// set, there is no prefix byte for obtaining a multibyte opcode.
//
Op0Shift = 8,
- Op0Mask = 0xF << Op0Shift,
+ Op0Mask = 0x1F << Op0Shift,
// TB - TwoByte - Set if this instruction has a two byte opcode, which
// starts with a 0x0F byte before the real opcode.
// etc. We only cares about REX.W and REX.R bits and only the former is
// statically determined.
//
- REXShift = 12,
+ REXShift = 13,
REX_W = 1 << REXShift,
//===------------------------------------------------------------------===//
// This three-bit field describes the size of an immediate operand. Zero is
// unused so that we can tell if we forgot to set a value.
- ImmShift = 13,
+ ImmShift = 14,
ImmMask = 7 << ImmShift,
Imm8 = 1 << ImmShift,
Imm16 = 2 << ImmShift,
// FP Instruction Classification... Zero is non-fp instruction.
// FPTypeMask - Mask for all of the FP types...
- FPTypeShift = 16,
+ FPTypeShift = 17,
FPTypeMask = 7 << FPTypeShift,
// NotFP - The default, set for instructions that do not use FP registers.
SpecialFP = 7 << FPTypeShift,
// Lock prefix
- LOCKShift = 19,
+ LOCKShift = 20,
LOCK = 1 << LOCKShift,
// Segment override prefixes. Currently we just need ability to address
// stuff in gs and fs segments.
- SegOvrShift = 20,
+ SegOvrShift = 21,
SegOvrMask = 3 << SegOvrShift,
FS = 1 << SegOvrShift,
GS = 2 << SegOvrShift,
- // Bits 22 -> 23 are unused
+ // Bit 23 is unused.
OpcodeShift = 24,
OpcodeMask = 0xFF << OpcodeShift
};