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clang-p2996/llvm/lib/Target/X86/InstPrinter/X86InstComments.cpp
Craig Topper acaba3b402 [X86] Remove use of MVT class from the ShuffleDecode library. 
MVT belongs to the CodeGen layer, but ShuffleDecode is used by the X86 InstPrinter which is part of the MC layer. This only worked because MVT is completely implemented in a header file with no other library dependencies.

Differential Revision: https://reviews.llvm.org/D44353

llvm-svn: 327292
2018-03-12 16:43:11 +00:00

1309 lines
45 KiB
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//===-- X86InstComments.cpp - Generate verbose-asm comments for instrs ----===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This defines functionality used to emit comments about X86 instructions to
// an output stream for -fverbose-asm.
//
//===----------------------------------------------------------------------===//
#include "X86InstComments.h"
#include "MCTargetDesc/X86BaseInfo.h"
#include "MCTargetDesc/X86MCTargetDesc.h"
#include "Utils/X86ShuffleDecode.h"
#include "llvm/MC/MCInst.h"
#include "llvm/MC/MCInstrInfo.h"
#include "llvm/Support/raw_ostream.h"
using namespace llvm;
#define CASE_SSE_INS_COMMON(Inst, src) \
case X86::Inst##src:
#define CASE_AVX_INS_COMMON(Inst, Suffix, src) \
case X86::V##Inst##Suffix##src:
#define CASE_MASK_INS_COMMON(Inst, Suffix, src) \
case X86::V##Inst##Suffix##src##k:
#define CASE_MASKZ_INS_COMMON(Inst, Suffix, src) \
case X86::V##Inst##Suffix##src##kz:
#define CASE_AVX512_INS_COMMON(Inst, Suffix, src) \
CASE_AVX_INS_COMMON(Inst, Suffix, src) \
CASE_MASK_INS_COMMON(Inst, Suffix, src) \
CASE_MASKZ_INS_COMMON(Inst, Suffix, src)
#define CASE_MOVDUP(Inst, src) \
CASE_AVX512_INS_COMMON(Inst, Z, r##src) \
CASE_AVX512_INS_COMMON(Inst, Z256, r##src) \
CASE_AVX512_INS_COMMON(Inst, Z128, r##src) \
CASE_AVX_INS_COMMON(Inst, , r##src) \
CASE_AVX_INS_COMMON(Inst, Y, r##src) \
CASE_SSE_INS_COMMON(Inst, r##src)
#define CASE_MASK_MOVDUP(Inst, src) \
CASE_MASK_INS_COMMON(Inst, Z, r##src) \
CASE_MASK_INS_COMMON(Inst, Z256, r##src) \
CASE_MASK_INS_COMMON(Inst, Z128, r##src)
#define CASE_MASKZ_MOVDUP(Inst, src) \
CASE_MASKZ_INS_COMMON(Inst, Z, r##src) \
CASE_MASKZ_INS_COMMON(Inst, Z256, r##src) \
CASE_MASKZ_INS_COMMON(Inst, Z128, r##src)
#define CASE_PMOVZX(Inst, src) \
CASE_AVX512_INS_COMMON(Inst, Z, r##src) \
CASE_AVX512_INS_COMMON(Inst, Z256, r##src) \
CASE_AVX512_INS_COMMON(Inst, Z128, r##src) \
CASE_AVX_INS_COMMON(Inst, , r##src) \
CASE_AVX_INS_COMMON(Inst, Y, r##src) \
CASE_SSE_INS_COMMON(Inst, r##src)
#define CASE_MASK_PMOVZX(Inst, src) \
CASE_MASK_INS_COMMON(Inst, Z, r##src) \
CASE_MASK_INS_COMMON(Inst, Z256, r##src) \
CASE_MASK_INS_COMMON(Inst, Z128, r##src)
#define CASE_MASKZ_PMOVZX(Inst, src) \
CASE_MASKZ_INS_COMMON(Inst, Z, r##src) \
CASE_MASKZ_INS_COMMON(Inst, Z256, r##src) \
CASE_MASKZ_INS_COMMON(Inst, Z128, r##src)
#define CASE_UNPCK(Inst, src) \
CASE_AVX512_INS_COMMON(Inst, Z, r##src) \
CASE_AVX512_INS_COMMON(Inst, Z256, r##src) \
CASE_AVX512_INS_COMMON(Inst, Z128, r##src) \
CASE_AVX_INS_COMMON(Inst, , r##src) \
CASE_AVX_INS_COMMON(Inst, Y, r##src) \
CASE_SSE_INS_COMMON(Inst, r##src)
#define CASE_MASK_UNPCK(Inst, src) \
CASE_MASK_INS_COMMON(Inst, Z, r##src) \
CASE_MASK_INS_COMMON(Inst, Z256, r##src) \
CASE_MASK_INS_COMMON(Inst, Z128, r##src)
#define CASE_MASKZ_UNPCK(Inst, src) \
CASE_MASKZ_INS_COMMON(Inst, Z, r##src) \
CASE_MASKZ_INS_COMMON(Inst, Z256, r##src) \
CASE_MASKZ_INS_COMMON(Inst, Z128, r##src)
#define CASE_SHUF(Inst, suf) \
CASE_AVX512_INS_COMMON(Inst, Z, suf) \
CASE_AVX512_INS_COMMON(Inst, Z256, suf) \
CASE_AVX512_INS_COMMON(Inst, Z128, suf) \
CASE_AVX_INS_COMMON(Inst, , suf) \
CASE_AVX_INS_COMMON(Inst, Y, suf) \
CASE_SSE_INS_COMMON(Inst, suf)
#define CASE_MASK_SHUF(Inst, src) \
CASE_MASK_INS_COMMON(Inst, Z, r##src##i) \
