1
0
Fork 0
mirror of https://github.com/Ryujinx/Ryujinx.git synced 2024-11-30 11:02:03 +00:00
Ryujinx/ChocolArm64/Translation/ILEmitterCtx.cs
gdkchan 36e8e074c9
Misc. CPU improvements (#519)
* Fix and simplify TranslatorCache

* Fix some assignment alignments, remove some unused usings

* Changes to ILEmitter, separate it from ILEmitterCtx

* Rename ILEmitter to ILMethodBuilder

* Rename LdrLit and *_Fix opcodes

* Revert TranslatorCache impl to the more performant one, fix a few issues with it

* Allow EmitOpCode to be called even after everything has been emitted

* Make Emit and AdvanceOpCode private, simplify it a bit now that it starts emiting from the entry point

* Remove unneeded temp use

* Add missing exit call on TestExclusive

* Use better hash

* Implement the == and != operators
2018-12-10 22:58:52 -02:00

633 lines
17 KiB
C#

using ChocolArm64.Decoders;
using ChocolArm64.Instructions;
using ChocolArm64.State;
using System;
using System.Collections.Generic;
using System.Reflection;
using System.Reflection.Emit;
namespace ChocolArm64.Translation
{
class ILEmitterCtx
{
private TranslatorCache _cache;
private Dictionary<long, ILLabel> _labels;
private long _subPosition;
private int _opcIndex;
private Block _currBlock;
public Block CurrBlock => _currBlock;
public OpCode64 CurrOp => _currBlock?.OpCodes[_opcIndex];
private Dictionary<Block, ILBlock> _visitedBlocks;
private Queue<Block> _branchTargets;
private List<ILBlock> _ilBlocks;
private ILBlock _ilBlock;
private OpCode64 _optOpLastCompare;
private OpCode64 _optOpLastFlagSet;
//This is the index of the temporary register, used to store temporary
//values needed by some functions, since IL doesn't have a swap instruction.
//You can use any value here as long it doesn't conflict with the indices
//for the other registers. Any value >= 64 or < 0 will do.
private const int IntTmpIndex = -1;
private const int RorTmpIndex = -2;
private const int CmpOptTmp1Index = -3;
private const int CmpOptTmp2Index = -4;
private const int VecTmp1Index = -5;
private const int VecTmp2Index = -6;
public ILEmitterCtx(TranslatorCache cache, Block graph)
{
_cache = cache ?? throw new ArgumentNullException(nameof(cache));
_currBlock = graph ?? throw new ArgumentNullException(nameof(graph));
_labels = new Dictionary<long, ILLabel>();
_visitedBlocks = new Dictionary<Block, ILBlock>();
_visitedBlocks.Add(graph, new ILBlock());
_branchTargets = new Queue<Block>();
_ilBlocks = new List<ILBlock>();
_subPosition = graph.Position;
ResetBlockState();
AdvanceOpCode();
}
public ILBlock[] GetILBlocks()
{
EmitAllOpCodes();
return _ilBlocks.ToArray();
}
private void EmitAllOpCodes()
{
do
{
EmitOpCode();
}
while (AdvanceOpCode());
}
private void EmitOpCode()
{
if (_currBlock == null)
{
return;
}
if (_opcIndex == 0)
{
MarkLabel(GetLabel(_currBlock.Position));
EmitSynchronization();
}
CurrOp.Emitter(this);
_ilBlock.Add(new ILBarrier());
}
private void EmitSynchronization()
{
EmitLdarg(TranslatedSub.StateArgIdx);
EmitLdc_I4(_currBlock.OpCodes.Count);
