public int ElementCount => elementSize == size ? 1 : size / elementSize; // ElementSize can be 0 so we don't divide by it if es == s
/// <summary>
/// Constructor
/// </summary>
/// <param name="memorySize">Memory size value</param>
/// <param name="size">Size of location</param>
/// <param name="elementSize">Size of the packed element, or <paramref name="size"/> if it's not packed data</param>
/// <param name="elementType">Element type if it's packed data or <paramref name="memorySize"/> if it's not packed data</param>
/// <param name="isSigned"><see langword="true"/> if signed data</param>
/// <param name="isBroadcast"><see langword="true"/> if broadcast</param>
public MemorySizeInfo(MemorySize memorySize, int size, int elementSize, MemorySize elementType, bool isSigned, bool isBroadcast)
{
if (size < 0)
{
ThrowHelper.ThrowArgumentOutOfRangeException_size();
}
if (elementSize < 0)
{
ThrowHelper.ThrowArgumentOutOfRangeException_elementSize();
}
if (elementSize > size)
{
ThrowHelper.ThrowArgumentOutOfRangeException_elementSize();
}
Static.Assert(IcedConstants.NumberOfMemorySizes <= byte.MaxValue + 1 ? 0 : -1);
this.memorySize = (byte)memorySize;
Debug.Assert(size <= ushort.MaxValue);
this.size = (ushort)size;
Debug.Assert(elementSize <= ushort.MaxValue);
this.elementSize = (ushort)elementSize;
Static.Assert(IcedConstants.NumberOfMemorySizes <= byte.MaxValue + 1 ? 0 : -1);
this.elementType = (byte)elementType;
this.isSigned = isSigned;
this.isBroadcast = isBroadcast;
}
internal InstructionInfo(bool dummy)
{
usedRegisters = new SimpleList <UsedRegister>(new UsedRegister[InstrInfoConstants.DefaultUsedRegisterCollCapacity]);
usedMemoryLocations = new SimpleList <UsedMemory>(new UsedMemory[InstrInfoConstants.DefaultUsedMemoryCollCapacity]);
unsafe {
opAccesses[0] = 0;
opAccesses[1] = 0;
opAccesses[2] = 0;
opAccesses[3] = 0;
opAccesses[4] = 0;
Static.Assert(IcedConstants.MaxOpCount == 5 ? 0 : -1);
}
}
internal InstructionInfo(bool dummy)
{
usedRegisters = new SimpleList <UsedRegister>(new UsedRegister[InstrInfoConstants.DefaultUsedRegisterCollCapacity]);
usedMemoryLocations = new SimpleList <UsedMemory>(new UsedMemory[InstrInfoConstants.DefaultUsedMemoryCollCapacity]);
unsafe {
opAccesses[0] = 0;
opAccesses[1] = 0;
opAccesses[2] = 0;
opAccesses[3] = 0;
opAccesses[4] = 0;
Static.Assert(IcedConstants.MaxOpCount == 5 ? 0 : -1);
}
cpuidFeatureInternal = 0;
flowControl = 0;
encoding = 0;
rflagsInfo = 0;
flags = 0;
}
/// <summary>
/// Gets the virtual address of a memory operand
/// </summary>
/// <param name="operand">Operand number, must be a memory operand</param>
/// <param name="elementIndex">Only used if it's a vsib memory operand. This is the element index of the vector index register.</param>
/// <param name="registerValueProvider">Returns values of registers and segment base addresses</param>
/// <param name="result">Result if this method returns <see langword="true"/></param>
/// <returns></returns>
public readonly bool TryGetVirtualAddress(int operand, int elementIndex, IVATryGetRegisterValueProvider registerValueProvider, out ulong result)
{
if (registerValueProvider is null)
{
throw new ArgumentNullException(nameof(registerValueProvider));
}
ulong seg, @base;
switch (GetOpKind(operand))
{
case OpKind.Register:
case OpKind.NearBranch16:
case OpKind.NearBranch32:
case OpKind.NearBranch64:
case OpKind.FarBranch16:
case OpKind.FarBranch32:
case OpKind.Immediate8:
case OpKind.Immediate8_2nd:
case OpKind.Immediate16:
case OpKind.Immediate32:
case OpKind.Immediate64:
case OpKind.Immediate8to16:
case OpKind.Immediate8to32:
case OpKind.Immediate8to64:
case OpKind.Immediate32to64:
result = 0;
return(true);
case OpKind.MemorySegSI:
if (registerValueProvider.TryGetRegisterValue(MemorySegment, 0, 0, out seg) &&
registerValueProvider.TryGetRegisterValue(Register.SI, 0, 0, out @base))
{
result = seg + (ushort)@base;
return(true);
}
break;
case OpKind.MemorySegESI:
if (registerValueProvider.TryGetRegisterValue(MemorySegment, 0, 0, out seg) &&