CASE_MASK_INS_COMMON(Inst, Z256, r##src##i) \
CASE_MASK_INS_COMMON(Inst, Z128, r##src##i)
#define CASE_MASKZ_SHUF(Inst, src) \
CASE_MASKZ_INS_COMMON(Inst, Z, r##src##i) \
CASE_MASKZ_INS_COMMON(Inst, Z256, r##src##i) \
CASE_MASKZ_INS_COMMON(Inst, Z128, r##src##i)
#define CASE_VPERMILPI(Inst, src) \
CASE_AVX512_INS_COMMON(Inst, Z, src##i) \
CASE_AVX512_INS_COMMON(Inst, Z256, src##i) \
CASE_AVX512_INS_COMMON(Inst, Z128, src##i) \
CASE_AVX_INS_COMMON(Inst, , src##i) \
CASE_AVX_INS_COMMON(Inst, Y, src##i)
#define CASE_MASK_VPERMILPI(Inst, src) \
CASE_MASK_INS_COMMON(Inst, Z, src##i) \
CASE_MASK_INS_COMMON(Inst, Z256, src##i) \
CASE_MASK_INS_COMMON(Inst, Z128, src##i)
#define CASE_MASKZ_VPERMILPI(Inst, src) \
CASE_MASKZ_INS_COMMON(Inst, Z, src##i) \
CASE_MASKZ_INS_COMMON(Inst, Z256, src##i) \
CASE_MASKZ_INS_COMMON(Inst, Z128, src##i)
#define CASE_VPERM(Inst, src) \
CASE_AVX512_INS_COMMON(Inst, Z, src##i) \
CASE_AVX512_INS_COMMON(Inst, Z256, src##i) \
CASE_AVX_INS_COMMON(Inst, Y, src##i)
#define CASE_MASK_VPERM(Inst, src) \
CASE_MASK_INS_COMMON(Inst, Z, src##i) \
CASE_MASK_INS_COMMON(Inst, Z256, src##i)
#define CASE_MASKZ_VPERM(Inst, src) \
CASE_MASKZ_INS_COMMON(Inst, Z, src##i) \
CASE_MASKZ_INS_COMMON(Inst, Z256, src##i)
#define CASE_VSHUF(Inst, src) \
CASE_AVX512_INS_COMMON(SHUFF##Inst, Z, r##src##i) \
CASE_AVX512_INS_COMMON(SHUFI##Inst, Z, r##src##i) \
CASE_AVX512_INS_COMMON(SHUFF##Inst, Z256, r##src##i) \
CASE_AVX512_INS_COMMON(SHUFI##Inst, Z256, r##src##i)
#define CASE_MASK_VSHUF(Inst, src) \
CASE_MASK_INS_COMMON(SHUFF##Inst, Z, r##src##i) \
CASE_MASK_INS_COMMON(SHUFI##Inst, Z, r##src##i) \
CASE_MASK_INS_COMMON(SHUFF##Inst, Z256, r##src##i) \
CASE_MASK_INS_COMMON(SHUFI##Inst, Z256, r##src##i)
#define CASE_MASKZ_VSHUF(Inst, src) \
CASE_MASKZ_INS_COMMON(SHUFF##Inst, Z, r##src##i) \
CASE_MASKZ_INS_COMMON(SHUFI##Inst, Z, r##src##i) \
CASE_MASKZ_INS_COMMON(SHUFF##Inst, Z256, r##src##i) \
CASE_MASKZ_INS_COMMON(SHUFI##Inst, Z256, r##src##i)
#define CASE_AVX512_FMA(Inst, suf) \
CASE_AVX512_INS_COMMON(Inst, Z, suf) \
CASE_AVX512_INS_COMMON(Inst, Z256, suf) \
CASE_AVX512_INS_COMMON(Inst, Z128, suf)
#define CASE_FMA(Inst, suf) \
CASE_AVX512_FMA(Inst, suf) \
CASE_AVX_INS_COMMON(Inst, , suf) \
CASE_AVX_INS_COMMON(Inst, Y, suf)
#define CASE_FMA_PACKED_REG(Inst) \
CASE_FMA(Inst##PD, r) \
CASE_FMA(Inst##PS, r)
#define CASE_FMA_PACKED_MEM(Inst) \
CASE_FMA(Inst##PD, m) \
CASE_FMA(Inst##PS, m) \
CASE_AVX512_FMA(Inst##PD, mb) \
CASE_AVX512_FMA(Inst##PS, mb)
#define CASE_FMA_SCALAR_REG(Inst) \
CASE_AVX_INS_COMMON(Inst##SD, , r) \
CASE_AVX_INS_COMMON(Inst##SS, , r) \
CASE_AVX_INS_COMMON(Inst##SD, , r_Int) \
CASE_AVX_INS_COMMON(Inst##SS, , r_Int) \
CASE_AVX_INS_COMMON(Inst##SD, Z, r) \
CASE_AVX_INS_COMMON(Inst##SS, Z, r) \
CASE_AVX512_INS_COMMON(Inst##SD, Z, r_Int) \
CASE_AVX512_INS_COMMON(Inst##SS, Z, r_Int)
#define CASE_FMA_SCALAR_MEM(Inst) \
CASE_AVX_INS_COMMON(Inst##SD, , m) \
CASE_AVX_INS_COMMON(Inst##SS, , m) \
CASE_AVX_INS_COMMON(Inst##SD, , m_Int) \
CASE_AVX_INS_COMMON(Inst##SS, , m_Int) \
CASE_AVX_INS_COMMON(Inst##SD, Z, m) \
CASE_AVX_INS_COMMON(Inst##SS, Z, m) \
CASE_AVX512_INS_COMMON(Inst##SD, Z, m_Int) \
CASE_AVX512_INS_COMMON(Inst##SS, Z, m_Int)
static unsigned getVectorRegSize(unsigned RegNo) {
if (X86::ZMM0 <= RegNo && RegNo <= X86::ZMM31)
return 512;
if (X86::YMM0 <= RegNo && RegNo <= X86::YMM31)
return 256;
if (X86::XMM0 <= RegNo && RegNo <= X86::XMM31)
return 128;
if (X86::MM0 <= RegNo && RegNo <= X86::MM7)
return 64;
llvm_unreachable("Unknown vector reg!");
}
static unsigned getRegOperandNumElts(const MCInst *MI, unsigned ScalarSize,
unsigned OperandIndex) {
unsigned OpReg = MI->getOperand(OperandIndex).getReg();
return getVectorRegSize(OpReg) / ScalarSize;
}
/// Wraps the destination register name with AVX512 mask/maskz filtering.
