static InstrInfo[] ReadInfos()
{
var reader = new DataReader(GetSerializedInstrInfos());
var infos = new InstrInfo[DecoderConstants.NumberOfCodeValues];
var strings = FormatterStringsTable.GetStringsTable();
var ca = new char[1];
string s;
uint v, v2;
int prevIndex = -1;
for (int i = 0; i < infos.Length; i++)
{
var code = (Code)i;
byte f = reader.ReadByte();
var ctorKind = (CtorKind)(f & 0x7F);
int currentIndex;
if (ctorKind == CtorKind.Previous)
{
currentIndex = reader.Index;
reader.Index = prevIndex;
ctorKind = (CtorKind)(reader.ReadByte() & 0x7F);
}
else
{
currentIndex = -1;
prevIndex = reader.Index - 1;
}
s = strings[reader.ReadCompressedUInt32()];
if ((f & 0x80) != 0)
{
ca[0] = 'v';
s = AddPrefix(s, ca);
}
InstrInfo instrInfo;
switch (ctorKind)
{
case CtorKind.Normal_1:
instrInfo = new SimpleInstrInfo(code, s);
break;
case CtorKind.Normal_2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo(code, s, (InstrOpInfoFlags)v);
break;
case CtorKind.asz:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_as(code, (int)v, s);
break;
case CtorKind.AX:
instrInfo = new SimpleInstrInfo_AX(code, s);
break;
case CtorKind.AY:
instrInfo = new SimpleInstrInfo_AY(code, s);
break;
case CtorKind.bcst:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_bcst(code, s, (InstrOpInfoFlags)v, (InstrOpInfoFlags)v2);
break;
case CtorKind.bnd_1:
instrInfo = new SimpleInstrInfo_bnd(code, s);
break;
case CtorKind.bnd_2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_bnd(code, s, (InstrOpInfoFlags)v);
break;
case CtorKind.DeclareData:
instrInfo = new SimpleInstrInfo_DeclareData(code, s);
break;
case CtorKind.fpu_ST_STi:
instrInfo = new SimpleInstrInfo_fpu_ST_STi(code, s);
break;
case CtorKind.fpu_STi_ST:
instrInfo = new SimpleInstrInfo_fpu_STi_ST(code, s);
break;
case CtorKind.imul:
instrInfo = new SimpleInstrInfo_imul(code, s);
break;
case CtorKind.k1:
instrInfo = new SimpleInstrInfo_k1(code, s);
break;
case CtorKind.k2:
instrInfo = new SimpleInstrInfo_k2(code, s);
break;
case CtorKind.maskmovq:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_maskmovq(code, s, (InstrOpInfoFlags)v);
break;
case CtorKind.memsize:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_memsize(code, (int)v, s);
break;
case CtorKind.movabs:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_movabs(code, (int)v, s);
break;
case CtorKind.nop:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_nop(code, (int)v, s, (Register)v2);
break;
case CtorKind.nop0F1F:
v = reader.ReadByte();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_nop0F1F(code, (Register)v, s, (InstrOpInfoFlags)v2);
break;
case CtorKind.os2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os(code, (int)v, s);
break;
case CtorKind.os3:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os(code, (int)v, s, (InstrOpInfoFlags)v2);
break;
case CtorKind.os_bnd:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_bnd(code, (int)v, s);
break;
case CtorKind.os_jcc_2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_jcc(code, (int)v, s);
break;
case CtorKind.os_jcc_3:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_jcc(code, (int)v, s, (InstrOpInfoFlags)v2);
break;
case CtorKind.os_loop:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_os_loop(code, (int)v, (Register)v2, s);
break;
case CtorKind.os_mem:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_mem(code, (int)v, s);
break;
case CtorKind.pclmulqdq:
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_pclmulqdq(code, s, FormatterConstants.GetPseudoOps((PseudoOpsKind)v));
break;
case CtorKind.pops:
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_pops(code, s, FormatterConstants.GetPseudoOps((PseudoOpsKind)v));
break;
case CtorKind.reg:
