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/* Disassembler for the PA-RISC. Somewhat derived from sparc-pinsn.c.
   Copyright 1989, 1990, 1992, 1993, 1994, 1995, 1998, 1999, 2000, 2001, 2003,
   2005 Free Software Foundation, Inc.

   Contributed by the Center for Software Science at the
   University of Utah (pa-gdb-bugs@cs.utah.edu).

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 2 of the License, or
   (at your option) any later version.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, see <http://www.gnu.org/licenses/>. */

#include "qemu/osdep.h"
#include "disas/dis-asm.h"

/* HP PA-RISC SOM object file format:  definitions internal to BFD.
   Copyright 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1998, 1999, 2000,
   2003 Free Software Foundation, Inc.

   Contributed by the Center for Software Science at the
   University of Utah (pa-gdb-bugs@cs.utah.edu).

   This file is part of BFD, the Binary File Descriptor library.

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 2 of the License, or
   (at your option) any later version.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, see <http://www.gnu.org/licenses/>.  */

#ifndef _LIBHPPA_H
#define _LIBHPPA_H

#define BYTES_IN_WORD 4
#define PA_PAGESIZE 0x1000

/* The PA instruction set variants.  */
enum pa_arch {pa10 = 10, pa11 = 11, pa20 = 20, pa20w = 25};

/* HP PA-RISC relocation types */

enum hppa_reloc_field_selector_type
  {
    R_HPPA_FSEL = 0x0,
    R_HPPA_LSSEL = 0x1,
    R_HPPA_RSSEL = 0x2,
    R_HPPA_LSEL = 0x3,
    R_HPPA_RSEL = 0x4,
    R_HPPA_LDSEL = 0x5,
    R_HPPA_RDSEL = 0x6,
    R_HPPA_LRSEL = 0x7,
    R_HPPA_RRSEL = 0x8,
    R_HPPA_NSEL  = 0x9,
    R_HPPA_NLSEL  = 0xa,
    R_HPPA_NLRSEL  = 0xb,
    R_HPPA_PSEL = 0xc,
    R_HPPA_LPSEL = 0xd,
    R_HPPA_RPSEL = 0xe,
    R_HPPA_TSEL = 0xf,
    R_HPPA_LTSEL = 0x10,
    R_HPPA_RTSEL = 0x11,
    R_HPPA_LTPSEL = 0x12,
    R_HPPA_RTPSEL = 0x13
  };

/* /usr/include/reloc.h defines these to constants.  We want to use
   them in enums, so #undef them before we start using them.  We might
   be able to fix this another way by simply managing not to include
   /usr/include/reloc.h, but currently GDB picks up these defines
   somewhere.  */
#undef e_fsel
#undef e_lssel
#undef e_rssel
#undef e_lsel
#undef e_rsel
#undef e_ldsel
#undef e_rdsel
#undef e_lrsel
#undef e_rrsel
#undef e_nsel
#undef e_nlsel
#undef e_nlrsel
#undef e_psel
#undef e_lpsel
#undef e_rpsel
#undef e_tsel
#undef e_ltsel
#undef e_rtsel
#undef e_one
#undef e_two
#undef e_pcrel
#undef e_con
#undef e_plabel
#undef e_abs

/* for compatibility */
enum hppa_reloc_field_selector_type_alt
  {
    e_fsel = R_HPPA_FSEL,
    e_lssel = R_HPPA_LSSEL,
    e_rssel = R_HPPA_RSSEL,
    e_lsel = R_HPPA_LSEL,
    e_rsel = R_HPPA_RSEL,
    e_ldsel = R_HPPA_LDSEL,
    e_rdsel = R_HPPA_RDSEL,
    e_lrsel = R_HPPA_LRSEL,
    e_rrsel = R_HPPA_RRSEL,
    e_nsel = R_HPPA_NSEL,
    e_nlsel = R_HPPA_NLSEL,
    e_nlrsel = R_HPPA_NLRSEL,
    e_psel = R_HPPA_PSEL,
    e_lpsel = R_HPPA_LPSEL,
    e_rpsel = R_HPPA_RPSEL,
    e_tsel = R_HPPA_TSEL,
    e_ltsel = R_HPPA_LTSEL,
    e_rtsel = R_HPPA_RTSEL,
    e_ltpsel = R_HPPA_LTPSEL,
    e_rtpsel = R_HPPA_RTPSEL
  };

enum hppa_reloc_expr_type
  {
    R_HPPA_E_ONE = 0,
    R_HPPA_E_TWO = 1,
    R_HPPA_E_PCREL = 2,
    R_HPPA_E_CON = 3,
    R_HPPA_E_PLABEL = 7,
    R_HPPA_E_ABS = 18
  };

/* for compatibility */
enum hppa_reloc_expr_type_alt
  {
    e_one = R_HPPA_E_ONE,
    e_two = R_HPPA_E_TWO,
    e_pcrel = R_HPPA_E_PCREL,
    e_con = R_HPPA_E_CON,
    e_plabel = R_HPPA_E_PLABEL,
    e_abs = R_HPPA_E_ABS
  };


/* Relocations for function calls must be accompanied by parameter
   relocation bits.  These bits describe exactly where the caller has
   placed the function's arguments and where it expects to find a return
   value.

   Both ELF and SOM encode this information within the addend field
   of the call relocation.  (Note this could break very badly if one
   was to make a call like bl foo + 0x12345678).

   The high order 10 bits contain parameter relocation information,
   the low order 22 bits contain the constant offset.  */

#define HPPA_R_ARG_RELOC(a)	\
  (((a) >> 22) & 0x3ff)
#define HPPA_R_CONSTANT(a)	\
  ((((bfd_signed_vma)(a)) << (BFD_ARCH_SIZE-22)) >> (BFD_ARCH_SIZE-22))
#define HPPA_R_ADDEND(r, c)	\
  (((r) << 22) + ((c) & 0x3fffff))


/* Some functions to manipulate PA instructions.  */

/* Declare the functions with the unused attribute to avoid warnings.  */
static inline int sign_extend (int, int) ATTRIBUTE_UNUSED;
static inline int low_sign_extend (int, int) ATTRIBUTE_UNUSED;
static inline int sign_unext (int, int) ATTRIBUTE_UNUSED;
static inline int low_sign_unext (int, int) ATTRIBUTE_UNUSED;
static inline int re_assemble_3 (int) ATTRIBUTE_UNUSED;
static inline int re_assemble_12 (int) ATTRIBUTE_UNUSED;
static inline int re_assemble_14 (int) ATTRIBUTE_UNUSED;
static inline int re_assemble_16 (int) ATTRIBUTE_UNUSED;
static inline int re_assemble_17 (int) ATTRIBUTE_UNUSED;
static inline int re_assemble_21 (int) ATTRIBUTE_UNUSED;
static inline int re_assemble_22 (int) ATTRIBUTE_UNUSED;
static inline bfd_signed_vma hppa_field_adjust
  (bfd_vma, bfd_signed_vma, enum hppa_reloc_field_selector_type_alt)
  ATTRIBUTE_UNUSED;
static inline int hppa_rebuild_insn (int, int, int) ATTRIBUTE_UNUSED;


/* The *sign_extend functions are used to assemble various bitfields
   taken from an instruction and return the resulting immediate
   value.  */

static inline int
sign_extend (int x, int len)
{
  int signbit = (1 << (len - 1));
  int mask = (signbit << 1) - 1;
  return ((x & mask) ^ signbit) - signbit;
}

static inline int
low_sign_extend (int x, int len)
{
  return (x >> 1) - ((x & 1) << (len - 1));
}


/* The re_assemble_* functions prepare an immediate value for
   insertion into an opcode. pa-risc uses all sorts of weird bitfields
   in the instruction to hold the value.  */

static inline int
sign_unext (int x, int len)
{
  int len_ones;

  len_ones = (1 << len) - 1;

  return x & len_ones;
}

static inline int
low_sign_unext (int x, int len)
{
  int temp;
  int sign;

  sign = (x >> (len-1)) & 1;

  temp = sign_unext (x, len-1);

  return (temp << 1) | sign;
}

static inline int
re_assemble_3 (int as3)
{
  return ((  (as3 & 4) << (13-2))
	  | ((as3 & 3) << (13+1)));
}

static inline int
re_assemble_12 (int as12)
{
  return ((  (as12 & 0x800) >> 11)
	  | ((as12 & 0x400) >> (10 - 2))
	  | ((as12 & 0x3ff) << (1 + 2)));
}

static inline int
re_assemble_14 (int as14)
{
  return ((  (as14 & 0x1fff) << 1)
	  | ((as14 & 0x2000) >> 13));
}

static inline int
re_assemble_16 (int as16)
{
  int s, t;

  /* Unusual 16-bit encoding, for wide mode only.  */
  t = (as16 << 1) & 0xffff;
  s = (as16 & 0x8000);
  return (t ^ s ^ (s >> 1)) | (s >> 15);
}

static inline int
re_assemble_17 (int as17)
{
  return ((  (as17 & 0x10000) >> 16)
	  | ((as17 & 0x0f800) << (16 - 11))
	  | ((as17 & 0x00400) >> (10 - 2))
	  | ((as17 & 0x003ff) << (1 + 2)));
}

static inline int
re_assemble_21 (int as21)
{
  return ((  (as21 & 0x100000) >> 20)
	  | ((as21 & 0x0ffe00) >> 8)
	  | ((as21 & 0x000180) << 7)
	  | ((as21 & 0x00007c) << 14)
	  | ((as21 & 0x000003) << 12));
}

static inline int
re_assemble_22 (int as22)
{
  return ((  (as22 & 0x200000) >> 21)
	  | ((as22 & 0x1f0000) << (21 - 16))
	  | ((as22 & 0x00f800) << (16 - 11))
	  | ((as22 & 0x000400) >> (10 - 2))
	  | ((as22 & 0x0003ff) << (1 + 2)));
}


/* Handle field selectors for PA instructions.
   The L and R (and LS, RS etc.) selectors are used in pairs to form a
   full 32 bit address.  eg.

   LDIL	L'start,%r1		; put left part into r1
   LDW	R'start(%r1),%r2	; add r1 and right part to form address

   This function returns sign extended values in all cases.
*/

static inline bfd_signed_vma
hppa_field_adjust (bfd_vma sym_val,
		   bfd_signed_vma addend,
		   enum hppa_reloc_field_selector_type_alt r_field)
{
  bfd_signed_vma value;

  value = sym_val + addend;
  switch (r_field)
    {
    case e_fsel:
      /* F: No change.  */
      break;

    case e_nsel:
      /* N: null selector.  I don't really understand what this is all
	 about, but HP's documentation says "this indicates that zero
	 bits are to be used for the displacement on the instruction.
	 This fixup is used to identify three-instruction sequences to
	 access data (for importing shared library data)."  */
      value = 0;
      break;

    case e_lsel:
    case e_nlsel:
      /* L:  Select top 21 bits.  */
      value = value >> 11;
      break;

    case e_rsel:
      /* R:  Select bottom 11 bits.  */
      value = value & 0x7ff;
      break;

    case e_lssel:
      /* LS:  Round to nearest multiple of 2048 then select top 21 bits.  */
      value = value + 0x400;
      value = value >> 11;
      break;

    case e_rssel:
      /* RS:  Select bottom 11 bits for LS.
	 We need to return a value such that 2048 * LS'x + RS'x == x.
	 ie. RS'x = x - ((x + 0x400) & -0x800)
	 this is just a sign extension from bit 21.  */
      value = ((value & 0x7ff) ^ 0x400) - 0x400;
      break;

    case e_ldsel:
      /* LD:  Round to next multiple of 2048 then select top 21 bits.
	 Yes, if we are already on a multiple of 2048, we go up to the
	 next one.  RD in this case will be -2048.  */
      value = value + 0x800;
      value = value >> 11;
      break;

    case e_rdsel:
      /* RD:  Set bits 0-20 to one.  */
      value = value | -0x800;
      break;

    case e_lrsel:
    case e_nlrsel:
      /* LR:  L with rounding of the addend to nearest 8k.  */
      value = sym_val + ((addend + 0x1000) & -0x2000);
      value = value >> 11;
      break;

    case e_rrsel:
      /* RR:  R with rounding of the addend to nearest 8k.
	 We need to return a value such that 2048 * LR'x + RR'x == x
	 ie. RR'x = s+a - (s + (((a + 0x1000) & -0x2000) & -0x800))
	 .	  = s+a - ((s & -0x800) + ((a + 0x1000) & -0x2000))
	 .	  = (s & 0x7ff) + a - ((a + 0x1000) & -0x2000)  */
      value = (sym_val & 0x7ff) + (((addend & 0x1fff) ^ 0x1000) - 0x1000);
      break;

    default:
      abort ();
    }
  return value;
}

/* PA-RISC OPCODES */
#define get_opcode(insn)	(((insn) >> 26) & 0x3f)

enum hppa_opcode_type
{
  /* None of the opcodes in the first group generate relocs, so we
     aren't too concerned about them.  */
  OP_SYSOP   = 0x00,
  OP_MEMMNG  = 0x01,
  OP_ALU     = 0x02,
  OP_NDXMEM  = 0x03,
  OP_SPOP    = 0x04,
  OP_DIAG    = 0x05,
  OP_FMPYADD = 0x06,
  OP_UNDEF07 = 0x07,
  OP_COPRW   = 0x09,
  OP_COPRDW  = 0x0b,
  OP_COPR    = 0x0c,
  OP_FLOAT   = 0x0e,
  OP_PRDSPEC = 0x0f,
  OP_UNDEF15 = 0x15,
  OP_UNDEF1d = 0x1d,
  OP_FMPYSUB = 0x26,
  OP_FPFUSED = 0x2e,
  OP_SHEXDP0 = 0x34,
  OP_SHEXDP1 = 0x35,
  OP_SHEXDP2 = 0x36,
  OP_UNDEF37 = 0x37,
  OP_SHEXDP3 = 0x3c,
  OP_SHEXDP4 = 0x3d,
  OP_MULTMED = 0x3e,
  OP_UNDEF3f = 0x3f,

  OP_LDIL    = 0x08,
  OP_ADDIL   = 0x0a,

  OP_LDO     = 0x0d,
  OP_LDB     = 0x10,
  OP_LDH     = 0x11,
  OP_LDW     = 0x12,
  OP_LDWM    = 0x13,
  OP_STB     = 0x18,
  OP_STH     = 0x19,
  OP_STW     = 0x1a,
  OP_STWM    = 0x1b,

  OP_LDD     = 0x14,
  OP_STD     = 0x1c,

  OP_FLDW    = 0x16,
  OP_LDWL    = 0x17,
  OP_FSTW    = 0x1e,
  OP_STWL    = 0x1f,

  OP_COMBT   = 0x20,
  OP_COMIBT  = 0x21,
  OP_COMBF   = 0x22,
  OP_COMIBF  = 0x23,
  OP_CMPBDT  = 0x27,
  OP_ADDBT   = 0x28,
  OP_ADDIBT  = 0x29,
  OP_ADDBF   = 0x2a,
  OP_ADDIBF  = 0x2b,
  OP_CMPBDF  = 0x2f,
  OP_BVB     = 0x30,
  OP_BB      = 0x31,
  OP_MOVB    = 0x32,
  OP_MOVIB   = 0x33,
  OP_CMPIBD  = 0x3b,

  OP_COMICLR = 0x24,
  OP_SUBI    = 0x25,
  OP_ADDIT   = 0x2c,
  OP_ADDI    = 0x2d,

  OP_BE      = 0x38,
  OP_BLE     = 0x39,
  OP_BL      = 0x3a
};


/* Insert VALUE into INSN using R_FORMAT to determine exactly what
   bits to change.  */

static inline int
hppa_rebuild_insn (int insn, int value, int r_format)
{
  switch (r_format)
    {
    case 11:
      return (insn & ~ 0x7ff) | low_sign_unext (value, 11);

    case 12:
      return (insn & ~ 0x1ffd) | re_assemble_12 (value);


    case 10:
      return (insn & ~ 0x3ff1) | re_assemble_14 (value & -8);

    case -11:
      return (insn & ~ 0x3ff9) | re_assemble_14 (value & -4);

    case 14:
      return (insn & ~ 0x3fff) | re_assemble_14 (value);


    case -10:
      return (insn & ~ 0xfff1) | re_assemble_16 (value & -8);

    case -16:
      return (insn & ~ 0xfff9) | re_assemble_16 (value & -4);

    case 16:
      return (insn & ~ 0xffff) | re_assemble_16 (value);


    case 17:
      return (insn & ~ 0x1f1ffd) | re_assemble_17 (value);

    case 21:
      return (insn & ~ 0x1fffff) | re_assemble_21 (value);

    case 22:
      return (insn & ~ 0x3ff1ffd) | re_assemble_22 (value);

    case 32:
      return value;

    default:
      abort ();
    }
  return insn;
}

#endif /* _LIBHPPA_H */
/* Table of opcodes for the PA-RISC.
   Copyright 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1998, 1999, 2000,
   2001, 2002, 2003, 2004, 2005
   Free Software Foundation, Inc.

   Contributed by the Center for Software Science at the
   University of Utah (pa-gdb-bugs@cs.utah.edu).

This file is part of GAS, the GNU Assembler, and GDB, the GNU disassembler.

GAS/GDB is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 1, or (at your option)
any later version.

GAS/GDB is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with GAS or GDB; see the file COPYING.
If not, see <http://www.gnu.org/licenses/>. */

#if !defined(__STDC__) && !defined(const)
#define const
#endif

/*
 * Structure of an opcode table entry.
 */

/* There are two kinds of delay slot nullification: normal which is
 * controlled by the nullification bit, and conditional, which depends
 * on the direction of the branch and its success or failure.
 *
 * NONE is unfortunately #defined in the hiux system include files.
 * #undef it away.
 */
#undef NONE
struct pa_opcode
{
    const char *name;
    unsigned long int match;	/* Bits that must be set...  */
    unsigned long int mask;	/* ... in these bits. */
    const char *args;
    enum pa_arch arch;
    char flags;
};

/* Enables strict matching.  Opcodes with match errors are skipped
   when this bit is set.  */
#define FLAG_STRICT 0x1

/*
   All hppa opcodes are 32 bits.

