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* ARMeilleure: Respect Fz flag for all floating point operations. This is a change in strategy for emulating the Fz FPCR flag. Before, it was set before instructions that "needed it" and reset after. However, this missed a few hot instructions like the multiplication instruction, and the entirety of A32. The new strategy is to set the Fz flag only in the following circumstances: - Set to match FPCR before translated functions/loop are executed. - Reset when calling SoftFloat methods, set when returning. - Reset when exiting execution. This allows us to remove the code around the existing Fz aware instructions, and get the accuracy benefits on all floating point instructions executed while in translated code. Single step executions now need to be called with a context wrapper - right now it just contains the Fz flag initialization, and won't actually do anything on ARM. This fixes a bug in Breath of the Wild where some physics interactions could randomly crash the game due to subnormal values not flushing to zero. This is draft right now because I need to answer the questions: - Does dotnet avoid changing the value of Mxcsr? - Is it a good idea to assume that? Or should the flag set/restore be done on every managed method call, not just softfloat? - If we assume that, do we want a unit test to verify the behaviour? I recommend testing a bunch of games, especially games affected when this was originally added, such as #1611. * Remove unused method * Use FMA for Fmadd, Fmsub, Fnmadd, Fnmsub, Fmla, Fmls ...when available. Similar implementation to A32 * Use FMA for Frecps, Frsqrts * Don't set DAZ. * Add round mode to ARM FP mode * Fix mistakes * Add test for FP state when calling managed methods * Add explanatory comment to test. * Cleanup * Add A64 FPCR flags * Vrintx_S A32 fast path on A64 backend * Address feedback 1, re-enable DAZ * Fix FMA instructions By Elem * Address feedback
282 lines
No EOL
9 KiB
C#
282 lines
No EOL
9 KiB
C#
using ARMeilleure.CodeGen.Linking;
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using ARMeilleure.Common;
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using ARMeilleure.Decoders;
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using ARMeilleure.Diagnostics;
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using ARMeilleure.Instructions;
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using ARMeilleure.IntermediateRepresentation;
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using ARMeilleure.Memory;
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using ARMeilleure.State;
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using System;
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using System.Collections.Generic;
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using System.Reflection;
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using static ARMeilleure.IntermediateRepresentation.Operand.Factory;
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namespace ARMeilleure.Translation
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{
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class ArmEmitterContext : EmitterContext
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{
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private readonly Dictionary<ulong, Operand> _labels;
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private OpCode _optOpLastCompare;
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private OpCode _optOpLastFlagSet;
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private Operand _optCmpTempN;
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private Operand _optCmpTempM;
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private Block _currBlock;
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public Block CurrBlock
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{
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get
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{
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return _currBlock;
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}
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set
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{
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_currBlock = value;
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ResetBlockState();
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}
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}
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private bool _pendingQcFlagSync;
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public OpCode CurrOp { get; set; }
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public IMemoryManager Memory { get; }
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public EntryTable<uint> CountTable { get; }
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public AddressTable<ulong> FunctionTable { get; }
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public TranslatorStubs Stubs { get; }
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public ulong EntryAddress { get; }
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public bool HighCq { get; }
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public bool HasPtc { get; }
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public Aarch32Mode Mode { get; }
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private int _ifThenBlockStateIndex = 0;
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private Condition[] _ifThenBlockState = { };
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public bool IsInIfThenBlock => _ifThenBlockStateIndex < _ifThenBlockState.Length;
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public Condition CurrentIfThenBlockCond => _ifThenBlockState[_ifThenBlockStateIndex];
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public ArmEmitterContext(
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IMemoryManager memory,
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EntryTable<uint> countTable,
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AddressTable<ulong> funcTable,
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TranslatorStubs stubs,
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ulong entryAddress,
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bool highCq,
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bool hasPtc,
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Aarch32Mode mode)
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{
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Memory = memory;
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CountTable = countTable;
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FunctionTable = funcTable;
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Stubs = stubs;
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EntryAddress = entryAddress;
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HighCq = highCq;
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HasPtc = hasPtc;
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Mode = mode;
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_labels = new Dictionary<ulong, Operand>();
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}
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public override Operand Call(MethodInfo info, params Operand[] callArgs)
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{
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SyncQcFlag();
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if (!HasPtc)
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{
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return base.Call(info, callArgs);
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}
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else
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{
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int index = Delegates.GetDelegateIndex(info);
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IntPtr funcPtr = Delegates.GetDelegateFuncPtrByIndex(index);
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OperandType returnType = GetOperandType(info.ReturnType);
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Symbol symbol = new Symbol(SymbolType.DelegateTable, (ulong)index);
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Symbols.Add((ulong)funcPtr.ToInt64(), info.Name);
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return Call(Const(funcPtr.ToInt64(), symbol), returnType, callArgs);
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}
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}
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public Operand GetLabel(ulong address)
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{
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if (!_labels.TryGetValue(address, out Operand label))
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{
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label = Label();
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_labels.Add(address, label);
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}
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return label;
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}
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public void MarkComparison(Operand n, Operand m)
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{
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_optOpLastCompare = CurrOp;
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_optCmpTempN = Copy(n);
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_optCmpTempM = Copy(m);
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}
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public void MarkFlagSet(PState stateFlag)
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{
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// Set this only if any of the NZCV flag bits were modified.