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_reg(code, s, (Register)v);
break;
case CtorKind.Reg16:
instrInfo = new SimpleInstrInfo_Reg16(code, s);
break;
case CtorKind.ST_STi:
instrInfo = new SimpleInstrInfo_ST_STi(code, s);
break;
case CtorKind.ST1_2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_ST1(code, s, (InstrOpInfoFlags)v);
break;
case CtorKind.ST1_3:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
if (v2 > 1)
{
throw new InvalidOperationException();
}
instrInfo = new SimpleInstrInfo_ST1(code, s, (InstrOpInfoFlags)v, v2 != 0);
break;
case CtorKind.ST2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_ST2(code, s, (InstrOpInfoFlags)v);
break;
case CtorKind.STi_ST:
instrInfo = new SimpleInstrInfo_STi_ST(code, s);
break;
case CtorKind.xbegin:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_xbegin(code, (int)v, s);
break;
case CtorKind.YA:
instrInfo = new SimpleInstrInfo_YA(code, s);
break;
default:
throw new InvalidOperationException();
}
infos[i] = instrInfo;
if (currentIndex >= 0)
{
reader.Index = currentIndex;
}
}
if (reader.CanRead)
{
throw new InvalidOperationException();
}
return(infos);
}
static InstrInfo[] ReadInfos()
{
var reader = new DataReader(GetSerializedInstrInfos());
var infos = new InstrInfo[IcedConstants.NumberOfCodeValues];
var strings = FormatterStringsTable.GetStringsTable();
var ca = new char[1];
string s, s2, s3, s4;
uint v, v2, v3, v4;
int prevIndex = -1;
for (int i = 0; i < infos.Length; i++)
{
byte f = reader.ReadByte();
var ctorKind = (CtorKind)(f & 0x7F);
int currentIndex;
if (ctorKind == CtorKind.Previous)
{
currentIndex = reader.Index;
reader.Index = prevIndex;
ctorKind = (CtorKind)(reader.ReadByte() & 0x7F);
}
else
{
currentIndex = -1;
prevIndex = reader.Index - 1;
}
s = strings[reader.ReadCompressedUInt32()];
if ((f & 0x80) != 0)
{
ca[0] = 'v';
s = AddPrefix(s, ca);
}
InstrInfo instrInfo;
switch (ctorKind)
{
case CtorKind.Normal_1:
instrInfo = new SimpleInstrInfo(s);
break;
case CtorKind.Normal_2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo(s, (InstrOpInfoFlags)v);
break;
case CtorKind.AamAad:
instrInfo = new SimpleInstrInfo_AamAad(s);
break;
case CtorKind.asz:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_as((int)v, s);
break;
case CtorKind.AX:
instrInfo = new SimpleInstrInfo_AX(s);
break;
case CtorKind.AY:
instrInfo = new SimpleInstrInfo_AY(s);
break;
case CtorKind.bcst:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_bcst(s, (InstrOpInfoFlags)v, (InstrOpInfoFlags)v2);
break;
case CtorKind.bnd_1:
instrInfo = new SimpleInstrInfo_bnd(s);
break;
case CtorKind.bnd_2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_bnd(s, (InstrOpInfoFlags)v);
break;
case CtorKind.DeclareData:
instrInfo = new SimpleInstrInfo_DeclareData((Code)i, s);
break;
case CtorKind.DX:
instrInfo = new SimpleInstrInfo_DX(s);
break;
case CtorKind.er_2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_er((int)v, s);
break;
case CtorKind.er_3:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_er((int)v, s, (InstrOpInfoFlags)v2);
break;
case CtorKind.far:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_far((int)v, s);
break;
case CtorKind.far_mem:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_far_mem((int)v, s);
break;
case CtorKind.invlpga:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_invlpga((int)v, s);
break;
case CtorKind.maskmovq:
instrInfo = new SimpleInstrInfo_maskmovq(s);
break;
case CtorKind.mmxmem_1:
instrInfo = new SimpleInstrInfo_mmxmem(s);
break;
case CtorKind.mmxmem_2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_mmxmem(s, (InstrOpInfoFlags)v);
break;
case CtorKind.mmxmem_3:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_mmxmem(s, (InstrOpInfoFlags)v, (MemorySize)v2);
