Adding qemu as a submodule of KVMFORNFV

This Patch includes the changes to add qemu as a submodule to
kvmfornfv repo and make use of the updated latest qemu for the
execution of all testcase
Change-Id: I1280af507a857675c7f81d30c95255635667bdd7
Signed-off-by:RajithaY<rajithax.yerrumsetty@intel.com>

1 files changed, 0 insertions, 3491 deletions

diff --git a/qemu/disas/libvixl/vixl/a64/disasm-a64.cc b/qemu/disas/libvixl/vixl/a64/disasm-a64.cc
deleted file mode 100644
index 7a58a5c08..000000000
--- a/qemu/disas/libvixl/vixl/a64/disasm-a64.cc
+++ /dev/null
@@ -1,3491 +0,0 @@
-// Copyright 2015, ARM Limited
-// All rights reserved.
-//
-// Redistribution and use in source and binary forms, with or without
-// modification, are permitted provided that the following conditions are met:
-//
-//   * Redistributions of source code must retain the above copyright notice,
-//     this list of conditions and the following disclaimer.
-//   * Redistributions in binary form must reproduce the above copyright notice,
-//     this list of conditions and the following disclaimer in the documentation
-//     and/or other materials provided with the distribution.
-//   * Neither the name of ARM Limited nor the names of its contributors may be
-//     used to endorse or promote products derived from this software without
-//     specific prior written permission.
-//
-// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS CONTRIBUTORS "AS IS" AND
-// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
-// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
-// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
-// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
-// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
-// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
-// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
-// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
-// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-
-#include <cstdlib>
-#include "vixl/a64/disasm-a64.h"
-
-namespace vixl {
-
-Disassembler::Disassembler() {
-  buffer_size_ = 256;
-  buffer_ = reinterpret_cast<char*>(malloc(buffer_size_));
-  buffer_pos_ = 0;
-  own_buffer_ = true;
-  code_address_offset_ = 0;
-}
-
-
-Disassembler::Disassembler(char* text_buffer, int buffer_size) {
-  buffer_size_ = buffer_size;
-  buffer_ = text_buffer;
-  buffer_pos_ = 0;
-  own_buffer_ = false;
-  code_address_offset_ = 0;
-}
-
-
-Disassembler::~Disassembler() {
-  if (own_buffer_) {
-    free(buffer_);
-  }
-}
-
-
-char* Disassembler::GetOutput() {
-  return buffer_;
-}
-
-
-void Disassembler::VisitAddSubImmediate(const Instruction* instr) {
-  bool rd_is_zr = RdIsZROrSP(instr);
-  bool stack_op = (rd_is_zr || RnIsZROrSP(instr)) &&
-                  (instr->ImmAddSub() == 0) ? true : false;
-  const char *mnemonic = "";
-  const char *form = "'Rds, 'Rns, 'IAddSub";
-  const char *form_cmp = "'Rns, 'IAddSub";
-  const char *form_mov = "'Rds, 'Rns";
-
-  switch (instr->Mask(AddSubImmediateMask)) {
-    case ADD_w_imm:
-    case ADD_x_imm: {
-      mnemonic = "add";
-      if (stack_op) {
-        mnemonic = "mov";
-        form = form_mov;
-      }
-      break;
-    }
-    case ADDS_w_imm:
-    case ADDS_x_imm: {
-      mnemonic = "adds";
-      if (rd_is_zr) {
-        mnemonic = "cmn";
-        form = form_cmp;
-      }
-      break;
-    }
-    case SUB_w_imm:
-    case SUB_x_imm: mnemonic = "sub"; break;
-    case SUBS_w_imm:
-    case SUBS_x_imm: {
-      mnemonic = "subs";
-      if (rd_is_zr) {
-        mnemonic = "cmp";
-        form = form_cmp;
-      }
-      break;
-    }
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitAddSubShifted(const Instruction* instr) {
-  bool rd_is_zr = RdIsZROrSP(instr);
-  bool rn_is_zr = RnIsZROrSP(instr);
-  const char *mnemonic = "";
-  const char *form = "'Rd, 'Rn, 'Rm'NDP";
-  const char *form_cmp = "'Rn, 'Rm'NDP";
-  const char *form_neg = "'Rd, 'Rm'NDP";
-
-  switch (instr->Mask(AddSubShiftedMask)) {
-    case ADD_w_shift:
-    case ADD_x_shift: mnemonic = "add"; break;
-    case ADDS_w_shift:
-    case ADDS_x_shift: {
-      mnemonic = "adds";
-      if (rd_is_zr) {
-        mnemonic = "cmn";
-        form = form_cmp;
-      }
-      break;
-    }
-    case SUB_w_shift:
-    case SUB_x_shift: {
-      mnemonic = "sub";
-      if (rn_is_zr) {
-        mnemonic = "neg";
-        form = form_neg;
-      }
-      break;
-    }
-    case SUBS_w_shift:
-    case SUBS_x_shift: {
-      mnemonic = "subs";
-      if (rd_is_zr) {
-        mnemonic = "cmp";
-        form = form_cmp;
-      } else if (rn_is_zr) {
-        mnemonic = "negs";
-        form = form_neg;
-      }
-      break;
-    }
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitAddSubExtended(const Instruction* instr) {
-  bool rd_is_zr = RdIsZROrSP(instr);
-  const char *mnemonic = "";
-  Extend mode = static_cast<Extend>(instr->ExtendMode());
-  const char *form = ((mode == UXTX) || (mode == SXTX)) ?
-                     "'Rds, 'Rns, 'Xm'Ext" : "'Rds, 'Rns, 'Wm'Ext";
-  const char *form_cmp = ((mode == UXTX) || (mode == SXTX)) ?
-                         "'Rns, 'Xm'Ext" : "'Rns, 'Wm'Ext";
-
-  switch (instr->Mask(AddSubExtendedMask)) {
-    case ADD_w_ext:
-    case ADD_x_ext: mnemonic = "add"; break;
-    case ADDS_w_ext:
-    case ADDS_x_ext: {
-      mnemonic = "adds";
-      if (rd_is_zr) {
-        mnemonic = "cmn";
-        form = form_cmp;
-      }
-      break;
-    }
-    case SUB_w_ext:
-    case SUB_x_ext: mnemonic = "sub"; break;
-    case SUBS_w_ext:
-    case SUBS_x_ext: {
-      mnemonic = "subs";
-      if (rd_is_zr) {
-        mnemonic = "cmp";
-        form = form_cmp;
-      }
-      break;
-    }
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitAddSubWithCarry(const Instruction* instr) {
-  bool rn_is_zr = RnIsZROrSP(instr);
-  const char *mnemonic = "";
-  const char *form = "'Rd, 'Rn, 'Rm";
-  const char *form_neg = "'Rd, 'Rm";
-
-  switch (instr->Mask(AddSubWithCarryMask)) {
-    case ADC_w:
-    case ADC_x: mnemonic = "adc"; break;
-    case ADCS_w:
-    case ADCS_x: mnemonic = "adcs"; break;
-    case SBC_w:
-    case SBC_x: {
-      mnemonic = "sbc";
-      if (rn_is_zr) {
-        mnemonic = "ngc";
-        form = form_neg;
-      }
-      break;
-    }
-    case SBCS_w:
-    case SBCS_x: {
-      mnemonic = "sbcs";
-      if (rn_is_zr) {
-        mnemonic = "ngcs";
-        form = form_neg;
-      }
-      break;
-    }
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitLogicalImmediate(const Instruction* instr) {
-  bool rd_is_zr = RdIsZROrSP(instr);
-  bool rn_is_zr = RnIsZROrSP(instr);
-  const char *mnemonic = "";
-  const char *form = "'Rds, 'Rn, 'ITri";
-
-  if (instr->ImmLogical() == 0) {
-    // The immediate encoded in the instruction is not in the expected format.
-    Format(instr, "unallocated", "(LogicalImmediate)");
-    return;
-  }
-
-  switch (instr->Mask(LogicalImmediateMask)) {
-    case AND_w_imm:
-    case AND_x_imm: mnemonic = "and"; break;
-    case ORR_w_imm:
-    case ORR_x_imm: {
-      mnemonic = "orr";
-      unsigned reg_size = (instr->SixtyFourBits() == 1) ? kXRegSize
-                                                        : kWRegSize;
-      if (rn_is_zr && !IsMovzMovnImm(reg_size, instr->ImmLogical())) {
-        mnemonic = "mov";
-        form = "'Rds, 'ITri";
-      }
-      break;
-    }
-    case EOR_w_imm:
-    case EOR_x_imm: mnemonic = "eor"; break;
-    case ANDS_w_imm:
-    case ANDS_x_imm: {
-      mnemonic = "ands";
-      if (rd_is_zr) {
-        mnemonic = "tst";
-        form = "'Rn, 'ITri";
-      }
-      break;
-    }
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-bool Disassembler::IsMovzMovnImm(unsigned reg_size, uint64_t value) {
-  VIXL_ASSERT((reg_size == kXRegSize) ||
-              ((reg_size == kWRegSize) && (value <= 0xffffffff)));
-
-  // Test for movz: 16 bits set at positions 0, 16, 32 or 48.
-  if (((value & UINT64_C(0xffffffffffff0000)) == 0) ||
-      ((value & UINT64_C(0xffffffff0000ffff)) == 0) ||
-      ((value & UINT64_C(0xffff0000ffffffff)) == 0) ||
-      ((value & UINT64_C(0x0000ffffffffffff)) == 0)) {
-    return true;
-  }
-
-  // Test for movn: NOT(16 bits set at positions 0, 16, 32 or 48).
-  if ((reg_size == kXRegSize) &&
-      (((~value & UINT64_C(0xffffffffffff0000)) == 0) ||
-       ((~value & UINT64_C(0xffffffff0000ffff)) == 0) ||
-       ((~value & UINT64_C(0xffff0000ffffffff)) == 0) ||
-       ((~value & UINT64_C(0x0000ffffffffffff)) == 0))) {
-    return true;
-  }
-  if ((reg_size == kWRegSize) &&
-      (((value & 0xffff0000) == 0xffff0000) ||
-       ((value & 0x0000ffff) == 0x0000ffff))) {
-    return true;
-  }
-  return false;
-}
-
-
-void Disassembler::VisitLogicalShifted(const Instruction* instr) {
-  bool rd_is_zr = RdIsZROrSP(instr);
-  bool rn_is_zr = RnIsZROrSP(instr);
-  const char *mnemonic = "";
-  const char *form = "'Rd, 'Rn, 'Rm'NLo";
-
-  switch (instr->Mask(LogicalShiftedMask)) {
-    case AND_w:
-    case AND_x: mnemonic = "and"; break;
-    case BIC_w:
-    case BIC_x: mnemonic = "bic"; break;
-    case EOR_w:
-    case EOR_x: mnemonic = "eor"; break;
-    case EON_w:
-    case EON_x: mnemonic = "eon"; break;
-    case BICS_w:
-    case BICS_x: mnemonic = "bics"; break;
-    case ANDS_w:
-    case ANDS_x: {
-      mnemonic = "ands";
-      if (rd_is_zr) {
-        mnemonic = "tst";
-        form = "'Rn, 'Rm'NLo";
-      }
-      break;
-    }
-    case ORR_w:
-    case ORR_x: {
-      mnemonic = "orr";
-      if (rn_is_zr && (instr->ImmDPShift() == 0) && (instr->ShiftDP() == LSL)) {
-        mnemonic = "mov";
-        form = "'Rd, 'Rm";
-      }
-      break;
-    }
-    case ORN_w:
-    case ORN_x: {
-      mnemonic = "orn";
-      if (rn_is_zr) {
-        mnemonic = "mvn";
-        form = "'Rd, 'Rm'NLo";
-      }
-      break;
-    }
-    default: VIXL_UNREACHABLE();
-  }
-
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitConditionalCompareRegister(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "'Rn, 'Rm, 'INzcv, 'Cond";
-
-  switch (instr->Mask(ConditionalCompareRegisterMask)) {
-    case CCMN_w:
-    case CCMN_x: mnemonic = "ccmn"; break;
-    case CCMP_w:
-    case CCMP_x: mnemonic = "ccmp"; break;
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitConditionalCompareImmediate(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "'Rn, 'IP, 'INzcv, 'Cond";
-
-  switch (instr->Mask(ConditionalCompareImmediateMask)) {
-    case CCMN_w_imm:
-    case CCMN_x_imm: mnemonic = "ccmn"; break;
-    case CCMP_w_imm:
-    case CCMP_x_imm: mnemonic = "ccmp"; break;
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitConditionalSelect(const Instruction* instr) {
-  bool rnm_is_zr = (RnIsZROrSP(instr) && RmIsZROrSP(instr));
-  bool rn_is_rm = (instr->Rn() == instr->Rm());
-  const char *mnemonic = "";
-  const char *form = "'Rd, 'Rn, 'Rm, 'Cond";
-  const char *form_test = "'Rd, 'CInv";
-  const char *form_update = "'Rd, 'Rn, 'CInv";
-
-  Condition cond = static_cast<Condition>(instr->Condition());
-  bool invertible_cond = (cond != al) && (cond != nv);
-
-  switch (instr->Mask(ConditionalSelectMask)) {
-    case CSEL_w:
-    case CSEL_x: mnemonic = "csel"; break;
-    case CSINC_w:
-    case CSINC_x: {
-      mnemonic = "csinc";
-      if (rnm_is_zr && invertible_cond) {
-        mnemonic = "cset";
-        form = form_test;
-      } else if (rn_is_rm && invertible_cond) {
-        mnemonic = "cinc";
-        form = form_update;
-      }
-      break;
-    }
-    case CSINV_w:
-    case CSINV_x: {
-      mnemonic = "csinv";
-      if (rnm_is_zr && invertible_cond) {
-        mnemonic = "csetm";
-        form = form_test;
-      } else if (rn_is_rm && invertible_cond) {
-        mnemonic = "cinv";
-        form = form_update;
-      }
-      break;
-    }
-    case CSNEG_w:
-    case CSNEG_x: {
-      mnemonic = "csneg";
-      if (rn_is_rm && invertible_cond) {
-        mnemonic = "cneg";
-        form = form_update;
-      }
-      break;
-    }
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitBitfield(const Instruction* instr) {
-  unsigned s = instr->ImmS();
-  unsigned r = instr->ImmR();
-  unsigned rd_size_minus_1 =
-    ((instr->SixtyFourBits() == 1) ? kXRegSize : kWRegSize) - 1;
-  const char *mnemonic = "";
-  const char *form = "";
-  const char *form_shift_right = "'Rd, 'Rn, 'IBr";
-  const char *form_extend = "'Rd, 'Wn";
-  const char *form_bfiz = "'Rd, 'Rn, 'IBZ-r, 'IBs+1";
-  const char *form_bfx = "'Rd, 'Rn, 'IBr, 'IBs-r+1";
-  const char *form_lsl = "'Rd, 'Rn, 'IBZ-r";
-
-  switch (instr->Mask(BitfieldMask)) {
-    case SBFM_w:
-    case SBFM_x: {
-      mnemonic = "sbfx";
-      form = form_bfx;
-      if (r == 0) {
-        form = form_extend;
-        if (s == 7) {
-          mnemonic = "sxtb";
-        } else if (s == 15) {
-          mnemonic = "sxth";
-        } else if ((s == 31) && (instr->SixtyFourBits() == 1)) {
-          mnemonic = "sxtw";
-        } else {
-          form = form_bfx;
-        }
-      } else if (s == rd_size_minus_1) {
-        mnemonic = "asr";
-        form = form_shift_right;
-      } else if (s < r) {
-        mnemonic = "sbfiz";
-        form = form_bfiz;
-      }
-      break;
-    }
-    case UBFM_w:
-    case UBFM_x: {
-      mnemonic = "ubfx";
-      form = form_bfx;
-      if (r == 0) {
-        form = form_extend;
-        if (s == 7) {
-          mnemonic = "uxtb";
-        } else if (s == 15) {
-          mnemonic = "uxth";
-        } else {
-          form = form_bfx;
-        }
-      }
-      if (s == rd_size_minus_1) {
-        mnemonic = "lsr";
-        form = form_shift_right;
-      } else if (r == s + 1) {
-        mnemonic = "lsl";
-        form = form_lsl;
-      } else if (s < r) {
-        mnemonic = "ubfiz";
-        form = form_bfiz;
-      }
-      break;
-    }
-    case BFM_w:
-    case BFM_x: {
-      mnemonic = "bfxil";
-      form = form_bfx;
-      if (s < r) {
-        mnemonic = "bfi";
-        form = form_bfiz;
-      }
-    }
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitExtract(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "'Rd, 'Rn, 'Rm, 'IExtract";
-
-  switch (instr->Mask(ExtractMask)) {
-    case EXTR_w:
-    case EXTR_x: {
-      if (instr->Rn() == instr->Rm()) {
-        mnemonic = "ror";
-        form = "'Rd, 'Rn, 'IExtract";
-      } else {
-        mnemonic = "extr";
-      }
-      break;
-    }
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitPCRelAddressing(const Instruction* instr) {
-  switch (instr->Mask(PCRelAddressingMask)) {
-    case ADR: Format(instr, "adr", "'Xd, 'AddrPCRelByte"); break;
-    case ADRP: Format(instr, "adrp", "'Xd, 'AddrPCRelPage"); break;
-    default: Format(instr, "unimplemented", "(PCRelAddressing)");
-  }
-}
-
-
-void Disassembler::VisitConditionalBranch(const Instruction* instr) {
-  switch (instr->Mask(ConditionalBranchMask)) {
-    case B_cond: Format(instr, "b.'CBrn", "'TImmCond"); break;
-    default: VIXL_UNREACHABLE();
-  }
-}
-
-
-void Disassembler::VisitUnconditionalBranchToRegister(
-    const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "'Xn";
-
-  switch (instr->Mask(UnconditionalBranchToRegisterMask)) {
-    case BR: mnemonic = "br"; break;
-    case BLR: mnemonic = "blr"; break;
-    case RET: {
-      mnemonic = "ret";
-      if (instr->Rn() == kLinkRegCode) {
-        form = NULL;
-      }
-      break;
-    }
-    default: form = "(UnconditionalBranchToRegister)";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitUnconditionalBranch(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "'TImmUncn";
-
-  switch (instr->Mask(UnconditionalBranchMask)) {
-    case B: mnemonic = "b"; break;
-    case BL: mnemonic = "bl"; break;
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitDataProcessing1Source(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "'Rd, 'Rn";
-
-  switch (instr->Mask(DataProcessing1SourceMask)) {
-    #define FORMAT(A, B)  \
-    case A##_w:           \
-    case A##_x: mnemonic = B; break;
-    FORMAT(RBIT, "rbit");
-    FORMAT(REV16, "rev16");
-    FORMAT(REV, "rev");
-    FORMAT(CLZ, "clz");
-    FORMAT(CLS, "cls");
-    #undef FORMAT
-    case REV32_x: mnemonic = "rev32"; break;
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitDataProcessing2Source(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "'Rd, 'Rn, 'Rm";
-  const char *form_wwx = "'Wd, 'Wn, 'Xm";
-
-  switch (instr->Mask(DataProcessing2SourceMask)) {
-    #define FORMAT(A, B)  \
-    case A##_w:           \
-    case A##_x: mnemonic = B; break;
-    FORMAT(UDIV, "udiv");
-    FORMAT(SDIV, "sdiv");
-    FORMAT(LSLV, "lsl");
-    FORMAT(LSRV, "lsr");
-    FORMAT(ASRV, "asr");
-    FORMAT(RORV, "ror");
-    #undef FORMAT
-    case CRC32B: mnemonic = "crc32b"; break;
-    case CRC32H: mnemonic = "crc32h"; break;
-    case CRC32W: mnemonic = "crc32w"; break;
-    case CRC32X: mnemonic = "crc32x"; form = form_wwx; break;
-    case CRC32CB: mnemonic = "crc32cb"; break;
-    case CRC32CH: mnemonic = "crc32ch"; break;
-    case CRC32CW: mnemonic = "crc32cw"; break;
-    case CRC32CX: mnemonic = "crc32cx"; form = form_wwx; break;
-    default: form = "(DataProcessing2Source)";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitDataProcessing3Source(const Instruction* instr) {
-  bool ra_is_zr = RaIsZROrSP(instr);
-  const char *mnemonic = "";
-  const char *form = "'Xd, 'Wn, 'Wm, 'Xa";
-  const char *form_rrr = "'Rd, 'Rn, 'Rm";
-  const char *form_rrrr = "'Rd, 'Rn, 'Rm, 'Ra";
-  const char *form_xww = "'Xd, 'Wn, 'Wm";
-  const char *form_xxx = "'Xd, 'Xn, 'Xm";
-
-  switch (instr->Mask(DataProcessing3SourceMask)) {
-    case MADD_w:
-    case MADD_x: {
-      mnemonic = "madd";
-      form = form_rrrr;
-      if (ra_is_zr) {
-        mnemonic = "mul";
-        form = form_rrr;
-      }
-      break;
-    }
-    case MSUB_w:
-    case MSUB_x: {
-      mnemonic = "msub";
-      form = form_rrrr;
-      if (ra_is_zr) {
-        mnemonic = "mneg";
-        form = form_rrr;
-      }
-      break;
-    }
-    case SMADDL_x: {
-      mnemonic = "smaddl";
-      if (ra_is_zr) {
-        mnemonic = "smull";
-        form = form_xww;
-      }
-      break;
-    }
-    case SMSUBL_x: {
-      mnemonic = "smsubl";
-      if (ra_is_zr) {
-        mnemonic = "smnegl";
-        form = form_xww;
-      }
-      break;
-    }
-    case UMADDL_x: {
-      mnemonic = "umaddl";
-      if (ra_is_zr) {
-        mnemonic = "umull";
-        form = form_xww;
-      }
-      break;
-    }
-    case UMSUBL_x: {
-      mnemonic = "umsubl";
-      if (ra_is_zr) {
-        mnemonic = "umnegl";
-        form = form_xww;
-      }
-      break;
-    }
-    case SMULH_x: {
-      mnemonic = "smulh";
-      form = form_xxx;
-      break;
-    }
-    case UMULH_x: {
-      mnemonic = "umulh";
-      form = form_xxx;
-      break;
-    }
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitCompareBranch(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "'Rt, 'TImmCmpa";
-
-  switch (instr->Mask(CompareBranchMask)) {
-    case CBZ_w:
-    case CBZ_x: mnemonic = "cbz"; break;
-    case CBNZ_w:
-    case CBNZ_x: mnemonic = "cbnz"; break;
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitTestBranch(const Instruction* instr) {
-  const char *mnemonic = "";
-  // If the top bit of the immediate is clear, the tested register is
-  // disassembled as Wt, otherwise Xt. As the top bit of the immediate is
-  // encoded in bit 31 of the instruction, we can reuse the Rt form, which
-  // uses bit 31 (normally "sf") to choose the register size.