registerValueProvider.TryGetRegisterValue(Register.ESI, 0, 0, out @base))
{
result = seg + (uint)@base;
return(true);
}
break;
case OpKind.MemorySegRSI:
if (registerValueProvider.TryGetRegisterValue(MemorySegment, 0, 0, out seg) &&
registerValueProvider.TryGetRegisterValue(Register.RSI, 0, 0, out @base))
{
result = seg + @base;
return(true);
}
break;
case OpKind.MemorySegDI:
if (registerValueProvider.TryGetRegisterValue(MemorySegment, 0, 0, out seg) &&
registerValueProvider.TryGetRegisterValue(Register.DI, 0, 0, out @base))
{
result = seg + (ushort)@base;
return(true);
}
break;
case OpKind.MemorySegEDI:
if (registerValueProvider.TryGetRegisterValue(MemorySegment, 0, 0, out seg) &&
registerValueProvider.TryGetRegisterValue(Register.EDI, 0, 0, out @base))
{
result = seg + (uint)@base;
return(true);
}
break;
case OpKind.MemorySegRDI:
if (registerValueProvider.TryGetRegisterValue(MemorySegment, 0, 0, out seg) &&
registerValueProvider.TryGetRegisterValue(Register.RDI, 0, 0, out @base))
{
result = seg + @base;
return(true);
}
break;
case OpKind.MemoryESDI:
if (registerValueProvider.TryGetRegisterValue(Register.ES, 0, 0, out seg) &&
registerValueProvider.TryGetRegisterValue(Register.DI, 0, 0, out @base))
{
result = seg + (ushort)@base;
return(true);
}
break;
case OpKind.MemoryESEDI:
if (registerValueProvider.TryGetRegisterValue(Register.ES, 0, 0, out seg) &&
registerValueProvider.TryGetRegisterValue(Register.EDI, 0, 0, out @base))
{
result = seg + (uint)@base;
return(true);
}
break;
case OpKind.MemoryESRDI:
if (registerValueProvider.TryGetRegisterValue(Register.ES, 0, 0, out seg) &&
registerValueProvider.TryGetRegisterValue(Register.RDI, 0, 0, out @base))
{
result = seg + @base;
return(true);
}
break;
case OpKind.Memory:
var baseReg = MemoryBase;
var indexReg = MemoryIndex;
int addrSize = InstructionUtils.GetAddressSizeInBytes(baseReg, indexReg, MemoryDisplSize, CodeSize);
ulong offset = MemoryDisplacement64;
ulong offsetMask;
if (addrSize == 8)
{
offsetMask = ulong.MaxValue;
}
else if (addrSize == 4)
{
offsetMask = uint.MaxValue;
}
else
{
Debug.Assert(addrSize == 2);
offsetMask = ushort.MaxValue;
}
if (baseReg != Register.None && baseReg != Register.RIP && baseReg != Register.EIP)
{
if (!registerValueProvider.TryGetRegisterValue(baseReg, 0, 0, out @base))
{
break;
}
offset += @base;
}
var code = Code;
if (indexReg != Register.None && !code.IgnoresIndex() && !code.IsTileStrideIndex())
{
if (TryGetVsib64(out bool vsib64))
{
bool b;
if (vsib64)
{
b = registerValueProvider.TryGetRegisterValue(indexReg, elementIndex, 8, out @base);
}
else
{
b = registerValueProvider.TryGetRegisterValue(indexReg, elementIndex, 4, out @base);
@base = (ulong)(int)@base;
}
if (!b)
{
break;
}
offset += @base << InternalMemoryIndexScale;
}
else
{
if (!registerValueProvider.TryGetRegisterValue(indexReg, 0, 0, out @base))
{
break;
}
offset += @base << InternalMemoryIndexScale;
}
}
#if MVEX
Static.Assert(Code.MVEX_Vloadunpackhd_zmm_k1_mt + 1 == Code.MVEX_Vloadunpackhq_zmm_k1_mt ? 0 : -1);
Static.Assert(Code.MVEX_Vloadunpackhd_zmm_k1_mt + 2 == Code.MVEX_Vpackstorehd_mt_k1_zmm ? 0 : -1);
Static.Assert(Code.MVEX_Vloadunpackhd_zmm_k1_mt + 3 == Code.MVEX_Vpackstorehq_mt_k1_zmm ? 0 : -1);
Static.Assert(Code.MVEX_Vloadunpackhd_zmm_k1_mt + 4 == Code.MVEX_Vloadunpackhps_zmm_k1_mt ? 0 : -1);
Static.Assert(Code.MVEX_Vloadunpackhd_zmm_k1_mt + 5 == Code.MVEX_Vloadunpackhpd_zmm_k1_mt ? 0 : -1);
Static.Assert(Code.MVEX_Vloadunpackhd_zmm_k1_mt + 6 == Code.MVEX_Vpackstorehps_mt_k1_zmm ? 0 : -1);
Static.Assert(Code.MVEX_Vloadunpackhd_zmm_k1_mt + 7 == Code.MVEX_Vpackstorehpd_mt_k1_zmm ? 0 : -1);
if (code >= Code.MVEX_Vloadunpackhd_zmm_k1_mt && code <= Code.MVEX_Vpackstorehpd_mt_k1_zmm)
{
offset -= 0x40;
}
#endif
offset &= offsetMask;
if (!code.IgnoresSegment())
{
if (!registerValueProvider.TryGetRegisterValue(MemorySegment, 0, 0, out seg))
{
break;
}
offset += seg;
}
result = offset;
return(true);
default:
throw new InvalidOperationException();
}
result = 0;
return(false);
}