break;
case CtorKind.movabs:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_movabs((int)v, s);
break;
case CtorKind.ms_pops:
v2 = reader.ReadByte();
v3 = reader.ReadCompressedUInt32();
v4 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_ms_pops(s, FormatterConstants.GetPseudoOps((PseudoOpsKind)v2), (InstrOpInfoFlags)v3, (MemorySize)v4);
break;
case CtorKind.nop:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_nop((int)v, s, (Register)v2);
break;
case CtorKind.OpSize:
v = reader.ReadByte();
ca[0] = 'w';
s2 = AddSuffix(s, ca);
ca[0] = 'd';
s3 = AddSuffix(s, ca);
ca[0] = 'q';
s4 = AddSuffix(s, ca);
instrInfo = new SimpleInstrInfo_OpSize((CodeSize)v, s, s2, s3, s4);
break;
case CtorKind.OpSize2_bnd:
s2 = strings[reader.ReadCompressedUInt32()];
s3 = strings[reader.ReadCompressedUInt32()];
s4 = strings[reader.ReadCompressedUInt32()];
instrInfo = new SimpleInstrInfo_OpSize2_bnd(s, s2, s3, s4);
break;
case CtorKind.OpSize3:
ca[0] = (char)reader.ReadByte();
s2 = AddSuffix(s, ca);
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_OpSize3((int)v, s, s2);
break;
case CtorKind.os_2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os((int)v, s);
break;
case CtorKind.os_3:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os((int)v, s, (InstrOpInfoFlags)v2);
break;
case CtorKind.os_call_2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_call((int)v, s);
break;
case CtorKind.os_call_3:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
if (v2 > 1)
{
throw new InvalidOperationException();
}
instrInfo = new SimpleInstrInfo_os_call((int)v, s, v2 != 0);
break;
case CtorKind.CC_1:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_cc((int)v, new[] { s });
break;
case CtorKind.CC_2:
s2 = strings[reader.ReadCompressedUInt32()];
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_cc((int)v, new[] { s, s2 });
break;
case CtorKind.CC_3:
s2 = strings[reader.ReadCompressedUInt32()];
s3 = strings[reader.ReadCompressedUInt32()];
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_cc((int)v, new[] { s, s2, s3 });
break;
case CtorKind.os_jcc_a_1:
v2 = reader.ReadCompressedUInt32();
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_jcc((int)v, (int)v2, new[] { s });
break;
case CtorKind.os_jcc_a_2:
s2 = strings[reader.ReadCompressedUInt32()];
v2 = reader.ReadCompressedUInt32();
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_jcc((int)v, (int)v2, new[] { s, s2 });
break;
case CtorKind.os_jcc_a_3:
s2 = strings[reader.ReadCompressedUInt32()];
s3 = strings[reader.ReadCompressedUInt32()];
v2 = reader.ReadCompressedUInt32();
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_jcc((int)v, (int)v2, new[] { s, s2, s3 });
break;
case CtorKind.os_jcc_b_1:
v3 = reader.ReadCompressedUInt32();
v = reader.ReadCompressedUInt32();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_jcc((int)v, (int)v3, new[] { s }, (InstrOpInfoFlags)v2);
break;
case CtorKind.os_jcc_b_2:
s2 = strings[reader.ReadCompressedUInt32()];
v3 = reader.ReadCompressedUInt32();
v = reader.ReadCompressedUInt32();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_jcc((int)v, (int)v3, new[] { s, s2 }, (InstrOpInfoFlags)v2);
break;
case CtorKind.os_jcc_b_3:
s2 = strings[reader.ReadCompressedUInt32()];
s3 = strings[reader.ReadCompressedUInt32()];
v3 = reader.ReadCompressedUInt32();
v = reader.ReadCompressedUInt32();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_jcc((int)v, (int)v3, new[] { s, s2, s3 }, (InstrOpInfoFlags)v2);
break;
case CtorKind.os_loopcc:
s2 = strings[reader.ReadCompressedUInt32()];
v3 = reader.ReadCompressedUInt32();
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_os_loop((int)v, (int)v3, (Register)v2, new[] { s, s2 });
break;