-  const char *form = "'Rt, 'IS, 'TImmTest";
-
-  switch (instr->Mask(TestBranchMask)) {
-    case TBZ: mnemonic = "tbz"; break;
-    case TBNZ: mnemonic = "tbnz"; break;
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitMoveWideImmediate(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "'Rd, 'IMoveImm";
-
-  // Print the shift separately for movk, to make it clear which half word will
-  // be overwritten. Movn and movz print the computed immediate, which includes
-  // shift calculation.
-  switch (instr->Mask(MoveWideImmediateMask)) {
-    case MOVN_w:
-    case MOVN_x:
-      if ((instr->ImmMoveWide()) || (instr->ShiftMoveWide() == 0)) {
-        if ((instr->SixtyFourBits() == 0) && (instr->ImmMoveWide() == 0xffff)) {
-          mnemonic = "movn";
-        } else {
-          mnemonic = "mov";
-          form = "'Rd, 'IMoveNeg";
-        }
-      } else {
-        mnemonic = "movn";
-      }
-      break;
-    case MOVZ_w:
-    case MOVZ_x:
-      if ((instr->ImmMoveWide()) || (instr->ShiftMoveWide() == 0))
-        mnemonic = "mov";
-      else
-        mnemonic = "movz";
-      break;
-    case MOVK_w:
-    case MOVK_x: mnemonic = "movk"; form = "'Rd, 'IMoveLSL"; break;
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-#define LOAD_STORE_LIST(V)    \
-  V(STRB_w, "strb", "'Wt")    \
-  V(STRH_w, "strh", "'Wt")    \
-  V(STR_w, "str", "'Wt")      \
-  V(STR_x, "str", "'Xt")      \
-  V(LDRB_w, "ldrb", "'Wt")    \
-  V(LDRH_w, "ldrh", "'Wt")    \
-  V(LDR_w, "ldr", "'Wt")      \
-  V(LDR_x, "ldr", "'Xt")      \
-  V(LDRSB_x, "ldrsb", "'Xt")  \
-  V(LDRSH_x, "ldrsh", "'Xt")  \
-  V(LDRSW_x, "ldrsw", "'Xt")  \
-  V(LDRSB_w, "ldrsb", "'Wt")  \
-  V(LDRSH_w, "ldrsh", "'Wt")  \
-  V(STR_b, "str", "'Bt")      \
-  V(STR_h, "str", "'Ht")      \
-  V(STR_s, "str", "'St")      \
-  V(STR_d, "str", "'Dt")      \
-  V(LDR_b, "ldr", "'Bt")      \
-  V(LDR_h, "ldr", "'Ht")      \
-  V(LDR_s, "ldr", "'St")      \
-  V(LDR_d, "ldr", "'Dt")      \
-  V(STR_q, "str", "'Qt")      \
-  V(LDR_q, "ldr", "'Qt")
-
-void Disassembler::VisitLoadStorePreIndex(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(LoadStorePreIndex)";
-
-  switch (instr->Mask(LoadStorePreIndexMask)) {
-    #define LS_PREINDEX(A, B, C) \
-    case A##_pre: mnemonic = B; form = C ", ['Xns'ILS]!"; break;
-    LOAD_STORE_LIST(LS_PREINDEX)
-    #undef LS_PREINDEX
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitLoadStorePostIndex(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(LoadStorePostIndex)";
-
-  switch (instr->Mask(LoadStorePostIndexMask)) {
-    #define LS_POSTINDEX(A, B, C) \
-    case A##_post: mnemonic = B; form = C ", ['Xns]'ILS"; break;
-    LOAD_STORE_LIST(LS_POSTINDEX)
-    #undef LS_POSTINDEX
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitLoadStoreUnsignedOffset(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(LoadStoreUnsignedOffset)";
-
-  switch (instr->Mask(LoadStoreUnsignedOffsetMask)) {
-    #define LS_UNSIGNEDOFFSET(A, B, C) \
-    case A##_unsigned: mnemonic = B; form = C ", ['Xns'ILU]"; break;
-    LOAD_STORE_LIST(LS_UNSIGNEDOFFSET)
-    #undef LS_UNSIGNEDOFFSET
-    case PRFM_unsigned: mnemonic = "prfm"; form = "'PrefOp, ['Xns'ILU]";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitLoadStoreRegisterOffset(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(LoadStoreRegisterOffset)";
-
-  switch (instr->Mask(LoadStoreRegisterOffsetMask)) {
-    #define LS_REGISTEROFFSET(A, B, C) \
-    case A##_reg: mnemonic = B; form = C ", ['Xns, 'Offsetreg]"; break;
-    LOAD_STORE_LIST(LS_REGISTEROFFSET)
-    #undef LS_REGISTEROFFSET
-    case PRFM_reg: mnemonic = "prfm"; form = "'PrefOp, ['Xns, 'Offsetreg]";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitLoadStoreUnscaledOffset(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "'Wt, ['Xns'ILS]";
-  const char *form_x = "'Xt, ['Xns'ILS]";
-  const char *form_b = "'Bt, ['Xns'ILS]";
-  const char *form_h = "'Ht, ['Xns'ILS]";
-  const char *form_s = "'St, ['Xns'ILS]";
-  const char *form_d = "'Dt, ['Xns'ILS]";
-  const char *form_q = "'Qt, ['Xns'ILS]";
-  const char *form_prefetch = "'PrefOp, ['Xns'ILS]";
-
-  switch (instr->Mask(LoadStoreUnscaledOffsetMask)) {
-    case STURB_w:  mnemonic = "sturb"; break;
-    case STURH_w:  mnemonic = "sturh"; break;
-    case STUR_w:   mnemonic = "stur"; break;
-    case STUR_x:   mnemonic = "stur"; form = form_x; break;
-    case STUR_b:   mnemonic = "stur"; form = form_b; break;
-    case STUR_h:   mnemonic = "stur"; form = form_h; break;
-    case STUR_s:   mnemonic = "stur"; form = form_s; break;
-    case STUR_d:   mnemonic = "stur"; form = form_d; break;
-    case STUR_q:   mnemonic = "stur"; form = form_q; break;
-    case LDURB_w:  mnemonic = "ldurb"; break;
-    case LDURH_w:  mnemonic = "ldurh"; break;
-    case LDUR_w:   mnemonic = "ldur"; break;
-    case LDUR_x:   mnemonic = "ldur"; form = form_x; break;
-    case LDUR_b:   mnemonic = "ldur"; form = form_b; break;
-    case LDUR_h:   mnemonic = "ldur"; form = form_h; break;
-    case LDUR_s:   mnemonic = "ldur"; form = form_s; break;
-    case LDUR_d:   mnemonic = "ldur"; form = form_d; break;
-    case LDUR_q:   mnemonic = "ldur"; form = form_q; break;
-    case LDURSB_x: form = form_x; VIXL_FALLTHROUGH();
-    case LDURSB_w: mnemonic = "ldursb"; break;
-    case LDURSH_x: form = form_x; VIXL_FALLTHROUGH();
-    case LDURSH_w: mnemonic = "ldursh"; break;
-    case LDURSW_x: mnemonic = "ldursw"; form = form_x; break;
-    case PRFUM:    mnemonic = "prfum"; form = form_prefetch; break;
-    default: form = "(LoadStoreUnscaledOffset)";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitLoadLiteral(const Instruction* instr) {
-  const char *mnemonic = "ldr";
-  const char *form = "(LoadLiteral)";
-
-  switch (instr->Mask(LoadLiteralMask)) {
-    case LDR_w_lit: form = "'Wt, 'ILLiteral 'LValue"; break;
-    case LDR_x_lit: form = "'Xt, 'ILLiteral 'LValue"; break;
-    case LDR_s_lit: form = "'St, 'ILLiteral 'LValue"; break;
-    case LDR_d_lit: form = "'Dt, 'ILLiteral 'LValue"; break;
-    case LDR_q_lit: form = "'Qt, 'ILLiteral 'LValue"; break;
-    case LDRSW_x_lit: {
-      mnemonic = "ldrsw";
-      form = "'Xt, 'ILLiteral 'LValue";
-      break;
-    }
-    case PRFM_lit: {
-      mnemonic = "prfm";
-      form = "'PrefOp, 'ILLiteral 'LValue";
-      break;
-    }
-    default: mnemonic = "unimplemented";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-#define LOAD_STORE_PAIR_LIST(V)         \
-  V(STP_w, "stp", "'Wt, 'Wt2", "2")     \
-  V(LDP_w, "ldp", "'Wt, 'Wt2", "2")     \
-  V(LDPSW_x, "ldpsw", "'Xt, 'Xt2", "2") \
-  V(STP_x, "stp", "'Xt, 'Xt2", "3")     \
-  V(LDP_x, "ldp", "'Xt, 'Xt2", "3")     \
-  V(STP_s, "stp", "'St, 'St2", "2")     \
-  V(LDP_s, "ldp", "'St, 'St2", "2")     \
-  V(STP_d, "stp", "'Dt, 'Dt2", "3")     \
-  V(LDP_d, "ldp", "'Dt, 'Dt2", "3")     \
-  V(LDP_q, "ldp", "'Qt, 'Qt2", "4")     \
-  V(STP_q, "stp", "'Qt, 'Qt2", "4")
-
-void Disassembler::VisitLoadStorePairPostIndex(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(LoadStorePairPostIndex)";
-
-  switch (instr->Mask(LoadStorePairPostIndexMask)) {
-    #define LSP_POSTINDEX(A, B, C, D) \
-    case A##_post: mnemonic = B; form = C ", ['Xns]'ILP" D; break;
-    LOAD_STORE_PAIR_LIST(LSP_POSTINDEX)
-    #undef LSP_POSTINDEX
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitLoadStorePairPreIndex(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(LoadStorePairPreIndex)";
-
-  switch (instr->Mask(LoadStorePairPreIndexMask)) {
-    #define LSP_PREINDEX(A, B, C, D) \
-    case A##_pre: mnemonic = B; form = C ", ['Xns'ILP" D "]!"; break;
-    LOAD_STORE_PAIR_LIST(LSP_PREINDEX)
-    #undef LSP_PREINDEX
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitLoadStorePairOffset(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(LoadStorePairOffset)";
-
-  switch (instr->Mask(LoadStorePairOffsetMask)) {
-    #define LSP_OFFSET(A, B, C, D) \
-    case A##_off: mnemonic = B; form = C ", ['Xns'ILP" D "]"; break;
-    LOAD_STORE_PAIR_LIST(LSP_OFFSET)
-    #undef LSP_OFFSET
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitLoadStorePairNonTemporal(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form;
-
-  switch (instr->Mask(LoadStorePairNonTemporalMask)) {
-    case STNP_w: mnemonic = "stnp"; form = "'Wt, 'Wt2, ['Xns'ILP2]"; break;
-    case LDNP_w: mnemonic = "ldnp"; form = "'Wt, 'Wt2, ['Xns'ILP2]"; break;
-    case STNP_x: mnemonic = "stnp"; form = "'Xt, 'Xt2, ['Xns'ILP3]"; break;
-    case LDNP_x: mnemonic = "ldnp"; form = "'Xt, 'Xt2, ['Xns'ILP3]"; break;
-    case STNP_s: mnemonic = "stnp"; form = "'St, 'St2, ['Xns'ILP2]"; break;
-    case LDNP_s: mnemonic = "ldnp"; form = "'St, 'St2, ['Xns'ILP2]"; break;
-    case STNP_d: mnemonic = "stnp"; form = "'Dt, 'Dt2, ['Xns'ILP3]"; break;
-    case LDNP_d: mnemonic = "ldnp"; form = "'Dt, 'Dt2, ['Xns'ILP3]"; break;
-    case STNP_q: mnemonic = "stnp"; form = "'Qt, 'Qt2, ['Xns'ILP4]"; break;
-    case LDNP_q: mnemonic = "ldnp"; form = "'Qt, 'Qt2, ['Xns'ILP4]"; break;
-    default: form = "(LoadStorePairNonTemporal)";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitLoadStoreExclusive(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form;
-
-  switch (instr->Mask(LoadStoreExclusiveMask)) {
-    case STXRB_w: mnemonic = "stxrb"; form = "'Ws, 'Wt, ['Xns]"; break;
-    case STXRH_w: mnemonic = "stxrh"; form = "'Ws, 'Wt, ['Xns]"; break;
-    case STXR_w: mnemonic = "stxr"; form = "'Ws, 'Wt, ['Xns]"; break;
-    case STXR_x: mnemonic = "stxr"; form = "'Ws, 'Xt, ['Xns]"; break;
-    case LDXRB_w: mnemonic = "ldxrb"; form = "'Wt, ['Xns]"; break;
-    case LDXRH_w: mnemonic = "ldxrh"; form = "'Wt, ['Xns]"; break;
-    case LDXR_w: mnemonic = "ldxr"; form = "'Wt, ['Xns]"; break;
-    case LDXR_x: mnemonic = "ldxr"; form = "'Xt, ['Xns]"; break;
-    case STXP_w: mnemonic = "stxp"; form = "'Ws, 'Wt, 'Wt2, ['Xns]"; break;
-    case STXP_x: mnemonic = "stxp"; form = "'Ws, 'Xt, 'Xt2, ['Xns]"; break;
-    case LDXP_w: mnemonic = "ldxp"; form = "'Wt, 'Wt2, ['Xns]"; break;
-    case LDXP_x: mnemonic = "ldxp"; form = "'Xt, 'Xt2, ['Xns]"; break;
-    case STLXRB_w: mnemonic = "stlxrb"; form = "'Ws, 'Wt, ['Xns]"; break;
-    case STLXRH_w: mnemonic = "stlxrh"; form = "'Ws, 'Wt, ['Xns]"; break;
-    case STLXR_w: mnemonic = "stlxr"; form = "'Ws, 'Wt, ['Xns]"; break;
-    case STLXR_x: mnemonic = "stlxr"; form = "'Ws, 'Xt, ['Xns]"; break;
-    case LDAXRB_w: mnemonic = "ldaxrb"; form = "'Wt, ['Xns]"; break;
-    case LDAXRH_w: mnemonic = "ldaxrh"; form = "'Wt, ['Xns]"; break;
-    case LDAXR_w: mnemonic = "ldaxr"; form = "'Wt, ['Xns]"; break;
-    case LDAXR_x: mnemonic = "ldaxr"; form = "'Xt, ['Xns]"; break;
-    case STLXP_w: mnemonic = "stlxp"; form = "'Ws, 'Wt, 'Wt2, ['Xns]"; break;
-    case STLXP_x: mnemonic = "stlxp"; form = "'Ws, 'Xt, 'Xt2, ['Xns]"; break;
-    case LDAXP_w: mnemonic = "ldaxp"; form = "'Wt, 'Wt2, ['Xns]"; break;
-    case LDAXP_x: mnemonic = "ldaxp"; form = "'Xt, 'Xt2, ['Xns]"; break;
-    case STLRB_w: mnemonic = "stlrb"; form = "'Wt, ['Xns]"; break;
-    case STLRH_w: mnemonic = "stlrh"; form = "'Wt, ['Xns]"; break;
-    case STLR_w: mnemonic = "stlr"; form = "'Wt, ['Xns]"; break;
-    case STLR_x: mnemonic = "stlr"; form = "'Xt, ['Xns]"; break;
-    case LDARB_w: mnemonic = "ldarb"; form = "'Wt, ['Xns]"; break;
-    case LDARH_w: mnemonic = "ldarh"; form = "'Wt, ['Xns]"; break;
-    case LDAR_w: mnemonic = "ldar"; form = "'Wt, ['Xns]"; break;
-    case LDAR_x: mnemonic = "ldar"; form = "'Xt, ['Xns]"; break;
-    default: form = "(LoadStoreExclusive)";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitFPCompare(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "'Fn, 'Fm";
-  const char *form_zero = "'Fn, #0.0";
-
-  switch (instr->Mask(FPCompareMask)) {
-    case FCMP_s_zero:
-    case FCMP_d_zero: form = form_zero; VIXL_FALLTHROUGH();
-    case FCMP_s:
-    case FCMP_d: mnemonic = "fcmp"; break;
-    case FCMPE_s_zero:
-    case FCMPE_d_zero: form = form_zero; VIXL_FALLTHROUGH();
-    case FCMPE_s:
-    case FCMPE_d: mnemonic = "fcmpe"; break;
-    default: form = "(FPCompare)";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitFPConditionalCompare(const Instruction* instr) {
-  const char *mnemonic = "unmplemented";