EmitPrivateCall(typeof(CpuThreadState), nameof(CpuThreadState.Synchronize));
EmitLdc_I4(0);
ILLabel lblContinue = new ILLabel();
Emit(OpCodes.Bne_Un_S, lblContinue);
EmitLdc_I8(0);
Emit(OpCodes.Ret);
MarkLabel(lblContinue);
}
private bool AdvanceOpCode()
{
if (_currBlock == null)
{
return false;
}
while (++_opcIndex >= _currBlock.OpCodes.Count)
{
if (!AdvanceBlock())
{
return false;
}
ResetBlockState();
}
return true;
}
private bool AdvanceBlock()
{
if (_currBlock.Branch != null)
{
if (_visitedBlocks.TryAdd(_currBlock.Branch, _ilBlock.Branch))
{
_branchTargets.Enqueue(_currBlock.Branch);
}
}
if (_currBlock.Next != null)
{
if (_visitedBlocks.TryAdd(_currBlock.Next, _ilBlock.Next))
{
_currBlock = _currBlock.Next;
return true;
}
else
{
Emit(OpCodes.Br, GetLabel(_currBlock.Next.Position));
}
}
return _branchTargets.TryDequeue(out _currBlock);
}
private void ResetBlockState()
{
_ilBlock = _visitedBlocks[_currBlock];
_ilBlocks.Add(_ilBlock);
_ilBlock.Next = GetOrCreateILBlock(_currBlock.Next);
_ilBlock.Branch = GetOrCreateILBlock(_currBlock.Branch);
_opcIndex = -1;
_optOpLastFlagSet = null;
_optOpLastCompare = null;
}
private ILBlock GetOrCreateILBlock(Block block)
{
if (block == null)
{
return null;
}
if (_visitedBlocks.TryGetValue(block, out ILBlock ilBlock))
{
return ilBlock;
}
return new ILBlock();
}
public bool TryOptEmitSubroutineCall()
{
if (_currBlock.Next == null)
{
return false;
}
if (CurrOp.Emitter != InstEmit.Bl)
{
return false;
}
if (!_cache.TryGetSubroutine(((OpCodeBImmAl64)CurrOp).Imm, out TranslatedSub subroutine))
{
return false;
}
for (int index = 0; index < TranslatedSub.FixedArgTypes.Length; index++)
{
EmitLdarg(index);
}
foreach (Register reg in subroutine.SubArgs)
{
switch (reg.Type)
{
case RegisterType.Flag: Ldloc(reg.Index, IoType.Flag); break;
case RegisterType.Int: Ldloc(reg.Index, IoType.Int); break;
case RegisterType.Vector: Ldloc(reg.Index, IoType.Vector); break;
}
}
EmitCall(subroutine.Method);
subroutine.AddCaller(_subPosition);
return true;
}
public void TryOptMarkCondWithoutCmp()
{
_optOpLastCompare = CurrOp;
InstEmitAluHelper.EmitDataLoadOpers(this);
Stloc(CmpOptTmp2Index, IoType.Int);
Stloc(CmpOptTmp1Index, IoType.Int);
}
private Dictionary<Cond, OpCode> _branchOps = new Dictionary<Cond, OpCode>()
{
{ Cond.Eq, OpCodes.Beq },
{ Cond.Ne, OpCodes.Bne_Un },
{ Cond.GeUn, OpCodes.Bge_Un },
{ Cond.LtUn, OpCodes.Blt_Un },
{ Cond.GtUn, OpCodes.Bgt_Un },
{ Cond.LeUn, OpCodes.Ble_Un },
{ Cond.Ge, OpCodes.Bge },
{ Cond.Lt, OpCodes.Blt },
{ Cond.Gt, OpCodes.Bgt },
{ Cond.Le, OpCodes.Ble }
};
public void EmitCondBranch(ILLabel target, Cond cond)
{
OpCode ilOp;
int intCond = (int)cond;
if (_optOpLastCompare != null &&
_optOpLastCompare == _optOpLastFlagSet && _branchOps.ContainsKey(cond))
{
Ldloc(CmpOptTmp1Index, IoType.Int, _optOpLastCompare.RegisterSize);
Ldloc(CmpOptTmp2Index, IoType.Int, _optOpLastCompare.RegisterSize);
ilOp = _branchOps[cond];
}
else if (intCond < 14)
{
int condTrue = intCond >> 1;
switch (condTrue)
{
case 0: EmitLdflg((int)PState.ZBit); break;