static void printMasking(raw_ostream &OS, const MCInst *MI,
const MCInstrInfo &MCII,
const char *(*getRegName)(unsigned)) {
const MCInstrDesc &Desc = MCII.get(MI->getOpcode());
uint64_t TSFlags = Desc.TSFlags;
if (!(TSFlags & X86II::EVEX_K))
return;
bool MaskWithZero = (TSFlags & X86II::EVEX_Z);
unsigned MaskOp = Desc.getNumDefs();
if (Desc.getOperandConstraint(MaskOp, MCOI::TIED_TO) != -1)
++MaskOp;
const char *MaskRegName = getRegName(MI->getOperand(MaskOp).getReg());
// MASK: zmmX {%kY}
OS << " {%" << MaskRegName << "}";
// MASKZ: zmmX {%kY} {z}
if (MaskWithZero)
OS << " {z}";
}
static bool printFMA3Comments(const MCInst *MI, raw_ostream &OS,
const char *(*getRegName)(unsigned)) {
const char *Mul1Name = nullptr, *Mul2Name = nullptr, *AccName = nullptr;
unsigned NumOperands = MI->getNumOperands();
bool RegForm = false;
bool Negate = false;
StringRef AccStr = "+";
// The operands for FMA instructions without rounding fall into two forms.
// dest, src1, src2, src3
// dest, src1, mask, src2, src3
// Where src3 is either a register or 5 memory address operands. So to find
// dest and src1 we can index from the front. To find src2 and src3 we can
// index from the end by taking into account memory vs register form when
// finding src2.
switch (MI->getOpcode()) {
default:
return false;
CASE_FMA_PACKED_REG(FMADD132)
CASE_FMA_SCALAR_REG(FMADD132)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMADD132)
CASE_FMA_SCALAR_MEM(FMADD132)
AccName = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul1Name = getRegName(MI->getOperand(1).getReg());
break;
CASE_FMA_PACKED_REG(FMADD213)
CASE_FMA_SCALAR_REG(FMADD213)
AccName = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMADD213)
CASE_FMA_SCALAR_MEM(FMADD213)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul2Name = getRegName(MI->getOperand(1).getReg());
break;
CASE_FMA_PACKED_REG(FMADD231)
CASE_FMA_SCALAR_REG(FMADD231)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMADD231)
CASE_FMA_SCALAR_MEM(FMADD231)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
AccName = getRegName(MI->getOperand(1).getReg());
break;
CASE_FMA_PACKED_REG(FMSUB132)
CASE_FMA_SCALAR_REG(FMSUB132)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMSUB132)
CASE_FMA_SCALAR_MEM(FMSUB132)
AccName = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul1Name = getRegName(MI->getOperand(1).getReg());
AccStr = "-";
break;
CASE_FMA_PACKED_REG(FMSUB213)
CASE_FMA_SCALAR_REG(FMSUB213)
AccName = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMSUB213)
CASE_FMA_SCALAR_MEM(FMSUB213)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul2Name = getRegName(MI->getOperand(1).getReg());
AccStr = "-";
break;
CASE_FMA_PACKED_REG(FMSUB231)
CASE_FMA_SCALAR_REG(FMSUB231)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMSUB231)
CASE_FMA_SCALAR_MEM(FMSUB231)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
AccName = getRegName(MI->getOperand(1).getReg());
AccStr = "-";
break;
CASE_FMA_PACKED_REG(FNMADD132)
CASE_FMA_SCALAR_REG(FNMADD132)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FNMADD132)
CASE_FMA_SCALAR_MEM(FNMADD132)
AccName = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul1Name = getRegName(MI->getOperand(1).getReg());
Negate = true;
break;
CASE_FMA_PACKED_REG(FNMADD213)
CASE_FMA_SCALAR_REG(FNMADD213)
AccName = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FNMADD213)
CASE_FMA_SCALAR_MEM(FNMADD213)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul2Name = getRegName(MI->getOperand(1).getReg());
Negate = true;
break;
CASE_FMA_PACKED_REG(FNMADD231)
CASE_FMA_SCALAR_REG(FNMADD231)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FNMADD231)
CASE_FMA_SCALAR_MEM(FNMADD231)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
AccName = getRegName(MI->getOperand(1).getReg());
Negate = true;
break;
CASE_FMA_PACKED_REG(FNMSUB132)
CASE_FMA_SCALAR_REG(FNMSUB132)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FNMSUB132)
CASE_FMA_SCALAR_MEM(FNMSUB132)
AccName = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul1Name = getRegName(MI->getOperand(1).getReg());
AccStr = "-";
Negate = true;
break;
CASE_FMA_PACKED_REG(FNMSUB213)
CASE_FMA_SCALAR_REG(FNMSUB213)
AccName = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FNMSUB213)
CASE_FMA_SCALAR_MEM(FNMSUB213)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul2Name = getRegName(MI->getOperand(1).getReg());
AccStr = "-";
Negate = true;
break;
CASE_FMA_PACKED_REG(FNMSUB231)
CASE_FMA_SCALAR_REG(FNMSUB231)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FNMSUB231)
CASE_FMA_SCALAR_MEM(FNMSUB231)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
AccName = getRegName(MI->getOperand(1).getReg());