-  const char *form = "'Fn, 'Fm, 'INzcv, 'Cond";
-
-  switch (instr->Mask(FPConditionalCompareMask)) {
-    case FCCMP_s:
-    case FCCMP_d: mnemonic = "fccmp"; break;
-    case FCCMPE_s:
-    case FCCMPE_d: mnemonic = "fccmpe"; break;
-    default: form = "(FPConditionalCompare)";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitFPConditionalSelect(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "'Fd, 'Fn, 'Fm, 'Cond";
-
-  switch (instr->Mask(FPConditionalSelectMask)) {
-    case FCSEL_s:
-    case FCSEL_d: mnemonic = "fcsel"; break;
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitFPDataProcessing1Source(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "'Fd, 'Fn";
-
-  switch (instr->Mask(FPDataProcessing1SourceMask)) {
-    #define FORMAT(A, B)  \
-    case A##_s:           \
-    case A##_d: mnemonic = B; break;
-    FORMAT(FMOV, "fmov");
-    FORMAT(FABS, "fabs");
-    FORMAT(FNEG, "fneg");
-    FORMAT(FSQRT, "fsqrt");
-    FORMAT(FRINTN, "frintn");
-    FORMAT(FRINTP, "frintp");
-    FORMAT(FRINTM, "frintm");
-    FORMAT(FRINTZ, "frintz");
-    FORMAT(FRINTA, "frinta");
-    FORMAT(FRINTX, "frintx");
-    FORMAT(FRINTI, "frinti");
-    #undef FORMAT
-    case FCVT_ds: mnemonic = "fcvt"; form = "'Dd, 'Sn"; break;
-    case FCVT_sd: mnemonic = "fcvt"; form = "'Sd, 'Dn"; break;
-    case FCVT_hs: mnemonic = "fcvt"; form = "'Hd, 'Sn"; break;
-    case FCVT_sh: mnemonic = "fcvt"; form = "'Sd, 'Hn"; break;
-    case FCVT_dh: mnemonic = "fcvt"; form = "'Dd, 'Hn"; break;
-    case FCVT_hd: mnemonic = "fcvt"; form = "'Hd, 'Dn"; break;
-    default: form = "(FPDataProcessing1Source)";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitFPDataProcessing2Source(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "'Fd, 'Fn, 'Fm";
-
-  switch (instr->Mask(FPDataProcessing2SourceMask)) {
-    #define FORMAT(A, B)  \
-    case A##_s:           \
-    case A##_d: mnemonic = B; break;
-    FORMAT(FMUL, "fmul");
-    FORMAT(FDIV, "fdiv");
-    FORMAT(FADD, "fadd");
-    FORMAT(FSUB, "fsub");
-    FORMAT(FMAX, "fmax");
-    FORMAT(FMIN, "fmin");
-    FORMAT(FMAXNM, "fmaxnm");
-    FORMAT(FMINNM, "fminnm");
-    FORMAT(FNMUL, "fnmul");
-    #undef FORMAT
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitFPDataProcessing3Source(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "'Fd, 'Fn, 'Fm, 'Fa";
-
-  switch (instr->Mask(FPDataProcessing3SourceMask)) {
-    #define FORMAT(A, B)  \
-    case A##_s:           \
-    case A##_d: mnemonic = B; break;
-    FORMAT(FMADD, "fmadd");
-    FORMAT(FMSUB, "fmsub");
-    FORMAT(FNMADD, "fnmadd");
-    FORMAT(FNMSUB, "fnmsub");
-    #undef FORMAT
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitFPImmediate(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "(FPImmediate)";
-
-  switch (instr->Mask(FPImmediateMask)) {
-    case FMOV_s_imm: mnemonic = "fmov"; form = "'Sd, 'IFPSingle"; break;
-    case FMOV_d_imm: mnemonic = "fmov"; form = "'Dd, 'IFPDouble"; break;
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitFPIntegerConvert(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(FPIntegerConvert)";
-  const char *form_rf = "'Rd, 'Fn";
-  const char *form_fr = "'Fd, 'Rn";
-
-  switch (instr->Mask(FPIntegerConvertMask)) {
-    case FMOV_ws:
-    case FMOV_xd: mnemonic = "fmov"; form = form_rf; break;
-    case FMOV_sw:
-    case FMOV_dx: mnemonic = "fmov"; form = form_fr; break;
-    case FMOV_d1_x: mnemonic = "fmov"; form = "'Vd.D[1], 'Rn"; break;
-    case FMOV_x_d1: mnemonic = "fmov"; form = "'Rd, 'Vn.D[1]"; break;
-    case FCVTAS_ws:
-    case FCVTAS_xs:
-    case FCVTAS_wd:
-    case FCVTAS_xd: mnemonic = "fcvtas"; form = form_rf; break;
-    case FCVTAU_ws:
-    case FCVTAU_xs:
-    case FCVTAU_wd:
-    case FCVTAU_xd: mnemonic = "fcvtau"; form = form_rf; break;
-    case FCVTMS_ws:
-    case FCVTMS_xs:
-    case FCVTMS_wd:
-    case FCVTMS_xd: mnemonic = "fcvtms"; form = form_rf; break;
-    case FCVTMU_ws:
-    case FCVTMU_xs:
-    case FCVTMU_wd:
-    case FCVTMU_xd: mnemonic = "fcvtmu"; form = form_rf; break;
-    case FCVTNS_ws:
-    case FCVTNS_xs:
-    case FCVTNS_wd:
-    case FCVTNS_xd: mnemonic = "fcvtns"; form = form_rf; break;
-    case FCVTNU_ws:
-    case FCVTNU_xs:
-    case FCVTNU_wd:
-    case FCVTNU_xd: mnemonic = "fcvtnu"; form = form_rf; break;
-    case FCVTZU_xd:
-    case FCVTZU_ws:
-    case FCVTZU_wd:
-    case FCVTZU_xs: mnemonic = "fcvtzu"; form = form_rf; break;
-    case FCVTZS_xd:
-    case FCVTZS_wd:
-    case FCVTZS_xs:
-    case FCVTZS_ws: mnemonic = "fcvtzs"; form = form_rf; break;
-    case FCVTPU_xd:
-    case FCVTPU_ws:
-    case FCVTPU_wd:
-    case FCVTPU_xs: mnemonic = "fcvtpu"; form = form_rf; break;
-    case FCVTPS_xd:
-    case FCVTPS_wd:
-    case FCVTPS_xs:
-    case FCVTPS_ws: mnemonic = "fcvtps"; form = form_rf; break;
-    case SCVTF_sw:
-    case SCVTF_sx:
-    case SCVTF_dw:
-    case SCVTF_dx: mnemonic = "scvtf"; form = form_fr; break;
-    case UCVTF_sw:
-    case UCVTF_sx:
-    case UCVTF_dw:
-    case UCVTF_dx: mnemonic = "ucvtf"; form = form_fr; break;
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitFPFixedPointConvert(const Instruction* instr) {
-  const char *mnemonic = "";
-  const char *form = "'Rd, 'Fn, 'IFPFBits";
-  const char *form_fr = "'Fd, 'Rn, 'IFPFBits";
-
-  switch (instr->Mask(FPFixedPointConvertMask)) {
-    case FCVTZS_ws_fixed:
-    case FCVTZS_xs_fixed:
-    case FCVTZS_wd_fixed:
-    case FCVTZS_xd_fixed: mnemonic = "fcvtzs"; break;
-    case FCVTZU_ws_fixed:
-    case FCVTZU_xs_fixed:
-    case FCVTZU_wd_fixed:
-    case FCVTZU_xd_fixed: mnemonic = "fcvtzu"; break;
-    case SCVTF_sw_fixed:
-    case SCVTF_sx_fixed:
-    case SCVTF_dw_fixed:
-    case SCVTF_dx_fixed: mnemonic = "scvtf"; form = form_fr; break;
-    case UCVTF_sw_fixed:
-    case UCVTF_sx_fixed:
-    case UCVTF_dw_fixed:
-    case UCVTF_dx_fixed: mnemonic = "ucvtf"; form = form_fr; break;
-    default: VIXL_UNREACHABLE();
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitSystem(const Instruction* instr) {
-  // Some system instructions hijack their Op and Cp fields to represent a
-  // range of immediates instead of indicating a different instruction. This
-  // makes the decoding tricky.
-  const char *mnemonic = "unimplemented";
-  const char *form = "(System)";
-
-  if (instr->Mask(SystemExclusiveMonitorFMask) == SystemExclusiveMonitorFixed) {
-    switch (instr->Mask(SystemExclusiveMonitorMask)) {
-      case CLREX: {
-        mnemonic = "clrex";
-        form = (instr->CRm() == 0xf) ? NULL : "'IX";
-        break;
-      }
-    }
-  } else if (instr->Mask(SystemSysRegFMask) == SystemSysRegFixed) {
-    switch (instr->Mask(SystemSysRegMask)) {
-      case MRS: {
-        mnemonic = "mrs";
-        switch (instr->ImmSystemRegister()) {
-          case NZCV: form = "'Xt, nzcv"; break;
-          case FPCR: form = "'Xt, fpcr"; break;
-          default: form = "'Xt, (unknown)"; break;
-        }
-        break;
-      }
-      case MSR: {
-        mnemonic = "msr";
-        switch (instr->ImmSystemRegister()) {
-          case NZCV: form = "nzcv, 'Xt"; break;
-          case FPCR: form = "fpcr, 'Xt"; break;
-          default: form = "(unknown), 'Xt"; break;
-        }
-        break;
-      }
-    }
-  } else if (instr->Mask(SystemHintFMask) == SystemHintFixed) {
-    switch (instr->ImmHint()) {
-      case NOP: {
-        mnemonic = "nop";
-        form = NULL;
-        break;
-      }
-    }
-  } else if (instr->Mask(MemBarrierFMask) == MemBarrierFixed) {
-    switch (instr->Mask(MemBarrierMask)) {
-      case DMB: {
-        mnemonic = "dmb";
-        form = "'M";
-        break;
-      }
-      case DSB: {
-        mnemonic = "dsb";
-        form = "'M";
-        break;
-      }
-      case ISB: {
-        mnemonic = "isb";
-        form = NULL;
-        break;
-      }
-    }
-  } else if (instr->Mask(SystemSysFMask) == SystemSysFixed) {
-    switch (instr->SysOp()) {
-      case IVAU:
-        mnemonic = "ic";
-        form = "ivau, 'Xt";
-        break;
-      case CVAC:
-        mnemonic = "dc";
-        form = "cvac, 'Xt";
-        break;
-      case CVAU:
-        mnemonic = "dc";
-        form = "cvau, 'Xt";
-        break;
-      case CIVAC:
-        mnemonic = "dc";
-        form = "civac, 'Xt";
-        break;
-      case ZVA:
-        mnemonic = "dc";
-        form = "zva, 'Xt";
-        break;
-      default:
-        mnemonic = "sys";
-        if (instr->Rt() == 31) {
-          form = "'G1, 'Kn, 'Km, 'G2";
-        } else {
-          form = "'G1, 'Kn, 'Km, 'G2, 'Xt";
-        }
-        break;
-      }
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitException(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "'IDebug";
-
-  switch (instr->Mask(ExceptionMask)) {
-    case HLT: mnemonic = "hlt"; break;
-    case BRK: mnemonic = "brk"; break;
-    case SVC: mnemonic = "svc"; break;
-    case HVC: mnemonic = "hvc"; break;
-    case SMC: mnemonic = "smc"; break;
-    case DCPS1: mnemonic = "dcps1"; form = "{'IDebug}"; break;
-    case DCPS2: mnemonic = "dcps2"; form = "{'IDebug}"; break;
-    case DCPS3: mnemonic = "dcps3"; form = "{'IDebug}"; break;
-    default: form = "(Exception)";
-  }
-  Format(instr, mnemonic, form);
-}
-
-
-void Disassembler::VisitCrypto2RegSHA(const Instruction* instr) {
-  VisitUnimplemented(instr);
-}
-
-
-void Disassembler::VisitCrypto3RegSHA(const Instruction* instr) {
-  VisitUnimplemented(instr);
-}
-
-
-void Disassembler::VisitCryptoAES(const Instruction* instr) {
-  VisitUnimplemented(instr);
-}
-
-
-void Disassembler::VisitNEON2RegMisc(const Instruction* instr) {
-  const char *mnemonic       = "unimplemented";
-  const char *form           = "'Vd.%s, 'Vn.%s";
-  const char *form_cmp_zero  = "'Vd.%s, 'Vn.%s, #0";
-  const char *form_fcmp_zero = "'Vd.%s, 'Vn.%s, #0.0";
-  NEONFormatDecoder nfd(instr);
-
-  static const NEONFormatMap map_lp_ta = {
-    {23, 22, 30}, {NF_4H, NF_8H, NF_2S, NF_4S, NF_1D, NF_2D}
-  };
-
-  static const NEONFormatMap map_cvt_ta = {
-    {22}, {NF_4S, NF_2D}
-  };
-
-  static const NEONFormatMap map_cvt_tb = {
-    {22, 30}, {NF_4H, NF_8H, NF_2S, NF_4S}
-  };
-
-  if (instr->Mask(NEON2RegMiscOpcode) <= NEON_NEG_opcode) {
-    // These instructions all use a two bit size field, except NOT and RBIT,
-    // which use the field to encode the operation.
-    switch (instr->Mask(NEON2RegMiscMask)) {
-      case NEON_REV64:     mnemonic = "rev64"; break;
-      case NEON_REV32:     mnemonic = "rev32"; break;
-      case NEON_REV16:     mnemonic = "rev16"; break;
-      case NEON_SADDLP:
-        mnemonic = "saddlp";
-        nfd.SetFormatMap(0, &map_lp_ta);
-        break;
-      case NEON_UADDLP:
-        mnemonic = "uaddlp";
-        nfd.SetFormatMap(0, &map_lp_ta);
-        break;
-      case NEON_SUQADD:    mnemonic = "suqadd"; break;
-      case NEON_USQADD:    mnemonic = "usqadd"; break;
-      case NEON_CLS:       mnemonic = "cls"; break;
-      case NEON_CLZ:       mnemonic = "clz"; break;
-      case NEON_CNT:       mnemonic = "cnt"; break;
-      case NEON_SADALP:
-        mnemonic = "sadalp";
-        nfd.SetFormatMap(0, &map_lp_ta);
-        break;
-      case NEON_UADALP:
-        mnemonic = "uadalp";
-        nfd.SetFormatMap(0, &map_lp_ta);
-        break;
-      case NEON_SQABS:     mnemonic = "sqabs"; break;
-      case NEON_SQNEG:     mnemonic = "sqneg"; break;
-      case NEON_CMGT_zero: mnemonic = "cmgt"; form = form_cmp_zero; break;
-      case NEON_CMGE_zero: mnemonic = "cmge"; form = form_cmp_zero; break;
-      case NEON_CMEQ_zero: mnemonic = "cmeq"; form = form_cmp_zero; break;
-      case NEON_CMLE_zero: mnemonic = "cmle"; form = form_cmp_zero; break;
-      case NEON_CMLT_zero: mnemonic = "cmlt"; form = form_cmp_zero; break;
-      case NEON_ABS:       mnemonic = "abs"; break;
-      case NEON_NEG:       mnemonic = "neg"; break;
-      case NEON_RBIT_NOT:
-        switch (instr->FPType()) {
-          case 0: mnemonic = "mvn"; break;
-          case 1: mnemonic = "rbit"; break;
-          default: form = "(NEON2RegMisc)";
-        }
-        nfd.SetFormatMaps(nfd.LogicalFormatMap());
-        break;
-    }
-  } else {
-    // These instructions all use a one bit size field, except XTN, SQXTUN,
-    // SHLL, SQXTN and UQXTN, which use a two bit size field.
