OperandType.V128)
{
intCount += 2;
}
else
{
vecCount++;
}
}
bool passOnReg;
if (source.Type.IsInteger())
{
passOnReg = intCount < CallingConvention.GetArgumentsOnRegsCount();
}
else if (source.Type == OperandType.V128)
{
passOnReg = intCount + 1 < CallingConvention.GetArgumentsOnRegsCount();
}
else
{
passOnReg = vecCount < CallingConvention.GetArgumentsOnRegsCount();
}
if (passOnReg)
{
Operand dest = node.Destination;
if (preservedArgs[index] == default)
{
if (dest.Type == OperandType.V128)
{
// V128 is a struct, we pass each half on a GPR if possible.
Operand pArg = Local(OperandType.V128);
Operand argLReg = Gpr(CallingConvention.GetIntArgumentRegister(intCount), OperandType.I64);
Operand argHReg = Gpr(CallingConvention.GetIntArgumentRegister(intCount + 1), OperandType.I64);
Operation copyL = Operation(Instruction.VectorCreateScalar, pArg, argLReg);
Operation copyH = Operation(Instruction.VectorInsert, pArg, pArg, argHReg, Const(1));
cctx.Cfg.Entry.Operations.AddFirst(copyH);
cctx.Cfg.Entry.Operations.AddFirst(copyL);
preservedArgs[index] = pArg;
}
else
{
Operand pArg = Local(dest.Type);
Operand argReg = dest.Type.IsInteger()
? Gpr(CallingConvention.GetIntArgumentRegister(intCount), dest.Type)
: Xmm(CallingConvention.GetVecArgumentRegister(vecCount), dest.Type);
Operation copyOp = Operation(Instruction.Copy, pArg, argReg);
cctx.Cfg.Entry.Operations.AddFirst(copyOp);
preservedArgs[index] = pArg;
}
}
Operation nextNode;
if (dest.AssignmentsCount == 1)
{
// Let's propagate the argument if we can to avoid copies.
PreAllocatorCommon.Propagate(ref buffer, dest, preservedArgs[index]);
nextNode = node.ListNext;
}
else
{
Operation argCopyOp = Operation(Instruction.Copy, dest, preservedArgs[index]);
nextNode = nodes.AddBefore(node, argCopyOp);
}
Delete(nodes, node);
return nextNode;
}
else
{
// TODO: Pass on stack.
return node;
}
}
private static Operand AddFloatConstantCopy(
ConstantDict constants,
IntrusiveList<Operation> nodes,
Operation node,
Operand source)
{
Operand temp = Local(source.Type);
Operand intConst = AddIntConstantCopy(constants, nodes, node, GetIntConst(source));
Operation copyOp = Operation(Instruction.VectorCreateScalar, temp, intConst);
nodes.AddBefore(node, copyOp);
return temp;
}
private static Operand AddIntConstantCopy(
ConstantDict constants,
IntrusiveList<Operation> nodes,
Operation node,
Operand source)
{
if (constants.TryGetValue(source.Value, source.Type, out Operand temp))
{
return temp;
}
temp = Local(source.Type);
Operation copyOp = Operation(Instruction.Copy, temp, source);
nodes.AddBefore(node, copyOp);
constants.Add(source.Value, source.Type, temp);
return temp;
}
private static Operand GetIntConst(Operand value)
{
if (value.Type == OperandType.FP32)
{
return Const(value.AsInt32());
}
else if (value.Type == OperandType.FP64)
{
return Const(value.AsInt64());
}
return value;
}
private static void Delete(IntrusiveList<Operation> nodes, Operation node)
{
node.Destination = default;
for (int index = 0; index < node.SourcesCount; index++)
{
node.SetSource(index, default);
}
nodes.Remove(node);
}
private static Operand Gpr(int register, OperandType type)
{
return Register(register, RegisterType.Integer, type);
}
private static Operand Xmm(int register, OperandType type)
{
return Register(register, RegisterType.Vector, type);
}
private static bool IsSameOperandDestSrc1(Operation operation)
{
switch (operation.Instruction)
{
case Instruction.Extended:
return IsSameOperandDestSrc1(operation.Intrinsic);
case Instruction.VectorInsert:
case Instruction.VectorInsert16:
case Instruction.VectorInsert8:
return true;
}
return false;
}
private static bool IsSameOperandDestSrc1(Intrinsic intrinsic)
{
IntrinsicInfo info = IntrinsicTable.GetInfo(intrinsic & ~(Intrinsic.Arm64VTypeMask | Intrinsic.Arm64VSizeMask));
return info.Type == IntrinsicType.ScalarBinaryRd ||
info.Type == IntrinsicType.ScalarTernaryFPRdByElem ||
info.Type == IntrinsicType.ScalarTernaryShlRd ||
info.Type == IntrinsicType.ScalarTernaryShrRd ||
info.Type == IntrinsicType.VectorBinaryRd ||
info.Type == IntrinsicType.VectorInsertByElem ||
info.Type == IntrinsicType.VectorTernaryRd ||
info.Type == IntrinsicType.VectorTernaryRdBitwise ||
info.Type == IntrinsicType.VectorTernaryFPRdByElem ||
info.Type == IntrinsicType.VectorTernaryRdByElem ||
info.Type == IntrinsicType.VectorTernaryShlRd ||
info.Type == IntrinsicType.VectorTernaryShrRd;
}
private static bool HasConstSrc1(Operation node, ulong value)
{
switch (node.Instruction)
{
case Instruction.Add:
case Instruction.BranchIf:
case Instruction.Compare:
case Instruction.Subtract:
// The immediate encoding of those instructions does not allow Rn to be
// XZR (it will be SP instead), so we can't allow a Rn constant in this case.