AccStr = "-";
Negate = true;
break;
CASE_FMA_PACKED_REG(FMADDSUB132)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMADDSUB132)
AccName = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul1Name = getRegName(MI->getOperand(1).getReg());
AccStr = "+/-";
break;
CASE_FMA_PACKED_REG(FMADDSUB213)
AccName = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMADDSUB213)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul2Name = getRegName(MI->getOperand(1).getReg());
AccStr = "+/-";
break;
CASE_FMA_PACKED_REG(FMADDSUB231)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMADDSUB231)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
AccName = getRegName(MI->getOperand(1).getReg());
AccStr = "+/-";
break;
CASE_FMA_PACKED_REG(FMSUBADD132)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMSUBADD132)
AccName = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul1Name = getRegName(MI->getOperand(1).getReg());
AccStr = "-/+";
break;
CASE_FMA_PACKED_REG(FMSUBADD213)
AccName = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMSUBADD213)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
Mul2Name = getRegName(MI->getOperand(1).getReg());
AccStr = "-/+";
break;
CASE_FMA_PACKED_REG(FMSUBADD231)
Mul2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_FMA_PACKED_MEM(FMSUBADD231)
Mul1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
AccName = getRegName(MI->getOperand(1).getReg());
AccStr = "-/+";
break;
}
const char *DestName = getRegName(MI->getOperand(0).getReg());
if (!Mul1Name) Mul1Name = "mem";
if (!Mul2Name) Mul2Name = "mem";
if (!AccName) AccName = "mem";
OS << DestName << " = ";
// TODO: Print masking information?
if (Negate)
OS << '-';
OS << '(' << Mul1Name << " * " << Mul2Name << ") " << AccStr << ' '
<< AccName;
return true;
}
//===----------------------------------------------------------------------===//
// Top Level Entrypoint
//===----------------------------------------------------------------------===//
/// EmitAnyX86InstComments - This function decodes x86 instructions and prints
/// newline terminated strings to the specified string if desired. This
/// information is shown in disassembly dumps when verbose assembly is enabled.
bool llvm::EmitAnyX86InstComments(const MCInst *MI, raw_ostream &OS,
const MCInstrInfo &MCII,
const char *(*getRegName)(unsigned)) {
// If this is a shuffle operation, the switch should fill in this state.
SmallVector<int, 8> ShuffleMask;
const char *DestName = nullptr, *Src1Name = nullptr, *Src2Name = nullptr;
unsigned NumOperands = MI->getNumOperands();
bool RegForm = false;
if (printFMA3Comments(MI, OS, getRegName))
return true;
switch (MI->getOpcode()) {
default:
// Not an instruction for which we can decode comments.
return false;
case X86::BLENDPDrri:
case X86::VBLENDPDrri:
case X86::VBLENDPDYrri:
Src2Name = getRegName(MI->getOperand(2).getReg());
LLVM_FALLTHROUGH;
case X86::BLENDPDrmi:
case X86::VBLENDPDrmi:
case X86::VBLENDPDYrmi:
if (MI->getOperand(NumOperands - 1).isImm())
DecodeBLENDMask(getRegOperandNumElts(MI, 64, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
Src1Name = getRegName(MI->getOperand(1).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
case X86::BLENDPSrri:
case X86::VBLENDPSrri:
case X86::VBLENDPSYrri:
Src2Name = getRegName(MI->getOperand(2).getReg());
LLVM_FALLTHROUGH;
case X86::BLENDPSrmi:
case X86::VBLENDPSrmi:
case X86::VBLENDPSYrmi:
if (MI->getOperand(NumOperands - 1).isImm())
DecodeBLENDMask(getRegOperandNumElts(MI, 32, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
Src1Name = getRegName(MI->getOperand(1).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
case X86::PBLENDWrri:
case X86::VPBLENDWrri:
case X86::VPBLENDWYrri:
Src2Name = getRegName(MI->getOperand(2).getReg());
LLVM_FALLTHROUGH;
case X86::PBLENDWrmi:
case X86::VPBLENDWrmi:
case X86::VPBLENDWYrmi:
if (MI->getOperand(NumOperands - 1).isImm())
DecodeBLENDMask(getRegOperandNumElts(MI, 16, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
Src1Name = getRegName(MI->getOperand(1).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
case X86::VPBLENDDrri:
case X86::VPBLENDDYrri:
Src2Name = getRegName(MI->getOperand(2).getReg());
LLVM_FALLTHROUGH;
case X86::VPBLENDDrmi:
case X86::VPBLENDDYrmi:
if (MI->getOperand(NumOperands - 1).isImm())
DecodeBLENDMask(getRegOperandNumElts(MI, 32, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
Src1Name = getRegName(MI->getOperand(1).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
case X86::INSERTPSrr:
case X86::VINSERTPSrr:
case X86::VINSERTPSZrr:
Src2Name = getRegName(MI->getOperand(2).getReg());
LLVM_FALLTHROUGH;
case X86::INSERTPSrm:
case X86::VINSERTPSrm:
case X86::VINSERTPSZrm:
DestName = getRegName(MI->getOperand(0).getReg());
Src1Name = getRegName(MI->getOperand(1).getReg());
if (MI->getOperand(NumOperands - 1).isImm())
DecodeINSERTPSMask(MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
break;
case X86::MOVLHPSrr:
case X86::VMOVLHPSrr:
case X86::VMOVLHPSZrr:
Src2Name = getRegName(MI->getOperand(2).getReg());
Src1Name = getRegName(MI->getOperand(1).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeMOVLHPSMask(2, ShuffleMask);
break;
case X86::MOVHLPSrr:
case X86::VMOVHLPSrr:
case X86::VMOVHLPSZrr:
Src2Name = getRegName(MI->getOperand(2).getReg());
Src1Name = getRegName(MI->getOperand(1).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeMOVHLPSMask(2, ShuffleMask);
break;
case X86::MOVHPDrm:
case X86::VMOVHPDrm:
case X86::VMOVHPDZ128rm:
Src1Name = getRegName(MI->getOperand(1).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeInsertElementMask(2, 1, 1, ShuffleMask);
break;
case X86::MOVHPSrm:
case X86::VMOVHPSrm:
case X86::VMOVHPSZ128rm:
Src1Name = getRegName(MI->getOperand(1).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeInsertElementMask(4, 2, 2, ShuffleMask);
break;
case X86::MOVLPDrm:
case X86::VMOVLPDrm:
case X86::VMOVLPDZ128rm:
Src1Name = getRegName(MI->getOperand(1).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeInsertElementMask(2, 0, 1, ShuffleMask);
break;
case X86::MOVLPSrm:
case X86::VMOVLPSrm:
case X86::VMOVLPSZ128rm:
Src1Name = getRegName(MI->getOperand(1).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeInsertElementMask(4, 0, 2, ShuffleMask);
break;
CASE_MOVDUP(MOVSLDUP, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_MOVDUP(MOVSLDUP, m)
DestName = getRegName(MI->getOperand(0).getReg());
DecodeMOVSLDUPMask(getRegOperandNumElts(MI, 32, 0), ShuffleMask);
break;
CASE_MOVDUP(MOVSHDUP, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_MOVDUP(MOVSHDUP, m)
DestName = getRegName(MI->getOperand(0).getReg());
DecodeMOVSHDUPMask(getRegOperandNumElts(MI, 32, 0), ShuffleMask);
break;
CASE_MOVDUP(MOVDDUP, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_MOVDUP(MOVDDUP, m)
DestName = getRegName(MI->getOperand(0).getReg());
DecodeMOVDDUPMask(getRegOperandNumElts(MI, 64, 0), ShuffleMask);
break;
case X86::PSLLDQri:
case X86::VPSLLDQri:
case X86::VPSLLDQYri:
case X86::VPSLLDQZ128rr:
case X86::VPSLLDQZ256rr:
case X86::VPSLLDQZrr:
Src1Name = getRegName(MI->getOperand(1).getReg());
LLVM_FALLTHROUGH;
case X86::VPSLLDQZ128rm:
case X86::VPSLLDQZ256rm:
case X86::VPSLLDQZrm:
DestName = getRegName(MI->getOperand(0).getReg());
if (MI->getOperand(NumOperands - 1).isImm())
DecodePSLLDQMask(getRegOperandNumElts(MI, 8, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
break;
case X86::PSRLDQri:
case X86::VPSRLDQri:
case X86::VPSRLDQYri:
case X86::VPSRLDQZ128rr:
case X86::VPSRLDQZ256rr:
case X86::VPSRLDQZrr:
Src1Name = getRegName(MI->getOperand(1).getReg());
LLVM_FALLTHROUGH;
case X86::VPSRLDQZ128rm:
case X86::VPSRLDQZ256rm:
case X86::VPSRLDQZrm:
DestName = getRegName(MI->getOperand(0).getReg());
if (MI->getOperand(NumOperands - 1).isImm())
DecodePSRLDQMask(getRegOperandNumElts(MI, 8, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
break;
CASE_SHUF(PALIGNR, rri)
Src1Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_SHUF(PALIGNR, rmi)
Src2Name = getRegName(MI->getOperand(NumOperands-(RegForm?3:7)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
if (MI->getOperand(NumOperands - 1).isImm())
DecodePALIGNRMask(getRegOperandNumElts(MI, 8, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
break;
CASE_AVX512_INS_COMMON(ALIGNQ, Z, rri)
CASE_AVX512_INS_COMMON(ALIGNQ, Z256, rri)
CASE_AVX512_INS_COMMON(ALIGNQ, Z128, rri)
Src1Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_AVX512_INS_COMMON(ALIGNQ, Z, rmi)
CASE_AVX512_INS_COMMON(ALIGNQ, Z256, rmi)
CASE_AVX512_INS_COMMON(ALIGNQ, Z128, rmi)
Src2Name = getRegName(MI->getOperand(NumOperands-(RegForm?3:7)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
if (MI->getOperand(NumOperands - 1).isImm())
DecodeVALIGNMask(getRegOperandNumElts(MI, 64, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
break;
CASE_AVX512_INS_COMMON(ALIGND, Z, rri)
CASE_AVX512_INS_COMMON(ALIGND, Z256, rri)
CASE_AVX512_INS_COMMON(ALIGND, Z128, rri)
Src1Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_AVX512_INS_COMMON(ALIGND, Z, rmi)
CASE_AVX512_INS_COMMON(ALIGND, Z256, rmi)
CASE_AVX512_INS_COMMON(ALIGND, Z128, rmi)
Src2Name = getRegName(MI->getOperand(NumOperands-(RegForm?3:7)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
if (MI->getOperand(NumOperands - 1).isImm())
DecodeVALIGNMask(getRegOperandNumElts(MI, 32, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