-    nfd.SetFormatMaps(nfd.FPFormatMap());
-    switch (instr->Mask(NEON2RegMiscFPMask)) {
-      case NEON_FABS:   mnemonic = "fabs"; break;
-      case NEON_FNEG:   mnemonic = "fneg"; break;
-      case NEON_FCVTN:
-        mnemonic = instr->Mask(NEON_Q) ? "fcvtn2" : "fcvtn";
-        nfd.SetFormatMap(0, &map_cvt_tb);
-        nfd.SetFormatMap(1, &map_cvt_ta);
-        break;
-      case NEON_FCVTXN:
-        mnemonic = instr->Mask(NEON_Q) ? "fcvtxn2" : "fcvtxn";
-        nfd.SetFormatMap(0, &map_cvt_tb);
-        nfd.SetFormatMap(1, &map_cvt_ta);
-        break;
-      case NEON_FCVTL:
-        mnemonic = instr->Mask(NEON_Q) ? "fcvtl2" : "fcvtl";
-        nfd.SetFormatMap(0, &map_cvt_ta);
-        nfd.SetFormatMap(1, &map_cvt_tb);
-        break;
-      case NEON_FRINTN: mnemonic = "frintn"; break;
-      case NEON_FRINTA: mnemonic = "frinta"; break;
-      case NEON_FRINTP: mnemonic = "frintp"; break;
-      case NEON_FRINTM: mnemonic = "frintm"; break;
-      case NEON_FRINTX: mnemonic = "frintx"; break;
-      case NEON_FRINTZ: mnemonic = "frintz"; break;
-      case NEON_FRINTI: mnemonic = "frinti"; break;
-      case NEON_FCVTNS: mnemonic = "fcvtns"; break;
-      case NEON_FCVTNU: mnemonic = "fcvtnu"; break;
-      case NEON_FCVTPS: mnemonic = "fcvtps"; break;
-      case NEON_FCVTPU: mnemonic = "fcvtpu"; break;
-      case NEON_FCVTMS: mnemonic = "fcvtms"; break;
-      case NEON_FCVTMU: mnemonic = "fcvtmu"; break;
-      case NEON_FCVTZS: mnemonic = "fcvtzs"; break;
-      case NEON_FCVTZU: mnemonic = "fcvtzu"; break;
-      case NEON_FCVTAS: mnemonic = "fcvtas"; break;
-      case NEON_FCVTAU: mnemonic = "fcvtau"; break;
-      case NEON_FSQRT:  mnemonic = "fsqrt"; break;
-      case NEON_SCVTF:  mnemonic = "scvtf"; break;
-      case NEON_UCVTF:  mnemonic = "ucvtf"; break;
-      case NEON_URSQRTE: mnemonic = "ursqrte"; break;
-      case NEON_URECPE:  mnemonic = "urecpe";  break;
-      case NEON_FRSQRTE: mnemonic = "frsqrte"; break;
-      case NEON_FRECPE:  mnemonic = "frecpe";  break;
-      case NEON_FCMGT_zero: mnemonic = "fcmgt"; form = form_fcmp_zero; break;
-      case NEON_FCMGE_zero: mnemonic = "fcmge"; form = form_fcmp_zero; break;
-      case NEON_FCMEQ_zero: mnemonic = "fcmeq"; form = form_fcmp_zero; break;
-      case NEON_FCMLE_zero: mnemonic = "fcmle"; form = form_fcmp_zero; break;
-      case NEON_FCMLT_zero: mnemonic = "fcmlt"; form = form_fcmp_zero; break;
-      default:
-        if ((NEON_XTN_opcode <= instr->Mask(NEON2RegMiscOpcode)) &&
-            (instr->Mask(NEON2RegMiscOpcode) <= NEON_UQXTN_opcode)) {
-          nfd.SetFormatMap(0, nfd.IntegerFormatMap());
-          nfd.SetFormatMap(1, nfd.LongIntegerFormatMap());
-
-          switch (instr->Mask(NEON2RegMiscMask)) {
-            case NEON_XTN:    mnemonic = "xtn"; break;
-            case NEON_SQXTN:  mnemonic = "sqxtn"; break;
-            case NEON_UQXTN:  mnemonic = "uqxtn"; break;
-            case NEON_SQXTUN: mnemonic = "sqxtun"; break;
-            case NEON_SHLL:
-              mnemonic = "shll";
-              nfd.SetFormatMap(0, nfd.LongIntegerFormatMap());
-              nfd.SetFormatMap(1, nfd.IntegerFormatMap());
-              switch (instr->NEONSize()) {
-                case 0: form = "'Vd.%s, 'Vn.%s, #8"; break;
-                case 1: form = "'Vd.%s, 'Vn.%s, #16"; break;
-                case 2: form = "'Vd.%s, 'Vn.%s, #32"; break;
-                default: form = "(NEON2RegMisc)";
-              }
-          }
-          Format(instr, nfd.Mnemonic(mnemonic), nfd.Substitute(form));
-          return;
-        } else {
-          form = "(NEON2RegMisc)";
-        }
-    }
-  }
-  Format(instr, mnemonic, nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitNEON3Same(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "'Vd.%s, 'Vn.%s, 'Vm.%s";
-  NEONFormatDecoder nfd(instr);
-
-  if (instr->Mask(NEON3SameLogicalFMask) == NEON3SameLogicalFixed) {
-    switch (instr->Mask(NEON3SameLogicalMask)) {
-      case NEON_AND: mnemonic = "and"; break;
-      case NEON_ORR:
-        mnemonic = "orr";
-        if (instr->Rm() == instr->Rn()) {
-          mnemonic = "mov";
-          form = "'Vd.%s, 'Vn.%s";
-        }
-        break;
-      case NEON_ORN: mnemonic = "orn"; break;
-      case NEON_EOR: mnemonic = "eor"; break;
-      case NEON_BIC: mnemonic = "bic"; break;
-      case NEON_BIF: mnemonic = "bif"; break;
-      case NEON_BIT: mnemonic = "bit"; break;
-      case NEON_BSL: mnemonic = "bsl"; break;
-      default: form = "(NEON3Same)";
-    }
-    nfd.SetFormatMaps(nfd.LogicalFormatMap());
-  } else {
-    static const char *mnemonics[] = {
-        "shadd", "uhadd", "shadd", "uhadd",
-        "sqadd", "uqadd", "sqadd", "uqadd",
-        "srhadd", "urhadd", "srhadd", "urhadd",
-        NULL, NULL, NULL, NULL,  // Handled by logical cases above.
-        "shsub", "uhsub", "shsub", "uhsub",
-        "sqsub", "uqsub", "sqsub", "uqsub",
-        "cmgt", "cmhi", "cmgt", "cmhi",
-        "cmge", "cmhs", "cmge", "cmhs",
-        "sshl", "ushl", "sshl", "ushl",
-        "sqshl", "uqshl", "sqshl", "uqshl",
-        "srshl", "urshl", "srshl", "urshl",
-        "sqrshl", "uqrshl", "sqrshl", "uqrshl",
-        "smax", "umax", "smax", "umax",
-        "smin", "umin", "smin", "umin",
-        "sabd", "uabd", "sabd", "uabd",
-        "saba", "uaba", "saba", "uaba",
-        "add", "sub", "add", "sub",
-        "cmtst", "cmeq", "cmtst", "cmeq",
-        "mla", "mls", "mla", "mls",
-        "mul", "pmul", "mul", "pmul",
-        "smaxp", "umaxp", "smaxp", "umaxp",
-        "sminp", "uminp", "sminp", "uminp",
-        "sqdmulh", "sqrdmulh", "sqdmulh", "sqrdmulh",
-        "addp", "unallocated", "addp", "unallocated",
-        "fmaxnm", "fmaxnmp", "fminnm", "fminnmp",
-        "fmla", "unallocated", "fmls", "unallocated",
-        "fadd", "faddp", "fsub", "fabd",
-        "fmulx", "fmul", "unallocated", "unallocated",
-        "fcmeq", "fcmge", "unallocated", "fcmgt",
-        "unallocated", "facge", "unallocated", "facgt",
-        "fmax", "fmaxp", "fmin", "fminp",
-        "frecps", "fdiv", "frsqrts", "unallocated"};
-
-    // Operation is determined by the opcode bits (15-11), the top bit of
-    // size (23) and the U bit (29).
-    unsigned index = (instr->Bits(15, 11) << 2) | (instr->Bit(23) << 1) |
-                     instr->Bit(29);
-    VIXL_ASSERT(index < (sizeof(mnemonics) / sizeof(mnemonics[0])));
-    mnemonic = mnemonics[index];
-    // Assert that index is not one of the previously handled logical
-    // instructions.
-    VIXL_ASSERT(mnemonic != NULL);
-
-    if (instr->Mask(NEON3SameFPFMask) == NEON3SameFPFixed) {
-      nfd.SetFormatMaps(nfd.FPFormatMap());
-    }
-  }
-  Format(instr, mnemonic, nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitNEON3Different(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "'Vd.%s, 'Vn.%s, 'Vm.%s";
-
-  NEONFormatDecoder nfd(instr);
-  nfd.SetFormatMap(0, nfd.LongIntegerFormatMap());
-
-  // Ignore the Q bit. Appending a "2" suffix is handled later.
-  switch (instr->Mask(NEON3DifferentMask) & ~NEON_Q) {
-    case NEON_PMULL:    mnemonic = "pmull";   break;
-    case NEON_SABAL:    mnemonic = "sabal";   break;
-    case NEON_SABDL:    mnemonic = "sabdl";   break;
-    case NEON_SADDL:    mnemonic = "saddl";   break;
-    case NEON_SMLAL:    mnemonic = "smlal";   break;
-    case NEON_SMLSL:    mnemonic = "smlsl";   break;
-    case NEON_SMULL:    mnemonic = "smull";   break;
-    case NEON_SSUBL:    mnemonic = "ssubl";   break;
-    case NEON_SQDMLAL:  mnemonic = "sqdmlal"; break;
-    case NEON_SQDMLSL:  mnemonic = "sqdmlsl"; break;
-    case NEON_SQDMULL:  mnemonic = "sqdmull"; break;
-    case NEON_UABAL:    mnemonic = "uabal";   break;
-    case NEON_UABDL:    mnemonic = "uabdl";   break;
-    case NEON_UADDL:    mnemonic = "uaddl";   break;
-    case NEON_UMLAL:    mnemonic = "umlal";   break;
-    case NEON_UMLSL:    mnemonic = "umlsl";   break;
-    case NEON_UMULL:    mnemonic = "umull";   break;
-    case NEON_USUBL:    mnemonic = "usubl";   break;
-    case NEON_SADDW:
-      mnemonic = "saddw";
-      nfd.SetFormatMap(1, nfd.LongIntegerFormatMap());
-      break;
-    case NEON_SSUBW:
-      mnemonic = "ssubw";
-      nfd.SetFormatMap(1, nfd.LongIntegerFormatMap());
-      break;
-    case NEON_UADDW:
-      mnemonic = "uaddw";
-      nfd.SetFormatMap(1, nfd.LongIntegerFormatMap());
-      break;
-    case NEON_USUBW:
-      mnemonic = "usubw";
-      nfd.SetFormatMap(1, nfd.LongIntegerFormatMap());
-      break;
-    case NEON_ADDHN:
-      mnemonic = "addhn";
-      nfd.SetFormatMaps(nfd.LongIntegerFormatMap());
-      nfd.SetFormatMap(0, nfd.IntegerFormatMap());
-      break;
-    case NEON_RADDHN:
-      mnemonic = "raddhn";
-      nfd.SetFormatMaps(nfd.LongIntegerFormatMap());
-      nfd.SetFormatMap(0, nfd.IntegerFormatMap());
-      break;
-    case NEON_RSUBHN:
-      mnemonic = "rsubhn";
-      nfd.SetFormatMaps(nfd.LongIntegerFormatMap());
-      nfd.SetFormatMap(0, nfd.IntegerFormatMap());
-      break;
-    case NEON_SUBHN:
-      mnemonic = "subhn";
-      nfd.SetFormatMaps(nfd.LongIntegerFormatMap());
-      nfd.SetFormatMap(0, nfd.IntegerFormatMap());
-      break;
-    default: form = "(NEON3Different)";
-  }
-  Format(instr, nfd.Mnemonic(mnemonic), nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitNEONAcrossLanes(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "%sd, 'Vn.%s";
-
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::ScalarFormatMap(),
-                               NEONFormatDecoder::IntegerFormatMap());
-
-  if (instr->Mask(NEONAcrossLanesFPFMask) == NEONAcrossLanesFPFixed) {
-    nfd.SetFormatMap(0, nfd.FPScalarFormatMap());
-    nfd.SetFormatMap(1, nfd.FPFormatMap());
-    switch (instr->Mask(NEONAcrossLanesFPMask)) {
-      case NEON_FMAXV: mnemonic = "fmaxv"; break;
-      case NEON_FMINV: mnemonic = "fminv"; break;
-      case NEON_FMAXNMV: mnemonic = "fmaxnmv"; break;
-      case NEON_FMINNMV: mnemonic = "fminnmv"; break;
-      default: form = "(NEONAcrossLanes)"; break;
-    }
-  } else if (instr->Mask(NEONAcrossLanesFMask) == NEONAcrossLanesFixed) {
-    switch (instr->Mask(NEONAcrossLanesMask)) {
-      case NEON_ADDV:  mnemonic = "addv"; break;
-      case NEON_SMAXV: mnemonic = "smaxv"; break;
-      case NEON_SMINV: mnemonic = "sminv"; break;
-      case NEON_UMAXV: mnemonic = "umaxv"; break;
-      case NEON_UMINV: mnemonic = "uminv"; break;
-      case NEON_SADDLV:
-        mnemonic = "saddlv";
-        nfd.SetFormatMap(0, nfd.LongScalarFormatMap());
-        break;
-      case NEON_UADDLV:
-        mnemonic = "uaddlv";
-        nfd.SetFormatMap(0, nfd.LongScalarFormatMap());
-        break;
-      default: form = "(NEONAcrossLanes)"; break;
-    }
-  }
-  Format(instr, mnemonic, nfd.Substitute(form,
-      NEONFormatDecoder::kPlaceholder, NEONFormatDecoder::kFormat));
-}
-
-
-void Disassembler::VisitNEONByIndexedElement(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  bool l_instr = false;
-  bool fp_instr = false;
-
-  const char *form = "'Vd.%s, 'Vn.%s, 'Ve.%s['IVByElemIndex]";
-
-  static const NEONFormatMap map_ta = {
-    {23, 22}, {NF_UNDEF, NF_4S, NF_2D}
-  };
-  NEONFormatDecoder nfd(instr, &map_ta,
-                        NEONFormatDecoder::IntegerFormatMap(),
-                        NEONFormatDecoder::ScalarFormatMap());
-
-  switch (instr->Mask(NEONByIndexedElementMask)) {
-    case NEON_SMULL_byelement:    mnemonic = "smull"; l_instr = true; break;
-    case NEON_UMULL_byelement:    mnemonic = "umull"; l_instr = true; break;
-    case NEON_SMLAL_byelement:    mnemonic = "smlal"; l_instr = true; break;
-    case NEON_UMLAL_byelement:    mnemonic = "umlal"; l_instr = true; break;
-    case NEON_SMLSL_byelement:    mnemonic = "smlsl"; l_instr = true; break;
-    case NEON_UMLSL_byelement:    mnemonic = "umlsl"; l_instr = true; break;
-    case NEON_SQDMULL_byelement:  mnemonic = "sqdmull"; l_instr = true; break;
-    case NEON_SQDMLAL_byelement:  mnemonic = "sqdmlal"; l_instr = true; break;
-    case NEON_SQDMLSL_byelement:  mnemonic = "sqdmlsl"; l_instr = true; break;
-    case NEON_MUL_byelement:      mnemonic = "mul"; break;
-    case NEON_MLA_byelement:      mnemonic = "mla"; break;
-    case NEON_MLS_byelement:      mnemonic = "mls"; break;
-    case NEON_SQDMULH_byelement:  mnemonic = "sqdmulh";  break;
-    case NEON_SQRDMULH_byelement: mnemonic = "sqrdmulh"; break;
-    default:
-      switch (instr->Mask(NEONByIndexedElementFPMask)) {
-        case NEON_FMUL_byelement:  mnemonic = "fmul";  fp_instr = true; break;
-        case NEON_FMLA_byelement:  mnemonic = "fmla";  fp_instr = true; break;
-        case NEON_FMLS_byelement:  mnemonic = "fmls";  fp_instr = true; break;
-        case NEON_FMULX_byelement: mnemonic = "fmulx"; fp_instr = true; break;
-      }
-  }
-
-  if (l_instr) {
-    Format(instr, nfd.Mnemonic(mnemonic), nfd.Substitute(form));
-  } else if (fp_instr) {
-    nfd.SetFormatMap(0, nfd.FPFormatMap());
-    Format(instr, mnemonic, nfd.Substitute(form));
-  } else {
-    nfd.SetFormatMap(0, nfd.IntegerFormatMap());
-    Format(instr, mnemonic, nfd.Substitute(form));
-  }
-}
-
-
-void Disassembler::VisitNEONCopy(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(NEONCopy)";
-
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::TriangularFormatMap(),
-                               NEONFormatDecoder::TriangularScalarFormatMap());
-
-  if (instr->Mask(NEONCopyInsElementMask) == NEON_INS_ELEMENT) {
-    mnemonic = "mov";
-    nfd.SetFormatMap(0, nfd.TriangularScalarFormatMap());
-    form = "'Vd.%s['IVInsIndex1], 'Vn.%s['IVInsIndex2]";
-  } else if (instr->Mask(NEONCopyInsGeneralMask) == NEON_INS_GENERAL) {
-    mnemonic = "mov";
-    nfd.SetFormatMap(0, nfd.TriangularScalarFormatMap());
-    if (nfd.GetVectorFormat() == kFormatD) {
-      form = "'Vd.%s['IVInsIndex1], 'Xn";
-    } else {
-      form = "'Vd.%s['IVInsIndex1], 'Wn";
-    }
-  } else if (instr->Mask(NEONCopyUmovMask) == NEON_UMOV) {
-    if (instr->Mask(NEON_Q) || ((instr->ImmNEON5() & 7) == 4)) {
-      mnemonic = "mov";
-    } else {
-      mnemonic = "umov";
-    }
-    nfd.SetFormatMap(0, nfd.TriangularScalarFormatMap());
-    if (nfd.GetVectorFormat() == kFormatD) {
-      form = "'Xd, 'Vn.%s['IVInsIndex1]";
-    } else {
-      form = "'Wd, 'Vn.%s['IVInsIndex1]";
-    }
-  } else if (instr->Mask(NEONCopySmovMask) == NEON_SMOV) {
-    mnemonic = "smov";
-    nfd.SetFormatMap(0, nfd.TriangularScalarFormatMap());
-    form = "'Rdq, 'Vn.%s['IVInsIndex1]";
-  } else if (instr->Mask(NEONCopyDupElementMask) == NEON_DUP_ELEMENT) {
-    mnemonic = "dup";
-    form = "'Vd.%s, 'Vn.%s['IVInsIndex1]";
-  } else if (instr->Mask(NEONCopyDupGeneralMask) == NEON_DUP_GENERAL) {
-    mnemonic = "dup";
-    if (nfd.GetVectorFormat() == kFormat2D) {
-      form = "'Vd.%s, 'Xn";
-    } else {
-      form = "'Vd.%s, 'Wn";
-    }
-  }