   The match component is a mask saying which bits must match a
   particular opcode in order for an instruction to be an instance
   of that opcode.

   The args component is a string containing one character for each operand of
   the instruction.  Characters used as a prefix allow any second character to
   be used without conflicting with the main operand characters.

   Bit positions in this description follow HP usage of lsb = 31,
   "at" is lsb of field.

   In the args field, the following characters must match exactly:

	'+,() '

   In the args field, the following characters are unused:

	'  "         -  /   34 6789:;    '
	'@  C         M             [\]  '
	'`    e g                     }  '

   Here are all the characters:

	' !"#$%&'()*+-,./0123456789:;<=>?'
	'@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_'
	'`abcdefghijklmnopqrstuvwxyz{|}~ '

Kinds of operands:
   x    integer register field at 15.
   b    integer register field at 10.
   t    integer register field at 31.
   a	integer register field at 10 and 15 (for PERMH)
   5    5 bit immediate at 15.
   s    2 bit space specifier at 17.
   S    3 bit space specifier at 18.
   V    5 bit immediate value at 31
   i    11 bit immediate value at 31
   j    14 bit immediate value at 31
   k    21 bit immediate value at 31
   l    16 bit immediate value at 31 (wide mode only, unusual encoding).
   n	nullification for branch instructions
   N	nullification for spop and copr instructions
   w    12 bit branch displacement
   W    17 bit branch displacement (PC relative)
   X    22 bit branch displacement (PC relative)
   z    17 bit branch displacement (just a number, not an address)

Also these:

   .    2 bit shift amount at 25
   *    4 bit shift amount at 25
   p    5 bit shift count at 26 (to support the SHD instruction) encoded as
        31-p
   ~    6 bit shift count at 20,22:26 encoded as 63-~.
   P    5 bit bit position at 26
   q    6 bit bit position at 20,22:26
   T    5 bit field length at 31 (encoded as 32-T)
   %	6 bit field length at 23,27:31 (variable extract/deposit)
   |	6 bit field length at 19,27:31 (fixed extract/deposit)
   A    13 bit immediate at 18 (to support the BREAK instruction)
   ^	like b, but describes a control register
   !    sar (cr11) register
   D    26 bit immediate at 31 (to support the DIAG instruction)
   $    9 bit immediate at 28 (to support POPBTS)

   v    3 bit Special Function Unit identifier at 25
   O    20 bit Special Function Unit operation split between 15 bits at 20
        and 5 bits at 31
   o    15 bit Special Function Unit operation at 20
   2    22 bit Special Function Unit operation split between 17 bits at 20
        and 5 bits at 31
   1    15 bit Special Function Unit operation split between 10 bits at 20
        and 5 bits at 31
   0    10 bit Special Function Unit operation split between 5 bits at 20
        and 5 bits at 31
   u    3 bit coprocessor unit identifier at 25
   F    Source Floating Point Operand Format Completer encoded 2 bits at 20
   I    Source Floating Point Operand Format Completer encoded 1 bits at 20
	(for 0xe format FP instructions)
   G    Destination Floating Point Operand Format Completer encoded 2 bits at 18
   H    Floating Point Operand Format at 26 for 'fmpyadd' and 'fmpysub'
        (very similar to 'F')

   r	5 bit immediate value at 31 (for the break instruction)
	(very similar to V above, except the value is unsigned instead of
	low_sign_ext)
   R	5 bit immediate value at 15 (for the ssm, rsm, probei instructions)
	(same as r above, except the value is in a different location)
   U	10 bit immediate value at 15 (for SSM, RSM on pa2.0)
   Q	5 bit immediate value at 10 (a bit position specified in
	the bb instruction. It's the same as r above, except the
        value is in a different location)
   B	5 bit immediate value at 10 (a bit position specified in
	the bb instruction. Similar to Q, but 64 bit handling is
	different.
   Z    %r1 -- implicit target of addil instruction.
   L    ,%r2 completer for new syntax branch
   {    Source format completer for fcnv
   _    Destination format completer for fcnv
   h    cbit for fcmp
   =    gfx tests for ftest
   d    14 bit offset for single precision FP long load/store.
   #    14 bit offset for double precision FP load long/store.
   J    Yet another 14 bit offset for load/store with ma,mb completers.
   K    Yet another 14 bit offset for load/store with ma,mb completers.
   y    16 bit offset for word aligned load/store (PA2.0 wide).
   &    16 bit offset for dword aligned load/store (PA2.0 wide).
   <    16 bit offset for load/store with ma,mb completers (PA2.0 wide).
   >    16 bit offset for load/store with ma,mb completers (PA2.0 wide).
   Y    %sr0,%r31 -- implicit target of be,l instruction.
   @	implicit immediate value of 0

Completer operands all have 'c' as the prefix:

   cx   indexed load and store completer.
   cX   indexed load and store completer.  Like cx, but emits a space
	after in disassembler.
   cm   short load and store completer.
   cM   short load and store completer.  Like cm, but emits a space
        after in disassembler.
   cq   long load and store completer (like cm, but inserted into a
	different location in the target instruction).
   cs   store bytes short completer.
   cA   store bytes short completer.  Like cs, but emits a space
        after in disassembler.
   ce   long load/store completer for LDW/STW with a different encoding
	than the others
   cc   load cache control hint
   cd   load and clear cache control hint
   cC   store cache control hint
   co	ordered access

   cp	branch link and push completer
   cP	branch pop completer
   cl	branch link completer
   cg	branch gate completer

   cw	read/write completer for PROBE
   cW	wide completer for MFCTL
   cL	local processor completer for cache control
   cZ   System Control Completer (to support LPA, LHA, etc.)

   ci	correction completer for DCOR
   ca	add completer
   cy	32 bit add carry completer
   cY	64 bit add carry completer
   cv	signed overflow trap completer
   ct	trap on condition completer for ADDI, SUB
   cT	trap on condition completer for UADDCM
   cb	32 bit borrow completer for SUB
   cB	64 bit borrow completer for SUB

   ch	left/right half completer
   cH	signed/unsigned saturation completer
   cS	signed/unsigned completer at 21
   cz	zero/sign extension completer.
   c*	permutation completer

Condition operands all have '?' as the prefix:

   ?f   Floating point compare conditions (encoded as 5 bits at 31)

   ?a	add conditions
   ?A	64 bit add conditions
   ?@   add branch conditions followed by nullify
   ?d	non-negated add branch conditions
   ?D	negated add branch conditions
   ?w	wide mode non-negated add branch conditions
   ?W	wide mode negated add branch conditions

   ?s   compare/subtract conditions
   ?S	64 bit compare/subtract conditions
   ?t   non-negated compare and branch conditions
   ?n   32 bit compare and branch conditions followed by nullify
   ?N   64 bit compare and branch conditions followed by nullify
   ?Q	64 bit compare and branch conditions for CMPIB instruction

   ?l   logical conditions
   ?L	64 bit logical conditions

   ?b   branch on bit conditions
   ?B	64 bit branch on bit conditions

   ?x   shift/extract/deposit conditions
   ?X	64 bit shift/extract/deposit conditions
   ?y   shift/extract/deposit conditions followed by nullify for conditional
        branches

   ?u   unit conditions
   ?U   64 bit unit conditions

Floating point registers all have 'f' as a prefix:

   ft	target register at 31
   fT	target register with L/R halves at 31
   fa	operand 1 register at 10
   fA   operand 1 register with L/R halves at 10
   fX   Same as fA, except prints a space before register during disasm
   fb	operand 2 register at 15
   fB   operand 2 register with L/R halves at 15
   fC   operand 3 register with L/R halves at 16:18,21:23
   fe   Like fT, but encoding is different.
   fE   Same as fe, except prints a space before register during disasm.
   fx	target register at 15 (only for PA 2.0 long format FLDD/FSTD).

Float registers for fmpyadd and fmpysub:

   fi	mult operand 1 register at 10
   fj	mult operand 2 register at 15
   fk	mult target register at 20
   fl	add/sub operand register at 25
   fm	add/sub target register at 31

*/


#if 0
/* List of characters not to put a space after.  Note that
   "," is included, as the "spopN" operations use literal
   commas in their completer sections.  */
static const char *const completer_chars = ",CcY<>?!@+&U~FfGHINnOoZMadu|/=0123%e$m}";
#endif

/* The order of the opcodes in this table is significant:

   * The assembler requires that all instances of the same mnemonic be
     consecutive.  If they aren't, the assembler will bomb at runtime.

   * Immediate fields use pa_get_absolute_expression to parse the
     string.  It will generate a "bad expression" error if passed
     a register name.  Thus, register index variants of an opcode
     need to precede immediate variants.

   * The disassembler does not care about the order of the opcodes
     except in cases where implicit addressing is used.

   Here are the rules for ordering the opcodes of a mnemonic:

   1) Opcodes with FLAG_STRICT should precede opcodes without
      FLAG_STRICT.

   2) Opcodes with FLAG_STRICT should be ordered as follows:
      register index opcodes, short immediate opcodes, and finally
      long immediate opcodes.  When both pa10 and pa11 variants
      of the same opcode are available, the pa10 opcode should
      come first for correct architectural promotion.

   3) When implicit addressing is available for an opcode, the
      implicit opcode should precede the explicit opcode.

   4) Opcodes without FLAG_STRICT should be ordered as follows:
      register index opcodes, long immediate opcodes, and finally
      short immediate opcodes.  */

static const struct pa_opcode pa_opcodes[] =
{

/* Pseudo-instructions.  */

{ "ldi",	0x34000000, 0xffe00000, "l,x", pa20w, 0},/* ldo val(r0),r */
{ "ldi",	0x34000000, 0xffe0c000, "j,x", pa10, 0},/* ldo val(r0),r */

{ "cmpib",	0xec000000, 0xfc000000, "?Qn5,b,w", pa20, FLAG_STRICT},
{ "cmpib", 	0x84000000, 0xf4000000, "?nn5,b,w", pa10, FLAG_STRICT},
{ "comib", 	0x84000000, 0xfc000000, "?nn5,b,w", pa10, 0}, /* comib{tf}*/
/* This entry is for the disassembler only.  It will never be used by
   assembler.  */
{ "comib", 	0x8c000000, 0xfc000000, "?nn5,b,w", pa10, 0}, /* comib{tf}*/
{ "cmpb",	0x9c000000, 0xdc000000, "?Nnx,b,w", pa20, FLAG_STRICT},
{ "cmpb",	0x80000000, 0xf4000000, "?nnx,b,w", pa10, FLAG_STRICT},
{ "comb",	0x80000000, 0xfc000000, "?nnx,b,w", pa10, 0}, /* comb{tf} */
/* This entry is for the disassembler only.  It will never be used by
   assembler.  */
{ "comb",	0x88000000, 0xfc000000, "?nnx,b,w", pa10, 0}, /* comb{tf} */
{ "addb",	0xa0000000, 0xf4000000, "?Wnx,b,w", pa20w, FLAG_STRICT},
{ "addb",	0xa0000000, 0xfc000000, "?@nx,b,w", pa10, 0}, /* addb{tf} */
/* This entry is for the disassembler only.  It will never be used by
   assembler.  */
{ "addb",	0xa8000000, 0xfc000000, "?@nx,b,w", pa10, 0},
{ "addib",	0xa4000000, 0xf4000000, "?Wn5,b,w", pa20w, FLAG_STRICT},
{ "addib",	0xa4000000, 0xfc000000, "?@n5,b,w", pa10, 0}, /* addib{tf}*/
/* This entry is for the disassembler only.  It will never be used by
   assembler.  */
{ "addib",	0xac000000, 0xfc000000, "?@n5,b,w", pa10, 0}, /* addib{tf}*/
{ "nop",	0x08000240, 0xffffffff, "", pa10, 0},      /* or 0,0,0 */
{ "copy",	0x08000240, 0xffe0ffe0, "x,t", pa10, 0},   /* or r,0,t */
{ "mtsar",	0x01601840, 0xffe0ffff, "x", pa10, 0}, /* mtctl r,cr11 */