break;
CASE_SHUF(PSHUFD, ri)
Src1Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
LLVM_FALLTHROUGH;
CASE_SHUF(PSHUFD, mi)
DestName = getRegName(MI->getOperand(0).getReg());
if (MI->getOperand(NumOperands - 1).isImm())
DecodePSHUFMask(getRegOperandNumElts(MI, 32, 0), 32,
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
break;
CASE_SHUF(PSHUFHW, ri)
Src1Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
LLVM_FALLTHROUGH;
CASE_SHUF(PSHUFHW, mi)
DestName = getRegName(MI->getOperand(0).getReg());
if (MI->getOperand(NumOperands - 1).isImm())
DecodePSHUFHWMask(getRegOperandNumElts(MI, 16, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
break;
CASE_SHUF(PSHUFLW, ri)
Src1Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
LLVM_FALLTHROUGH;
CASE_SHUF(PSHUFLW, mi)
DestName = getRegName(MI->getOperand(0).getReg());
if (MI->getOperand(NumOperands - 1).isImm())
DecodePSHUFLWMask(getRegOperandNumElts(MI, 16, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
break;
case X86::MMX_PSHUFWri:
Src1Name = getRegName(MI->getOperand(1).getReg());
LLVM_FALLTHROUGH;
case X86::MMX_PSHUFWmi:
DestName = getRegName(MI->getOperand(0).getReg());
if (MI->getOperand(NumOperands - 1).isImm())
DecodePSHUFMask(4, 16, MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
break;
case X86::PSWAPDrr:
Src1Name = getRegName(MI->getOperand(1).getReg());
LLVM_FALLTHROUGH;
case X86::PSWAPDrm:
DestName = getRegName(MI->getOperand(0).getReg());
DecodePSWAPMask(2, ShuffleMask);
break;
CASE_UNPCK(PUNPCKHBW, r)
case X86::MMX_PUNPCKHBWirr:
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(PUNPCKHBW, m)
case X86::MMX_PUNPCKHBWirm:
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeUNPCKHMask(getRegOperandNumElts(MI, 8, 0), 8, ShuffleMask);
break;
CASE_UNPCK(PUNPCKHWD, r)
case X86::MMX_PUNPCKHWDirr:
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(PUNPCKHWD, m)
case X86::MMX_PUNPCKHWDirm:
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeUNPCKHMask(getRegOperandNumElts(MI, 16, 0), 16, ShuffleMask);
break;
CASE_UNPCK(PUNPCKHDQ, r)
case X86::MMX_PUNPCKHDQirr:
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(PUNPCKHDQ, m)
case X86::MMX_PUNPCKHDQirm:
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeUNPCKHMask(getRegOperandNumElts(MI, 32, 0), 32, ShuffleMask);
break;
CASE_UNPCK(PUNPCKHQDQ, r)
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(PUNPCKHQDQ, m)
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeUNPCKHMask(getRegOperandNumElts(MI, 64, 0), 64, ShuffleMask);
break;
CASE_UNPCK(PUNPCKLBW, r)
case X86::MMX_PUNPCKLBWirr:
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(PUNPCKLBW, m)
case X86::MMX_PUNPCKLBWirm:
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeUNPCKLMask(getRegOperandNumElts(MI, 8, 0), 8, ShuffleMask);
break;
CASE_UNPCK(PUNPCKLWD, r)
case X86::MMX_PUNPCKLWDirr:
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(PUNPCKLWD, m)
case X86::MMX_PUNPCKLWDirm:
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeUNPCKLMask(getRegOperandNumElts(MI, 16, 0), 16, ShuffleMask);
break;
CASE_UNPCK(PUNPCKLDQ, r)
case X86::MMX_PUNPCKLDQirr:
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(PUNPCKLDQ, m)
case X86::MMX_PUNPCKLDQirm:
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeUNPCKLMask(getRegOperandNumElts(MI, 32, 0), 32, ShuffleMask);
break;
CASE_UNPCK(PUNPCKLQDQ, r)
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(PUNPCKLQDQ, m)
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
DecodeUNPCKLMask(getRegOperandNumElts(MI, 64, 0), 64, ShuffleMask);
break;
CASE_SHUF(SHUFPD, rri)
Src2Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_SHUF(SHUFPD, rmi)
if (MI->getOperand(NumOperands - 1).isImm())
DecodeSHUFPMask(getRegOperandNumElts(MI, 64, 0), 64,
MI->getOperand(NumOperands - 1).getImm(), ShuffleMask);
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?3:7)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_SHUF(SHUFPS, rri)
Src2Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_SHUF(SHUFPS, rmi)
if (MI->getOperand(NumOperands - 1).isImm())
DecodeSHUFPMask(getRegOperandNumElts(MI, 32, 0), 32,
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?3:7)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_VSHUF(64X2, r)
Src2Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_VSHUF(64X2, m)
decodeVSHUF64x2FamilyMask(getRegOperandNumElts(MI, 64, 0), 64,
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?3:7)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_VSHUF(32X4, r)
Src2Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_VSHUF(32X4, m)
decodeVSHUF64x2FamilyMask(getRegOperandNumElts(MI, 32, 0), 32,