-  Format(instr, mnemonic, nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitNEONExtract(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(NEONExtract)";
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::LogicalFormatMap());
-  if (instr->Mask(NEONExtractMask) == NEON_EXT) {
-    mnemonic = "ext";
-    form = "'Vd.%s, 'Vn.%s, 'Vm.%s, 'IVExtract";
-  }
-  Format(instr, mnemonic, nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitNEONLoadStoreMultiStruct(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(NEONLoadStoreMultiStruct)";
-  const char *form_1v = "{'Vt.%1$s}, ['Xns]";
-  const char *form_2v = "{'Vt.%1$s, 'Vt2.%1$s}, ['Xns]";
-  const char *form_3v = "{'Vt.%1$s, 'Vt2.%1$s, 'Vt3.%1$s}, ['Xns]";
-  const char *form_4v = "{'Vt.%1$s, 'Vt2.%1$s, 'Vt3.%1$s, 'Vt4.%1$s}, ['Xns]";
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::LoadStoreFormatMap());
-
-  switch (instr->Mask(NEONLoadStoreMultiStructMask)) {
-    case NEON_LD1_1v: mnemonic = "ld1"; form = form_1v; break;
-    case NEON_LD1_2v: mnemonic = "ld1"; form = form_2v; break;
-    case NEON_LD1_3v: mnemonic = "ld1"; form = form_3v; break;
-    case NEON_LD1_4v: mnemonic = "ld1"; form = form_4v; break;
-    case NEON_LD2: mnemonic = "ld2"; form = form_2v; break;
-    case NEON_LD3: mnemonic = "ld3"; form = form_3v; break;
-    case NEON_LD4: mnemonic = "ld4"; form = form_4v; break;
-    case NEON_ST1_1v: mnemonic = "st1"; form = form_1v; break;
-    case NEON_ST1_2v: mnemonic = "st1"; form = form_2v; break;
-    case NEON_ST1_3v: mnemonic = "st1"; form = form_3v; break;
-    case NEON_ST1_4v: mnemonic = "st1"; form = form_4v; break;
-    case NEON_ST2: mnemonic = "st2"; form = form_2v; break;
-    case NEON_ST3: mnemonic = "st3"; form = form_3v; break;
-    case NEON_ST4: mnemonic = "st4"; form = form_4v; break;
-    default: break;
-  }
-
-  Format(instr, mnemonic, nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitNEONLoadStoreMultiStructPostIndex(
-    const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(NEONLoadStoreMultiStructPostIndex)";
-  const char *form_1v = "{'Vt.%1$s}, ['Xns], 'Xmr1";
-  const char *form_2v = "{'Vt.%1$s, 'Vt2.%1$s}, ['Xns], 'Xmr2";
-  const char *form_3v = "{'Vt.%1$s, 'Vt2.%1$s, 'Vt3.%1$s}, ['Xns], 'Xmr3";
-  const char *form_4v =
-      "{'Vt.%1$s, 'Vt2.%1$s, 'Vt3.%1$s, 'Vt4.%1$s}, ['Xns], 'Xmr4";
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::LoadStoreFormatMap());
-
-  switch (instr->Mask(NEONLoadStoreMultiStructPostIndexMask)) {
-    case NEON_LD1_1v_post: mnemonic = "ld1"; form = form_1v; break;
-    case NEON_LD1_2v_post: mnemonic = "ld1"; form = form_2v; break;
-    case NEON_LD1_3v_post: mnemonic = "ld1"; form = form_3v; break;
-    case NEON_LD1_4v_post: mnemonic = "ld1"; form = form_4v; break;
-    case NEON_LD2_post: mnemonic = "ld2"; form = form_2v; break;
-    case NEON_LD3_post: mnemonic = "ld3"; form = form_3v; break;
-    case NEON_LD4_post: mnemonic = "ld4"; form = form_4v; break;
-    case NEON_ST1_1v_post: mnemonic = "st1"; form = form_1v; break;
-    case NEON_ST1_2v_post: mnemonic = "st1"; form = form_2v; break;
-    case NEON_ST1_3v_post: mnemonic = "st1"; form = form_3v; break;
-    case NEON_ST1_4v_post: mnemonic = "st1"; form = form_4v; break;
-    case NEON_ST2_post: mnemonic = "st2"; form = form_2v; break;
-    case NEON_ST3_post: mnemonic = "st3"; form = form_3v; break;
-    case NEON_ST4_post: mnemonic = "st4"; form = form_4v; break;
-    default: break;
-  }
-
-  Format(instr, mnemonic, nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitNEONLoadStoreSingleStruct(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(NEONLoadStoreSingleStruct)";
-
-  const char *form_1b = "{'Vt.b}['IVLSLane0], ['Xns]";
-  const char *form_1h = "{'Vt.h}['IVLSLane1], ['Xns]";
-  const char *form_1s = "{'Vt.s}['IVLSLane2], ['Xns]";
-  const char *form_1d = "{'Vt.d}['IVLSLane3], ['Xns]";
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::LoadStoreFormatMap());
-
-  switch (instr->Mask(NEONLoadStoreSingleStructMask)) {
-    case NEON_LD1_b: mnemonic = "ld1"; form = form_1b; break;
-    case NEON_LD1_h: mnemonic = "ld1"; form = form_1h; break;
-    case NEON_LD1_s:
-      mnemonic = "ld1";
-      VIXL_STATIC_ASSERT((NEON_LD1_s | (1 << NEONLSSize_offset)) == NEON_LD1_d);
-      form = ((instr->NEONLSSize() & 1) == 0) ? form_1s : form_1d;
-      break;
-    case NEON_ST1_b: mnemonic = "st1"; form = form_1b; break;
-    case NEON_ST1_h: mnemonic = "st1"; form = form_1h; break;
-    case NEON_ST1_s:
-      mnemonic = "st1";
-      VIXL_STATIC_ASSERT((NEON_ST1_s | (1 << NEONLSSize_offset)) == NEON_ST1_d);
-      form = ((instr->NEONLSSize() & 1) == 0) ? form_1s : form_1d;
-      break;
-    case NEON_LD1R:
-      mnemonic = "ld1r";
-      form = "{'Vt.%s}, ['Xns]";
-      break;
-    case NEON_LD2_b:
-    case NEON_ST2_b:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld2" : "st2";
-      form = "{'Vt.b, 'Vt2.b}['IVLSLane0], ['Xns]";
-      break;
-    case NEON_LD2_h:
-    case NEON_ST2_h:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld2" : "st2";
-      form = "{'Vt.h, 'Vt2.h}['IVLSLane1], ['Xns]";
-      break;
-    case NEON_LD2_s:
-    case NEON_ST2_s:
-      VIXL_STATIC_ASSERT((NEON_ST2_s | (1 << NEONLSSize_offset)) == NEON_ST2_d);
-      VIXL_STATIC_ASSERT((NEON_LD2_s | (1 << NEONLSSize_offset)) == NEON_LD2_d);
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld2" : "st2";
-      if ((instr->NEONLSSize() & 1) == 0)
-        form = "{'Vt.s, 'Vt2.s}['IVLSLane2], ['Xns]";
-      else
-        form = "{'Vt.d, 'Vt2.d}['IVLSLane3], ['Xns]";
-      break;
-    case NEON_LD2R:
-      mnemonic = "ld2r";
-      form = "{'Vt.%s, 'Vt2.%s}, ['Xns]";
-      break;
-    case NEON_LD3_b:
-    case NEON_ST3_b:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld3" : "st3";
-      form = "{'Vt.b, 'Vt2.b, 'Vt3.b}['IVLSLane0], ['Xns]";
-      break;
-    case NEON_LD3_h:
-    case NEON_ST3_h:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld3" : "st3";
-      form = "{'Vt.h, 'Vt2.h, 'Vt3.h}['IVLSLane1], ['Xns]";
-      break;
-    case NEON_LD3_s:
-    case NEON_ST3_s:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld3" : "st3";
-      if ((instr->NEONLSSize() & 1) == 0)
-        form = "{'Vt.s, 'Vt2.s, 'Vt3.s}['IVLSLane2], ['Xns]";
-      else
-        form = "{'Vt.d, 'Vt2.d, 'Vt3.d}['IVLSLane3], ['Xns]";
-      break;
-    case NEON_LD3R:
-      mnemonic = "ld3r";
-      form = "{'Vt.%s, 'Vt2.%s, 'Vt3.%s}, ['Xns]";
-      break;
-    case NEON_LD4_b:
-     case NEON_ST4_b:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld4" : "st4";
-      form = "{'Vt.b, 'Vt2.b, 'Vt3.b, 'Vt4.b}['IVLSLane0], ['Xns]";
-      break;
-    case NEON_LD4_h:
-    case NEON_ST4_h:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld4" : "st4";
-      form = "{'Vt.h, 'Vt2.h, 'Vt3.h, 'Vt4.h}['IVLSLane1], ['Xns]";
-      break;
-    case NEON_LD4_s:
-    case NEON_ST4_s:
-      VIXL_STATIC_ASSERT((NEON_LD4_s | (1 << NEONLSSize_offset)) == NEON_LD4_d);
-      VIXL_STATIC_ASSERT((NEON_ST4_s | (1 << NEONLSSize_offset)) == NEON_ST4_d);
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld4" : "st4";
-      if ((instr->NEONLSSize() & 1) == 0)
-        form = "{'Vt.s, 'Vt2.s, 'Vt3.s, 'Vt4.s}['IVLSLane2], ['Xns]";
-      else
-        form = "{'Vt.d, 'Vt2.d, 'Vt3.d, 'Vt4.d}['IVLSLane3], ['Xns]";
-      break;
-    case NEON_LD4R:
-      mnemonic = "ld4r";
-      form = "{'Vt.%1$s, 'Vt2.%1$s, 'Vt3.%1$s, 'Vt4.%1$s}, ['Xns]";
-      break;
-    default: break;
-  }
-
-  Format(instr, mnemonic, nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitNEONLoadStoreSingleStructPostIndex(
-    const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(NEONLoadStoreSingleStructPostIndex)";
-
-  const char *form_1b = "{'Vt.b}['IVLSLane0], ['Xns], 'Xmb1";
-  const char *form_1h = "{'Vt.h}['IVLSLane1], ['Xns], 'Xmb2";
-  const char *form_1s = "{'Vt.s}['IVLSLane2], ['Xns], 'Xmb4";
-  const char *form_1d = "{'Vt.d}['IVLSLane3], ['Xns], 'Xmb8";
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::LoadStoreFormatMap());
-
-  switch (instr->Mask(NEONLoadStoreSingleStructPostIndexMask)) {
-    case NEON_LD1_b_post: mnemonic = "ld1"; form = form_1b; break;
-    case NEON_LD1_h_post: mnemonic = "ld1"; form = form_1h; break;
-    case NEON_LD1_s_post:
-      mnemonic = "ld1";
-      VIXL_STATIC_ASSERT((NEON_LD1_s | (1 << NEONLSSize_offset)) == NEON_LD1_d);
-      form = ((instr->NEONLSSize() & 1) == 0) ? form_1s : form_1d;
-      break;
-    case NEON_ST1_b_post: mnemonic = "st1"; form = form_1b; break;
-    case NEON_ST1_h_post: mnemonic = "st1"; form = form_1h; break;
-    case NEON_ST1_s_post:
-      mnemonic = "st1";
-      VIXL_STATIC_ASSERT((NEON_ST1_s | (1 << NEONLSSize_offset)) == NEON_ST1_d);
-      form = ((instr->NEONLSSize() & 1) == 0) ? form_1s : form_1d;
-      break;
-    case NEON_LD1R_post:
-      mnemonic = "ld1r";
-      form = "{'Vt.%s}, ['Xns], 'Xmz1";
-      break;
-    case NEON_LD2_b_post:
-    case NEON_ST2_b_post:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld2" : "st2";
-      form = "{'Vt.b, 'Vt2.b}['IVLSLane0], ['Xns], 'Xmb2";
-      break;
-    case NEON_ST2_h_post:
-    case NEON_LD2_h_post:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld2" : "st2";
-      form = "{'Vt.h, 'Vt2.h}['IVLSLane1], ['Xns], 'Xmb4";
-      break;
-    case NEON_LD2_s_post:
-    case NEON_ST2_s_post:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld2" : "st2";
-      if ((instr->NEONLSSize() & 1) == 0)
-        form = "{'Vt.s, 'Vt2.s}['IVLSLane2], ['Xns], 'Xmb8";
-      else
-        form = "{'Vt.d, 'Vt2.d}['IVLSLane3], ['Xns], 'Xmb16";
-      break;
-    case NEON_LD2R_post:
-      mnemonic = "ld2r";
-      form = "{'Vt.%s, 'Vt2.%s}, ['Xns], 'Xmz2";
-      break;
-    case NEON_LD3_b_post:
-    case NEON_ST3_b_post:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld3" : "st3";
-      form = "{'Vt.b, 'Vt2.b, 'Vt3.b}['IVLSLane0], ['Xns], 'Xmb3";
-      break;
-    case NEON_LD3_h_post:
-    case NEON_ST3_h_post:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld3" : "st3";
-      form = "{'Vt.h, 'Vt2.h, 'Vt3.h}['IVLSLane1], ['Xns], 'Xmb6";
-      break;
-    case NEON_LD3_s_post:
-    case NEON_ST3_s_post:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld3" : "st3";
-      if ((instr->NEONLSSize() & 1) == 0)
-        form = "{'Vt.s, 'Vt2.s, 'Vt3.s}['IVLSLane2], ['Xns], 'Xmb12";
-      else
-        form = "{'Vt.d, 'Vt2.d, 'Vt3.d}['IVLSLane3], ['Xns], 'Xmr3";
-      break;
-    case NEON_LD3R_post:
-      mnemonic = "ld3r";
-      form = "{'Vt.%s, 'Vt2.%s, 'Vt3.%s}, ['Xns], 'Xmz3";
-      break;
-    case NEON_LD4_b_post:
-    case NEON_ST4_b_post:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld4" : "st4";
-      form = "{'Vt.b, 'Vt2.b, 'Vt3.b, 'Vt4.b}['IVLSLane0], ['Xns], 'Xmb4";
-      break;
-    case NEON_LD4_h_post:
-    case NEON_ST4_h_post:
-      mnemonic = (instr->LdStXLoad()) == 1 ? "ld4" : "st4";
-      form = "{'Vt.h, 'Vt2.h, 'Vt3.h, 'Vt4.h}['IVLSLane1], ['Xns], 'Xmb8";
-      break;
-    case NEON_LD4_s_post:
-    case NEON_ST4_s_post:
-      mnemonic = (instr->LdStXLoad() == 1) ? "ld4" : "st4";
-      if ((instr->NEONLSSize() & 1) == 0)
-        form = "{'Vt.s, 'Vt2.s, 'Vt3.s, 'Vt4.s}['IVLSLane2], ['Xns], 'Xmb16";
-      else
-        form = "{'Vt.d, 'Vt2.d, 'Vt3.d, 'Vt4.d}['IVLSLane3], ['Xns], 'Xmb32";
-      break;
-    case NEON_LD4R_post:
-      mnemonic = "ld4r";
-      form = "{'Vt.%1$s, 'Vt2.%1$s, 'Vt3.%1$s, 'Vt4.%1$s}, ['Xns], 'Xmz4";
-      break;
-    default: break;
-  }
-
-  Format(instr, mnemonic, nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitNEONModifiedImmediate(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "'Vt.%s, 'IVMIImm8, lsl 'IVMIShiftAmt1";
-
-  int cmode   = instr->NEONCmode();
-  int cmode_3 = (cmode >> 3) & 1;
-  int cmode_2 = (cmode >> 2) & 1;
-  int cmode_1 = (cmode >> 1) & 1;
-  int cmode_0 = cmode & 1;
-  int q = instr->NEONQ();
-  int op = instr->NEONModImmOp();
-
-  static const NEONFormatMap map_b = { {30}, {NF_8B, NF_16B} };
-  static const NEONFormatMap map_h = { {30}, {NF_4H, NF_8H} };
-  static const NEONFormatMap map_s = { {30}, {NF_2S, NF_4S} };
-  NEONFormatDecoder nfd(instr, &map_b);
-
-  if (cmode_3 == 0) {
-    if (cmode_0 == 0) {
-      mnemonic = (op == 1) ? "mvni" : "movi";
-    } else {  // cmode<0> == '1'.
-      mnemonic = (op == 1) ? "bic" : "orr";
-    }
-    nfd.SetFormatMap(0, &map_s);
-  } else {  // cmode<3> == '1'.
-    if (cmode_2 == 0) {
-      if (cmode_0 == 0) {
-        mnemonic = (op == 1) ? "mvni" : "movi";
-      } else {  // cmode<0> == '1'.
-        mnemonic = (op == 1) ? "bic" : "orr";
-      }
-      nfd.SetFormatMap(0, &map_h);
-    } else {  // cmode<2> == '1'.
-      if (cmode_1 == 0) {
-        mnemonic = (op == 1) ? "mvni" : "movi";
-        form = "'Vt.%s, 'IVMIImm8, msl 'IVMIShiftAmt2";
-        nfd.SetFormatMap(0, &map_s);
-      } else {   // cmode<1> == '1'.
-        if (cmode_0 == 0) {
-          mnemonic = "movi";
-          if (op == 0) {
-            form = "'Vt.%s, 'IVMIImm8";
-          } else {
-            form = (q == 0) ? "'Dd, 'IVMIImm" : "'Vt.2d, 'IVMIImm";
-          }
-        } else {  // cmode<0> == '1'
-          mnemonic = "fmov";
-          if (op == 0) {
-            form  = "'Vt.%s, 'IVMIImmFPSingle";
-            nfd.SetFormatMap(0, &map_s);
-          } else {
-            if (q == 1) {
-              form = "'Vt.2d, 'IVMIImmFPDouble";
-            }
-          }
-        }
-      }
-    }
-  }
-  Format(instr, mnemonic, nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitNEONScalar2RegMisc(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form     = "%sd, %sn";
-  const char *form_0   = "%sd, %sn, #0";
-  const char *form_fp0 = "%sd, %sn, #0.0";
-
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::ScalarFormatMap());
-
-  if (instr->Mask(NEON2RegMiscOpcode) <= NEON_NEG_scalar_opcode) {
-    // These instructions all use a two bit size field, except NOT and RBIT,
-    // which use the field to encode the operation.
-    switch (instr->Mask(NEONScalar2RegMiscMask)) {
-      case NEON_CMGT_zero_scalar: mnemonic = "cmgt"; form = form_0; break;
-      case NEON_CMGE_zero_scalar: mnemonic = "cmge"; form = form_0; break;
-      case NEON_CMLE_zero_scalar: mnemonic = "cmle"; form = form_0; break;
-      case NEON_CMLT_zero_scalar: mnemonic = "cmlt"; form = form_0; break;
-      case NEON_CMEQ_zero_scalar: mnemonic = "cmeq"; form = form_0; break;
-      case NEON_NEG_scalar:       mnemonic = "neg";   break;
-      case NEON_SQNEG_scalar:     mnemonic = "sqneg"; break;
-      case NEON_ABS_scalar:       mnemonic = "abs";   break;
-      case NEON_SQABS_scalar:     mnemonic = "sqabs"; break;
-      case NEON_SUQADD_scalar:    mnemonic = "suqadd"; break;
-      case NEON_USQADD_scalar:    mnemonic = "usqadd"; break;
-      default: form = "(NEONScalar2RegMisc)";
-    }
-  } else {
-    // These instructions all use a one bit size field, except SQXTUN, SQXTN
-    // and UQXTN, which use a two bit size field.