case 1: EmitLdflg((int)PState.CBit); break;
case 2: EmitLdflg((int)PState.NBit); break;
case 3: EmitLdflg((int)PState.VBit); break;
case 4:
EmitLdflg((int)PState.CBit);
EmitLdflg((int)PState.ZBit);
Emit(OpCodes.Not);
Emit(OpCodes.And);
break;
case 5:
case 6:
EmitLdflg((int)PState.NBit);
EmitLdflg((int)PState.VBit);
Emit(OpCodes.Ceq);
if (condTrue == 6)
{
EmitLdflg((int)PState.ZBit);
Emit(OpCodes.Not);
Emit(OpCodes.And);
}
break;
}
ilOp = (intCond & 1) != 0
? OpCodes.Brfalse
: OpCodes.Brtrue;
}
else
{
ilOp = OpCodes.Br;
}
Emit(ilOp, target);
}
public void EmitCast(IntType intType)
{
switch (intType)
{
case IntType.UInt8: Emit(OpCodes.Conv_U1); break;
case IntType.UInt16: Emit(OpCodes.Conv_U2); break;
case IntType.UInt32: Emit(OpCodes.Conv_U4); break;
case IntType.UInt64: Emit(OpCodes.Conv_U8); break;
case IntType.Int8: Emit(OpCodes.Conv_I1); break;
case IntType.Int16: Emit(OpCodes.Conv_I2); break;
case IntType.Int32: Emit(OpCodes.Conv_I4); break;
case IntType.Int64: Emit(OpCodes.Conv_I8); break;
}
bool sz64 = CurrOp.RegisterSize != RegisterSize.Int32;
if (sz64 == (intType == IntType.UInt64 ||
intType == IntType.Int64))
{
return;
}
if (sz64)
{
Emit(intType >= IntType.Int8
? OpCodes.Conv_I8
: OpCodes.Conv_U8);
}
else
{
Emit(OpCodes.Conv_U4);
}
}
public void EmitLsl(int amount) => EmitILShift(amount, OpCodes.Shl);
public void EmitLsr(int amount) => EmitILShift(amount, OpCodes.Shr_Un);
public void EmitAsr(int amount) => EmitILShift(amount, OpCodes.Shr);
private void EmitILShift(int amount, OpCode ilOp)
{
if (amount > 0)
{
EmitLdc_I4(amount);
Emit(ilOp);
}
}
public void EmitRor(int amount)
{
if (amount > 0)
{
Stloc(RorTmpIndex, IoType.Int);
Ldloc(RorTmpIndex, IoType.Int);
EmitLdc_I4(amount);
Emit(OpCodes.Shr_Un);
Ldloc(RorTmpIndex, IoType.Int);
EmitLdc_I4(CurrOp.GetBitsCount() - amount);
Emit(OpCodes.Shl);
Emit(OpCodes.Or);
}
}
public ILLabel GetLabel(long position)
{
if (!_labels.TryGetValue(position, out ILLabel output))
{
output = new ILLabel();
_labels.Add(position, output);
}
return output;
}
public void MarkLabel(ILLabel label)
{
_ilBlock.Add(label);
}
public void Emit(OpCode ilOp)
{
_ilBlock.Add(new ILOpCode(ilOp));
}
public void Emit(OpCode ilOp, ILLabel label)
{
_ilBlock.Add(new ILOpCodeBranch(ilOp, label));
}
public void Emit(string text)
{
_ilBlock.Add(new ILOpCodeLog(text));
}
public void EmitLdarg(int index)
{
_ilBlock.Add(new ILOpCodeLoad(index, IoType.Arg));
}
public void EmitLdintzr(int index)
{
if (index != CpuThreadState.ZrIndex)
{
EmitLdint(index);
}
else
{
EmitLdc_I(0);
}
}
public void EmitStintzr(int index)
{
if (index != CpuThreadState.ZrIndex)
{
EmitStint(index);
}
else
{
Emit(OpCodes.Pop);
}
}
public void EmitLoadState()
{
if (_ilBlock.Next == null)
{
throw new InvalidOperationException("Can't load state for next block, because there's no next block.");
}
_ilBlock.Add(new ILOpCodeLoadState(_ilBlock.Next));
}
public void EmitStoreState()
{
_ilBlock.Add(new ILOpCodeStoreState(_ilBlock));
}
public void EmitLdtmp() => EmitLdint(IntTmpIndex);
public void EmitSttmp() => EmitStint(IntTmpIndex);