/* Loads and Stores for integer registers.  */

{ "ldd",	0x0c0000c0, 0xfc00d3c0, "cxccx(b),t", pa20, FLAG_STRICT},
{ "ldd",	0x0c0000c0, 0xfc0013c0, "cxccx(s,b),t", pa20, FLAG_STRICT},
{ "ldd",	0x0c0010e0, 0xfc1ff3e0, "cocc@(b),t", pa20, FLAG_STRICT},
{ "ldd",	0x0c0010e0, 0xfc1f33e0, "cocc@(s,b),t", pa20, FLAG_STRICT},
{ "ldd",	0x0c0010c0, 0xfc00d3c0, "cmcc5(b),t", pa20, FLAG_STRICT},
{ "ldd",	0x0c0010c0, 0xfc0013c0, "cmcc5(s,b),t", pa20, FLAG_STRICT},
{ "ldd",	0x50000000, 0xfc000002, "cq&(b),x", pa20w, FLAG_STRICT},
{ "ldd",	0x50000000, 0xfc00c002, "cq#(b),x", pa20, FLAG_STRICT},
{ "ldd",	0x50000000, 0xfc000002, "cq#(s,b),x", pa20, FLAG_STRICT},
{ "ldw",	0x0c000080, 0xfc00dfc0, "cXx(b),t", pa10, FLAG_STRICT},
{ "ldw",	0x0c000080, 0xfc001fc0, "cXx(s,b),t", pa10, FLAG_STRICT},
{ "ldw",	0x0c000080, 0xfc00d3c0, "cxccx(b),t", pa11, FLAG_STRICT},
{ "ldw",	0x0c000080, 0xfc0013c0, "cxccx(s,b),t", pa11, FLAG_STRICT},
{ "ldw",	0x0c0010a0, 0xfc1ff3e0, "cocc@(b),t", pa20, FLAG_STRICT},
{ "ldw",	0x0c0010a0, 0xfc1f33e0, "cocc@(s,b),t", pa20, FLAG_STRICT},
{ "ldw",	0x0c001080, 0xfc00dfc0, "cM5(b),t", pa10, FLAG_STRICT},
{ "ldw",	0x0c001080, 0xfc001fc0, "cM5(s,b),t", pa10, FLAG_STRICT},
{ "ldw",	0x0c001080, 0xfc00d3c0, "cmcc5(b),t", pa11, FLAG_STRICT},
{ "ldw",	0x0c001080, 0xfc0013c0, "cmcc5(s,b),t", pa11, FLAG_STRICT},
{ "ldw",	0x4c000000, 0xfc000000, "ce<(b),x", pa20w, FLAG_STRICT},
{ "ldw",	0x5c000004, 0xfc000006, "ce>(b),x", pa20w, FLAG_STRICT},
{ "ldw",	0x48000000, 0xfc000000, "l(b),x", pa20w, FLAG_STRICT},
{ "ldw",	0x5c000004, 0xfc00c006, "ceK(b),x", pa20, FLAG_STRICT},
{ "ldw",	0x5c000004, 0xfc000006, "ceK(s,b),x", pa20, FLAG_STRICT},
{ "ldw",	0x4c000000, 0xfc00c000, "ceJ(b),x", pa10, FLAG_STRICT},
{ "ldw",	0x4c000000, 0xfc000000, "ceJ(s,b),x", pa10, FLAG_STRICT},
{ "ldw",	0x48000000, 0xfc00c000, "j(b),x", pa10, 0},
{ "ldw",	0x48000000, 0xfc000000, "j(s,b),x", pa10, 0},
{ "ldh",	0x0c000040, 0xfc00dfc0, "cXx(b),t", pa10, FLAG_STRICT},
{ "ldh",	0x0c000040, 0xfc001fc0, "cXx(s,b),t", pa10, FLAG_STRICT},
{ "ldh",	0x0c000040, 0xfc00d3c0, "cxccx(b),t", pa11, FLAG_STRICT},
{ "ldh",	0x0c000040, 0xfc0013c0, "cxccx(s,b),t", pa11, FLAG_STRICT},
{ "ldh",	0x0c001060, 0xfc1ff3e0, "cocc@(b),t", pa20, FLAG_STRICT},
{ "ldh",	0x0c001060, 0xfc1f33e0, "cocc@(s,b),t", pa20, FLAG_STRICT},
{ "ldh",	0x0c001040, 0xfc00dfc0, "cM5(b),t", pa10, FLAG_STRICT},
{ "ldh",	0x0c001040, 0xfc001fc0, "cM5(s,b),t", pa10, FLAG_STRICT},
{ "ldh",	0x0c001040, 0xfc00d3c0, "cmcc5(b),t", pa11, FLAG_STRICT},
{ "ldh",	0x0c001040, 0xfc0013c0, "cmcc5(s,b),t", pa11, FLAG_STRICT},
{ "ldh",	0x44000000, 0xfc000000, "l(b),x", pa20w, FLAG_STRICT},
{ "ldh",	0x44000000, 0xfc00c000, "j(b),x", pa10, 0},
{ "ldh",	0x44000000, 0xfc000000, "j(s,b),x", pa10, 0},
{ "ldb",	0x0c000000, 0xfc00dfc0, "cXx(b),t", pa10, FLAG_STRICT},
{ "ldb",	0x0c000000, 0xfc001fc0, "cXx(s,b),t", pa10, FLAG_STRICT},
{ "ldb",	0x0c000000, 0xfc00d3c0, "cxccx(b),t", pa11, FLAG_STRICT},
{ "ldb",	0x0c000000, 0xfc0013c0, "cxccx(s,b),t", pa11, FLAG_STRICT},
{ "ldb",	0x0c001020, 0xfc1ff3e0, "cocc@(b),t", pa20, FLAG_STRICT},
{ "ldb",	0x0c001020, 0xfc1f33e0, "cocc@(s,b),t", pa20, FLAG_STRICT},
{ "ldb",	0x0c001000, 0xfc00dfc0, "cM5(b),t", pa10, FLAG_STRICT},
{ "ldb",	0x0c001000, 0xfc001fc0, "cM5(s,b),t", pa10, FLAG_STRICT},
{ "ldb",	0x0c001000, 0xfc00d3c0, "cmcc5(b),t", pa11, FLAG_STRICT},
{ "ldb",	0x0c001000, 0xfc0013c0, "cmcc5(s,b),t", pa11, FLAG_STRICT},
{ "ldb",	0x40000000, 0xfc000000, "l(b),x", pa20w, FLAG_STRICT},
{ "ldb",	0x40000000, 0xfc00c000, "j(b),x", pa10, 0},
{ "ldb",	0x40000000, 0xfc000000, "j(s,b),x", pa10, 0},
{ "std",	0x0c0012e0, 0xfc00f3ff, "cocCx,@(b)", pa20, FLAG_STRICT},
{ "std",	0x0c0012e0, 0xfc0033ff, "cocCx,@(s,b)", pa20, FLAG_STRICT},
{ "std",	0x0c0012c0, 0xfc00d3c0, "cmcCx,V(b)", pa20, FLAG_STRICT},
{ "std",	0x0c0012c0, 0xfc0013c0, "cmcCx,V(s,b)", pa20, FLAG_STRICT},
{ "std",	0x70000000, 0xfc000002, "cqx,&(b)", pa20w, FLAG_STRICT},
{ "std",	0x70000000, 0xfc00c002, "cqx,#(b)", pa20, FLAG_STRICT},
{ "std",	0x70000000, 0xfc000002, "cqx,#(s,b)", pa20, FLAG_STRICT},
{ "stw",	0x0c0012a0, 0xfc00f3ff, "cocCx,@(b)", pa20, FLAG_STRICT},
{ "stw",	0x0c0012a0, 0xfc0033ff, "cocCx,@(s,b)", pa20, FLAG_STRICT},
{ "stw",	0x0c001280, 0xfc00dfc0, "cMx,V(b)", pa10, FLAG_STRICT},
{ "stw",	0x0c001280, 0xfc001fc0, "cMx,V(s,b)", pa10, FLAG_STRICT},
{ "stw",	0x0c001280, 0xfc00d3c0, "cmcCx,V(b)", pa11, FLAG_STRICT},
{ "stw",	0x0c001280, 0xfc0013c0, "cmcCx,V(s,b)", pa11, FLAG_STRICT},
{ "stw",	0x6c000000, 0xfc000000, "cex,<(b)", pa20w, FLAG_STRICT},
{ "stw",	0x7c000004, 0xfc000006, "cex,>(b)", pa20w, FLAG_STRICT},
{ "stw",	0x68000000, 0xfc000000, "x,l(b)", pa20w, FLAG_STRICT},
{ "stw",	0x7c000004, 0xfc00c006, "cex,K(b)", pa20, FLAG_STRICT},
{ "stw",	0x7c000004, 0xfc000006, "cex,K(s,b)", pa20, FLAG_STRICT},
{ "stw",	0x6c000000, 0xfc00c000, "cex,J(b)", pa10, FLAG_STRICT},
{ "stw",	0x6c000000, 0xfc000000, "cex,J(s,b)", pa10, FLAG_STRICT},
{ "stw",	0x68000000, 0xfc00c000, "x,j(b)", pa10, 0},
{ "stw",	0x68000000, 0xfc000000, "x,j(s,b)", pa10, 0},
{ "sth",	0x0c001260, 0xfc00f3ff, "cocCx,@(b)", pa20, FLAG_STRICT},
{ "sth",	0x0c001260, 0xfc0033ff, "cocCx,@(s,b)", pa20, FLAG_STRICT},
{ "sth",	0x0c001240, 0xfc00dfc0, "cMx,V(b)", pa10, FLAG_STRICT},
{ "sth",	0x0c001240, 0xfc001fc0, "cMx,V(s,b)", pa10, FLAG_STRICT},
{ "sth",	0x0c001240, 0xfc00d3c0, "cmcCx,V(b)", pa11, FLAG_STRICT},
{ "sth",	0x0c001240, 0xfc0013c0, "cmcCx,V(s,b)", pa11, FLAG_STRICT},
{ "sth",	0x64000000, 0xfc000000, "x,l(b)", pa20w, FLAG_STRICT},
{ "sth",	0x64000000, 0xfc00c000, "x,j(b)", pa10, 0},
{ "sth",	0x64000000, 0xfc000000, "x,j(s,b)", pa10, 0},
{ "stb",	0x0c001220, 0xfc00f3ff, "cocCx,@(b)", pa20, FLAG_STRICT},
{ "stb",	0x0c001220, 0xfc0033ff, "cocCx,@(s,b)", pa20, FLAG_STRICT},
{ "stb",	0x0c001200, 0xfc00dfc0, "cMx,V(b)", pa10, FLAG_STRICT},
{ "stb",	0x0c001200, 0xfc001fc0, "cMx,V(s,b)", pa10, FLAG_STRICT},
{ "stb",	0x0c001200, 0xfc00d3c0, "cmcCx,V(b)", pa11, FLAG_STRICT},
{ "stb",	0x0c001200, 0xfc0013c0, "cmcCx,V(s,b)", pa11, FLAG_STRICT},
{ "stb",	0x60000000, 0xfc000000, "x,l(b)", pa20w, FLAG_STRICT},
{ "stb",	0x60000000, 0xfc00c000, "x,j(b)", pa10, 0},
{ "stb",	0x60000000, 0xfc000000, "x,j(s,b)", pa10, 0},
{ "ldwm",	0x4c000000, 0xfc00c000, "j(b),x", pa10, 0},
{ "ldwm",	0x4c000000, 0xfc000000, "j(s,b),x", pa10, 0},
{ "stwm",	0x6c000000, 0xfc00c000, "x,j(b)", pa10, 0},
{ "stwm",	0x6c000000, 0xfc000000, "x,j(s,b)", pa10, 0},
{ "ldwx",	0x0c000080, 0xfc00dfc0, "cXx(b),t", pa10, FLAG_STRICT},
{ "ldwx",	0x0c000080, 0xfc001fc0, "cXx(s,b),t", pa10, FLAG_STRICT},
{ "ldwx",	0x0c000080, 0xfc00d3c0, "cxccx(b),t", pa11, FLAG_STRICT},
{ "ldwx",	0x0c000080, 0xfc0013c0, "cxccx(s,b),t", pa11, FLAG_STRICT},
{ "ldwx",	0x0c000080, 0xfc00dfc0, "cXx(b),t", pa10, 0},
{ "ldwx",	0x0c000080, 0xfc001fc0, "cXx(s,b),t", pa10, 0},
{ "ldhx",	0x0c000040, 0xfc00dfc0, "cXx(b),t", pa10, FLAG_STRICT},
{ "ldhx",	0x0c000040, 0xfc001fc0, "cXx(s,b),t", pa10, FLAG_STRICT},
{ "ldhx",	0x0c000040, 0xfc00d3c0, "cxccx(b),t", pa11, FLAG_STRICT},
{ "ldhx",	0x0c000040, 0xfc0013c0, "cxccx(s,b),t", pa11, FLAG_STRICT},
{ "ldhx",	0x0c000040, 0xfc00dfc0, "cXx(b),t", pa10, 0},
{ "ldhx",	0x0c000040, 0xfc001fc0, "cXx(s,b),t", pa10, 0},
{ "ldbx",	0x0c000000, 0xfc00dfc0, "cXx(b),t", pa10, FLAG_STRICT},
{ "ldbx",	0x0c000000, 0xfc001fc0, "cXx(s,b),t", pa10, FLAG_STRICT},
{ "ldbx",	0x0c000000, 0xfc00d3c0, "cxccx(b),t", pa11, FLAG_STRICT},
{ "ldbx",	0x0c000000, 0xfc0013c0, "cxccx(s,b),t", pa11, FLAG_STRICT},
{ "ldbx",	0x0c000000, 0xfc00dfc0, "cXx(b),t", pa10, 0},
{ "ldbx",	0x0c000000, 0xfc001fc0, "cXx(s,b),t", pa10, 0},
{ "ldwa",	0x0c000180, 0xfc00dfc0, "cXx(b),t", pa10, FLAG_STRICT},
{ "ldwa",	0x0c000180, 0xfc00d3c0, "cxccx(b),t", pa11, FLAG_STRICT},
{ "ldwa",	0x0c0011a0, 0xfc1ff3e0, "cocc@(b),t", pa20, FLAG_STRICT},
{ "ldwa",	0x0c001180, 0xfc00dfc0, "cM5(b),t", pa10, FLAG_STRICT},
{ "ldwa",	0x0c001180, 0xfc00d3c0, "cmcc5(b),t", pa11, FLAG_STRICT},
{ "ldcw",	0x0c0001c0, 0xfc00dfc0, "cXx(b),t", pa10, FLAG_STRICT},
{ "ldcw",	0x0c0001c0, 0xfc001fc0, "cXx(s,b),t", pa10, FLAG_STRICT},
{ "ldcw",	0x0c0001c0, 0xfc00d3c0, "cxcdx(b),t", pa11, FLAG_STRICT},
{ "ldcw",	0x0c0001c0, 0xfc0013c0, "cxcdx(s,b),t", pa11, FLAG_STRICT},
{ "ldcw",	0x0c0011c0, 0xfc00dfc0, "cM5(b),t", pa10, FLAG_STRICT},
{ "ldcw",	0x0c0011c0, 0xfc001fc0, "cM5(s,b),t", pa10, FLAG_STRICT},
{ "ldcw",	0x0c0011c0, 0xfc00d3c0, "cmcd5(b),t", pa11, FLAG_STRICT},
{ "ldcw",	0x0c0011c0, 0xfc0013c0, "cmcd5(s,b),t", pa11, FLAG_STRICT},
{ "stwa",	0x0c0013a0, 0xfc00d3ff, "cocCx,@(b)", pa20, FLAG_STRICT},
{ "stwa",	0x0c001380, 0xfc00dfc0, "cMx,V(b)", pa10, FLAG_STRICT},
{ "stwa",	0x0c001380, 0xfc00d3c0, "cmcCx,V(b)", pa11, FLAG_STRICT},
{ "stby",	0x0c001300, 0xfc00dfc0, "cAx,V(b)", pa10, FLAG_STRICT},
{ "stby",	0x0c001300, 0xfc001fc0, "cAx,V(s,b)", pa10, FLAG_STRICT},
{ "stby",	0x0c001300, 0xfc00d3c0, "cscCx,V(b)", pa11, FLAG_STRICT},
{ "stby",	0x0c001300, 0xfc0013c0, "cscCx,V(s,b)", pa11, FLAG_STRICT},
{ "ldda",	0x0c000100, 0xfc00d3c0, "cxccx(b),t", pa20, FLAG_STRICT},
{ "ldda",	0x0c001120, 0xfc1ff3e0, "cocc@(b),t", pa20, FLAG_STRICT},
{ "ldda",	0x0c001100, 0xfc00d3c0, "cmcc5(b),t", pa20, FLAG_STRICT},
{ "ldcd",	0x0c000140, 0xfc00d3c0, "cxcdx(b),t", pa20, FLAG_STRICT},
{ "ldcd",	0x0c000140, 0xfc0013c0, "cxcdx(s,b),t", pa20, FLAG_STRICT},
{ "ldcd",	0x0c001140, 0xfc00d3c0, "cmcd5(b),t", pa20, FLAG_STRICT},
{ "ldcd",	0x0c001140, 0xfc0013c0, "cmcd5(s,b),t", pa20, FLAG_STRICT},
{ "stda",	0x0c0013e0, 0xfc00f3ff, "cocCx,@(b)", pa20, FLAG_STRICT},
{ "stda",	0x0c0013c0, 0xfc00d3c0, "cmcCx,V(b)", pa20, FLAG_STRICT},
{ "ldwax",	0x0c000180, 0xfc00dfc0, "cXx(b),t", pa10, FLAG_STRICT},
{ "ldwax",	0x0c000180, 0xfc00d3c0, "cxccx(b),t", pa11, FLAG_STRICT},
{ "ldwax",	0x0c000180, 0xfc00dfc0, "cXx(b),t", pa10, 0},
{ "ldcwx",	0x0c0001c0, 0xfc00dfc0, "cXx(b),t", pa10, FLAG_STRICT},
{ "ldcwx",	0x0c0001c0, 0xfc001fc0, "cXx(s,b),t", pa10, FLAG_STRICT},
{ "ldcwx",	0x0c0001c0, 0xfc00d3c0, "cxcdx(b),t", pa11, FLAG_STRICT},
{ "ldcwx",	0x0c0001c0, 0xfc0013c0, "cxcdx(s,b),t", pa11, FLAG_STRICT},
{ "ldcwx",	0x0c0001c0, 0xfc00dfc0, "cXx(b),t", pa10, 0},
{ "ldcwx",	0x0c0001c0, 0xfc001fc0, "cXx(s,b),t", pa10, 0},
{ "ldws",	0x0c001080, 0xfc00dfc0, "cM5(b),t", pa10, FLAG_STRICT},
{ "ldws",	0x0c001080, 0xfc001fc0, "cM5(s,b),t", pa10, FLAG_STRICT},
{ "ldws",	0x0c001080, 0xfc00d3c0, "cmcc5(b),t", pa11, FLAG_STRICT},
{ "ldws",	0x0c001080, 0xfc0013c0, "cmcc5(s,b),t", pa11, FLAG_STRICT},
{ "ldws",	0x0c001080, 0xfc00dfc0, "cM5(b),t", pa10, 0},
{ "ldws",	0x0c001080, 0xfc001fc0, "cM5(s,b),t", pa10, 0},
{ "ldhs",	0x0c001040, 0xfc00dfc0, "cM5(b),t", pa10, FLAG_STRICT},
{ "ldhs",	0x0c001040, 0xfc001fc0, "cM5(s,b),t", pa10, FLAG_STRICT},
{ "ldhs",	0x0c001040, 0xfc00d3c0, "cmcc5(b),t", pa11, FLAG_STRICT},
{ "ldhs",	0x0c001040, 0xfc0013c0, "cmcc5(s,b),t", pa11, FLAG_STRICT},
{ "ldhs",	0x0c001040, 0xfc00dfc0, "cM5(b),t", pa10, 0},
{ "ldhs",	0x0c001040, 0xfc001fc0, "cM5(s,b),t", pa10, 0},
{ "ldbs",	0x0c001000, 0xfc00dfc0, "cM5(b),t", pa10, FLAG_STRICT},
{ "ldbs",	0x0c001000, 0xfc001fc0, "cM5(s,b),t", pa10, FLAG_STRICT},
{ "ldbs",	0x0c001000, 0xfc00d3c0, "cmcc5(b),t", pa11, FLAG_STRICT},
{ "ldbs",	0x0c001000, 0xfc0013c0, "cmcc5(s,b),t", pa11, FLAG_STRICT},
{ "ldbs",	0x0c001000, 0xfc00dfc0, "cM5(b),t", pa10, 0},
{ "ldbs",	0x0c001000, 0xfc001fc0, "cM5(s,b),t", pa10, 0},
{ "ldwas",	0x0c001180, 0xfc00dfc0, "cM5(b),t", pa10, FLAG_STRICT},
{ "ldwas",	0x0c001180, 0xfc00d3c0, "cmcc5(b),t", pa11, FLAG_STRICT},
{ "ldwas",	0x0c001180, 0xfc00dfc0, "cM5(b),t", pa10, 0},
{ "ldcws",	0x0c0011c0, 0xfc00dfc0, "cM5(b),t", pa10, FLAG_STRICT},
{ "ldcws",	0x0c0011c0, 0xfc001fc0, "cM5(s,b),t", pa10, FLAG_STRICT},
{ "ldcws",	0x0c0011c0, 0xfc00d3c0, "cmcd5(b),t", pa11, FLAG_STRICT},
{ "ldcws",	0x0c0011c0, 0xfc0013c0, "cmcd5(s,b),t", pa11, FLAG_STRICT},
{ "ldcws",	0x0c0011c0, 0xfc00dfc0, "cM5(b),t", pa10, 0},
{ "ldcws",	0x0c0011c0, 0xfc001fc0, "cM5(s,b),t", pa10, 0},
{ "stws",	0x0c001280, 0xfc00dfc0, "cMx,V(b)", pa10, FLAG_STRICT},
{ "stws",	0x0c001280, 0xfc001fc0, "cMx,V(s,b)", pa10, FLAG_STRICT},
{ "stws",	0x0c001280, 0xfc00d3c0, "cmcCx,V(b)", pa11, FLAG_STRICT},
{ "stws",	0x0c001280, 0xfc0013c0, "cmcCx,V(s,b)", pa11, FLAG_STRICT},
{ "stws",	0x0c001280, 0xfc00dfc0, "cMx,V(b)", pa10, 0},
{ "stws",	0x0c001280, 0xfc001fc0, "cMx,V(s,b)", pa10, 0},
{ "sths",	0x0c001240, 0xfc00dfc0, "cMx,V(b)", pa10, FLAG_STRICT},
{ "sths",	0x0c001240, 0xfc001fc0, "cMx,V(s,b)", pa10, FLAG_STRICT},
{ "sths",	0x0c001240, 0xfc00d3c0, "cmcCx,V(b)", pa11, FLAG_STRICT},
{ "sths",	0x0c001240, 0xfc0013c0, "cmcCx,V(s,b)", pa11, FLAG_STRICT},
{ "sths",	0x0c001240, 0xfc00dfc0, "cMx,V(b)", pa10, 0},
{ "sths",	0x0c001240, 0xfc001fc0, "cMx,V(s,b)", pa10, 0},
{ "stbs",	0x0c001200, 0xfc00dfc0, "cMx,V(b)", pa10, FLAG_STRICT},
{ "stbs",	0x0c001200, 0xfc001fc0, "cMx,V(s,b)", pa10, FLAG_STRICT},
{ "stbs",	0x0c001200, 0xfc00d3c0, "cmcCx,V(b)", pa11, FLAG_STRICT},
{ "stbs",	0x0c001200, 0xfc0013c0, "cmcCx,V(s,b)", pa11, FLAG_STRICT},
{ "stbs",	0x0c001200, 0xfc00dfc0, "cMx,V(b)", pa10, 0},
{ "stbs",	0x0c001200, 0xfc001fc0, "cMx,V(s,b)", pa10, 0},
{ "stwas",	0x0c001380, 0xfc00dfc0, "cMx,V(b)", pa10, FLAG_STRICT},
{ "stwas",	0x0c001380, 0xfc00d3c0, "cmcCx,V(b)", pa11, FLAG_STRICT},
{ "stwas",	0x0c001380, 0xfc00dfc0, "cMx,V(b)", pa10, 0},
{ "stdby",	0x0c001340, 0xfc00d3c0, "cscCx,V(b)", pa20, FLAG_STRICT},
{ "stdby",	0x0c001340, 0xfc0013c0, "cscCx,V(s,b)", pa20, FLAG_STRICT},
{ "stbys",	0x0c001300, 0xfc00dfc0, "cAx,V(b)", pa10, FLAG_STRICT},
{ "stbys",	0x0c001300, 0xfc001fc0, "cAx,V(s,b)", pa10, FLAG_STRICT},
{ "stbys",	0x0c001300, 0xfc00d3c0, "cscCx,V(b)", pa11, FLAG_STRICT},
{ "stbys",	0x0c001300, 0xfc0013c0, "cscCx,V(s,b)", pa11, FLAG_STRICT},
{ "stbys",	0x0c001300, 0xfc00dfc0, "cAx,V(b)", pa10, 0},
{ "stbys",	0x0c001300, 0xfc001fc0, "cAx,V(s,b)", pa10, 0},