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?3:7)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_UNPCK(UNPCKLPD, r)
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(UNPCKLPD, m)
DecodeUNPCKLMask(getRegOperandNumElts(MI, 64, 0), 64, ShuffleMask);
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_UNPCK(UNPCKLPS, r)
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(UNPCKLPS, m)
DecodeUNPCKLMask(getRegOperandNumElts(MI, 32, 0), 32, ShuffleMask);
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_UNPCK(UNPCKHPD, r)
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(UNPCKHPD, m)
DecodeUNPCKHMask(getRegOperandNumElts(MI, 64, 0), 64, ShuffleMask);
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_UNPCK(UNPCKHPS, r)
Src2Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
RegForm = true;
LLVM_FALLTHROUGH;
CASE_UNPCK(UNPCKHPS, m)
DecodeUNPCKHMask(getRegOperandNumElts(MI, 32, 0), 32, ShuffleMask);
Src1Name = getRegName(MI->getOperand(NumOperands-(RegForm?2:6)).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_VPERMILPI(PERMILPS, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
LLVM_FALLTHROUGH;
CASE_VPERMILPI(PERMILPS, m)
if (MI->getOperand(NumOperands - 1).isImm())
DecodePSHUFMask(getRegOperandNumElts(MI, 32, 0), 32,
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_VPERMILPI(PERMILPD, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
LLVM_FALLTHROUGH;
CASE_VPERMILPI(PERMILPD, m)
if (MI->getOperand(NumOperands - 1).isImm())
DecodePSHUFMask(getRegOperandNumElts(MI, 64, 0), 64,
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
case X86::VPERM2F128rr:
case X86::VPERM2I128rr:
Src2Name = getRegName(MI->getOperand(2).getReg());
LLVM_FALLTHROUGH;
case X86::VPERM2F128rm:
case X86::VPERM2I128rm:
// For instruction comments purpose, assume the 256-bit vector is v4i64.
if (MI->getOperand(NumOperands - 1).isImm())
DecodeVPERM2X128Mask(4, MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
Src1Name = getRegName(MI->getOperand(1).getReg());
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_VPERM(PERMPD, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
LLVM_FALLTHROUGH;
CASE_VPERM(PERMPD, m)
if (MI->getOperand(NumOperands - 1).isImm())
DecodeVPERMMask(getRegOperandNumElts(MI, 64, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_VPERM(PERMQ, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 2).getReg());
LLVM_FALLTHROUGH;
CASE_VPERM(PERMQ, m)
if (MI->getOperand(NumOperands - 1).isImm())
DecodeVPERMMask(getRegOperandNumElts(MI, 64, 0),
MI->getOperand(NumOperands - 1).getImm(),
ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
case X86::MOVSDrr:
case X86::VMOVSDrr:
case X86::VMOVSDZrr:
Src2Name = getRegName(MI->getOperand(2).getReg());
Src1Name = getRegName(MI->getOperand(1).getReg());
LLVM_FALLTHROUGH;
case X86::MOVSDrm:
case X86::VMOVSDrm:
case X86::VMOVSDZrm:
DecodeScalarMoveMask(2, nullptr == Src2Name, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
case X86::MOVSSrr:
case X86::VMOVSSrr:
case X86::VMOVSSZrr:
Src2Name = getRegName(MI->getOperand(2).getReg());
Src1Name = getRegName(MI->getOperand(1).getReg());
LLVM_FALLTHROUGH;
case X86::MOVSSrm:
case X86::VMOVSSrm:
case X86::VMOVSSZrm:
DecodeScalarMoveMask(4, nullptr == Src2Name, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
case X86::MOVPQI2QIrr:
case X86::MOVZPQILo2PQIrr:
case X86::VMOVPQI2QIrr:
case X86::VMOVPQI2QIZrr:
case X86::VMOVZPQILo2PQIrr:
case X86::VMOVZPQILo2PQIZrr:
Src1Name = getRegName(MI->getOperand(1).getReg());
LLVM_FALLTHROUGH;
case X86::MOVQI2PQIrm:
case X86::VMOVQI2PQIrm:
case X86::VMOVQI2PQIZrm:
DecodeZeroMoveLowMask(2, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
case X86::MOVDI2PDIrm:
case X86::VMOVDI2PDIrm:
case X86::VMOVDI2PDIZrm:
DecodeZeroMoveLowMask(4, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
case X86::EXTRQI:
if (MI->getOperand(2).isImm() &&
MI->getOperand(3).isImm())
DecodeEXTRQIMask(16, 8, MI->getOperand(2).getImm(),
MI->getOperand(3).getImm(), ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
Src1Name = getRegName(MI->getOperand(1).getReg());
break;
case X86::INSERTQI:
if (MI->getOperand(3).isImm() &&
MI->getOperand(4).isImm())
DecodeINSERTQIMask(16, 8, MI->getOperand(3).getImm(),
MI->getOperand(4).getImm(), ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
Src1Name = getRegName(MI->getOperand(1).getReg());
Src2Name = getRegName(MI->getOperand(2).getReg());
break;
case X86::VBROADCASTF128:
case X86::VBROADCASTI128:
CASE_AVX512_INS_COMMON(BROADCASTF64X2, Z128, rm)
CASE_AVX512_INS_COMMON(BROADCASTI64X2, Z128, rm)
DecodeSubVectorBroadcast(4, 2, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_AVX512_INS_COMMON(BROADCASTF64X2, , rm)