-    nfd.SetFormatMaps(nfd.FPScalarFormatMap());
-    switch (instr->Mask(NEONScalar2RegMiscFPMask)) {
-      case NEON_FRSQRTE_scalar:    mnemonic = "frsqrte"; break;
-      case NEON_FRECPE_scalar:     mnemonic = "frecpe";  break;
-      case NEON_SCVTF_scalar:      mnemonic = "scvtf"; break;
-      case NEON_UCVTF_scalar:      mnemonic = "ucvtf"; break;
-      case NEON_FCMGT_zero_scalar: mnemonic = "fcmgt"; form = form_fp0; break;
-      case NEON_FCMGE_zero_scalar: mnemonic = "fcmge"; form = form_fp0; break;
-      case NEON_FCMLE_zero_scalar: mnemonic = "fcmle"; form = form_fp0; break;
-      case NEON_FCMLT_zero_scalar: mnemonic = "fcmlt"; form = form_fp0; break;
-      case NEON_FCMEQ_zero_scalar: mnemonic = "fcmeq"; form = form_fp0; break;
-      case NEON_FRECPX_scalar:     mnemonic = "frecpx"; break;
-      case NEON_FCVTNS_scalar:     mnemonic = "fcvtns"; break;
-      case NEON_FCVTNU_scalar:     mnemonic = "fcvtnu"; break;
-      case NEON_FCVTPS_scalar:     mnemonic = "fcvtps"; break;
-      case NEON_FCVTPU_scalar:     mnemonic = "fcvtpu"; break;
-      case NEON_FCVTMS_scalar:     mnemonic = "fcvtms"; break;
-      case NEON_FCVTMU_scalar:     mnemonic = "fcvtmu"; break;
-      case NEON_FCVTZS_scalar:     mnemonic = "fcvtzs"; break;
-      case NEON_FCVTZU_scalar:     mnemonic = "fcvtzu"; break;
-      case NEON_FCVTAS_scalar:     mnemonic = "fcvtas"; break;
-      case NEON_FCVTAU_scalar:     mnemonic = "fcvtau"; break;
-      case NEON_FCVTXN_scalar:
-        nfd.SetFormatMap(0, nfd.LongScalarFormatMap());
-        mnemonic = "fcvtxn";
-        break;
-      default:
-        nfd.SetFormatMap(0, nfd.ScalarFormatMap());
-        nfd.SetFormatMap(1, nfd.LongScalarFormatMap());
-        switch (instr->Mask(NEONScalar2RegMiscMask)) {
-          case NEON_SQXTN_scalar:  mnemonic = "sqxtn"; break;
-          case NEON_UQXTN_scalar:  mnemonic = "uqxtn"; break;
-          case NEON_SQXTUN_scalar: mnemonic = "sqxtun"; break;
-          default: form = "(NEONScalar2RegMisc)";
-        }
-    }
-  }
-  Format(instr, mnemonic, nfd.SubstitutePlaceholders(form));
-}
-
-
-void Disassembler::VisitNEONScalar3Diff(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "%sd, %sn, %sm";
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::LongScalarFormatMap(),
-                               NEONFormatDecoder::ScalarFormatMap());
-
-  switch (instr->Mask(NEONScalar3DiffMask)) {
-    case NEON_SQDMLAL_scalar  : mnemonic = "sqdmlal"; break;
-    case NEON_SQDMLSL_scalar  : mnemonic = "sqdmlsl"; break;
-    case NEON_SQDMULL_scalar  : mnemonic = "sqdmull"; break;
-    default: form = "(NEONScalar3Diff)";
-  }
-  Format(instr, mnemonic, nfd.SubstitutePlaceholders(form));
-}
-
-
-void Disassembler::VisitNEONScalar3Same(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "%sd, %sn, %sm";
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::ScalarFormatMap());
-
-  if (instr->Mask(NEONScalar3SameFPFMask) == NEONScalar3SameFPFixed) {
-    nfd.SetFormatMaps(nfd.FPScalarFormatMap());
-    switch (instr->Mask(NEONScalar3SameFPMask)) {
-      case NEON_FACGE_scalar:   mnemonic = "facge"; break;
-      case NEON_FACGT_scalar:   mnemonic = "facgt"; break;
-      case NEON_FCMEQ_scalar:   mnemonic = "fcmeq"; break;
-      case NEON_FCMGE_scalar:   mnemonic = "fcmge"; break;
-      case NEON_FCMGT_scalar:   mnemonic = "fcmgt"; break;
-      case NEON_FMULX_scalar:   mnemonic = "fmulx"; break;
-      case NEON_FRECPS_scalar:  mnemonic = "frecps"; break;
-      case NEON_FRSQRTS_scalar: mnemonic = "frsqrts"; break;
-      case NEON_FABD_scalar:    mnemonic = "fabd"; break;
-      default: form = "(NEONScalar3Same)";
-    }
-  } else {
-    switch (instr->Mask(NEONScalar3SameMask)) {
-      case NEON_ADD_scalar:    mnemonic = "add";    break;
-      case NEON_SUB_scalar:    mnemonic = "sub";    break;
-      case NEON_CMEQ_scalar:   mnemonic = "cmeq";   break;
-      case NEON_CMGE_scalar:   mnemonic = "cmge";   break;
-      case NEON_CMGT_scalar:   mnemonic = "cmgt";   break;
-      case NEON_CMHI_scalar:   mnemonic = "cmhi";   break;
-      case NEON_CMHS_scalar:   mnemonic = "cmhs";   break;
-      case NEON_CMTST_scalar:  mnemonic = "cmtst";  break;
-      case NEON_UQADD_scalar:  mnemonic = "uqadd";  break;
-      case NEON_SQADD_scalar:  mnemonic = "sqadd";  break;
-      case NEON_UQSUB_scalar:  mnemonic = "uqsub";  break;
-      case NEON_SQSUB_scalar:  mnemonic = "sqsub";  break;
-      case NEON_USHL_scalar:   mnemonic = "ushl";   break;
-      case NEON_SSHL_scalar:   mnemonic = "sshl";   break;
-      case NEON_UQSHL_scalar:  mnemonic = "uqshl";  break;
-      case NEON_SQSHL_scalar:  mnemonic = "sqshl";  break;
-      case NEON_URSHL_scalar:  mnemonic = "urshl";  break;
-      case NEON_SRSHL_scalar:  mnemonic = "srshl";  break;
-      case NEON_UQRSHL_scalar: mnemonic = "uqrshl"; break;
-      case NEON_SQRSHL_scalar: mnemonic = "sqrshl"; break;
-      case NEON_SQDMULH_scalar:  mnemonic = "sqdmulh";  break;
-      case NEON_SQRDMULH_scalar: mnemonic = "sqrdmulh"; break;
-      default: form = "(NEONScalar3Same)";
-    }
-  }
-  Format(instr, mnemonic, nfd.SubstitutePlaceholders(form));
-}
-
-
-void Disassembler::VisitNEONScalarByIndexedElement(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "%sd, %sn, 'Ve.%s['IVByElemIndex]";
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::ScalarFormatMap());
-  bool long_instr = false;
-
-  switch (instr->Mask(NEONScalarByIndexedElementMask)) {
-    case NEON_SQDMULL_byelement_scalar:
-      mnemonic = "sqdmull";
-      long_instr = true;
-      break;
-    case NEON_SQDMLAL_byelement_scalar:
-      mnemonic = "sqdmlal";
-      long_instr = true;
-      break;
-    case NEON_SQDMLSL_byelement_scalar:
-      mnemonic = "sqdmlsl";
-      long_instr = true;
-      break;
-    case NEON_SQDMULH_byelement_scalar:
-      mnemonic = "sqdmulh";
-      break;
-    case NEON_SQRDMULH_byelement_scalar:
-      mnemonic = "sqrdmulh";
-      break;
-    default:
-      nfd.SetFormatMap(0, nfd.FPScalarFormatMap());
-      switch (instr->Mask(NEONScalarByIndexedElementFPMask)) {
-        case NEON_FMUL_byelement_scalar: mnemonic = "fmul"; break;
-        case NEON_FMLA_byelement_scalar: mnemonic = "fmla"; break;
-        case NEON_FMLS_byelement_scalar: mnemonic = "fmls"; break;
-        case NEON_FMULX_byelement_scalar: mnemonic = "fmulx"; break;
-        default: form = "(NEONScalarByIndexedElement)";
-      }
-  }
-
-  if (long_instr) {
-    nfd.SetFormatMap(0, nfd.LongScalarFormatMap());
-  }
-
-  Format(instr, mnemonic, nfd.Substitute(
-    form, nfd.kPlaceholder, nfd.kPlaceholder, nfd.kFormat));
-}
-
-
-void Disassembler::VisitNEONScalarCopy(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(NEONScalarCopy)";
-
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::TriangularScalarFormatMap());
-
-  if (instr->Mask(NEONScalarCopyMask) == NEON_DUP_ELEMENT_scalar) {
-    mnemonic = "mov";
-    form = "%sd, 'Vn.%s['IVInsIndex1]";
-  }
-
-  Format(instr, mnemonic, nfd.Substitute(form, nfd.kPlaceholder, nfd.kFormat));
-}
-
-
-void Disassembler::VisitNEONScalarPairwise(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "%sd, 'Vn.%s";
-  NEONFormatMap map = { {22}, {NF_2S, NF_2D} };
-  NEONFormatDecoder nfd(instr, NEONFormatDecoder::FPScalarFormatMap(), &map);
-
-  switch (instr->Mask(NEONScalarPairwiseMask)) {
-    case NEON_ADDP_scalar:    mnemonic = "addp"; break;
-    case NEON_FADDP_scalar:   mnemonic = "faddp"; break;
-    case NEON_FMAXP_scalar:   mnemonic = "fmaxp"; break;
-    case NEON_FMAXNMP_scalar: mnemonic = "fmaxnmp"; break;
-    case NEON_FMINP_scalar:   mnemonic = "fminp"; break;
-    case NEON_FMINNMP_scalar: mnemonic = "fminnmp"; break;
-    default: form = "(NEONScalarPairwise)";
-  }
-  Format(instr, mnemonic, nfd.Substitute(form,
-      NEONFormatDecoder::kPlaceholder, NEONFormatDecoder::kFormat));
-}
-
-
-void Disassembler::VisitNEONScalarShiftImmediate(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form   = "%sd, %sn, 'Is1";
-  const char *form_2 = "%sd, %sn, 'Is2";
-
-  static const NEONFormatMap map_shift = {
-    {22, 21, 20, 19},
-    {NF_UNDEF, NF_B, NF_H, NF_H, NF_S, NF_S, NF_S, NF_S,
-     NF_D,     NF_D, NF_D, NF_D, NF_D, NF_D, NF_D, NF_D}
-  };
-  static const NEONFormatMap map_shift_narrow = {
-    {21, 20, 19},
-    {NF_UNDEF, NF_H, NF_S, NF_S, NF_D, NF_D, NF_D, NF_D}
-  };
-  NEONFormatDecoder nfd(instr, &map_shift);
-
-  if (instr->ImmNEONImmh()) {  // immh has to be non-zero.
-    switch (instr->Mask(NEONScalarShiftImmediateMask)) {
-      case NEON_FCVTZU_imm_scalar: mnemonic = "fcvtzu";    break;
-      case NEON_FCVTZS_imm_scalar: mnemonic = "fcvtzs";   break;
-      case NEON_SCVTF_imm_scalar: mnemonic = "scvtf";    break;
-      case NEON_UCVTF_imm_scalar: mnemonic = "ucvtf";   break;
-      case NEON_SRI_scalar:       mnemonic = "sri";    break;
-      case NEON_SSHR_scalar:      mnemonic = "sshr";   break;
-      case NEON_USHR_scalar:      mnemonic = "ushr";   break;
-      case NEON_SRSHR_scalar:     mnemonic = "srshr";  break;
-      case NEON_URSHR_scalar:     mnemonic = "urshr";  break;
-      case NEON_SSRA_scalar:      mnemonic = "ssra";   break;
-      case NEON_USRA_scalar:      mnemonic = "usra";   break;
-      case NEON_SRSRA_scalar:     mnemonic = "srsra";  break;
-      case NEON_URSRA_scalar:     mnemonic = "ursra";  break;
-      case NEON_SHL_scalar:       mnemonic = "shl";    form = form_2; break;
-      case NEON_SLI_scalar:       mnemonic = "sli";    form = form_2; break;
-      case NEON_SQSHLU_scalar:    mnemonic = "sqshlu"; form = form_2; break;
-      case NEON_SQSHL_imm_scalar: mnemonic = "sqshl";  form = form_2; break;
-      case NEON_UQSHL_imm_scalar: mnemonic = "uqshl";  form = form_2; break;
-      case NEON_UQSHRN_scalar:
-        mnemonic = "uqshrn";
-        nfd.SetFormatMap(1, &map_shift_narrow);
-        break;
-      case NEON_UQRSHRN_scalar:
-        mnemonic = "uqrshrn";
-        nfd.SetFormatMap(1, &map_shift_narrow);
-        break;
-      case NEON_SQSHRN_scalar:
-        mnemonic = "sqshrn";
-        nfd.SetFormatMap(1, &map_shift_narrow);
-        break;
-      case NEON_SQRSHRN_scalar:
-        mnemonic = "sqrshrn";
-        nfd.SetFormatMap(1, &map_shift_narrow);
-        break;
-      case NEON_SQSHRUN_scalar:
-        mnemonic = "sqshrun";
-        nfd.SetFormatMap(1, &map_shift_narrow);
-        break;
-      case NEON_SQRSHRUN_scalar:
-        mnemonic = "sqrshrun";
-        nfd.SetFormatMap(1, &map_shift_narrow);
-        break;
-      default:
-        form = "(NEONScalarShiftImmediate)";
-    }
-  } else {
-    form = "(NEONScalarShiftImmediate)";
-  }
-  Format(instr, mnemonic, nfd.SubstitutePlaceholders(form));
-}
-
-
-void Disassembler::VisitNEONShiftImmediate(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form         = "'Vd.%s, 'Vn.%s, 'Is1";
-  const char *form_shift_2 = "'Vd.%s, 'Vn.%s, 'Is2";
-  const char *form_xtl     = "'Vd.%s, 'Vn.%s";
-
-  // 0001->8H, 001x->4S, 01xx->2D, all others undefined.
-  static const NEONFormatMap map_shift_ta = {
-    {22, 21, 20, 19},
-    {NF_UNDEF, NF_8H, NF_4S, NF_4S, NF_2D, NF_2D, NF_2D, NF_2D}
-  };
-
-  // 00010->8B, 00011->16B, 001x0->4H, 001x1->8H,
-  // 01xx0->2S, 01xx1->4S, 1xxx1->2D, all others undefined.
-  static const NEONFormatMap map_shift_tb = {
-    {22, 21, 20, 19, 30},
-    {NF_UNDEF, NF_UNDEF, NF_8B,    NF_16B, NF_4H,    NF_8H, NF_4H,    NF_8H,
-     NF_2S,    NF_4S,    NF_2S,    NF_4S,  NF_2S,    NF_4S, NF_2S,    NF_4S,
-     NF_UNDEF, NF_2D,    NF_UNDEF, NF_2D,  NF_UNDEF, NF_2D, NF_UNDEF, NF_2D,
-     NF_UNDEF, NF_2D,    NF_UNDEF, NF_2D,  NF_UNDEF, NF_2D, NF_UNDEF, NF_2D}
-  };
-
-  NEONFormatDecoder nfd(instr, &map_shift_tb);
-
-  if (instr->ImmNEONImmh()) {  // immh has to be non-zero.
-    switch (instr->Mask(NEONShiftImmediateMask)) {
-      case NEON_SQSHLU:     mnemonic = "sqshlu"; form = form_shift_2; break;
-      case NEON_SQSHL_imm:  mnemonic = "sqshl";  form = form_shift_2; break;
-      case NEON_UQSHL_imm:  mnemonic = "uqshl";  form = form_shift_2; break;
-      case NEON_SHL:        mnemonic = "shl";    form = form_shift_2; break;
-      case NEON_SLI:        mnemonic = "sli";    form = form_shift_2; break;
-      case NEON_SCVTF_imm:  mnemonic = "scvtf";  break;
-      case NEON_UCVTF_imm:  mnemonic = "ucvtf";  break;
-      case NEON_FCVTZU_imm: mnemonic = "fcvtzu"; break;
-      case NEON_FCVTZS_imm: mnemonic = "fcvtzs"; break;
-      case NEON_SRI:        mnemonic = "sri";    break;
-      case NEON_SSHR:       mnemonic = "sshr";   break;
-      case NEON_USHR:       mnemonic = "ushr";   break;
-      case NEON_SRSHR:      mnemonic = "srshr";  break;
-      case NEON_URSHR:      mnemonic = "urshr";  break;
-      case NEON_SSRA:       mnemonic = "ssra";   break;
-      case NEON_USRA:       mnemonic = "usra";   break;
-      case NEON_SRSRA:      mnemonic = "srsra";  break;
-      case NEON_URSRA:      mnemonic = "ursra";  break;
-      case NEON_SHRN:
-        mnemonic = instr->Mask(NEON_Q) ? "shrn2" : "shrn";
-        nfd.SetFormatMap(1, &map_shift_ta);
-        break;
-      case NEON_RSHRN:
-        mnemonic = instr->Mask(NEON_Q) ? "rshrn2" : "rshrn";
-        nfd.SetFormatMap(1, &map_shift_ta);
-        break;
-      case NEON_UQSHRN:
-        mnemonic = instr->Mask(NEON_Q) ? "uqshrn2" : "uqshrn";
-        nfd.SetFormatMap(1, &map_shift_ta);
-        break;
-      case NEON_UQRSHRN:
-        mnemonic = instr->Mask(NEON_Q) ? "uqrshrn2" : "uqrshrn";
-        nfd.SetFormatMap(1, &map_shift_ta);
-        break;
-      case NEON_SQSHRN:
-        mnemonic = instr->Mask(NEON_Q) ? "sqshrn2" : "sqshrn";
-        nfd.SetFormatMap(1, &map_shift_ta);
-        break;
-      case NEON_SQRSHRN:
-        mnemonic = instr->Mask(NEON_Q) ? "sqrshrn2" : "sqrshrn";
-        nfd.SetFormatMap(1, &map_shift_ta);
-        break;
-      case NEON_SQSHRUN:
-        mnemonic = instr->Mask(NEON_Q) ? "sqshrun2" : "sqshrun";
-        nfd.SetFormatMap(1, &map_shift_ta);
-        break;
-      case NEON_SQRSHRUN:
-        mnemonic = instr->Mask(NEON_Q) ? "sqrshrun2" : "sqrshrun";
-        nfd.SetFormatMap(1, &map_shift_ta);
-        break;
-      case NEON_SSHLL:
-        nfd.SetFormatMap(0, &map_shift_ta);
-        if (instr->ImmNEONImmb() == 0 &&
-            CountSetBits(instr->ImmNEONImmh(), 32) == 1) {  // sxtl variant.