/* Immediate instructions.  */
{ "ldo",	0x34000000, 0xfc000000, "l(b),x", pa20w, 0},
{ "ldo",	0x34000000, 0xfc00c000, "j(b),x", pa10, 0},
{ "ldil",	0x20000000, 0xfc000000, "k,b", pa10, 0},
{ "addil",	0x28000000, 0xfc000000, "k,b,Z", pa10, 0},
{ "addil",	0x28000000, 0xfc000000, "k,b", pa10, 0},

/* Branching instructions.  */
{ "b",		0xe8008000, 0xfc00e000, "cpnXL", pa20, FLAG_STRICT},
{ "b",		0xe800a000, 0xfc00e000, "clnXL", pa20, FLAG_STRICT},
{ "b",		0xe8000000, 0xfc00e000, "clnW,b", pa10, FLAG_STRICT},
{ "b",		0xe8002000, 0xfc00e000, "cgnW,b", pa10, FLAG_STRICT},
{ "b",		0xe8000000, 0xffe0e000, "nW", pa10, 0},  /* b,l foo,r0 */
{ "bl",		0xe8000000, 0xfc00e000, "nW,b", pa10, 0},
{ "gate",	0xe8002000, 0xfc00e000, "nW,b", pa10, 0},
{ "blr",	0xe8004000, 0xfc00e001, "nx,b", pa10, 0},
{ "bv",		0xe800c000, 0xfc00fffd, "nx(b)", pa10, 0},
{ "bv",		0xe800c000, 0xfc00fffd, "n(b)", pa10, 0},
{ "bve",	0xe800f001, 0xfc1ffffd, "cpn(b)L", pa20, FLAG_STRICT},
{ "bve",	0xe800f000, 0xfc1ffffd, "cln(b)L", pa20, FLAG_STRICT},
{ "bve",	0xe800d001, 0xfc1ffffd, "cPn(b)", pa20, FLAG_STRICT},
{ "bve",	0xe800d000, 0xfc1ffffd, "n(b)", pa20, FLAG_STRICT},
{ "be",		0xe4000000, 0xfc000000, "clnz(S,b),Y", pa10, FLAG_STRICT},
{ "be",		0xe4000000, 0xfc000000, "clnz(b),Y", pa10, FLAG_STRICT},
{ "be",		0xe0000000, 0xfc000000, "nz(S,b)", pa10, 0},
{ "be",		0xe0000000, 0xfc000000, "nz(b)", pa10, 0},
{ "ble",	0xe4000000, 0xfc000000, "nz(S,b)", pa10, 0},
{ "movb",	0xc8000000, 0xfc000000, "?ynx,b,w", pa10, 0},
{ "movib",	0xcc000000, 0xfc000000, "?yn5,b,w", pa10, 0},
{ "combt",	0x80000000, 0xfc000000, "?tnx,b,w", pa10, 0},
{ "combf",	0x88000000, 0xfc000000, "?tnx,b,w", pa10, 0},
{ "comibt",	0x84000000, 0xfc000000, "?tn5,b,w", pa10, 0},
{ "comibf",	0x8c000000, 0xfc000000, "?tn5,b,w", pa10, 0},
{ "addbt",	0xa0000000, 0xfc000000, "?dnx,b,w", pa10, 0},
{ "addbf",	0xa8000000, 0xfc000000, "?dnx,b,w", pa10, 0},
{ "addibt",	0xa4000000, 0xfc000000, "?dn5,b,w", pa10, 0},
{ "addibf",	0xac000000, 0xfc000000, "?dn5,b,w", pa10, 0},
{ "bb",		0xc0004000, 0xffe06000, "?bnx,!,w", pa10, FLAG_STRICT},
{ "bb",		0xc0006000, 0xffe06000, "?Bnx,!,w", pa20, FLAG_STRICT},
{ "bb",		0xc4004000, 0xfc006000, "?bnx,Q,w", pa10, FLAG_STRICT},
{ "bb",		0xc4004000, 0xfc004000, "?Bnx,B,w", pa20, FLAG_STRICT},
{ "bvb",	0xc0004000, 0xffe04000, "?bnx,w", pa10, 0},
{ "clrbts",	0xe8004005, 0xffffffff, "", pa20, FLAG_STRICT},
{ "popbts",	0xe8004005, 0xfffff007, "$", pa20, FLAG_STRICT},
{ "pushnom",	0xe8004001, 0xffffffff, "", pa20, FLAG_STRICT},
{ "pushbts",	0xe8004001, 0xffe0ffff, "x", pa20, FLAG_STRICT},

/* Computation Instructions.  */

{ "cmpclr",	0x080008a0, 0xfc000fe0, "?Sx,b,t", pa20, FLAG_STRICT},
{ "cmpclr",	0x08000880, 0xfc000fe0, "?sx,b,t", pa10, FLAG_STRICT},
{ "comclr",	0x08000880, 0xfc000fe0, "?sx,b,t", pa10, 0},
{ "or",		0x08000260, 0xfc000fe0, "?Lx,b,t", pa20, FLAG_STRICT},
{ "or",		0x08000240, 0xfc000fe0, "?lx,b,t", pa10, 0},
{ "xor",	0x080002a0, 0xfc000fe0, "?Lx,b,t", pa20, FLAG_STRICT},
{ "xor",	0x08000280, 0xfc000fe0, "?lx,b,t", pa10, 0},
{ "and",	0x08000220, 0xfc000fe0, "?Lx,b,t", pa20, FLAG_STRICT},
{ "and",	0x08000200, 0xfc000fe0, "?lx,b,t", pa10, 0},
{ "andcm",	0x08000020, 0xfc000fe0, "?Lx,b,t", pa20, FLAG_STRICT},
{ "andcm",	0x08000000, 0xfc000fe0, "?lx,b,t", pa10, 0},
{ "uxor",	0x080003a0, 0xfc000fe0, "?Ux,b,t", pa20, FLAG_STRICT},
{ "uxor",	0x08000380, 0xfc000fe0, "?ux,b,t", pa10, 0},
{ "uaddcm",	0x080009a0, 0xfc000fa0, "cT?Ux,b,t", pa20, FLAG_STRICT},
{ "uaddcm",	0x08000980, 0xfc000fa0, "cT?ux,b,t", pa10, FLAG_STRICT},
{ "uaddcm",	0x08000980, 0xfc000fe0, "?ux,b,t", pa10, 0},
{ "uaddcmt",	0x080009c0, 0xfc000fe0, "?ux,b,t", pa10, 0},
{ "dcor",	0x08000ba0, 0xfc1f0fa0, "ci?Ub,t", pa20, FLAG_STRICT},
{ "dcor",	0x08000b80, 0xfc1f0fa0, "ci?ub,t", pa10, FLAG_STRICT},
{ "dcor",	0x08000b80, 0xfc1f0fe0, "?ub,t",   pa10, 0},
{ "idcor",	0x08000bc0, 0xfc1f0fe0, "?ub,t",   pa10, 0},
{ "addi",	0xb0000000, 0xfc000000, "ct?ai,b,x", pa10, FLAG_STRICT},
{ "addi",	0xb4000000, 0xfc000000, "cv?ai,b,x", pa10, FLAG_STRICT},
{ "addi",	0xb4000000, 0xfc000800, "?ai,b,x", pa10, 0},
{ "addio",	0xb4000800, 0xfc000800, "?ai,b,x", pa10, 0},
{ "addit",	0xb0000000, 0xfc000800, "?ai,b,x", pa10, 0},
{ "addito",	0xb0000800, 0xfc000800, "?ai,b,x", pa10, 0},
{ "add",	0x08000720, 0xfc0007e0, "cY?Ax,b,t", pa20, FLAG_STRICT},
{ "add",	0x08000700, 0xfc0007e0, "cy?ax,b,t", pa10, FLAG_STRICT},
{ "add",	0x08000220, 0xfc0003e0, "ca?Ax,b,t", pa20, FLAG_STRICT},
{ "add",	0x08000200, 0xfc0003e0, "ca?ax,b,t", pa10, FLAG_STRICT},
{ "add",	0x08000600, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "addl",	0x08000a00, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "addo",	0x08000e00, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "addc",	0x08000700, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "addco",	0x08000f00, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "sub",	0x080004e0, 0xfc0007e0, "ct?Sx,b,t", pa20, FLAG_STRICT},
{ "sub",	0x080004c0, 0xfc0007e0, "ct?sx,b,t", pa10, FLAG_STRICT},
{ "sub",	0x08000520, 0xfc0007e0, "cB?Sx,b,t", pa20, FLAG_STRICT},
{ "sub",	0x08000500, 0xfc0007e0, "cb?sx,b,t", pa10, FLAG_STRICT},
{ "sub",	0x08000420, 0xfc0007e0, "cv?Sx,b,t", pa20, FLAG_STRICT},
{ "sub",	0x08000400, 0xfc0007e0, "cv?sx,b,t", pa10, FLAG_STRICT},
{ "sub",	0x08000400, 0xfc000fe0, "?sx,b,t", pa10, 0},
{ "subo",	0x08000c00, 0xfc000fe0, "?sx,b,t", pa10, 0},
{ "subb",	0x08000500, 0xfc000fe0, "?sx,b,t", pa10, 0},
{ "subbo",	0x08000d00, 0xfc000fe0, "?sx,b,t", pa10, 0},
{ "subt",	0x080004c0, 0xfc000fe0, "?sx,b,t", pa10, 0},
{ "subto",	0x08000cc0, 0xfc000fe0, "?sx,b,t", pa10, 0},
{ "ds",		0x08000440, 0xfc000fe0, "?sx,b,t", pa10, 0},
{ "subi",	0x94000000, 0xfc000000, "cv?si,b,x", pa10, FLAG_STRICT},
{ "subi",	0x94000000, 0xfc000800, "?si,b,x", pa10, 0},
{ "subio",	0x94000800, 0xfc000800, "?si,b,x", pa10, 0},
{ "cmpiclr",	0x90000800, 0xfc000800, "?Si,b,x", pa20, FLAG_STRICT},
{ "cmpiclr",	0x90000000, 0xfc000800, "?si,b,x", pa10, FLAG_STRICT},
{ "comiclr",	0x90000000, 0xfc000800, "?si,b,x", pa10, 0},
{ "shladd",	0x08000220, 0xfc000320, "ca?Ax,.,b,t", pa20, FLAG_STRICT},
{ "shladd",	0x08000200, 0xfc000320, "ca?ax,.,b,t", pa10, FLAG_STRICT},
{ "sh1add",	0x08000640, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "sh1addl",	0x08000a40, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "sh1addo",	0x08000e40, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "sh2add",	0x08000680, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "sh2addl",	0x08000a80, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "sh2addo",	0x08000e80, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "sh3add",	0x080006c0, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "sh3addl",	0x08000ac0, 0xfc000fe0, "?ax,b,t", pa10, 0},
{ "sh3addo",	0x08000ec0, 0xfc000fe0, "?ax,b,t", pa10, 0},

/* Subword Operation Instructions.  */

{ "hadd",	0x08000300, 0xfc00ff20, "cHx,b,t", pa20, FLAG_STRICT},
{ "havg",	0x080002c0, 0xfc00ffe0, "x,b,t", pa20, FLAG_STRICT},
{ "hshl",	0xf8008800, 0xffe0fc20, "x,*,t", pa20, FLAG_STRICT},
{ "hshladd",	0x08000700, 0xfc00ff20, "x,.,b,t", pa20, FLAG_STRICT},
{ "hshr",	0xf800c800, 0xfc1ff820, "cSb,*,t", pa20, FLAG_STRICT},
{ "hshradd",	0x08000500, 0xfc00ff20, "x,.,b,t", pa20, FLAG_STRICT},
{ "hsub",	0x08000100, 0xfc00ff20, "cHx,b,t", pa20, FLAG_STRICT},
{ "mixh",	0xf8008400, 0xfc009fe0, "chx,b,t", pa20, FLAG_STRICT},
{ "mixw",	0xf8008000, 0xfc009fe0, "chx,b,t", pa20, FLAG_STRICT},
{ "permh",	0xf8000000, 0xfc009020, "c*a,t", pa20, FLAG_STRICT},


/* Extract and Deposit Instructions.  */

{ "shrpd",	0xd0000200, 0xfc001fe0, "?Xx,b,!,t", pa20, FLAG_STRICT},
{ "shrpd",	0xd0000400, 0xfc001400, "?Xx,b,~,t", pa20, FLAG_STRICT},
{ "shrpw",	0xd0000000, 0xfc001fe0, "?xx,b,!,t", pa10, FLAG_STRICT},
{ "shrpw",	0xd0000800, 0xfc001c00, "?xx,b,p,t", pa10, FLAG_STRICT},
{ "vshd",	0xd0000000, 0xfc001fe0, "?xx,b,t", pa10, 0},
{ "shd",	0xd0000800, 0xfc001c00, "?xx,b,p,t", pa10, 0},
{ "extrd",	0xd0001200, 0xfc001ae0, "cS?Xb,!,%,x", pa20, FLAG_STRICT},
{ "extrd",	0xd8000000, 0xfc000000, "cS?Xb,q,|,x", pa20, FLAG_STRICT},
{ "extrw",	0xd0001000, 0xfc001be0, "cS?xb,!,T,x", pa10, FLAG_STRICT},
{ "extrw",	0xd0001800, 0xfc001800, "cS?xb,P,T,x", pa10, FLAG_STRICT},
{ "vextru",	0xd0001000, 0xfc001fe0, "?xb,T,x", pa10, 0},
{ "vextrs",	0xd0001400, 0xfc001fe0, "?xb,T,x", pa10, 0},
{ "extru",	0xd0001800, 0xfc001c00, "?xb,P,T,x", pa10, 0},
{ "extrs",	0xd0001c00, 0xfc001c00, "?xb,P,T,x", pa10, 0},
{ "depd",	0xd4000200, 0xfc001ae0, "cz?Xx,!,%,b", pa20, FLAG_STRICT},
{ "depd",	0xf0000000, 0xfc000000, "cz?Xx,~,|,b", pa20, FLAG_STRICT},
{ "depdi",	0xd4001200, 0xfc001ae0, "cz?X5,!,%,b", pa20, FLAG_STRICT},
{ "depdi",	0xf4000000, 0xfc000000, "cz?X5,~,|,b", pa20, FLAG_STRICT},
{ "depw",	0xd4000000, 0xfc001be0, "cz?xx,!,T,b", pa10, FLAG_STRICT},
{ "depw",	0xd4000800, 0xfc001800, "cz?xx,p,T,b", pa10, FLAG_STRICT},
{ "depwi",	0xd4001000, 0xfc001be0, "cz?x5,!,T,b", pa10, FLAG_STRICT},
{ "depwi",	0xd4001800, 0xfc001800, "cz?x5,p,T,b", pa10, FLAG_STRICT},
{ "zvdep",	0xd4000000, 0xfc001fe0, "?xx,T,b", pa10, 0},
{ "vdep",	0xd4000400, 0xfc001fe0, "?xx,T,b", pa10, 0},
{ "zdep",	0xd4000800, 0xfc001c00, "?xx,p,T,b", pa10, 0},
{ "dep",	0xd4000c00, 0xfc001c00, "?xx,p,T,b", pa10, 0},
{ "zvdepi",	0xd4001000, 0xfc001fe0, "?x5,T,b", pa10, 0},
{ "vdepi",	0xd4001400, 0xfc001fe0, "?x5,T,b", pa10, 0},
{ "zdepi",	0xd4001800, 0xfc001c00, "?x5,p,T,b", pa10, 0},
{ "depi",	0xd4001c00, 0xfc001c00, "?x5,p,T,b", pa10, 0},