CASE_AVX512_INS_COMMON(BROADCASTI64X2, , rm)
DecodeSubVectorBroadcast(8, 2, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_AVX512_INS_COMMON(BROADCASTF64X4, , rm)
CASE_AVX512_INS_COMMON(BROADCASTI64X4, , rm)
DecodeSubVectorBroadcast(8, 4, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_AVX512_INS_COMMON(BROADCASTF32X4, Z256, rm)
CASE_AVX512_INS_COMMON(BROADCASTI32X4, Z256, rm)
DecodeSubVectorBroadcast(8, 4, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_AVX512_INS_COMMON(BROADCASTF32X4, , rm)
CASE_AVX512_INS_COMMON(BROADCASTI32X4, , rm)
DecodeSubVectorBroadcast(16, 4, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_AVX512_INS_COMMON(BROADCASTF32X8, , rm)
CASE_AVX512_INS_COMMON(BROADCASTI32X8, , rm)
DecodeSubVectorBroadcast(16, 8, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_AVX512_INS_COMMON(BROADCASTI32X2, Z128, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_AVX512_INS_COMMON(BROADCASTI32X2, Z128, m)
DecodeSubVectorBroadcast(4, 2, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_AVX512_INS_COMMON(BROADCASTF32X2, Z256, r)
CASE_AVX512_INS_COMMON(BROADCASTI32X2, Z256, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_AVX512_INS_COMMON(BROADCASTF32X2, Z256, m)
CASE_AVX512_INS_COMMON(BROADCASTI32X2, Z256, m)
DecodeSubVectorBroadcast(8, 2, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_AVX512_INS_COMMON(BROADCASTF32X2, Z, r)
CASE_AVX512_INS_COMMON(BROADCASTI32X2, Z, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_AVX512_INS_COMMON(BROADCASTF32X2, Z, m)
CASE_AVX512_INS_COMMON(BROADCASTI32X2, Z, m)
DecodeSubVectorBroadcast(16, 2, ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_PMOVZX(PMOVZXBW, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_PMOVZX(PMOVZXBW, m)
DecodeZeroExtendMask(8, 16, getRegOperandNumElts(MI, 16, 0), ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_PMOVZX(PMOVZXBD, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_PMOVZX(PMOVZXBD, m)
DecodeZeroExtendMask(8, 32, getRegOperandNumElts(MI, 32, 0), ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_PMOVZX(PMOVZXBQ, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_PMOVZX(PMOVZXBQ, m)
DecodeZeroExtendMask(8, 64, getRegOperandNumElts(MI, 64, 0), ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_PMOVZX(PMOVZXWD, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_PMOVZX(PMOVZXWD, m)
DecodeZeroExtendMask(16, 32, getRegOperandNumElts(MI, 32, 0), ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_PMOVZX(PMOVZXWQ, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_PMOVZX(PMOVZXWQ, m)
DecodeZeroExtendMask(16, 64, getRegOperandNumElts(MI, 64, 0), ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
CASE_PMOVZX(PMOVZXDQ, r)
Src1Name = getRegName(MI->getOperand(NumOperands - 1).getReg());
LLVM_FALLTHROUGH;
CASE_PMOVZX(PMOVZXDQ, m)
DecodeZeroExtendMask(32, 64, getRegOperandNumElts(MI, 64, 0), ShuffleMask);
DestName = getRegName(MI->getOperand(0).getReg());
break;
}
// The only comments we decode are shuffles, so give up if we were unable to
// decode a shuffle mask.
if (ShuffleMask.empty())
return false;
if (!DestName) DestName = Src1Name;
if (DestName) {
OS << DestName;
printMasking(OS, MI, MCII, getRegName);
} else
OS << "mem";
OS << " = ";
// If the two sources are the same, canonicalize the input elements to be
// from the first src so that we get larger element spans.
if (Src1Name == Src2Name) {
for (unsigned i = 0, e = ShuffleMask.size(); i != e; ++i) {
if ((int)ShuffleMask[i] >= 0 && // Not sentinel.
ShuffleMask[i] >= (int)e) // From second mask.
ShuffleMask[i] -= e;
}
}
// The shuffle mask specifies which elements of the src1/src2 fill in the
// destination, with a few sentinel values. Loop through and print them
// out.
for (unsigned i = 0, e = ShuffleMask.size(); i != e; ++i) {
if (i != 0)
OS << ',';
if (ShuffleMask[i] == SM_SentinelZero) {
OS << "zero";
continue;
}
// Otherwise, it must come from src1 or src2. Print the span of elements
// that comes from this src.
bool isSrc1 = ShuffleMask[i] < (int)ShuffleMask.size();
const char *SrcName = isSrc1 ? Src1Name : Src2Name;
OS << (SrcName ? SrcName : "mem") << '[';
bool IsFirst = true;
while (i != e && (int)ShuffleMask[i] != SM_SentinelZero &&
(ShuffleMask[i] < (int)ShuffleMask.size()) == isSrc1) {
if (!IsFirst)
OS << ',';
else
IsFirst = false;
if (ShuffleMask[i] == SM_SentinelUndef)
OS << "u";
else
OS << ShuffleMask[i] % ShuffleMask.size();
++i;
}
OS << ']';
--i; // For loop increments element #.
}
// We successfully added a comment to this instruction.
return true;
}
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