-          form = form_xtl;
-          mnemonic = instr->Mask(NEON_Q) ? "sxtl2" : "sxtl";
-        } else {  // sshll variant.
-          form = form_shift_2;
-          mnemonic = instr->Mask(NEON_Q) ? "sshll2" : "sshll";
-        }
-        break;
-      case NEON_USHLL:
-        nfd.SetFormatMap(0, &map_shift_ta);
-        if (instr->ImmNEONImmb() == 0 &&
-            CountSetBits(instr->ImmNEONImmh(), 32) == 1) {  // uxtl variant.
-          form = form_xtl;
-          mnemonic = instr->Mask(NEON_Q) ? "uxtl2" : "uxtl";
-        } else {  // ushll variant.
-          form = form_shift_2;
-          mnemonic = instr->Mask(NEON_Q) ? "ushll2" : "ushll";
-        }
-        break;
-      default: form = "(NEONShiftImmediate)";
-    }
-  } else {
-    form = "(NEONShiftImmediate)";
-  }
-  Format(instr, mnemonic, nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitNEONTable(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "(NEONTable)";
-  const char form_1v[] = "'Vd.%%s, {'Vn.16b}, 'Vm.%%s";
-  const char form_2v[] = "'Vd.%%s, {'Vn.16b, v%d.16b}, 'Vm.%%s";
-  const char form_3v[] = "'Vd.%%s, {'Vn.16b, v%d.16b, v%d.16b}, 'Vm.%%s";
-  const char form_4v[] =
-      "'Vd.%%s, {'Vn.16b, v%d.16b, v%d.16b, v%d.16b}, 'Vm.%%s";
-  static const NEONFormatMap map_b = { {30}, {NF_8B, NF_16B} };
-  NEONFormatDecoder nfd(instr, &map_b);
-
-  switch (instr->Mask(NEONTableMask)) {
-    case NEON_TBL_1v: mnemonic = "tbl"; form = form_1v; break;
-    case NEON_TBL_2v: mnemonic = "tbl"; form = form_2v; break;
-    case NEON_TBL_3v: mnemonic = "tbl"; form = form_3v; break;
-    case NEON_TBL_4v: mnemonic = "tbl"; form = form_4v; break;
-    case NEON_TBX_1v: mnemonic = "tbx"; form = form_1v; break;
-    case NEON_TBX_2v: mnemonic = "tbx"; form = form_2v; break;
-    case NEON_TBX_3v: mnemonic = "tbx"; form = form_3v; break;
-    case NEON_TBX_4v: mnemonic = "tbx"; form = form_4v; break;
-    default: break;
-  }
-
-  char re_form[sizeof(form_4v) + 6];
-  int reg_num = instr->Rn();
-  snprintf(re_form, sizeof(re_form), form,
-           (reg_num + 1) % kNumberOfVRegisters,
-           (reg_num + 2) % kNumberOfVRegisters,
-           (reg_num + 3) % kNumberOfVRegisters);
-
-  Format(instr, mnemonic, nfd.Substitute(re_form));
-}
-
-
-void Disassembler::VisitNEONPerm(const Instruction* instr) {
-  const char *mnemonic = "unimplemented";
-  const char *form = "'Vd.%s, 'Vn.%s, 'Vm.%s";
-  NEONFormatDecoder nfd(instr);
-
-  switch (instr->Mask(NEONPermMask)) {
-    case NEON_TRN1: mnemonic = "trn1";   break;
-    case NEON_TRN2: mnemonic = "trn2";  break;
-    case NEON_UZP1: mnemonic = "uzp1"; break;
-    case NEON_UZP2: mnemonic = "uzp2";  break;
-    case NEON_ZIP1: mnemonic = "zip1"; break;
-    case NEON_ZIP2: mnemonic = "zip2"; break;
-    default: form = "(NEONPerm)";
-  }
-  Format(instr, mnemonic, nfd.Substitute(form));
-}
-
-
-void Disassembler::VisitUnimplemented(const Instruction* instr) {
-  Format(instr, "unimplemented", "(Unimplemented)");
-}
-
-
-void Disassembler::VisitUnallocated(const Instruction* instr) {
-  Format(instr, "unallocated", "(Unallocated)");
-}
-
-
-void Disassembler::ProcessOutput(const Instruction* /*instr*/) {
-  // The base disasm does nothing more than disassembling into a buffer.
-}
-
-
-void Disassembler::AppendRegisterNameToOutput(const Instruction* instr,
-                                              const CPURegister& reg) {
-  USE(instr);
-  VIXL_ASSERT(reg.IsValid());
-  char reg_char;
-
-  if (reg.IsRegister()) {
-    reg_char = reg.Is64Bits() ? 'x' : 'w';
-  } else {
-    VIXL_ASSERT(reg.IsVRegister());
-    switch (reg.SizeInBits()) {
-      case kBRegSize: reg_char = 'b'; break;
-      case kHRegSize: reg_char = 'h'; break;
-      case kSRegSize: reg_char = 's'; break;
-      case kDRegSize: reg_char = 'd'; break;
-      default:
-        VIXL_ASSERT(reg.Is128Bits());
-        reg_char = 'q';
-    }
-  }
-
-  if (reg.IsVRegister() || !(reg.Aliases(sp) || reg.Aliases(xzr))) {
-    // A core or scalar/vector register: [wx]0 - 30, [bhsdq]0 - 31.
-    AppendToOutput("%c%d", reg_char, reg.code());
-  } else if (reg.Aliases(sp)) {
-    // Disassemble w31/x31 as stack pointer wsp/sp.
-    AppendToOutput("%s", reg.Is64Bits() ? "sp" : "wsp");
-  } else {
-    // Disassemble w31/x31 as zero register wzr/xzr.
-    AppendToOutput("%czr", reg_char);
-  }
-}
-
-
-void Disassembler::AppendPCRelativeOffsetToOutput(const Instruction* instr,
-                                                  int64_t offset) {
-  USE(instr);
-  uint64_t abs_offset = offset;
-  char sign = (offset < 0) ? '-' : '+';
-  if (offset < 0) {
-    abs_offset = -abs_offset;
-  }
-  AppendToOutput("#%c0x%" PRIx64, sign, abs_offset);
-}
-
-
-void Disassembler::AppendAddressToOutput(const Instruction* instr,
-                                         const void* addr) {
-  USE(instr);
-  AppendToOutput("(addr 0x%" PRIxPTR ")", reinterpret_cast<uintptr_t>(addr));
-}
-
-
-void Disassembler::AppendCodeAddressToOutput(const Instruction* instr,
-                                             const void* addr) {
-  AppendAddressToOutput(instr, addr);
-}
-
-
-void Disassembler::AppendDataAddressToOutput(const Instruction* instr,
-                                             const void* addr) {
-  AppendAddressToOutput(instr, addr);
-}
-
-
-void Disassembler::AppendCodeRelativeAddressToOutput(const Instruction* instr,
-                                                     const void* addr) {
-  USE(instr);
-  int64_t rel_addr = CodeRelativeAddress(addr);
-  if (rel_addr >= 0) {
-    AppendToOutput("(addr 0x%" PRIx64 ")", rel_addr);
-  } else {
-    AppendToOutput("(addr -0x%" PRIx64 ")", -rel_addr);
-  }
-}
-
-
-void Disassembler::AppendCodeRelativeCodeAddressToOutput(
-    const Instruction* instr, const void* addr) {
-  AppendCodeRelativeAddressToOutput(instr, addr);
-}
-
-
-void Disassembler::AppendCodeRelativeDataAddressToOutput(
-    const Instruction* instr, const void* addr) {
-  AppendCodeRelativeAddressToOutput(instr, addr);
-}
-
-
-void Disassembler::MapCodeAddress(int64_t base_address,
-                                  const Instruction* instr_address) {
-  set_code_address_offset(
-      base_address - reinterpret_cast<intptr_t>(instr_address));
-}
-int64_t Disassembler::CodeRelativeAddress(const void* addr) {
-  return reinterpret_cast<intptr_t>(addr) + code_address_offset();
-}
-
-
-void Disassembler::Format(const Instruction* instr, const char* mnemonic,
-                          const char* format) {
-  VIXL_ASSERT(mnemonic != NULL);
-  ResetOutput();
-  Substitute(instr, mnemonic);
-  if (format != NULL) {
-    VIXL_ASSERT(buffer_pos_ < buffer_size_);
-    buffer_[buffer_pos_++] = ' ';
-    Substitute(instr, format);
-  }
-  VIXL_ASSERT(buffer_pos_ < buffer_size_);
-  buffer_[buffer_pos_] = 0;
-  ProcessOutput(instr);
-}
-
-
-void Disassembler::Substitute(const Instruction* instr, const char* string) {
-  char chr = *string++;
-  while (chr != '\0') {
-    if (chr == '\'') {
-      string += SubstituteField(instr, string);
-    } else {
-      VIXL_ASSERT(buffer_pos_ < buffer_size_);
-      buffer_[buffer_pos_++] = chr;
-    }
-    chr = *string++;
-  }
-}
-
-
-int Disassembler::SubstituteField(const Instruction* instr,
-                                  const char* format) {
-  switch (format[0]) {
-    // NB. The remaining substitution prefix characters are: GJKUZ.
-    case 'R':  // Register. X or W, selected by sf bit.
-    case 'F':  // FP register. S or D, selected by type field.
-    case 'V':  // Vector register, V, vector format.
-    case 'W':
-    case 'X':
-    case 'B':
-    case 'H':
-    case 'S':
-    case 'D':
-    case 'Q': return SubstituteRegisterField(instr, format);
-    case 'I': return SubstituteImmediateField(instr, format);
-    case 'L': return SubstituteLiteralField(instr, format);
-    case 'N': return SubstituteShiftField(instr, format);
-    case 'P': return SubstitutePrefetchField(instr, format);
-    case 'C': return SubstituteConditionField(instr, format);
-    case 'E': return SubstituteExtendField(instr, format);
-    case 'A': return SubstitutePCRelAddressField(instr, format);
-    case 'T': return SubstituteBranchTargetField(instr, format);
-    case 'O': return SubstituteLSRegOffsetField(instr, format);
-    case 'M': return SubstituteBarrierField(instr, format);
-    case 'K': return SubstituteCrField(instr, format);
-    case 'G': return SubstituteSysOpField(instr, format);
-    default: {
-      VIXL_UNREACHABLE();
-      return 1;
-    }
-  }
-}
-
-
-int Disassembler::SubstituteRegisterField(const Instruction* instr,
-                                          const char* format) {
-  char reg_prefix = format[0];
-  unsigned reg_num = 0;
-  unsigned field_len = 2;
-
-  switch (format[1]) {
-    case 'd':
-      reg_num = instr->Rd();
-      if (format[2] == 'q') {
-        reg_prefix = instr->NEONQ() ? 'X' : 'W';
-        field_len = 3;
-      }
-      break;
-    case 'n': reg_num = instr->Rn(); break;
-    case 'm':
-      reg_num = instr->Rm();
-      switch (format[2]) {
-          // Handle registers tagged with b (bytes), z (instruction), or
-          // r (registers), used for address updates in
-          // NEON load/store instructions.
-        case 'r':
-        case 'b':
-        case 'z': {
-          field_len = 3;
-          char* eimm;
-          int imm = static_cast<int>(strtol(&format[3], &eimm, 10));
-          field_len += eimm - &format[3];
-          if (reg_num == 31) {
-            switch (format[2]) {
-              case 'z':
-                imm *= (1 << instr->NEONLSSize());
-                break;
-              case 'r':
-                imm *= (instr->NEONQ() == 0) ? kDRegSizeInBytes
-                                             : kQRegSizeInBytes;
-                break;
-              case 'b':
-                break;
-            }
-            AppendToOutput("#%d", imm);
-            return field_len;
-          }
-          break;
-        }
-      }
-      break;
-    case 'e':
-      // This is register Rm, but using a 4-bit specifier. Used in NEON
-      // by-element instructions.
-      reg_num = (instr->Rm() & 0xf);
-      break;
-    case 'a': reg_num = instr->Ra(); break;
-    case 's': reg_num = instr->Rs(); break;
-    case 't':
-      reg_num = instr->Rt();
-      if (format[0] == 'V') {
-        if ((format[2] >= '2') && (format[2] <= '4')) {
-          // Handle consecutive vector register specifiers Vt2, Vt3 and Vt4.
-          reg_num = (reg_num + format[2] - '1') % 32;
-          field_len = 3;
-        }
-      } else {
-        if (format[2] == '2') {
-        // Handle register specifier Rt2.
-          reg_num = instr->Rt2();
-          field_len = 3;
-        }
-      }
-      break;
-    default: VIXL_UNREACHABLE();
-  }
-
-  // Increase field length for registers tagged as stack.
-  if (format[2] == 's') {
-    field_len = 3;
-  }
-
-  CPURegister::RegisterType reg_type = CPURegister::kRegister;
-  unsigned reg_size = kXRegSize;
-
-  if (reg_prefix == 'R') {
-    reg_prefix = instr->SixtyFourBits() ? 'X' : 'W';
-  } else if (reg_prefix == 'F') {
-    reg_prefix = ((instr->FPType() & 1) == 0) ? 'S' : 'D';
-  }
-
-  switch (reg_prefix) {
-    case 'W':
-      reg_type = CPURegister::kRegister; reg_size = kWRegSize; break;
-    case 'X':
-      reg_type = CPURegister::kRegister; reg_size = kXRegSize; break;
-    case 'B':
-      reg_type = CPURegister::kVRegister; reg_size = kBRegSize; break;
-    case 'H':
-      reg_type = CPURegister::kVRegister; reg_size = kHRegSize; break;
-    case 'S':
-      reg_type = CPURegister::kVRegister; reg_size = kSRegSize; break;
-    case 'D':
-      reg_type = CPURegister::kVRegister; reg_size = kDRegSize; break;
-    case 'Q':
-      reg_type = CPURegister::kVRegister; reg_size = kQRegSize; break;
-    case 'V':
-      AppendToOutput("v%d", reg_num);
-      return field_len;
-    default:
-      VIXL_UNREACHABLE();
-  }
-
-  if ((reg_type == CPURegister::kRegister) &&
-      (reg_num == kZeroRegCode) && (format[2] == 's')) {
-    reg_num = kSPRegInternalCode;
-  }
-
-  AppendRegisterNameToOutput(instr, CPURegister(reg_num, reg_size, reg_type));
-
-  return field_len;
-}
-
-
-int Disassembler::SubstituteImmediateField(const Instruction* instr,
-                                           const char* format) {
-  VIXL_ASSERT(format[0] == 'I');
-
-  switch (format[1]) {
-    case 'M': {  // IMoveImm, IMoveNeg or IMoveLSL.
-      if (format[5] == 'L') {
-        AppendToOutput("#0x%" PRIx32, instr->ImmMoveWide());
-        if (instr->ShiftMoveWide() > 0) {
-          AppendToOutput(", lsl #%" PRId32, 16 * instr->ShiftMoveWide());
-        }
-      } else {
-        VIXL_ASSERT((format[5] == 'I') || (format[5] == 'N'));
-        uint64_t imm = static_cast<uint64_t>(instr->ImmMoveWide()) <<
-            (16 * instr->ShiftMoveWide());
-        if (format[5] == 'N')
-          imm = ~imm;
-        if (!instr->SixtyFourBits())
-          imm &= UINT64_C(0xffffffff);
-        AppendToOutput("#0x%" PRIx64, imm);
-      }
-      return 8;
-    }
-    case 'L': {
-      switch (format[2]) {
-        case 'L': {  // ILLiteral - Immediate Load Literal.
-          AppendToOutput("pc%+" PRId32,
-                         instr->ImmLLiteral() << kLiteralEntrySizeLog2);
-          return 9;
-        }
-        case 'S': {  // ILS - Immediate Load/Store.
-          if (instr->ImmLS() != 0) {
-            AppendToOutput(", #%" PRId32, instr->ImmLS());
-          }
-          return 3;
-        }
-        case 'P': {  // ILPx - Immediate Load/Store Pair, x = access size.
-          if (instr->ImmLSPair() != 0) {
-            // format[3] is the scale value. Convert to a number.
-            int scale = 1 << (format[3] - '0');
-            AppendToOutput(", #%" PRId32, instr->ImmLSPair() * scale);
-          }
-          return 4;
-        }
-        case 'U': {  // ILU - Immediate Load/Store Unsigned.
-          if (instr->ImmLSUnsigned() != 0) {
-            int shift = instr->SizeLS();
-            AppendToOutput(", #%" PRId32, instr->ImmLSUnsigned() << shift);
-          }
-          return 3;
-        }
-      }
-    }
-    case 'C': {  // ICondB - Immediate Conditional Branch.
-      int64_t offset = instr->ImmCondBranch() << 2;
-      AppendPCRelativeOffsetToOutput(instr, offset);
-      return 6;
-    }
-    case 'A': {  // IAddSub.
-      VIXL_ASSERT(instr->ShiftAddSub() <= 1);
-      int64_t imm = instr->ImmAddSub() << (12 * instr->ShiftAddSub());
-      AppendToOutput("#0x%" PRIx64 " (%" PRId64 ")", imm, imm);
-      return 7;
-    }
-    case 'F': {  // IFPSingle, IFPDouble or IFPFBits.
-      if (format[3] == 'F') {  // IFPFbits.
-        AppendToOutput("#%" PRId32, 64 - instr->FPScale());
-        return 8;
-      } else {
-        AppendToOutput("#0x%" PRIx32 " (%.4f)", instr->ImmFP(),
-                       format[3] == 'S' ? instr->ImmFP32() : instr->ImmFP64());
-        return 9;
-      }
-    }
-    case 'T': {  // ITri - Immediate Triangular Encoded.
-      AppendToOutput("#0x%" PRIx64, instr->ImmLogical());
-      return 4;
-    }
-    case 'N': {  // INzcv.