/* System Control Instructions.  */

{ "break",	0x00000000, 0xfc001fe0, "r,A", pa10, 0},
{ "rfi",	0x00000c00, 0xffffff1f, "cr", pa10, FLAG_STRICT},
{ "rfi",	0x00000c00, 0xffffffff, "", pa10, 0},
{ "rfir",	0x00000ca0, 0xffffffff, "", pa11, 0},
{ "ssm",	0x00000d60, 0xfc00ffe0, "U,t", pa20, FLAG_STRICT},
{ "ssm",	0x00000d60, 0xffe0ffe0, "R,t", pa10, 0},
{ "rsm",	0x00000e60, 0xfc00ffe0, "U,t", pa20, FLAG_STRICT},
{ "rsm",	0x00000e60, 0xffe0ffe0, "R,t", pa10, 0},
{ "mtsm",	0x00001860, 0xffe0ffff, "x", pa10, 0},
{ "ldsid",	0x000010a0, 0xfc1fffe0, "(b),t", pa10, 0},
{ "ldsid",	0x000010a0, 0xfc1f3fe0, "(s,b),t", pa10, 0},
{ "mtsp",	0x00001820, 0xffe01fff, "x,S", pa10, 0},
{ "mtctl",	0x00001840, 0xfc00ffff, "x,^", pa10, 0},
{ "mtsarcm",	0x016018C0, 0xffe0ffff, "x", pa20, FLAG_STRICT},
{ "mfia",	0x000014A0, 0xffffffe0, "t", pa20, FLAG_STRICT},
{ "mfsp",	0x000004a0, 0xffff1fe0, "S,t", pa10, 0},
{ "mfctl",	0x016048a0, 0xffffffe0, "cW!,t", pa20, FLAG_STRICT},
{ "mfctl",	0x000008a0, 0xfc1fffe0, "^,t", pa10, 0},
{ "sync",	0x00000400, 0xffffffff, "", pa10, 0},
{ "syncdma",	0x00100400, 0xffffffff, "", pa10, 0},
{ "probe",	0x04001180, 0xfc00ffa0, "cw(b),x,t", pa10, FLAG_STRICT},
{ "probe",	0x04001180, 0xfc003fa0, "cw(s,b),x,t", pa10, FLAG_STRICT},
{ "probei",	0x04003180, 0xfc00ffa0, "cw(b),R,t", pa10, FLAG_STRICT},
{ "probei",	0x04003180, 0xfc003fa0, "cw(s,b),R,t", pa10, FLAG_STRICT},
{ "prober",	0x04001180, 0xfc00ffe0, "(b),x,t", pa10, 0},
{ "prober",	0x04001180, 0xfc003fe0, "(s,b),x,t", pa10, 0},
{ "proberi",	0x04003180, 0xfc00ffe0, "(b),R,t", pa10, 0},
{ "proberi",	0x04003180, 0xfc003fe0, "(s,b),R,t", pa10, 0},
{ "probew",	0x040011c0, 0xfc00ffe0, "(b),x,t", pa10, 0},
{ "probew",	0x040011c0, 0xfc003fe0, "(s,b),x,t", pa10, 0},
{ "probewi",	0x040031c0, 0xfc00ffe0, "(b),R,t", pa10, 0},
{ "probewi",	0x040031c0, 0xfc003fe0, "(s,b),R,t", pa10, 0},
{ "lpa",	0x04001340, 0xfc00ffc0, "cZx(b),t", pa10, 0},
{ "lpa",	0x04001340, 0xfc003fc0, "cZx(s,b),t", pa10, 0},
{ "lci",	0x04001300, 0xfc00ffe0, "x(b),t", pa11, 0},
{ "lci",	0x04001300, 0xfc003fe0, "x(s,b),t", pa11, 0},
{ "pdtlb",	0x04001600, 0xfc00ffdf, "cLcZx(b)", pa20, FLAG_STRICT},
{ "pdtlb",	0x04001600, 0xfc003fdf, "cLcZx(s,b)", pa20, FLAG_STRICT},
{ "pdtlb",	0x04001600, 0xfc1fffdf, "cLcZ@(b)", pa20, FLAG_STRICT},
{ "pdtlb",	0x04001600, 0xfc1f3fdf, "cLcZ@(s,b)", pa20, FLAG_STRICT},
{ "pdtlb",	0x04001200, 0xfc00ffdf, "cZx(b)", pa10, 0},
{ "pdtlb",	0x04001200, 0xfc003fdf, "cZx(s,b)", pa10, 0},
{ "pitlb",	0x04000600, 0xfc001fdf, "cLcZx(S,b)", pa20, FLAG_STRICT},
{ "pitlb",	0x04000600, 0xfc1f1fdf, "cLcZ@(S,b)", pa20, FLAG_STRICT},
{ "pitlb",	0x04000200, 0xfc001fdf, "cZx(S,b)", pa10, 0},
{ "pdtlbe",	0x04001240, 0xfc00ffdf, "cZx(b)", pa10, 0},
{ "pdtlbe",	0x04001240, 0xfc003fdf, "cZx(s,b)", pa10, 0},
{ "pitlbe",	0x04000240, 0xfc001fdf, "cZx(S,b)", pa10, 0},
{ "idtlba",	0x04001040, 0xfc00ffff, "x,(b)", pa10, 0},
{ "idtlba",	0x04001040, 0xfc003fff, "x,(s,b)", pa10, 0},
{ "iitlba",	0x04000040, 0xfc001fff, "x,(S,b)", pa10, 0},
{ "idtlbp",	0x04001000, 0xfc00ffff, "x,(b)", pa10, 0},
{ "idtlbp",	0x04001000, 0xfc003fff, "x,(s,b)", pa10, 0},
{ "iitlbp",	0x04000000, 0xfc001fff, "x,(S,b)", pa10, 0},
{ "pdc",	0x04001380, 0xfc00ffdf, "cZx(b)", pa10, 0},
{ "pdc",	0x04001380, 0xfc003fdf, "cZx(s,b)", pa10, 0},
{ "fdc",	0x04001280, 0xfc00ffdf, "cZx(b)", pa10, FLAG_STRICT},
{ "fdc",	0x04001280, 0xfc003fdf, "cZx(s,b)", pa10, FLAG_STRICT},
{ "fdc",	0x04003280, 0xfc00ffff, "5(b)", pa20, FLAG_STRICT},
{ "fdc",	0x04003280, 0xfc003fff, "5(s,b)", pa20, FLAG_STRICT},
{ "fdc",	0x04001280, 0xfc00ffdf, "cZx(b)", pa10, 0},
{ "fdc",	0x04001280, 0xfc003fdf, "cZx(s,b)", pa10, 0},
{ "fic",	0x040013c0, 0xfc00dfdf, "cZx(b)", pa20, FLAG_STRICT},
{ "fic",	0x04000280, 0xfc001fdf, "cZx(S,b)", pa10, 0},
{ "fdce",	0x040012c0, 0xfc00ffdf, "cZx(b)", pa10, 0},
{ "fdce",	0x040012c0, 0xfc003fdf, "cZx(s,b)", pa10, 0},
{ "fice",	0x040002c0, 0xfc001fdf, "cZx(S,b)", pa10, 0},
{ "diag",	0x14000000, 0xfc000000, "D", pa10, 0},
{ "idtlbt",	0x04001800, 0xfc00ffff, "x,b", pa20, FLAG_STRICT},
{ "iitlbt",	0x04000800, 0xfc00ffff, "x,b", pa20, FLAG_STRICT},

/* These may be specific to certain versions of the PA.  Joel claimed
   they were 72000 (7200?) specific.  However, I'm almost certain the
   mtcpu/mfcpu were undocumented, but available in the older 700 machines.  */
{ "mtcpu",	0x14001600, 0xfc00ffff, "x,^", pa10, 0},
{ "mfcpu",	0x14001A00, 0xfc00ffff, "^,x", pa10, 0},
{ "tocen",	0x14403600, 0xffffffff, "", pa10, 0},
{ "tocdis",	0x14401620, 0xffffffff, "", pa10, 0},
{ "shdwgr",	0x14402600, 0xffffffff, "", pa10, 0},
{ "grshdw",	0x14400620, 0xffffffff, "", pa10, 0},

/* gfw and gfr are not in the HP PA 1.1 manual, but they are in either
   the Timex FPU or the Mustang ERS (not sure which) manual.  */
{ "gfw",	0x04001680, 0xfc00ffdf, "cZx(b)", pa11, 0},
{ "gfw",	0x04001680, 0xfc003fdf, "cZx(s,b)", pa11, 0},
{ "gfr",	0x04001a80, 0xfc00ffdf, "cZx(b)", pa11, 0},
{ "gfr",	0x04001a80, 0xfc003fdf, "cZx(s,b)", pa11, 0},

/* Floating Point Coprocessor Instructions.  */

{ "fldw",	0x24000000, 0xfc00df80, "cXx(b),fT", pa10, FLAG_STRICT},
{ "fldw",	0x24000000, 0xfc001f80, "cXx(s,b),fT", pa10, FLAG_STRICT},
{ "fldw",	0x24000000, 0xfc00d380, "cxccx(b),fT", pa11, FLAG_STRICT},
{ "fldw",	0x24000000, 0xfc001380, "cxccx(s,b),fT", pa11, FLAG_STRICT},
{ "fldw",	0x24001020, 0xfc1ff3a0, "cocc@(b),fT", pa20, FLAG_STRICT},
{ "fldw",	0x24001020, 0xfc1f33a0, "cocc@(s,b),fT", pa20, FLAG_STRICT},
{ "fldw",	0x24001000, 0xfc00df80, "cM5(b),fT", pa10, FLAG_STRICT},
{ "fldw",	0x24001000, 0xfc001f80, "cM5(s,b),fT", pa10, FLAG_STRICT},
{ "fldw",	0x24001000, 0xfc00d380, "cmcc5(b),fT", pa11, FLAG_STRICT},
{ "fldw",	0x24001000, 0xfc001380, "cmcc5(s,b),fT", pa11, FLAG_STRICT},
{ "fldw",	0x5c000000, 0xfc000004, "y(b),fe", pa20w, FLAG_STRICT},
{ "fldw",	0x58000000, 0xfc000000, "cJy(b),fe", pa20w, FLAG_STRICT},
{ "fldw",	0x5c000000, 0xfc00c004, "d(b),fe", pa20, FLAG_STRICT},
{ "fldw",	0x5c000000, 0xfc000004, "d(s,b),fe", pa20, FLAG_STRICT},
{ "fldw",	0x58000000, 0xfc00c000, "cJd(b),fe", pa20, FLAG_STRICT},
{ "fldw",	0x58000000, 0xfc000000, "cJd(s,b),fe", pa20, FLAG_STRICT},
{ "fldd",	0x2c000000, 0xfc00dfc0, "cXx(b),ft", pa10, FLAG_STRICT},
{ "fldd",	0x2c000000, 0xfc001fc0, "cXx(s,b),ft", pa10, FLAG_STRICT},
{ "fldd",	0x2c000000, 0xfc00d3c0, "cxccx(b),ft", pa11, FLAG_STRICT},
{ "fldd",	0x2c000000, 0xfc0013c0, "cxccx(s,b),ft", pa11, FLAG_STRICT},
{ "fldd",	0x2c001020, 0xfc1ff3e0, "cocc@(b),ft", pa20, FLAG_STRICT},
{ "fldd",	0x2c001020, 0xfc1f33e0, "cocc@(s,b),ft", pa20, FLAG_STRICT},
{ "fldd",	0x2c001000, 0xfc00dfc0, "cM5(b),ft", pa10, FLAG_STRICT},
{ "fldd",	0x2c001000, 0xfc001fc0, "cM5(s,b),ft", pa10, FLAG_STRICT},
{ "fldd",	0x2c001000, 0xfc00d3c0, "cmcc5(b),ft", pa11, FLAG_STRICT},
{ "fldd",	0x2c001000, 0xfc0013c0, "cmcc5(s,b),ft", pa11, FLAG_STRICT},
{ "fldd",	0x50000002, 0xfc000002, "cq&(b),fx", pa20w, FLAG_STRICT},
{ "fldd",	0x50000002, 0xfc00c002, "cq#(b),fx", pa20, FLAG_STRICT},
{ "fldd",	0x50000002, 0xfc000002, "cq#(s,b),fx", pa20, FLAG_STRICT},
{ "fstw",	0x24000200, 0xfc00df80, "cXfT,x(b)", pa10, FLAG_STRICT},
{ "fstw",	0x24000200, 0xfc001f80, "cXfT,x(s,b)", pa10, FLAG_STRICT},
{ "fstw",	0x24000200, 0xfc00d380, "cxcCfT,x(b)", pa11, FLAG_STRICT},
{ "fstw",	0x24000200, 0xfc001380, "cxcCfT,x(s,b)", pa11, FLAG_STRICT},
{ "fstw",	0x24001220, 0xfc1ff3a0, "cocCfT,@(b)", pa20, FLAG_STRICT},
{ "fstw",	0x24001220, 0xfc1f33a0, "cocCfT,@(s,b)", pa20, FLAG_STRICT},
{ "fstw",	0x24001200, 0xfc00df80, "cMfT,5(b)", pa10, FLAG_STRICT},
{ "fstw",	0x24001200, 0xfc001f80, "cMfT,5(s,b)", pa10, FLAG_STRICT},
{ "fstw",	0x24001200, 0xfc00df80, "cMfT,5(b)", pa10, FLAG_STRICT},
{ "fstw",	0x24001200, 0xfc001f80, "cMfT,5(s,b)", pa10, FLAG_STRICT},
{ "fstw",	0x7c000000, 0xfc000004, "fE,y(b)", pa20w, FLAG_STRICT},
{ "fstw",	0x78000000, 0xfc000000, "cJfE,y(b)", pa20w, FLAG_STRICT},
{ "fstw",	0x7c000000, 0xfc00c004, "fE,d(b)", pa20, FLAG_STRICT},
{ "fstw",	0x7c000000, 0xfc000004, "fE,d(s,b)", pa20, FLAG_STRICT},
{ "fstw",	0x78000000, 0xfc00c000, "cJfE,d(b)", pa20, FLAG_STRICT},
{ "fstw",	0x78000000, 0xfc000000, "cJfE,d(s,b)", pa20, FLAG_STRICT},
{ "fstd",	0x2c000200, 0xfc00dfc0, "cXft,x(b)", pa10, FLAG_STRICT},
{ "fstd",	0x2c000200, 0xfc001fc0, "cXft,x(s,b)", pa10, FLAG_STRICT},
{ "fstd",	0x2c000200, 0xfc00d3c0, "cxcCft,x(b)", pa11, FLAG_STRICT},
{ "fstd",	0x2c000200, 0xfc0013c0, "cxcCft,x(s,b)", pa11, FLAG_STRICT},
{ "fstd",	0x2c001220, 0xfc1ff3e0, "cocCft,@(b)", pa20, FLAG_STRICT},
{ "fstd",	0x2c001220, 0xfc1f33e0, "cocCft,@(s,b)", pa20, FLAG_STRICT},
{ "fstd",	0x2c001200, 0xfc00dfc0, "cMft,5(b)", pa10, FLAG_STRICT},
{ "fstd",	0x2c001200, 0xfc001fc0, "cMft,5(s,b)", pa10, FLAG_STRICT},
{ "fstd",	0x2c001200, 0xfc00d3c0, "cmcCft,5(b)", pa11, FLAG_STRICT},
{ "fstd",	0x2c001200, 0xfc0013c0, "cmcCft,5(s,b)", pa11, FLAG_STRICT},
{ "fstd",	0x70000002, 0xfc000002, "cqfx,&(b)", pa20w, FLAG_STRICT},
{ "fstd",	0x70000002, 0xfc00c002, "cqfx,#(b)", pa20, FLAG_STRICT},
{ "fstd",	0x70000002, 0xfc000002, "cqfx,#(s,b)", pa20, FLAG_STRICT},
{ "fldwx",	0x24000000, 0xfc00df80, "cXx(b),fT", pa10, FLAG_STRICT},
{ "fldwx",	0x24000000, 0xfc001f80, "cXx(s,b),fT", pa10, FLAG_STRICT},
{ "fldwx",	0x24000000, 0xfc00d380, "cxccx(b),fT", pa11, FLAG_STRICT},
{ "fldwx",	0x24000000, 0xfc001380, "cxccx(s,b),fT", pa11, FLAG_STRICT},
{ "fldwx",	0x24000000, 0xfc00df80, "cXx(b),fT", pa10, 0},
{ "fldwx",	0x24000000, 0xfc001f80, "cXx(s,b),fT", pa10, 0},
{ "flddx",	0x2c000000, 0xfc00dfc0, "cXx(b),ft", pa10, FLAG_STRICT},
{ "flddx",	0x2c000000, 0xfc001fc0, "cXx(s,b),ft", pa10, FLAG_STRICT},
{ "flddx",	0x2c000000, 0xfc00d3c0, "cxccx(b),ft", pa11, FLAG_STRICT},
{ "flddx",	0x2c000000, 0xfc0013c0, "cxccx(s,b),ft", pa11, FLAG_STRICT},
{ "flddx",	0x2c000000, 0xfc00dfc0, "cXx(b),ft", pa10, 0},
{ "flddx",	0x2c000000, 0xfc001fc0, "cXx(s,b),ft", pa10, 0},
{ "fstwx",	0x24000200, 0xfc00df80, "cxfT,x(b)", pa10, FLAG_STRICT},
{ "fstwx",	0x24000200, 0xfc001f80, "cxfT,x(s,b)", pa10, FLAG_STRICT},
{ "fstwx",	0x24000200, 0xfc00d380, "cxcCfT,x(b)", pa11, FLAG_STRICT},
{ "fstwx",	0x24000200, 0xfc001380, "cxcCfT,x(s,b)", pa11, FLAG_STRICT},
{ "fstwx",	0x24000200, 0xfc00df80, "cxfT,x(b)", pa10, 0},
{ "fstwx",	0x24000200, 0xfc001f80, "cxfT,x(s,b)", pa10, 0},
{ "fstdx",	0x2c000200, 0xfc00dfc0, "cxft,x(b)", pa10, FLAG_STRICT},
{ "fstdx",	0x2c000200, 0xfc001fc0, "cxft,x(s,b)", pa10, FLAG_STRICT},
{ "fstdx",	0x2c000200, 0xfc00d3c0, "cxcCft,x(b)", pa11, FLAG_STRICT},
{ "fstdx",	0x2c000200, 0xfc0013c0, "cxcCft,x(s,b)", pa11, FLAG_STRICT},
{ "fstdx",	0x2c000200, 0xfc00dfc0, "cxft,x(b)", pa10, 0},
{ "fstdx",	0x2c000200, 0xfc001fc0, "cxft,x(s,b)", pa10, 0},
{ "fstqx",	0x3c000200, 0xfc00dfc0, "cxft,x(b)", pa10, 0},
{ "fstqx",	0x3c000200, 0xfc001fc0, "cxft,x(s,b)", pa10, 0},
{ "fldws",	0x24001000, 0xfc00df80, "cm5(b),fT", pa10, FLAG_STRICT},
{ "fldws",	0x24001000, 0xfc001f80, "cm5(s,b),fT", pa10, FLAG_STRICT},
{ "fldws",	0x24001000, 0xfc00d380, "cmcc5(b),fT", pa11, FLAG_STRICT},
{ "fldws",	0x24001000, 0xfc001380, "cmcc5(s,b),fT", pa11, FLAG_STRICT},
{ "fldws",	0x24001000, 0xfc00df80, "cm5(b),fT", pa10, 0},
{ "fldws",	0x24001000, 0xfc001f80, "cm5(s,b),fT", pa10, 0},
{ "fldds",	0x2c001000, 0xfc00dfc0, "cm5(b),ft", pa10, FLAG_STRICT},
{ "fldds",	0x2c001000, 0xfc001fc0, "cm5(s,b),ft", pa10, FLAG_STRICT},
{ "fldds",	0x2c001000, 0xfc00d3c0, "cmcc5(b),ft", pa11, FLAG_STRICT},
{ "fldds",	0x2c001000, 0xfc0013c0, "cmcc5(s,b),ft", pa11, FLAG_STRICT},
{ "fldds",	0x2c001000, 0xfc00dfc0, "cm5(b),ft", pa10, 0},
{ "fldds",	0x2c001000, 0xfc001fc0, "cm5(s,b),ft", pa10, 0},
{ "fstws",	0x24001200, 0xfc00df80, "cmfT,5(b)", pa10, FLAG_STRICT},
{ "fstws",	0x24001200, 0xfc001f80, "cmfT,5(s,b)", pa10, FLAG_STRICT},
{ "fstws",	0x24001200, 0xfc00d380, "cmcCfT,5(b)", pa11, FLAG_STRICT},
{ "fstws",	0x24001200, 0xfc001380, "cmcCfT,5(s,b)", pa11, FLAG_STRICT},
{ "fstws",	0x24001200, 0xfc00df80, "cmfT,5(b)", pa10, 0},
{ "fstws",	0x24001200, 0xfc001f80, "cmfT,5(s,b)", pa10, 0},
{ "fstds",	0x2c001200, 0xfc00dfc0, "cmft,5(b)", pa10, FLAG_STRICT},
{ "fstds",	0x2c001200, 0xfc001fc0, "cmft,5(s,b)", pa10, FLAG_STRICT},
{ "fstds",	0x2c001200, 0xfc00d3c0, "cmcCft,5(b)", pa11, FLAG_STRICT},
{ "fstds",	0x2c001200, 0xfc0013c0, "cmcCft,5(s,b)", pa11, FLAG_STRICT},
{ "fstds",	0x2c001200, 0xfc00dfc0, "cmft,5(b)", pa10, 0},
{ "fstds",	0x2c001200, 0xfc001fc0, "cmft,5(s,b)", pa10, 0},
{ "fstqs",	0x3c001200, 0xfc00dfc0, "cmft,5(b)", pa10, 0},
{ "fstqs",	0x3c001200, 0xfc001fc0, "cmft,5(s,b)", pa10, 0},
{ "fadd",	0x30000600, 0xfc00e7e0, "Ffa,fb,fT", pa10, 0},
{ "fadd",	0x38000600, 0xfc00e720, "IfA,fB,fT", pa10, 0},
{ "fsub",	0x30002600, 0xfc00e7e0, "Ffa,fb,fT", pa10, 0},
{ "fsub",	0x38002600, 0xfc00e720, "IfA,fB,fT", pa10, 0},
{ "fmpy",	0x30004600, 0xfc00e7e0, "Ffa,fb,fT", pa10, 0},
{ "fmpy",	0x38004600, 0xfc00e720, "IfA,fB,fT", pa10, 0},
{ "fdiv",	0x30006600, 0xfc00e7e0, "Ffa,fb,fT", pa10, 0},
{ "fdiv",	0x38006600, 0xfc00e720, "IfA,fB,fT", pa10, 0},
{ "fsqrt",	0x30008000, 0xfc1fe7e0, "Ffa,fT", pa10, 0},
{ "fsqrt",	0x38008000, 0xfc1fe720, "FfA,fT", pa10, 0},
{ "fabs",	0x30006000, 0xfc1fe7e0, "Ffa,fT", pa10, 0},
{ "fabs",	0x38006000, 0xfc1fe720, "FfA,fT", pa10, 0},
{ "frem",	0x30008600, 0xfc00e7e0, "Ffa,fb,fT", pa10, 0},
{ "frem",	0x38008600, 0xfc00e720, "FfA,fB,fT", pa10, 0},
{ "frnd",	0x3000a000, 0xfc1fe7e0, "Ffa,fT", pa10, 0},
{ "frnd",	0x3800a000, 0xfc1fe720, "FfA,fT", pa10, 0},
{ "fcpy",	0x30004000, 0xfc1fe7e0, "Ffa,fT", pa10, 0},
{ "fcpy",	0x38004000, 0xfc1fe720, "FfA,fT", pa10, 0},
{ "fcnvff",	0x30000200, 0xfc1f87e0, "FGfa,fT", pa10, 0},
{ "fcnvff",	0x38000200, 0xfc1f8720, "FGfA,fT", pa10, 0},
{ "fcnvxf",	0x30008200, 0xfc1f87e0, "FGfa,fT", pa10, 0},
{ "fcnvxf",	0x38008200, 0xfc1f8720, "FGfA,fT", pa10, 0},
{ "fcnvfx",	0x30010200, 0xfc1f87e0, "FGfa,fT", pa10, 0},
{ "fcnvfx",	0x38010200, 0xfc1f8720, "FGfA,fT", pa10, 0},
{ "fcnvfxt",	0x30018200, 0xfc1f87e0, "FGfa,fT", pa10, 0},
{ "fcnvfxt",	0x38018200, 0xfc1f8720, "FGfA,fT", pa10, 0},
{ "fmpyfadd",	0xb8000000, 0xfc000020, "IfA,fB,fC,fT", pa20, FLAG_STRICT},
{ "fmpynfadd",	0xb8000020, 0xfc000020, "IfA,fB,fC,fT", pa20, FLAG_STRICT},
{ "fneg",	0x3000c000, 0xfc1fe7e0, "Ffa,fT", pa20, FLAG_STRICT},
{ "fneg",	0x3800c000, 0xfc1fe720, "IfA,fT", pa20, FLAG_STRICT},
{ "fnegabs",	0x3000e000, 0xfc1fe7e0, "Ffa,fT", pa20, FLAG_STRICT},
{ "fnegabs",	0x3800e000, 0xfc1fe720, "IfA,fT", pa20, FLAG_STRICT},
{ "fcnv",	0x30000200, 0xfc1c0720, "{_fa,fT", pa20, FLAG_STRICT},
{ "fcnv",	0x38000200, 0xfc1c0720, "FGfA,fT", pa20, FLAG_STRICT},
{ "fcmp",	0x30000400, 0xfc00e7e0, "F?ffa,fb", pa10, FLAG_STRICT},
{ "fcmp",	0x38000400, 0xfc00e720, "I?ffA,fB", pa10, FLAG_STRICT},
{ "fcmp",	0x30000400, 0xfc0007e0, "F?ffa,fb,h", pa20, FLAG_STRICT},
{ "fcmp",	0x38000400, 0xfc000720, "I?ffA,fB,h", pa20, FLAG_STRICT},
{ "fcmp",	0x30000400, 0xfc00e7e0, "F?ffa,fb", pa10, 0},
{ "fcmp",	0x38000400, 0xfc00e720, "I?ffA,fB", pa10, 0},
{ "xmpyu",	0x38004700, 0xfc00e720, "fX,fB,fT", pa11, 0},
{ "fmpyadd",	0x18000000, 0xfc000000, "Hfi,fj,fk,fl,fm", pa11, 0},
{ "fmpysub",	0x98000000, 0xfc000000, "Hfi,fj,fk,fl,fm", pa11, 0},
{ "ftest",	0x30002420, 0xffffffff, "", pa10, FLAG_STRICT},
{ "ftest",	0x30002420, 0xffffffe0, ",=", pa20, FLAG_STRICT},
{ "ftest",	0x30000420, 0xffff1fff, "m", pa20, FLAG_STRICT},
{ "fid",	0x30000000, 0xffffffff, "", pa11, 0},