case CtorKind.os_loop:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_os_loop((int)v, -1, (Register)v2, new[] { s });
break;
case CtorKind.os_mem:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_mem((int)v, s);
break;
case CtorKind.os_mem_reg16:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_mem_reg16((int)v, s);
break;
case CtorKind.os_mem2:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_os_mem2((int)v, s, (InstrOpInfoFlags)v2);
break;
case CtorKind.pblendvb_1:
instrInfo = new SimpleInstrInfo_pblendvb(s);
break;
case CtorKind.pblendvb_2:
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_pblendvb(s, (MemorySize)v);
break;
case CtorKind.pclmulqdq:
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_pclmulqdq(s, FormatterConstants.GetPseudoOps((PseudoOpsKind)v));
break;
case CtorKind.pops_2:
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_pops(s, FormatterConstants.GetPseudoOps((PseudoOpsKind)v));
break;
case CtorKind.pops_3:
v = reader.ReadByte();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_pops(s, FormatterConstants.GetPseudoOps((PseudoOpsKind)v), (InstrOpInfoFlags)v2);
break;
case CtorKind.Reg16:
instrInfo = new SimpleInstrInfo_Reg16(s);
break;
case CtorKind.reverse2:
instrInfo = new SimpleInstrInfo_reverse2(s);
break;
case CtorKind.sae:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_sae((int)v, s);
break;
case CtorKind.sae_pops:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_sae_pops((int)v, s, FormatterConstants.GetPseudoOps((PseudoOpsKind)v2));
break;
case CtorKind.SEX1:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_SEX1((int)v, (SignExtendInfo)v2, s);
break;
case CtorKind.SEX1a:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_SEX1a((int)v, (SignExtendInfo)v2, s);
break;
case CtorKind.SEX2_2:
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_SEX2((SignExtendInfo)v, s);
break;
case CtorKind.SEX2_3:
v = reader.ReadByte();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_SEX2((SignExtendInfo)v, s, (InstrOpInfoFlags)v2);
break;
case CtorKind.SEX2_4:
v = reader.ReadByte();
v2 = reader.ReadByte();
v3 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_SEX2((SignExtendInfo)v, (SignExtendInfo)v2, s, (InstrOpInfoFlags)v3);
break;
case CtorKind.SEX3:
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_SEX3((SignExtendInfo)v, s);
break;
case CtorKind.STIG1_1:
instrInfo = new SimpleInstrInfo_STIG1(s);
break;
case CtorKind.STIG1_2:
v = reader.ReadByte();
if (v > 1)
{
throw new InvalidOperationException();
}
instrInfo = new SimpleInstrInfo_STIG1(s, v != 0);
break;
case CtorKind.STIG2_2a:
v = reader.ReadByte();
if (v > 1)
{
throw new InvalidOperationException();
}
instrInfo = new SimpleInstrInfo_STIG2(s, v != 0);
break;
case CtorKind.STIG2_2b:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_STIG2(s, (InstrOpInfoFlags)v);
break;
case CtorKind.xbegin:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_xbegin((int)v, s);
break;
case CtorKind.XLAT:
instrInfo = new SimpleInstrInfo_XLAT(s);
break;
case CtorKind.XY:
instrInfo = new SimpleInstrInfo_XY(s);
break;
case CtorKind.YA:
instrInfo = new SimpleInstrInfo_YA(s);
break;
case CtorKind.YD:
instrInfo = new SimpleInstrInfo_YD(s);
break;
case CtorKind.YX:
instrInfo = new SimpleInstrInfo_YX(s);
break;
default:
throw new InvalidOperationException();
}
infos[i] = instrInfo;
if (currentIndex >= 0)
{
reader.Index = currentIndex;
}
}
if (reader.CanRead)
{
throw new InvalidOperationException();
}
return(infos);
}
static InstrInfo[] ReadInfos()
{
var reader = new DataReader(GetSerializedInstrInfos());
var infos = new InstrInfo[IcedConstants.NumberOfCodeValues];
var strings = FormatterStringsTable.GetStringsTable();
var ca = new char[1];