public void EmitLdvectmp() => EmitLdvec(VecTmp1Index);
public void EmitStvectmp() => EmitStvec(VecTmp1Index);
public void EmitLdvectmp2() => EmitLdvec(VecTmp2Index);
public void EmitStvectmp2() => EmitStvec(VecTmp2Index);
public void EmitLdint(int index) => Ldloc(index, IoType.Int);
public void EmitStint(int index) => Stloc(index, IoType.Int);
public void EmitLdvec(int index) => Ldloc(index, IoType.Vector);
public void EmitStvec(int index) => Stloc(index, IoType.Vector);
public void EmitLdflg(int index) => Ldloc(index, IoType.Flag);
public void EmitStflg(int index)
{
_optOpLastFlagSet = CurrOp;
Stloc(index, IoType.Flag);
}
private void Ldloc(int index, IoType ioType)
{
_ilBlock.Add(new ILOpCodeLoad(index, ioType, CurrOp.RegisterSize));
}
private void Ldloc(int index, IoType ioType, RegisterSize registerSize)
{
_ilBlock.Add(new ILOpCodeLoad(index, ioType, registerSize));
}
private void Stloc(int index, IoType ioType)
{
_ilBlock.Add(new ILOpCodeStore(index, ioType, CurrOp.RegisterSize));
}
public void EmitCallPropGet(Type objType, string propName)
{
if (objType == null)
{
throw new ArgumentNullException(nameof(objType));
}
if (propName == null)
{
throw new ArgumentNullException(nameof(propName));
}
EmitCall(objType.GetMethod($"get_{propName}"));
}
public void EmitCallPropSet(Type objType, string propName)
{
if (objType == null)
{
throw new ArgumentNullException(nameof(objType));
}
if (propName == null)
{
throw new ArgumentNullException(nameof(propName));
}
EmitCall(objType.GetMethod($"set_{propName}"));
}
public void EmitCall(Type objType, string mthdName)
{
if (objType == null)
{
throw new ArgumentNullException(nameof(objType));
}
if (mthdName == null)
{
throw new ArgumentNullException(nameof(mthdName));
}
EmitCall(objType.GetMethod(mthdName));
}
public void EmitPrivateCall(Type objType, string mthdName)
{
if (objType == null)
{
throw new ArgumentNullException(nameof(objType));
}
if (mthdName == null)
{
throw new ArgumentNullException(nameof(mthdName));
}
EmitCall(objType.GetMethod(mthdName, BindingFlags.Instance | BindingFlags.NonPublic));
}
public void EmitCall(MethodInfo mthdInfo)
{
if (mthdInfo == null)
{
throw new ArgumentNullException(nameof(mthdInfo));
}
_ilBlock.Add(new ILOpCodeCall(mthdInfo));
}
public void EmitLdc_I(long value)
{
if (CurrOp.RegisterSize == RegisterSize.Int32)
{
EmitLdc_I4((int)value);
}
else
{
EmitLdc_I8(value);
}
}
public void EmitLdc_I4(int value)
{
_ilBlock.Add(new ILOpCodeConst(value));
}
public void EmitLdc_I8(long value)
{
_ilBlock.Add(new ILOpCodeConst(value));
}
public void EmitLdc_R4(float value)
{
_ilBlock.Add(new ILOpCodeConst(value));
}
public void EmitLdc_R8(double value)
{
_ilBlock.Add(new ILOpCodeConst(value));
}
public void EmitZnFlagCheck()
{
EmitZnCheck(OpCodes.Ceq, (int)PState.ZBit);
EmitZnCheck(OpCodes.Clt, (int)PState.NBit);
}
private void EmitZnCheck(OpCode ilCmpOp, int flag)
{
Emit(OpCodes.Dup);
Emit(OpCodes.Ldc_I4_0);
if (CurrOp.RegisterSize != RegisterSize.Int32)
{
Emit(OpCodes.Conv_I8);
}
Emit(ilCmpOp);
EmitStflg(flag);
}
}
}