/* Performance Monitor Instructions.  */

{ "pmdis",	0x30000280, 0xffffffdf, "N", pa20, FLAG_STRICT},
{ "pmenb",	0x30000680, 0xffffffff, "", pa20, FLAG_STRICT},

/* Assist Instructions.  */

{ "spop0",	0x10000000, 0xfc000600, "v,ON", pa10, 0},
{ "spop1",	0x10000200, 0xfc000600, "v,oNt", pa10, 0},
{ "spop2",	0x10000400, 0xfc000600, "v,1Nb", pa10, 0},
{ "spop3",	0x10000600, 0xfc000600, "v,0Nx,b", pa10, 0},
{ "copr",	0x30000000, 0xfc000000, "u,2N", pa10, 0},
{ "cldw",	0x24000000, 0xfc00de00, "ucXx(b),t", pa10, FLAG_STRICT},
{ "cldw",	0x24000000, 0xfc001e00, "ucXx(s,b),t", pa10, FLAG_STRICT},
{ "cldw",	0x24000000, 0xfc00d200, "ucxccx(b),t", pa11, FLAG_STRICT},
{ "cldw",	0x24000000, 0xfc001200, "ucxccx(s,b),t", pa11, FLAG_STRICT},
{ "cldw",	0x24001000, 0xfc00d200, "ucocc@(b),t", pa20, FLAG_STRICT},
{ "cldw",	0x24001000, 0xfc001200, "ucocc@(s,b),t", pa20, FLAG_STRICT},
{ "cldw",	0x24001000, 0xfc00de00, "ucM5(b),t", pa10, FLAG_STRICT},
{ "cldw",	0x24001000, 0xfc001e00, "ucM5(s,b),t", pa10, FLAG_STRICT},
{ "cldw",	0x24001000, 0xfc00d200, "ucmcc5(b),t", pa11, FLAG_STRICT},
{ "cldw",	0x24001000, 0xfc001200, "ucmcc5(s,b),t", pa11, FLAG_STRICT},
{ "cldd",	0x2c000000, 0xfc00de00, "ucXx(b),t", pa10, FLAG_STRICT},
{ "cldd",	0x2c000000, 0xfc001e00, "ucXx(s,b),t", pa10, FLAG_STRICT},
{ "cldd",	0x2c000000, 0xfc00d200, "ucxccx(b),t", pa11, FLAG_STRICT},
{ "cldd",	0x2c000000, 0xfc001200, "ucxccx(s,b),t", pa11, FLAG_STRICT},
{ "cldd",	0x2c001000, 0xfc00d200, "ucocc@(b),t", pa20, FLAG_STRICT},
{ "cldd",	0x2c001000, 0xfc001200, "ucocc@(s,b),t", pa20, FLAG_STRICT},
{ "cldd",	0x2c001000, 0xfc00de00, "ucM5(b),t", pa10, FLAG_STRICT},
{ "cldd",	0x2c001000, 0xfc001e00, "ucM5(s,b),t", pa10, FLAG_STRICT},
{ "cldd",	0x2c001000, 0xfc00d200, "ucmcc5(b),t", pa11, FLAG_STRICT},
{ "cldd",	0x2c001000, 0xfc001200, "ucmcc5(s,b),t", pa11, FLAG_STRICT},
{ "cstw",	0x24000200, 0xfc00de00, "ucXt,x(b)", pa10, FLAG_STRICT},
{ "cstw",	0x24000200, 0xfc001e00, "ucXt,x(s,b)", pa10, FLAG_STRICT},
{ "cstw",	0x24000200, 0xfc00d200, "ucxcCt,x(b)", pa11, FLAG_STRICT},
{ "cstw",	0x24000200, 0xfc001200, "ucxcCt,x(s,b)", pa11, FLAG_STRICT},
{ "cstw",	0x24001200, 0xfc00d200, "ucocCt,@(b)", pa20, FLAG_STRICT},
{ "cstw",	0x24001200, 0xfc001200, "ucocCt,@(s,b)", pa20, FLAG_STRICT},
{ "cstw",	0x24001200, 0xfc00de00, "ucMt,5(b)", pa10, FLAG_STRICT},
{ "cstw",	0x24001200, 0xfc001e00, "ucMt,5(s,b)", pa10, FLAG_STRICT},
{ "cstw",	0x24001200, 0xfc00d200, "ucmcCt,5(b)", pa11, FLAG_STRICT},
{ "cstw",	0x24001200, 0xfc001200, "ucmcCt,5(s,b)", pa11, FLAG_STRICT},
{ "cstd",	0x2c000200, 0xfc00de00, "ucXt,x(b)", pa10, FLAG_STRICT},
{ "cstd",	0x2c000200, 0xfc001e00, "ucXt,x(s,b)", pa10, FLAG_STRICT},
{ "cstd",	0x2c000200, 0xfc00d200, "ucxcCt,x(b)", pa11, FLAG_STRICT},
{ "cstd",	0x2c000200, 0xfc001200, "ucxcCt,x(s,b)", pa11, FLAG_STRICT},
{ "cstd",	0x2c001200, 0xfc00d200, "ucocCt,@(b)", pa20, FLAG_STRICT},
{ "cstd",	0x2c001200, 0xfc001200, "ucocCt,@(s,b)", pa20, FLAG_STRICT},
{ "cstd",	0x2c001200, 0xfc00de00, "ucMt,5(b)", pa10, FLAG_STRICT},
{ "cstd",	0x2c001200, 0xfc001e00, "ucMt,5(s,b)", pa10, FLAG_STRICT},
{ "cstd",	0x2c001200, 0xfc00d200, "ucmcCt,5(b)", pa11, FLAG_STRICT},
{ "cstd",	0x2c001200, 0xfc001200, "ucmcCt,5(s,b)", pa11, FLAG_STRICT},
{ "cldwx",	0x24000000, 0xfc00de00, "ucXx(b),t", pa10, FLAG_STRICT},
{ "cldwx",	0x24000000, 0xfc001e00, "ucXx(s,b),t", pa10, FLAG_STRICT},
{ "cldwx",	0x24000000, 0xfc00d200, "ucxccx(b),t", pa11, FLAG_STRICT},
{ "cldwx",	0x24000000, 0xfc001200, "ucxccx(s,b),t", pa11, FLAG_STRICT},
{ "cldwx",	0x24000000, 0xfc00de00, "ucXx(b),t", pa10, 0},
{ "cldwx",	0x24000000, 0xfc001e00, "ucXx(s,b),t", pa10, 0},
{ "clddx",	0x2c000000, 0xfc00de00, "ucXx(b),t", pa10, FLAG_STRICT},
{ "clddx",	0x2c000000, 0xfc001e00, "ucXx(s,b),t", pa10, FLAG_STRICT},
{ "clddx",	0x2c000000, 0xfc00d200, "ucxccx(b),t", pa11, FLAG_STRICT},
{ "clddx",	0x2c000000, 0xfc001200, "ucxccx(s,b),t", pa11, FLAG_STRICT},
{ "clddx",	0x2c000000, 0xfc00de00, "ucXx(b),t", pa10, 0},
{ "clddx",	0x2c000000, 0xfc001e00, "ucXx(s,b),t", pa10, 0},
{ "cstwx",	0x24000200, 0xfc00de00, "ucXt,x(b)", pa10, FLAG_STRICT},
{ "cstwx",	0x24000200, 0xfc001e00, "ucXt,x(s,b)", pa10, FLAG_STRICT},
{ "cstwx",	0x24000200, 0xfc00d200, "ucxcCt,x(b)", pa11, FLAG_STRICT},
{ "cstwx",	0x24000200, 0xfc001200, "ucxcCt,x(s,b)", pa11, FLAG_STRICT},
{ "cstwx",	0x24000200, 0xfc00de00, "ucXt,x(b)", pa10, 0},
{ "cstwx",	0x24000200, 0xfc001e00, "ucXt,x(s,b)", pa10, 0},
{ "cstdx",	0x2c000200, 0xfc00de00, "ucXt,x(b)", pa10, FLAG_STRICT},
{ "cstdx",	0x2c000200, 0xfc001e00, "ucXt,x(s,b)", pa10, FLAG_STRICT},
{ "cstdx",	0x2c000200, 0xfc00d200, "ucxcCt,x(b)", pa11, FLAG_STRICT},
{ "cstdx",	0x2c000200, 0xfc001200, "ucxcCt,x(s,b)", pa11, FLAG_STRICT},
{ "cstdx",	0x2c000200, 0xfc00de00, "ucXt,x(b)", pa10, 0},
{ "cstdx",	0x2c000200, 0xfc001e00, "ucXt,x(s,b)", pa10, 0},
{ "cldws",	0x24001000, 0xfc00de00, "ucM5(b),t", pa10, FLAG_STRICT},
{ "cldws",	0x24001000, 0xfc001e00, "ucM5(s,b),t", pa10, FLAG_STRICT},
{ "cldws",	0x24001000, 0xfc00d200, "ucmcc5(b),t", pa11, FLAG_STRICT},
{ "cldws",	0x24001000, 0xfc001200, "ucmcc5(s,b),t", pa11, FLAG_STRICT},
{ "cldws",	0x24001000, 0xfc00de00, "ucM5(b),t", pa10, 0},
{ "cldws",	0x24001000, 0xfc001e00, "ucM5(s,b),t", pa10, 0},
{ "cldds",	0x2c001000, 0xfc00de00, "ucM5(b),t", pa10, FLAG_STRICT},
{ "cldds",	0x2c001000, 0xfc001e00, "ucM5(s,b),t", pa10, FLAG_STRICT},
{ "cldds",	0x2c001000, 0xfc00d200, "ucmcc5(b),t", pa11, FLAG_STRICT},
{ "cldds",	0x2c001000, 0xfc001200, "ucmcc5(s,b),t", pa11, FLAG_STRICT},
{ "cldds",	0x2c001000, 0xfc00de00, "ucM5(b),t", pa10, 0},
{ "cldds",	0x2c001000, 0xfc001e00, "ucM5(s,b),t", pa10, 0},
{ "cstws",	0x24001200, 0xfc00de00, "ucMt,5(b)", pa10, FLAG_STRICT},
{ "cstws",	0x24001200, 0xfc001e00, "ucMt,5(s,b)", pa10, FLAG_STRICT},
{ "cstws",	0x24001200, 0xfc00d200, "ucmcCt,5(b)", pa11, FLAG_STRICT},
{ "cstws",	0x24001200, 0xfc001200, "ucmcCt,5(s,b)", pa11, FLAG_STRICT},
{ "cstws",	0x24001200, 0xfc00de00, "ucMt,5(b)", pa10, 0},
{ "cstws",	0x24001200, 0xfc001e00, "ucMt,5(s,b)", pa10, 0},
{ "cstds",	0x2c001200, 0xfc00de00, "ucMt,5(b)", pa10, FLAG_STRICT},
{ "cstds",	0x2c001200, 0xfc001e00, "ucMt,5(s,b)", pa10, FLAG_STRICT},
{ "cstds",	0x2c001200, 0xfc00d200, "ucmcCt,5(b)", pa11, FLAG_STRICT},
{ "cstds",	0x2c001200, 0xfc001200, "ucmcCt,5(s,b)", pa11, FLAG_STRICT},
{ "cstds",	0x2c001200, 0xfc00de00, "ucMt,5(b)", pa10, 0},
{ "cstds",	0x2c001200, 0xfc001e00, "ucMt,5(s,b)", pa10, 0},