return value == 0 && NotConstOrConst0(node.GetSource(1));
case Instruction.BitwiseAnd:
case Instruction.BitwiseExclusiveOr:
case Instruction.BitwiseNot:
case Instruction.BitwiseOr:
case Instruction.ByteSwap:
case Instruction.CountLeadingZeros:
case Instruction.Multiply:
case Instruction.Negate:
case Instruction.RotateRight:
case Instruction.ShiftLeft:
case Instruction.ShiftRightSI:
case Instruction.ShiftRightUI:
return value == 0;
case Instruction.Copy:
case Instruction.LoadArgument:
case Instruction.Spill:
case Instruction.SpillArg:
return true;
case Instruction.Extended:
return value == 0;
}
return false;
}
private static bool NotConstOrConst0(Operand operand)
{
return operand.Kind != OperandKind.Constant || operand.Value == 0;
}
private static bool HasConstSrc2(Instruction inst, Operand operand)
{
ulong value = operand.Value;
switch (inst)
{
case Instruction.Add:
case Instruction.BranchIf:
case Instruction.Compare:
case Instruction.Subtract:
return ConstFitsOnUImm12Sh(value);
case Instruction.BitwiseAnd:
case Instruction.BitwiseExclusiveOr:
case Instruction.BitwiseOr:
return value == 0 || CodeGenCommon.TryEncodeBitMask(operand, out _, out _, out _);
case Instruction.Multiply:
case Instruction.Store:
case Instruction.Store16:
case Instruction.Store8:
return value == 0;
case Instruction.RotateRight:
case Instruction.ShiftLeft:
case Instruction.ShiftRightSI:
case Instruction.ShiftRightUI:
case Instruction.VectorExtract:
case Instruction.VectorExtract16:
case Instruction.VectorExtract8:
return true;
case Instruction.Extended:
// TODO: Check if actual intrinsic is supposed to have consts here?
// Right now we only hit this case for fixed-point int <-> FP conversion instructions.
return true;
}
return false;
}
private static bool IsCommutative(Operation operation)
{
switch (operation.Instruction)
{
case Instruction.Add:
case Instruction.BitwiseAnd:
case Instruction.BitwiseExclusiveOr:
case Instruction.BitwiseOr:
case Instruction.Multiply:
return true;
case Instruction.BranchIf:
case Instruction.Compare:
{
Operand comp = operation.GetSource(2);
Debug.Assert(comp.Kind == OperandKind.Constant);
var compType = (Comparison)comp.AsInt32();
return compType == Comparison.Equal || compType == Comparison.NotEqual;
}
}
return false;
}
private static bool ConstFitsOnUImm12Sh(ulong value)
{
return (value & ~0xfffUL) == 0 || (value & ~0xfff000UL) == 0;
}
private static bool IsIntrinsicWithConst(Operation operation)
{
bool isIntrinsic = IsIntrinsic(operation.Instruction);
if (isIntrinsic)
{
Intrinsic intrinsic = operation.Intrinsic;
IntrinsicInfo info = IntrinsicTable.GetInfo(intrinsic & ~(Intrinsic.Arm64VTypeMask | Intrinsic.Arm64VSizeMask));
// Those have integer inputs that don't support consts.
return info.Type != IntrinsicType.ScalarFPConvGpr &&
info.Type != IntrinsicType.ScalarFPConvFixedGpr &&
info.Type != IntrinsicType.SetRegister;
}
return false;
}
private static bool IsIntrinsic(Instruction inst)
{
return inst == Instruction.Extended;
}
}
}
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