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// This is used to ensure that when emiting a direct IL branch
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// instruction for compare + branch sequences, we're not expecting
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// to use comparison values from an old instruction, when in fact
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// the flags were already overwritten by another instruction further along.
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if (stateFlag >= PState.VFlag)
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{
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_optOpLastFlagSet = CurrOp;
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}
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}
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private void ResetBlockState()
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{
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_optOpLastCompare = null;
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_optOpLastFlagSet = null;
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}
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public void SetPendingQcFlagSync()
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{
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_pendingQcFlagSync = true;
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}
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public void SyncQcFlag()
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{
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if (_pendingQcFlagSync)
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{
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if (Optimizations.UseAdvSimd)
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{
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Operand fpsr = AddIntrinsicInt(Intrinsic.Arm64MrsFpsr);
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uint qcFlagMask = (uint)FPSR.Qc;
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Operand qcClearLabel = Label();
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BranchIfFalse(qcClearLabel, BitwiseAnd(fpsr, Const(qcFlagMask)));
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AddIntrinsicNoRet(Intrinsic.Arm64MsrFpsr, Const(0));
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InstEmitHelper.SetFpFlag(this, FPState.QcFlag, Const(1));
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MarkLabel(qcClearLabel);
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}
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_pendingQcFlagSync = false;
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}
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}
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public void ClearQcFlag()
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{
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if (Optimizations.UseAdvSimd)
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{
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AddIntrinsicNoRet(Intrinsic.Arm64MsrFpsr, Const(0));
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}
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}
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public void ClearQcFlagIfModified()
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{
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if (_pendingQcFlagSync && Optimizations.UseAdvSimd)
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{
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AddIntrinsicNoRet(Intrinsic.Arm64MsrFpsr, Const(0));
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}
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}
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public void EnterArmFpMode()
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{
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InstEmitSimdHelper.EnterArmFpMode(this, InstEmitHelper.GetFpFlag);
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}
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public void UpdateArmFpMode()
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{
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EnterArmFpMode();
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}
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public void ExitArmFpMode()
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{
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InstEmitSimdHelper.ExitArmFpMode(this, (flag, value) => InstEmitHelper.SetFpFlag(this, flag, value));
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}
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public Operand TryGetComparisonResult(Condition condition)
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{
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if (_optOpLastCompare == null || _optOpLastCompare != _optOpLastFlagSet)
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{
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return default;
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}
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Operand n = _optCmpTempN;
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Operand m = _optCmpTempM;
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InstName cmpName = _optOpLastCompare.Instruction.Name;
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if (cmpName == InstName.Subs)
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{
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switch (condition)
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{
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case Condition.Eq: return ICompareEqual (n, m);
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case Condition.Ne: return ICompareNotEqual (n, m);
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case Condition.GeUn: return ICompareGreaterOrEqualUI(n, m);
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case Condition.LtUn: return ICompareLessUI (n, m);
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case Condition.GtUn: return ICompareGreaterUI (n, m);
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case Condition.LeUn: return ICompareLessOrEqualUI (n, m);
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case Condition.Ge: return ICompareGreaterOrEqual (n, m);
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case Condition.Lt: return ICompareLess (n, m);
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case Condition.Gt: return ICompareGreater (n, m);
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case Condition.Le: return ICompareLessOrEqual (n, m);
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}
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}
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else if (cmpName == InstName.Adds && _optOpLastCompare is IOpCodeAluImm op)
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{
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// There are several limitations that needs to be taken into account for CMN comparisons:
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// - The unsigned comparisons are not valid, as they depend on the
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// carry flag value, and they will have different values for addition and
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// subtraction. For addition, it's carry, and for subtraction, it's borrow.
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// So, we need to make sure we're not doing a unsigned compare for the CMN case.
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// - We can only do the optimization for the immediate variants,
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// because when the second operand value is exactly INT_MIN, we can't
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// negate the value as theres no positive counterpart.
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// Such invalid values can't be encoded on the immediate encodings.
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if (op.RegisterSize == RegisterSize.Int32)
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{
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m = Const((int)-op.Immediate);
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}
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else
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{
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m = Const(-op.Immediate);
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}
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switch (condition)
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{
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case Condition.Eq: return ICompareEqual (n, m);
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case Condition.Ne: return ICompareNotEqual (n, m);
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case Condition.Ge: return ICompareGreaterOrEqual(n, m);
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case Condition.Lt: return ICompareLess (n, m);
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case Condition.Gt: return ICompareGreater (n, m);
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case Condition.Le: return ICompareLessOrEqual (n, m);
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}
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}
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return default;
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}
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public void SetIfThenBlockState(Condition[] state)
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{
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_ifThenBlockState = state;
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_ifThenBlockStateIndex = 0;
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}
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public void AdvanceIfThenBlockState()
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{
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if (IsInIfThenBlock)
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{
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_ifThenBlockStateIndex++;
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}
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}
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}
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} |