/* More pseudo instructions which must follow the main table.  */
{ "call",	0xe800f000, 0xfc1ffffd, "n(b)", pa20, FLAG_STRICT},
{ "call",	0xe800a000, 0xffe0e000, "nW", pa10, FLAG_STRICT},
{ "ret",	0xe840d000, 0xfffffffd, "n", pa20, FLAG_STRICT},

/* Opcodes assigned to QEMU, used by SeaBIOS firmware and Linux kernel */
{ "HALT QEMU",	0xfffdead0, 0xfffffffd, "n", pa10, FLAG_STRICT},
{ "RESET QEMU",	0xfffdead1, 0xfffffffd, "n", pa10, FLAG_STRICT},
{ "RESTORE SHR",0xfffdead2, 0xfffffffd, "n", pa10, FLAG_STRICT},
};

#define NUMOPCODES ((sizeof pa_opcodes)/(sizeof pa_opcodes[0]))

/* SKV 12/18/92. Added some denotations for various operands.  */

#define PA_IMM11_AT_31 'i'
#define PA_IMM14_AT_31 'j'
#define PA_IMM21_AT_31 'k'
#define PA_DISP12 'w'
#define PA_DISP17 'W'

#define N_HPPA_OPERAND_FORMATS 5

/* Integer register names, indexed by the numbers which appear in the
   opcodes.  */
static const char *const reg_names[] =
{
  "flags", "r1", "rp", "r3", "r4", "r5", "r6", "r7", "r8", "r9",
  "r10", "r11", "r12", "r13", "r14", "r15", "r16", "r17", "r18", "r19",
  "r20", "r21", "r22", "r23", "r24", "r25", "r26", "dp", "ret0", "ret1",
  "sp", "r31"
};

/* Floating point register names, indexed by the numbers which appear in the
   opcodes.  */
static const char *const fp_reg_names[] =
{
  "fpsr", "fpe2", "fpe4", "fpe6",
  "fr4", "fr5", "fr6", "fr7", "fr8",
  "fr9", "fr10", "fr11", "fr12", "fr13", "fr14", "fr15",
  "fr16", "fr17", "fr18", "fr19", "fr20", "fr21", "fr22", "fr23",
  "fr24", "fr25", "fr26", "fr27", "fr28", "fr29", "fr30", "fr31"
};

typedef unsigned int CORE_ADDR;

/* Get at various relevant fields of an instruction word.  */

#define MASK_5  0x1f
#define MASK_10 0x3ff
#define MASK_11 0x7ff
#define MASK_14 0x3fff
#define MASK_16 0xffff
#define MASK_21 0x1fffff

/* These macros get bit fields using HP's numbering (MSB = 0).  */

#define GET_FIELD(X, FROM, TO) \
  ((X) >> (31 - (TO)) & ((1 << ((TO) - (FROM) + 1)) - 1))

#define GET_BIT(X, WHICH) \
  GET_FIELD (X, WHICH, WHICH)

/* Some of these have been converted to 2-d arrays because they
   consume less storage this way.  If the maintenance becomes a
   problem, convert them back to const 1-d pointer arrays.  */
static const char *const control_reg[] =
{
  "rctr", "cr1", "cr2", "cr3", "cr4", "cr5", "cr6", "cr7",
  "pidr1", "pidr2", "ccr", "sar", "pidr3", "pidr4",
  "iva", "eiem", "itmr", "pcsq", "pcoq", "iir", "isr",
  "ior", "ipsw", "eirr", "tr0", "tr1", "tr2", "tr3",
  "tr4", "tr5", "tr6", "tr7"
};

static const char *const compare_cond_names[] =
{
  "", ",=", ",<", ",<=", ",<<", ",<<=", ",sv", ",od",
  ",tr", ",<>", ",>=", ",>", ",>>=", ",>>", ",nsv", ",ev"
};
static const char *const compare_cond_64_names[] =
{
  "", ",*=", ",*<", ",*<=", ",*<<", ",*<<=", ",*sv", ",*od",
  ",*tr", ",*<>", ",*>=", ",*>", ",*>>=", ",*>>", ",*nsv", ",*ev"
};
static const char *const cmpib_cond_64_names[] =
{
  ",*<<", ",*=", ",*<", ",*<=", ",*>>=", ",*<>", ",*>=", ",*>"
};
static const char *const add_cond_names[] =
{
  "", ",=", ",<", ",<=", ",nuv", ",znv", ",sv", ",od",
  ",tr", ",<>", ",>=", ",>", ",uv", ",vnz", ",nsv", ",ev"
};
static const char *const add_cond_64_names[] =
{
  "", ",*=", ",*<", ",*<=", ",*nuv", ",*znv", ",*sv", ",*od",
  ",*tr", ",*<>", ",*>=", ",*>", ",*uv", ",*vnz", ",*nsv", ",*ev"
};
static const char *const wide_add_cond_names[] =
{
  "", ",=", ",<", ",<=", ",nuv", ",*=", ",*<", ",*<=",
  ",tr", ",<>", ",>=", ",>", ",uv", ",*<>", ",*>=", ",*>"
};
static const char *const logical_cond_names[] =
{
  "", ",=", ",<", ",<=", 0, 0, 0, ",od",
  ",tr", ",<>", ",>=", ",>", 0, 0, 0, ",ev"};
static const char *const logical_cond_64_names[] =
{
  "", ",*=", ",*<", ",*<=", 0, 0, 0, ",*od",
  ",*tr", ",*<>", ",*>=", ",*>", 0, 0, 0, ",*ev"};
static const char *const unit_cond_names[] =
{
  "", ",swz", ",sbz", ",shz", ",sdc", ",swc", ",sbc", ",shc",
  ",tr", ",nwz", ",nbz", ",nhz", ",ndc", ",nwc", ",nbc", ",nhc"
};
static const char *const unit_cond_64_names[] =
{
  "", ",*swz", ",*sbz", ",*shz", ",*sdc", ",*swc", ",*sbc", ",*shc",
  ",*tr", ",*nwz", ",*nbz", ",*nhz", ",*ndc", ",*nwc", ",*nbc", ",*nhc"
};
static const char *const shift_cond_names[] =
{
  "", ",=", ",<", ",od", ",tr", ",<>", ",>=", ",ev"
};
static const char *const shift_cond_64_names[] =
{
  "", ",*=", ",*<", ",*od", ",*tr", ",*<>", ",*>=", ",*ev"
};
static const char *const bb_cond_64_names[] =
{
  ",*<", ",*>="
};
static const char *const index_compl_names[] = {"", ",m", ",s", ",sm"};
static const char *const short_ldst_compl_names[] = {"", ",ma", "", ",mb"};
static const char *const short_bytes_compl_names[] =
{
  "", ",b,m", ",e", ",e,m"
};
static const char *const float_format_names[] = {",sgl", ",dbl", "", ",quad"};
static const char *const fcnv_fixed_names[] = {",w", ",dw", "", ",qw"};
static const char *const fcnv_ufixed_names[] = {",uw", ",udw", "", ",uqw"};
static const char *const float_comp_names[] =
{
  ",false?", ",false", ",?", ",!<=>", ",=", ",=t", ",?=", ",!<>",
  ",!?>=", ",<", ",?<", ",!>=", ",!?>", ",<=", ",?<=", ",!>",
  ",!?<=", ",>", ",?>", ",!<=", ",!?<", ",>=", ",?>=", ",!<",
  ",!?=", ",<>", ",!=", ",!=t", ",!?", ",<=>", ",true?", ",true"
};
static const char *const signed_unsigned_names[] = {",u", ",s"};
static const char *const mix_half_names[] = {",l", ",r"};
static const char *const saturation_names[] = {",us", ",ss", 0, ""};
static const char *const read_write_names[] = {",r", ",w"};
static const char *const add_compl_names[] = { 0, "", ",l", ",tsv" };

/* For a bunch of different instructions form an index into a
   completer name table.  */
#define GET_COMPL(insn) (GET_FIELD (insn, 26, 26) | \
			 GET_FIELD (insn, 18, 18) << 1)

#define GET_COND(insn) (GET_FIELD ((insn), 16, 18) + \
			(GET_FIELD ((insn), 19, 19) ? 8 : 0))

/* Utility function to print registers.  Put these first, so gcc's function
   inlining can do its stuff.  */

#define fputs_filtered(STR,F)	(*info->fprintf_func) (info->stream, "%s", STR)

static void
fput_reg (unsigned reg, disassemble_info *info)
{
  (*info->fprintf_func) (info->stream, "%s", reg ? reg_names[reg] : "r0");
}

static void
fput_fp_reg (unsigned reg, disassemble_info *info)
{
  (*info->fprintf_func) (info->stream, "%s", reg ? fp_reg_names[reg] : "fr0");
}

static void
fput_fp_reg_r (unsigned reg, disassemble_info *info)
{
  /* Special case floating point exception registers.  */
  if (reg < 4)
    (*info->fprintf_func) (info->stream, "fpe%d", reg * 2 + 1);
  else
    (*info->fprintf_func) (info->stream, "%sR", fp_reg_names[reg]);
}

static void
fput_creg (unsigned reg, disassemble_info *info)
{
  (*info->fprintf_func) (info->stream, "%s", control_reg[reg]);
}

/* Print constants with sign.  */

static void
fput_const (unsigned num, disassemble_info *info)
{
  if ((int) num < 0)
    (*info->fprintf_func) (info->stream, "-%x", - (int) num);
  else
    (*info->fprintf_func) (info->stream, "%x", num);
}

/* Routines to extract various sized constants out of hppa
   instructions.  */

/* Extract a 3-bit space register number from a be, ble, mtsp or mfsp.  */
static int
extract_3 (unsigned word)
{
  return GET_FIELD (word, 18, 18) << 2 | GET_FIELD (word, 16, 17);
}

static int
extract_5_load (unsigned word)
{
  return low_sign_extend (word >> 16 & MASK_5, 5);
}

/* Extract the immediate field from a st{bhw}s instruction.  */

static int
extract_5_store (unsigned word)
{
  return low_sign_extend (word & MASK_5, 5);
}

/* Extract the immediate field from a break instruction.  */

static unsigned
extract_5r_store (unsigned word)
{
  return (word & MASK_5);
}

/* Extract the immediate field from a {sr}sm instruction.  */

static unsigned
extract_5R_store (unsigned word)
{
  return (word >> 16 & MASK_5);
}

/* Extract the 10 bit immediate field from a {sr}sm instruction.  */

static unsigned
extract_10U_store (unsigned word)
{
  return (word >> 16 & MASK_10);
}

/* Extract the immediate field from a bb instruction.  */

static unsigned
extract_5Q_store (unsigned word)
{
  return (word >> 21 & MASK_5);
}

/* Extract an 11 bit immediate field.  */

static int
extract_11 (unsigned word)
{
  return low_sign_extend (word & MASK_11, 11);
}

/* Extract a 14 bit immediate field.  */

static int
extract_14 (unsigned word)
{
  return low_sign_extend (word & MASK_14, 14);
}

/* Extract a 16 bit immediate field (PA2.0 wide only).  */

static int
extract_16 (unsigned word)
{
  int m15, m0, m1;

  m0 = GET_BIT (word, 16);
  m1 = GET_BIT (word, 17);
  m15 = GET_BIT (word, 31);
  word = (word >> 1) & 0x1fff;
  word = word | (m15 << 15) | ((m15 ^ m0) << 14) | ((m15 ^ m1) << 13);
  return sign_extend (word, 16);
}

/* Extract a 21 bit constant.  */

static int
extract_21 (unsigned word)
{
  int val;

  word &= MASK_21;
  word <<= 11;
  val = GET_FIELD (word, 20, 20);
  val <<= 11;
  val |= GET_FIELD (word, 9, 19);
  val <<= 2;
  val |= GET_FIELD (word, 5, 6);
  val <<= 5;
  val |= GET_FIELD (word, 0, 4);
  val <<= 2;
  val |= GET_FIELD (word, 7, 8);
  return sign_extend (val, 21) << 11;
}

/* Extract a 12 bit constant from branch instructions.  */

static int
extract_12 (unsigned word)
{
  return sign_extend (GET_FIELD (word, 19, 28)
		      | GET_FIELD (word, 29, 29) << 10
		      | (word & 0x1) << 11, 12) << 2;
}

/* Extract a 17 bit constant from branch instructions, returning the
   19 bit signed value.  */

static int
extract_17 (unsigned word)
{
  return sign_extend (GET_FIELD (word, 19, 28)
		      | GET_FIELD (word, 29, 29) << 10
		      | GET_FIELD (word, 11, 15) << 11
		      | (word & 0x1) << 16, 17) << 2;
}

static int
extract_22 (unsigned word)
{
  return sign_extend (GET_FIELD (word, 19, 28)
		      | GET_FIELD (word, 29, 29) << 10
		      | GET_FIELD (word, 11, 15) << 11
		      | GET_FIELD (word, 6, 10) << 16
		      | (word & 0x1) << 21, 22) << 2;
}

/* Print one instruction.  */

int
print_insn_hppa (bfd_vma memaddr, disassemble_info *info)
{
  bfd_byte buffer[4];
  unsigned int insn, i;

  {
    int status =
      (*info->read_memory_func) (memaddr, buffer, sizeof (buffer), info);
    if (status != 0)
      {
	(*info->memory_error_func) (status, memaddr, info);
	return -1;
      }
  }

  insn = bfd_getb32 (buffer);

  if (info->show_opcodes) {
      info->fprintf_func(info->stream, " %02x %02x %02x %02x   ",
                         (insn >> 24) & 0xff, (insn >> 16) & 0xff,
                         (insn >>  8) & 0xff, insn & 0xff);
  }

  for (i = 0; i < NUMOPCODES; ++i)
    {
      const struct pa_opcode *opcode = &pa_opcodes[i];

      if ((insn & opcode->mask) == opcode->match)
	{
	  const char *s;
#ifndef BFD64
	  if (opcode->arch == pa20w)
	    continue;
#endif
	  (*info->fprintf_func) (info->stream, "%s", opcode->name);

	  if (!strchr ("cfCY?-+nHNZFIuv{", opcode->args[0]))
	    (*info->fprintf_func) (info->stream, " ");
	  for (s = opcode->args; *s != '\0'; ++s)
	    {
	      switch (*s)
		{
		case 'x':
		  fput_reg (GET_FIELD (insn, 11, 15), info);
		  break;
		case 'a':
		case 'b':
		  fput_reg (GET_FIELD (insn, 6, 10), info);
		  break;
		case '^':
		  fput_creg (GET_FIELD (insn, 6, 10), info);
		  break;
		case 't':
		  fput_reg (GET_FIELD (insn, 27, 31), info);
		  break;

		  /* Handle floating point registers.  */
		case 'f':
		  switch (*++s)
		    {
		    case 't':
		      fput_fp_reg (GET_FIELD (insn, 27, 31), info);
		      break;
		    case 'T':
		      if (GET_FIELD (insn, 25, 25))
			fput_fp_reg_r (GET_FIELD (insn, 27, 31), info);
		      else
			fput_fp_reg (GET_FIELD (insn, 27, 31), info);
		      break;
		    case 'a':
		      if (GET_FIELD (insn, 25, 25))
			fput_fp_reg_r (GET_FIELD (insn, 6, 10), info);
		      else
			fput_fp_reg (GET_FIELD (insn, 6, 10), info);
		      break;