string s, s2, s3, s4;
uint v, v2, v3;
int prevIndex = -1;
for (int i = 0; i < infos.Length; i++)
{
byte f = reader.ReadByte();
var ctorKind = (CtorKind)(f & 0x7F);
int currentIndex;
if (ctorKind == CtorKind.Previous)
{
currentIndex = reader.Index;
reader.Index = prevIndex;
ctorKind = (CtorKind)(reader.ReadByte() & 0x7F);
}
else
{
currentIndex = -1;
prevIndex = reader.Index - 1;
}
s = strings[reader.ReadCompressedUInt32()];
if ((f & 0x80) != 0)
{
ca[0] = 'v';
s = AddPrefix(s, ca);
}
InstrInfo instrInfo;
switch (ctorKind)
{
case CtorKind.Normal_1:
instrInfo = new SimpleInstrInfo(s);
break;
case CtorKind.Normal_2:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo(s, (InstrOpInfoFlags)v);
break;
case CtorKind.AamAad:
instrInfo = new SimpleInstrInfo_AamAad(s);
break;
case CtorKind.AX:
ca[0] = (char)reader.ReadByte();
s2 = AddSuffix(s, ca);
instrInfo = new SimpleInstrInfo_AX(s, s2);
break;
case CtorKind.AY:
ca[0] = (char)reader.ReadByte();
s2 = AddSuffix(s, ca);
instrInfo = new SimpleInstrInfo_AY(s, s2);
break;
case CtorKind.bnd:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_bnd(s, (InstrOpInfoFlags)v);
break;
case CtorKind.DeclareData:
instrInfo = new SimpleInstrInfo_DeclareData((Code)i, s);
break;
case CtorKind.DX:
ca[0] = (char)reader.ReadByte();
s2 = AddSuffix(s, ca);
instrInfo = new SimpleInstrInfo_DX(s, s2);
break;
case CtorKind.fword:
ca[0] = (char)reader.ReadByte();
s2 = AddSuffix(s, ca);
v = reader.ReadByte();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_fword((CodeSize)v, (InstrOpInfoFlags)v2, s, s2);
break;
case CtorKind.Int3:
instrInfo = new SimpleInstrInfo_Int3(s);
break;
case CtorKind.imul:
instrInfo = new SimpleInstrInfo_imul(s);
break;
case CtorKind.invlpga:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_invlpga((int)v, s);
break;
case CtorKind.CCa_1:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_cc((int)v, new[] { s });
break;
case CtorKind.CCa_2:
s2 = strings[reader.ReadCompressedUInt32()];
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_cc((int)v, new[] { s, s2 });
break;
case CtorKind.CCa_3:
s2 = strings[reader.ReadCompressedUInt32()];
s3 = strings[reader.ReadCompressedUInt32()];
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_cc((int)v, new[] { s, s2, s3 });
break;
case CtorKind.CCb_1:
v2 = reader.ReadCompressedUInt32();
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_cc((int)v2, new[] { s }, (InstrOpInfoFlags)v);
break;
case CtorKind.CCb_2:
s2 = strings[reader.ReadCompressedUInt32()];
v2 = reader.ReadCompressedUInt32();
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_cc((int)v2, new[] { s, s2 }, (InstrOpInfoFlags)v);
break;
case CtorKind.CCb_3:
s2 = strings[reader.ReadCompressedUInt32()];
s3 = strings[reader.ReadCompressedUInt32()];
v2 = reader.ReadCompressedUInt32();
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_cc((int)v2, new[] { s, s2, s3 }, (InstrOpInfoFlags)v);
break;
case CtorKind.jcc_1:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_jcc((int)v, new[] { s });
break;
case CtorKind.jcc_2:
s2 = strings[reader.ReadCompressedUInt32()];
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_jcc((int)v, new[] { s, s2 });
break;
case CtorKind.jcc_3:
s2 = strings[reader.ReadCompressedUInt32()];
s3 = strings[reader.ReadCompressedUInt32()];
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_jcc((int)v, new[] { s, s2, s3 });
break;
case CtorKind.Loopcc1:
s2 = strings[reader.ReadCompressedUInt32()];
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_cc((int)v, new[] { s, s2 });
break;
case CtorKind.Loopcc2:
s2 = strings[reader.ReadCompressedUInt32()];
ca[0] = (char)reader.ReadByte();
v2 = reader.ReadCompressedUInt32();
s3 = AddSuffix(s, ca);
s4 = AddSuffix(s2, ca);