-      int nzcv = (instr->Nzcv() << Flags_offset);
-      AppendToOutput("#%c%c%c%c", ((nzcv & NFlag) == 0) ? 'n' : 'N',
-                                  ((nzcv & ZFlag) == 0) ? 'z' : 'Z',
-                                  ((nzcv & CFlag) == 0) ? 'c' : 'C',
-                                  ((nzcv & VFlag) == 0) ? 'v' : 'V');
-      return 5;
-    }
-    case 'P': {  // IP - Conditional compare.
-      AppendToOutput("#%" PRId32, instr->ImmCondCmp());
-      return 2;
-    }
-    case 'B': {  // Bitfields.
-      return SubstituteBitfieldImmediateField(instr, format);
-    }
-    case 'E': {  // IExtract.
-      AppendToOutput("#%" PRId32, instr->ImmS());
-      return 8;
-    }
-    case 'S': {  // IS - Test and branch bit.
-      AppendToOutput("#%" PRId32, (instr->ImmTestBranchBit5() << 5) |
-                                  instr->ImmTestBranchBit40());
-      return 2;
-    }
-    case 's': {  // Is - Shift (immediate).
-      switch (format[2]) {
-        case '1': {  // Is1 - SSHR.
-          int shift = 16 << HighestSetBitPosition(instr->ImmNEONImmh());
-          shift -= instr->ImmNEONImmhImmb();
-          AppendToOutput("#%d", shift);
-          return 3;
-        }
-        case '2': {  // Is2 - SLI.
-          int shift = instr->ImmNEONImmhImmb();
-          shift -= 8 << HighestSetBitPosition(instr->ImmNEONImmh());
-          AppendToOutput("#%d", shift);
-          return 3;
-        }
-        default: {
-          VIXL_UNIMPLEMENTED();
-          return 0;
-        }
-      }
-    }
-    case 'D': {  // IDebug - HLT and BRK instructions.
-      AppendToOutput("#0x%" PRIx32, instr->ImmException());
-      return 6;
-    }
-    case 'V': {  // Immediate Vector.
-      switch (format[2]) {
-        case 'E': {  // IVExtract.
-          AppendToOutput("#%" PRId32, instr->ImmNEONExt());
-          return 9;
-        }
-        case 'B': {  // IVByElemIndex.
-          int vm_index = (instr->NEONH() << 1) | instr->NEONL();
-          if (instr->NEONSize() == 1) {
-            vm_index = (vm_index << 1) | instr->NEONM();
-          }
-          AppendToOutput("%d", vm_index);
-          return strlen("IVByElemIndex");
-        }
-        case 'I': {  // INS element.
-          if (strncmp(format, "IVInsIndex", strlen("IVInsIndex")) == 0) {
-            int rd_index, rn_index;
-            int imm5 = instr->ImmNEON5();
-            int imm4 = instr->ImmNEON4();
-            int tz = CountTrailingZeros(imm5, 32);
-            rd_index = imm5 >> (tz + 1);
-            rn_index = imm4 >> tz;
-            if (strncmp(format, "IVInsIndex1", strlen("IVInsIndex1")) == 0) {
-              AppendToOutput("%d", rd_index);
-              return strlen("IVInsIndex1");
-            } else if (strncmp(format, "IVInsIndex2",
-                       strlen("IVInsIndex2")) == 0) {
-              AppendToOutput("%d", rn_index);
-              return strlen("IVInsIndex2");
-            } else {
-              VIXL_UNIMPLEMENTED();
-              return 0;
-            }
-          }
-          VIXL_FALLTHROUGH();
-        }
-        case 'L': {  // IVLSLane[0123] - suffix indicates access size shift.
-          AppendToOutput("%d", instr->NEONLSIndex(format[8] - '0'));
-          return 9;
-        }
-        case 'M': {  // Modified Immediate cases.
-          if (strncmp(format,
-                      "IVMIImmFPSingle",
-                      strlen("IVMIImmFPSingle")) == 0) {
-            AppendToOutput("#0x%" PRIx32 " (%.4f)", instr->ImmNEONabcdefgh(),
-                           instr->ImmNEONFP32());
-            return strlen("IVMIImmFPSingle");
-          } else if (strncmp(format,
-                             "IVMIImmFPDouble",
-                             strlen("IVMIImmFPDouble")) == 0) {
-            AppendToOutput("#0x%" PRIx32 " (%.4f)", instr->ImmNEONabcdefgh(),
-                           instr->ImmNEONFP64());
-            return strlen("IVMIImmFPDouble");
-          } else if (strncmp(format, "IVMIImm8", strlen("IVMIImm8")) == 0) {
-            uint64_t imm8 = instr->ImmNEONabcdefgh();
-            AppendToOutput("#0x%" PRIx64, imm8);
-            return strlen("IVMIImm8");
-          } else if (strncmp(format, "IVMIImm", strlen("IVMIImm")) == 0) {
-            uint64_t imm8 = instr->ImmNEONabcdefgh();
-            uint64_t imm = 0;
-            for (int i = 0; i < 8; ++i) {
-              if (imm8 & (1 << i)) {
-                imm |= (UINT64_C(0xff) << (8 * i));
-              }
-            }
-            AppendToOutput("#0x%" PRIx64, imm);
-            return strlen("IVMIImm");
-          } else if (strncmp(format, "IVMIShiftAmt1",
-                             strlen("IVMIShiftAmt1")) == 0) {
-            int cmode = instr->NEONCmode();
-            int shift_amount = 8 * ((cmode >> 1) & 3);
-            AppendToOutput("#%d", shift_amount);
-            return strlen("IVMIShiftAmt1");
-          } else if (strncmp(format, "IVMIShiftAmt2",
-                             strlen("IVMIShiftAmt2")) == 0) {
-            int cmode = instr->NEONCmode();
-            int shift_amount = 8 << (cmode & 1);
-            AppendToOutput("#%d", shift_amount);
-            return strlen("IVMIShiftAmt2");
-          } else {
-            VIXL_UNIMPLEMENTED();
-            return 0;
-          }
-        }
-        default: {
-          VIXL_UNIMPLEMENTED();
-          return 0;
-        }
-      }
-    }
-    case 'X': {  // IX - CLREX instruction.
-      AppendToOutput("#0x%" PRIx32, instr->CRm());
-      return 2;
-    }
-    default: {
-      VIXL_UNIMPLEMENTED();
-      return 0;
-    }
-  }
-}
-
-
-int Disassembler::SubstituteBitfieldImmediateField(const Instruction* instr,
-                                                   const char* format) {
-  VIXL_ASSERT((format[0] == 'I') && (format[1] == 'B'));
-  unsigned r = instr->ImmR();
-  unsigned s = instr->ImmS();
-
-  switch (format[2]) {
-    case 'r': {  // IBr.
-      AppendToOutput("#%d", r);
-      return 3;
-    }
-    case 's': {  // IBs+1 or IBs-r+1.
-      if (format[3] == '+') {
-        AppendToOutput("#%d", s + 1);
-        return 5;
-      } else {
-        VIXL_ASSERT(format[3] == '-');
-        AppendToOutput("#%d", s - r + 1);
-        return 7;
-      }
-    }
-    case 'Z': {  // IBZ-r.
-      VIXL_ASSERT((format[3] == '-') && (format[4] == 'r'));
-      unsigned reg_size = (instr->SixtyFourBits() == 1) ? kXRegSize : kWRegSize;
-      AppendToOutput("#%d", reg_size - r);
-      return 5;
-    }
-    default: {
-      VIXL_UNREACHABLE();
-      return 0;
-    }
-  }
-}
-
-
-int Disassembler::SubstituteLiteralField(const Instruction* instr,
-                                         const char* format) {
-  VIXL_ASSERT(strncmp(format, "LValue", 6) == 0);
-  USE(format);
-
-  const void * address = instr->LiteralAddress<const void *>();
-  switch (instr->Mask(LoadLiteralMask)) {
-    case LDR_w_lit:
-    case LDR_x_lit:
-    case LDRSW_x_lit:
-    case LDR_s_lit:
-    case LDR_d_lit:
-    case LDR_q_lit:
-      AppendCodeRelativeDataAddressToOutput(instr, address);
-      break;
-    case PRFM_lit: {
-      // Use the prefetch hint to decide how to print the address.
-      switch (instr->PrefetchHint()) {
-        case 0x0:     // PLD: prefetch for load.
-        case 0x2:     // PST: prepare for store.
-          AppendCodeRelativeDataAddressToOutput(instr, address);
-          break;
-        case 0x1:     // PLI: preload instructions.
-          AppendCodeRelativeCodeAddressToOutput(instr, address);
-          break;
-        case 0x3:     // Unallocated hint.
-          AppendCodeRelativeAddressToOutput(instr, address);
-          break;
-      }
-      break;
-    }
-    default:
-      VIXL_UNREACHABLE();
-  }
-
-  return 6;
-}
-
-
-int Disassembler::SubstituteShiftField(const Instruction* instr,
-                                       const char* format) {
-  VIXL_ASSERT(format[0] == 'N');
-  VIXL_ASSERT(instr->ShiftDP() <= 0x3);
-
-  switch (format[1]) {
-    case 'D': {  // HDP.
-      VIXL_ASSERT(instr->ShiftDP() != ROR);
-      VIXL_FALLTHROUGH();
-    }
-    case 'L': {  // HLo.
-      if (instr->ImmDPShift() != 0) {
-        const char* shift_type[] = {"lsl", "lsr", "asr", "ror"};
-        AppendToOutput(", %s #%" PRId32, shift_type[instr->ShiftDP()],
-                       instr->ImmDPShift());
-      }
-      return 3;
-    }
-    default:
-      VIXL_UNIMPLEMENTED();
-      return 0;
-  }
-}
-
-
-int Disassembler::SubstituteConditionField(const Instruction* instr,
-                                           const char* format) {
-  VIXL_ASSERT(format[0] == 'C');
-  const char* condition_code[] = { "eq", "ne", "hs", "lo",
-                                   "mi", "pl", "vs", "vc",
-                                   "hi", "ls", "ge", "lt",
-                                   "gt", "le", "al", "nv" };
-  int cond;
-  switch (format[1]) {
-    case 'B': cond = instr->ConditionBranch(); break;
-    case 'I': {
-      cond = InvertCondition(static_cast<Condition>(instr->Condition()));
-      break;
-    }
-    default: cond = instr->Condition();
-  }
-  AppendToOutput("%s", condition_code[cond]);
-  return 4;
-}
-
-
-int Disassembler::SubstitutePCRelAddressField(const Instruction* instr,
-                                              const char* format) {
-  VIXL_ASSERT((strcmp(format, "AddrPCRelByte") == 0) ||   // Used by `adr`.
-              (strcmp(format, "AddrPCRelPage") == 0));    // Used by `adrp`.
-
-  int64_t offset = instr->ImmPCRel();
-
-  // Compute the target address based on the effective address (after applying
-  // code_address_offset). This is required for correct behaviour of adrp.
-  const Instruction* base = instr + code_address_offset();
-  if (format[9] == 'P') {
-    offset *= kPageSize;
-    base = AlignDown(base, kPageSize);
-  }
-  // Strip code_address_offset before printing, so we can use the
-  // semantically-correct AppendCodeRelativeAddressToOutput.
-  const void* target =
-      reinterpret_cast<const void*>(base + offset - code_address_offset());
-
-  AppendPCRelativeOffsetToOutput(instr, offset);
-  AppendToOutput(" ");
-  AppendCodeRelativeAddressToOutput(instr, target);
-  return 13;
-}
-
-
-int Disassembler::SubstituteBranchTargetField(const Instruction* instr,
-                                              const char* format) {
-  VIXL_ASSERT(strncmp(format, "TImm", 4) == 0);
-
-  int64_t offset = 0;
-  switch (format[5]) {
-    // BImmUncn - unconditional branch immediate.
-    case 'n': offset = instr->ImmUncondBranch(); break;
-    // BImmCond - conditional branch immediate.
-    case 'o': offset = instr->ImmCondBranch(); break;
-    // BImmCmpa - compare and branch immediate.
-    case 'm': offset = instr->ImmCmpBranch(); break;
-    // BImmTest - test and branch immediate.
-    case 'e': offset = instr->ImmTestBranch(); break;
-    default: VIXL_UNIMPLEMENTED();
-  }
-  offset <<= kInstructionSizeLog2;
-  const void* target_address = reinterpret_cast<const void*>(instr + offset);
-  VIXL_STATIC_ASSERT(sizeof(*instr) == 1);
-
-  AppendPCRelativeOffsetToOutput(instr, offset);
-  AppendToOutput(" ");
-  AppendCodeRelativeCodeAddressToOutput(instr, target_address);
-
-  return 8;
-}
-
-
-int Disassembler::SubstituteExtendField(const Instruction* instr,
-                                        const char* format) {
-  VIXL_ASSERT(strncmp(format, "Ext", 3) == 0);
-  VIXL_ASSERT(instr->ExtendMode() <= 7);
-  USE(format);
-
-  const char* extend_mode[] = { "uxtb", "uxth", "uxtw", "uxtx",
-                                "sxtb", "sxth", "sxtw", "sxtx" };
-
-  // If rd or rn is SP, uxtw on 32-bit registers and uxtx on 64-bit
-  // registers becomes lsl.
-  if (((instr->Rd() == kZeroRegCode) || (instr->Rn() == kZeroRegCode)) &&
-      (((instr->ExtendMode() == UXTW) && (instr->SixtyFourBits() == 0)) ||
-       (instr->ExtendMode() == UXTX))) {
-    if (instr->ImmExtendShift() > 0) {
-      AppendToOutput(", lsl #%" PRId32, instr->ImmExtendShift());
-    }
-  } else {
-    AppendToOutput(", %s", extend_mode[instr->ExtendMode()]);
-    if (instr->ImmExtendShift() > 0) {
-      AppendToOutput(" #%" PRId32, instr->ImmExtendShift());
-    }
-  }
-  return 3;
-}
-
-
-int Disassembler::SubstituteLSRegOffsetField(const Instruction* instr,
-                                             const char* format) {
-  VIXL_ASSERT(strncmp(format, "Offsetreg", 9) == 0);
-  const char* extend_mode[] = { "undefined", "undefined", "uxtw", "lsl",
-                                "undefined", "undefined", "sxtw", "sxtx" };
-  USE(format);
-
-  unsigned shift = instr->ImmShiftLS();
-  Extend ext = static_cast<Extend>(instr->ExtendMode());
-  char reg_type = ((ext == UXTW) || (ext == SXTW)) ? 'w' : 'x';
-
-  unsigned rm = instr->Rm();
-  if (rm == kZeroRegCode) {
-    AppendToOutput("%czr", reg_type);
-  } else {
-    AppendToOutput("%c%d", reg_type, rm);
-  }
-
-  // Extend mode UXTX is an alias for shift mode LSL here.
-  if (!((ext == UXTX) && (shift == 0))) {
-    AppendToOutput(", %s", extend_mode[ext]);
-    if (shift != 0) {
-      AppendToOutput(" #%d", instr->SizeLS());
-    }
-  }
-  return 9;
-}
-
-
-int Disassembler::SubstitutePrefetchField(const Instruction* instr,
-                                          const char* format) {
-  VIXL_ASSERT(format[0] == 'P');
-  USE(format);
-
-  static const char* hints[] = {"ld", "li", "st"};
-  static const char* stream_options[] = {"keep", "strm"};
-
-  unsigned hint = instr->PrefetchHint();
-  unsigned target = instr->PrefetchTarget() + 1;
-  unsigned stream = instr->PrefetchStream();
-
-  if ((hint >= (sizeof(hints) / sizeof(hints[0]))) || (target > 3)) {
-    // Unallocated prefetch operations.
-    int prefetch_mode = instr->ImmPrefetchOperation();
-    AppendToOutput("#0b%c%c%c%c%c",
-                   (prefetch_mode & (1 << 4)) ? '1' : '0',
-                   (prefetch_mode & (1 << 3)) ? '1' : '0',
-                   (prefetch_mode & (1 << 2)) ? '1' : '0',
-                   (prefetch_mode & (1 << 1)) ? '1' : '0',
-                   (prefetch_mode & (1 << 0)) ? '1' : '0');
-  } else {
-    VIXL_ASSERT(stream < (sizeof(stream_options) / sizeof(stream_options[0])));
-    AppendToOutput("p%sl%d%s", hints[hint], target, stream_options[stream]);
-  }
-  return 6;
-}
-
-int Disassembler::SubstituteBarrierField(const Instruction* instr,
-                                         const char* format) {
-  VIXL_ASSERT(format[0] == 'M');
-  USE(format);
-
-  static const char* options[4][4] = {
-    { "sy (0b0000)", "oshld", "oshst", "osh" },
-    { "sy (0b0100)", "nshld", "nshst", "nsh" },
-    { "sy (0b1000)", "ishld", "ishst", "ish" },
-    { "sy (0b1100)", "ld", "st", "sy" }
-  };
-  int domain = instr->ImmBarrierDomain();
-  int type = instr->ImmBarrierType();
-
-  AppendToOutput("%s", options[domain][type]);
-  return 1;
-}
-
-int Disassembler::SubstituteSysOpField(const Instruction* instr,
-                                       const char* format) {
-  VIXL_ASSERT(format[0] == 'G');
-  int op = -1;
-  switch (format[1]) {
-    case '1': op = instr->SysOp1(); break;
-    case '2': op = instr->SysOp2(); break;
-    default:
-      VIXL_UNREACHABLE();
-  }
-  AppendToOutput("#%d", op);
-  return 2;
-}
-
-int Disassembler::SubstituteCrField(const Instruction* instr,
-                                    const char* format) {
-  VIXL_ASSERT(format[0] == 'K');
-  int cr = -1;
-  switch (format[1]) {
-    case 'n': cr = instr->CRn(); break;
-    case 'm': cr = instr->CRm(); break;
-    default:
-      VIXL_UNREACHABLE();
-  }
-  AppendToOutput("C%d", cr);
-  return 2;
-}
-
-void Disassembler::ResetOutput() {
-  buffer_pos_ = 0;
-  buffer_[buffer_pos_] = 0;
-}
-
-
-void Disassembler::AppendToOutput(const char* format, ...) {
-  va_list args;
-  va_start(args, format);
-  buffer_pos_ += vsnprintf(&buffer_[buffer_pos_], buffer_size_ - buffer_pos_,
-          format, args);
-  va_end(args);
-}
-
-
-void PrintDisassembler::ProcessOutput(const Instruction* instr) {
-  fprintf(stream_, "0x%016" PRIx64 "  %08" PRIx32 "\t\t%s\n",
-          reinterpret_cast<uint64_t>(instr),
-          instr->InstructionBits(),
-          GetOutput());
-}
-
-}  // namespace vixl