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_OpSize_cc((CodeSize)v, (int)v2, new[] { s, s2 }, new[] { s3, s4 });
break;
case CtorKind.maskmovq:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_maskmovq(s, (InstrOpInfoFlags)v);
break;
case CtorKind.memsize:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_memsize((int)v, s);
break;
case CtorKind.monitor:
v = reader.ReadByte();
v2 = reader.ReadByte();
v3 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_monitor(s, (Register)v, (Register)v2, (Register)v3);
break;
case CtorKind.mwait:
instrInfo = new SimpleInstrInfo_mwait(s);
break;
case CtorKind.mwaitx:
instrInfo = new SimpleInstrInfo_mwaitx(s);
break;
case CtorKind.nop:
v = reader.ReadCompressedUInt32();
v2 = reader.ReadByte();
instrInfo = new SimpleInstrInfo_nop((int)v, s, (Register)v2);
break;
case CtorKind.OpSize_1:
v = reader.ReadByte();
ca[0] = 'w';
s2 = AddSuffix(s, ca);
ca[0] = 'd';
s3 = AddSuffix(s, ca);
ca[0] = 'q';
s4 = AddSuffix(s, ca);
instrInfo = new SimpleInstrInfo_OpSize((CodeSize)v, s, s2, s3, s4);
break;
case CtorKind.OpSize_2:
ca[0] = (char)reader.ReadByte();
s2 = AddSuffix(s, ca);
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_OpSize((CodeSize)v, s, s2, s2, s2);
break;
case CtorKind.OpSize2:
s2 = strings[reader.ReadCompressedUInt32()];
s3 = strings[reader.ReadCompressedUInt32()];
s4 = strings[reader.ReadCompressedUInt32()];
v = reader.ReadByte();
if (v > 1)
{
throw new InvalidOperationException();
}
instrInfo = new SimpleInstrInfo_OpSize2(s, s2, s3, s4, v != 0);
break;
case CtorKind.pblendvb:
instrInfo = new SimpleInstrInfo_pblendvb(s);
break;
case CtorKind.pclmulqdq:
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_pclmulqdq(s, FormatterConstants.GetPseudoOps((PseudoOpsKind)v));
break;
case CtorKind.pops_2:
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_pops(s, FormatterConstants.GetPseudoOps((PseudoOpsKind)v));
break;
case CtorKind.pops_3:
v = reader.ReadByte();
v2 = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_pops(s, FormatterConstants.GetPseudoOps((PseudoOpsKind)v), (InstrOpInfoFlags)v2);
break;
case CtorKind.reg:
v = reader.ReadByte();
instrInfo = new SimpleInstrInfo_reg(s, (Register)v);
break;
case CtorKind.Reg16:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_Reg16(s, (InstrOpInfoFlags)v);
break;
case CtorKind.Reg32:
v = reader.ReadCompressedUInt32();
instrInfo = new SimpleInstrInfo_Reg32(s, (InstrOpInfoFlags)v);
break;
case CtorKind.reverse:
instrInfo = new SimpleInstrInfo_reverse(s);
break;
case CtorKind.ST_STi:
instrInfo = new SimpleInstrInfo_ST_STi(s);
break;
case CtorKind.STi_ST:
v = reader.ReadByte();
if (v > 1)
{
throw new InvalidOperationException();
}
instrInfo = new SimpleInstrInfo_STi_ST(s, v != 0);
break;
case CtorKind.STIG1:
v = reader.ReadByte();
if (v > 1)
{
throw new InvalidOperationException();
}
instrInfo = new SimpleInstrInfo_STIG1(s, v != 0);
break;
case CtorKind.XLAT:
ca[0] = 'b';
s2 = AddSuffix(s, ca);
instrInfo = new SimpleInstrInfo_XLAT(s, s2);
break;
case CtorKind.XY:
ca[0] = (char)reader.ReadByte();
s2 = AddSuffix(s, ca);
instrInfo = new SimpleInstrInfo_XY(s, s2);
break;
case CtorKind.YA:
ca[0] = (char)reader.ReadByte();
s2 = AddSuffix(s, ca);
instrInfo = new SimpleInstrInfo_YA(s, s2);
break;
case CtorKind.YD:
ca[0] = (char)reader.ReadByte();
s2 = AddSuffix(s, ca);
instrInfo = new SimpleInstrInfo_YD(s, s2);
break;
case CtorKind.YX:
ca[0] = (char)reader.ReadByte();
s2 = AddSuffix(s, ca);
instrInfo = new SimpleInstrInfo_YX(s, s2);
break;
default:
throw new InvalidOperationException();
}
infos[i] = instrInfo;
if (currentIndex >= 0)
{
reader.Index = currentIndex;
}
}
if (reader.CanRead)
{
throw new InvalidOperationException();
}
return(infos);
}