		      /* 'fA' will not generate a space before the register
			 name.  Normally that is fine.  Except that it
			 causes problems with xmpyu which has no FP format
			 completer.  */
		    case 'X':
		      fputs_filtered (" ", info);
		      /* FALLTHRU */

		    case 'A':
		      if (GET_FIELD (insn, 24, 24))
			fput_fp_reg_r (GET_FIELD (insn, 6, 10), info);
		      else
			fput_fp_reg (GET_FIELD (insn, 6, 10), info);
		      break;
		    case 'b':
		      if (GET_FIELD (insn, 25, 25))
			fput_fp_reg_r (GET_FIELD (insn, 11, 15), info);
		      else
			fput_fp_reg (GET_FIELD (insn, 11, 15), info);
		      break;
		    case 'B':
		      if (GET_FIELD (insn, 19, 19))
			fput_fp_reg_r (GET_FIELD (insn, 11, 15), info);
		      else
			fput_fp_reg (GET_FIELD (insn, 11, 15), info);
		      break;
		    case 'C':
		      {
			int reg = GET_FIELD (insn, 21, 22);
			reg |= GET_FIELD (insn, 16, 18) << 2;
			if (GET_FIELD (insn, 23, 23) != 0)
			  fput_fp_reg_r (reg, info);
			else
			  fput_fp_reg (reg, info);
			break;
		      }
		    case 'i':
		      {
			int reg = GET_FIELD (insn, 6, 10);

			reg |= (GET_FIELD (insn, 26, 26) << 4);
			fput_fp_reg (reg, info);
			break;
		      }
		    case 'j':
		      {
			int reg = GET_FIELD (insn, 11, 15);

			reg |= (GET_FIELD (insn, 26, 26) << 4);
			fput_fp_reg (reg, info);
			break;
		      }
		    case 'k':
		      {
			int reg = GET_FIELD (insn, 27, 31);

			reg |= (GET_FIELD (insn, 26, 26) << 4);
			fput_fp_reg (reg, info);
			break;
		      }
		    case 'l':
		      {
			int reg = GET_FIELD (insn, 21, 25);

			reg |= (GET_FIELD (insn, 26, 26) << 4);
			fput_fp_reg (reg, info);
			break;
		      }
		    case 'm':
		      {
			int reg = GET_FIELD (insn, 16, 20);

			reg |= (GET_FIELD (insn, 26, 26) << 4);
			fput_fp_reg (reg, info);
			break;
		      }

		      /* 'fe' will not generate a space before the register
			 name.  Normally that is fine.  Except that it
			 causes problems with fstw fe,y(b) which has no FP
			 format completer.  */
		    case 'E':
		      fputs_filtered (" ", info);
		      /* FALLTHRU */

		    case 'e':
		      if (GET_FIELD (insn, 30, 30))
			fput_fp_reg_r (GET_FIELD (insn, 11, 15), info);
		      else
			fput_fp_reg (GET_FIELD (insn, 11, 15), info);
		      break;
		    case 'x':
		      fput_fp_reg (GET_FIELD (insn, 11, 15), info);
		      break;
		    }
		  break;

		case '5':
		  fput_const (extract_5_load (insn), info);
		  break;
		case 's':
		  {
		    int space = GET_FIELD (insn, 16, 17);
		    /* Zero means implicit addressing, not use of sr0.  */
		    if (space != 0)
		      (*info->fprintf_func) (info->stream, "sr%d", space);
		  }
		  break;

		case 'S':
		  (*info->fprintf_func) (info->stream, "sr%d",
					 extract_3 (insn));
		  break;

		  /* Handle completers.  */
		case 'c':
		  switch (*++s)
		    {
		    case 'x':
		      (*info->fprintf_func)
			(info->stream, "%s",
			 index_compl_names[GET_COMPL (insn)]);
		      break;
		    case 'X':
		      (*info->fprintf_func)
			(info->stream, "%s ",
			 index_compl_names[GET_COMPL (insn)]);
		      break;
		    case 'm':
		      (*info->fprintf_func)
			(info->stream, "%s",
			 short_ldst_compl_names[GET_COMPL (insn)]);
		      break;
		    case 'M':
		      (*info->fprintf_func)
			(info->stream, "%s ",
			 short_ldst_compl_names[GET_COMPL (insn)]);
		      break;
		    case 'A':
		      (*info->fprintf_func)
			(info->stream, "%s ",
			 short_bytes_compl_names[GET_COMPL (insn)]);
		      break;
		    case 's':
		      (*info->fprintf_func)
			(info->stream, "%s",
			 short_bytes_compl_names[GET_COMPL (insn)]);
		      break;
		    case 'c':
		    case 'C':
		      switch (GET_FIELD (insn, 20, 21))
			{
			case 1:
			  (*info->fprintf_func) (info->stream, ",bc ");
			  break;
			case 2:
			  (*info->fprintf_func) (info->stream, ",sl ");
			  break;
			default:
			  (*info->fprintf_func) (info->stream, " ");
			}
		      break;
		    case 'd':
		      switch (GET_FIELD (insn, 20, 21))
			{
			case 1:
			  (*info->fprintf_func) (info->stream, ",co ");
			  break;
			default:
			  (*info->fprintf_func) (info->stream, " ");
			}
		      break;
		    case 'o':
		      (*info->fprintf_func) (info->stream, ",o");
		      break;
		    case 'g':
		      (*info->fprintf_func) (info->stream, ",gate");
		      break;
		    case 'p':
		      (*info->fprintf_func) (info->stream, ",l,push");
		      break;
		    case 'P':
		      (*info->fprintf_func) (info->stream, ",pop");
		      break;
		    case 'l':
		    case 'L':
		      (*info->fprintf_func) (info->stream, ",l");
		      break;
		    case 'w':
		      (*info->fprintf_func)
			(info->stream, "%s ",
			 read_write_names[GET_FIELD (insn, 25, 25)]);
		      break;
		    case 'W':
		      (*info->fprintf_func) (info->stream, ",w ");
		      break;
		    case 'r':
		      if (GET_FIELD (insn, 23, 26) == 5)
			(*info->fprintf_func) (info->stream, ",r");
		      break;
		    case 'Z':
		      if (GET_FIELD (insn, 26, 26))
			(*info->fprintf_func) (info->stream, ",m ");
		      else
			(*info->fprintf_func) (info->stream, " ");
		      break;
		    case 'i':
		      if (GET_FIELD (insn, 25, 25))
			(*info->fprintf_func) (info->stream, ",i");
		      break;
		    case 'z':
		      if (!GET_FIELD (insn, 21, 21))
			(*info->fprintf_func) (info->stream, ",z");
		      break;
		    case 'a':
		      (*info->fprintf_func)
			(info->stream, "%s",
			 add_compl_names[GET_FIELD (insn, 20, 21)]);
		      break;
		    case 'Y':
		      (*info->fprintf_func)
			(info->stream, ",dc%s",
			 add_compl_names[GET_FIELD (insn, 20, 21)]);
		      break;
		    case 'y':
		      (*info->fprintf_func)
			(info->stream, ",c%s",
			 add_compl_names[GET_FIELD (insn, 20, 21)]);
		      break;
		    case 'v':
		      if (GET_FIELD (insn, 20, 20))
			(*info->fprintf_func) (info->stream, ",tsv");
		      break;
		    case 't':
		      (*info->fprintf_func) (info->stream, ",tc");
		      if (GET_FIELD (insn, 20, 20))
			(*info->fprintf_func) (info->stream, ",tsv");
		      break;
		    case 'B':
		      (*info->fprintf_func) (info->stream, ",db");
		      if (GET_FIELD (insn, 20, 20))
			(*info->fprintf_func) (info->stream, ",tsv");
		      break;
		    case 'b':
		      (*info->fprintf_func) (info->stream, ",b");
		      if (GET_FIELD (insn, 20, 20))
			(*info->fprintf_func) (info->stream, ",tsv");
		      break;
		    case 'T':
		      if (GET_FIELD (insn, 25, 25))
			(*info->fprintf_func) (info->stream, ",tc");
		      break;
		    case 'S':
		      /* EXTRD/W has a following condition.  */
		      if (*(s + 1) == '?')
			(*info->fprintf_func)
			  (info->stream, "%s",
			   signed_unsigned_names[GET_FIELD (insn, 21, 21)]);
		      else
			(*info->fprintf_func)
			  (info->stream, "%s ",
			   signed_unsigned_names[GET_FIELD (insn, 21, 21)]);
		      break;
		    case 'h':
		      (*info->fprintf_func)
			(info->stream, "%s",
			 mix_half_names[GET_FIELD (insn, 17, 17)]);
		      break;
		    case 'H':
		      (*info->fprintf_func)
			(info->stream, "%s ",
			 saturation_names[GET_FIELD (insn, 24, 25)]);
		      break;
		    case '*':
		      (*info->fprintf_func)
			(info->stream, ",%d%d%d%d ",
			 GET_FIELD (insn, 17, 18), GET_FIELD (insn, 20, 21),
			 GET_FIELD (insn, 22, 23), GET_FIELD (insn, 24, 25));
		      break;

		    case 'q':
		      {
			int m, a;

			m = GET_FIELD (insn, 28, 28);
			a = GET_FIELD (insn, 29, 29);

			if (m && !a)
			  fputs_filtered (",ma ", info);
			else if (m && a)
			  fputs_filtered (",mb ", info);
			else
			  fputs_filtered (" ", info);
			break;
		      }

		    case 'J':
		      {
			int opc = GET_FIELD (insn, 0, 5);

			if (opc == 0x16 || opc == 0x1e)
			  {
			    if (GET_FIELD (insn, 29, 29) == 0)
			      fputs_filtered (",ma ", info);
			    else
			      fputs_filtered (",mb ", info);
			  }
			else
			  fputs_filtered (" ", info);
			break;
		      }

		    case 'e':
		      {
			int opc = GET_FIELD (insn, 0, 5);

			if (opc == 0x13 || opc == 0x1b)
			  {
			    if (GET_FIELD (insn, 18, 18) == 1)
			      fputs_filtered (",mb ", info);
			    else
			      fputs_filtered (",ma ", info);
			  }
			else if (opc == 0x17 || opc == 0x1f)
			  {
			    if (GET_FIELD (insn, 31, 31) == 1)
			      fputs_filtered (",ma ", info);
			    else
			      fputs_filtered (",mb ", info);
			  }
			else
			  fputs_filtered (" ", info);

			break;
		      }
		    }
		  break;

		  /* Handle conditions.  */
		case '?':
		  {
		    s++;
		    switch (*s)
		      {
		      case 'f':
			(*info->fprintf_func)
			  (info->stream, "%s ",
			   float_comp_names[GET_FIELD (insn, 27, 31)]);
			break;

			/* These four conditions are for the set of instructions
			   which distinguish true/false conditions by opcode
			   rather than by the 'f' bit (sigh): comb, comib,
			   addb, addib.  */
		      case 't':
			fputs_filtered
			  (compare_cond_names[GET_FIELD (insn, 16, 18)], info);
			break;
		      case 'n':
			fputs_filtered
			  (compare_cond_names[GET_FIELD (insn, 16, 18)
					      + GET_FIELD (insn, 4, 4) * 8],
			   info);
			break;
		      case 'N':
			fputs_filtered
			  (compare_cond_64_names[GET_FIELD (insn, 16, 18)
						 + GET_FIELD (insn, 2, 2) * 8],
			   info);
			break;
		      case 'Q':
			fputs_filtered
			  (cmpib_cond_64_names[GET_FIELD (insn, 16, 18)],
			   info);
			break;
		      case '@':
			fputs_filtered
			  (add_cond_names[GET_FIELD (insn, 16, 18)
					  + GET_FIELD (insn, 4, 4) * 8],
			   info);
			break;
		      case 's':
			(*info->fprintf_func)
			  (info->stream, "%s ",
			   compare_cond_names[GET_COND (insn)]);
			break;
		      case 'S':
			(*info->fprintf_func)
			  (info->stream, "%s ",
			   compare_cond_64_names[GET_COND (insn)]);
			break;
		      case 'a':
			(*info->fprintf_func)
			  (info->stream, "%s ",
			   add_cond_names[GET_COND (insn)]);
			break;
		      case 'A':
			(*info->fprintf_func)
			  (info->stream, "%s ",
			   add_cond_64_names[GET_COND (insn)]);
			break;
		      case 'd':
			(*info->fprintf_func)
			  (info->stream, "%s",
			   add_cond_names[GET_FIELD (insn, 16, 18)]);
			break;

		      case 'W':
			(*info->fprintf_func)
			  (info->stream, "%s",
			   wide_add_cond_names[GET_FIELD (insn, 16, 18) +
					       GET_FIELD (insn, 4, 4) * 8]);
			break;

		      case 'l':
			(*info->fprintf_func)
			  (info->stream, "%s ",
			   logical_cond_names[GET_COND (insn)]);
			break;
		      case 'L':
			(*info->fprintf_func)
			  (info->stream, "%s ",
			   logical_cond_64_names[GET_COND (insn)]);
			break;
		      case 'u':
			(*info->fprintf_func)
			  (info->stream, "%s ",
			   unit_cond_names[GET_COND (insn)]);
			break;
		      case 'U':
			(*info->fprintf_func)
			  (info->stream, "%s ",
			   unit_cond_64_names[GET_COND (insn)]);
			break;
		      case 'y':
		      case 'x':
		      case 'b':
			(*info->fprintf_func)
			  (info->stream, "%s",
			   shift_cond_names[GET_FIELD (insn, 16, 18)]);

			/* If the next character in args is 'n', it will handle
			   putting out the space.  */
			if (s[1] != 'n')
			  (*info->fprintf_func) (info->stream, " ");
			break;
		      case 'X':
			(*info->fprintf_func)
			  (info->stream, "%s ",
			   shift_cond_64_names[GET_FIELD (insn, 16, 18)]);
			break;
		      case 'B':
			(*info->fprintf_func)
			  (info->stream, "%s",
			   bb_cond_64_names[GET_FIELD (insn, 16, 16)]);

			/* If the next character in args is 'n', it will handle
			   putting out the space.  */
			if (s[1] != 'n')
			  (*info->fprintf_func) (info->stream, " ");
			break;
		      }
		    break;
		  }

		case 'V':
		  fput_const (extract_5_store (insn), info);
		  break;
		case 'r':
		  fput_const (extract_5r_store (insn), info);
		  break;
		case 'R':
		  fput_const (extract_5R_store (insn), info);
		  break;
		case 'U':
		  fput_const (extract_10U_store (insn), info);
		  break;
		case 'B':
		case 'Q':
		  fput_const (extract_5Q_store (insn), info);
		  break;
		case 'i':
		  fput_const (extract_11 (insn), info);
		  break;
		case 'j':
		  fput_const (extract_14 (insn), info);
		  break;
		case 'k':
		  fputs_filtered ("L%", info);
		  fput_const (extract_21 (insn), info);
		  break;
		case '<':
		case 'l':
		  /* 16-bit long disp., PA2.0 wide only.  */
		  fput_const (extract_16 (insn), info);
		  break;
		case 'n':
		  if (insn & 0x2)
		    (*info->fprintf_func) (info->stream, ",n ");
		  else
		    (*info->fprintf_func) (info->stream, " ");
		  break;
		case 'N':
		  if ((insn & 0x20) && s[1])
		    (*info->fprintf_func) (info->stream, ",n ");
		  else if (insn & 0x20)
		    (*info->fprintf_func) (info->stream, ",n");
		  else if (s[1])
		    (*info->fprintf_func) (info->stream, " ");
		  break;
		case 'w':
		  (*info->print_address_func)
		    (memaddr + 8 + extract_12 (insn), info);
		  break;
		case 'W':
		  /* 17 bit PC-relative branch.  */
		  (*info->print_address_func)
		    ((memaddr + 8 + extract_17 (insn)), info);
		  break;
		case 'z':
		  /* 17 bit displacement.  This is an offset from a register
		     so it gets disasssembled as just a number, not any sort
		     of address.  */
		  fput_const (extract_17 (insn), info);
		  break;

		case 'Z':
		  /* addil %r1 implicit output.  */
		  fputs_filtered ("r1", info);
		  break;

		case 'Y':
		  /* be,l %sr0,%r31 implicit output.  */
		  fputs_filtered ("sr0,r31", info);
		  break;

		case '@':
		  (*info->fprintf_func) (info->stream, "0");
		  break;

		case '.':
		  (*info->fprintf_func) (info->stream, "%d",
					 GET_FIELD (insn, 24, 25));
		  break;
		case '*':
		  (*info->fprintf_func) (info->stream, "%d",
					 GET_FIELD (insn, 22, 25));
		  break;
		case '!':
		  fputs_filtered ("sar", info);
		  break;
		case 'p':
		  (*info->fprintf_func) (info->stream, "%d",
					 31 - GET_FIELD (insn, 22, 26));
		  break;
		case '~':
		  {
		    int num;
		    num = GET_FIELD (insn, 20, 20) << 5;
		    num |= GET_FIELD (insn, 22, 26);
		    (*info->fprintf_func) (info->stream, "%d", 63 - num);
		    break;
		  }
		case 'P':
		  (*info->fprintf_func) (info->stream, "%d",
					 GET_FIELD (insn, 22, 26));
		  break;
		case 'q':
		  {
		    int num;
		    num = GET_FIELD (insn, 20, 20) << 5;
		    num |= GET_FIELD (insn, 22, 26);
		    (*info->fprintf_func) (info->stream, "%d", num);
		    break;
		  }
		case 'T':
		  (*info->fprintf_func) (info->stream, "%d",
					 32 - GET_FIELD (insn, 27, 31));
		  break;
		case '%':
		  {
		    int num;
		    num = (GET_FIELD (insn, 23, 23) + 1) * 32;
		    num -= GET_FIELD (insn, 27, 31);
		    (*info->fprintf_func) (info->stream, "%d", num);
		    break;
		  }
		case '|':
		  {
		    int num;
		    num = (GET_FIELD (insn, 19, 19) + 1) * 32;
		    num -= GET_FIELD (insn, 27, 31);
		    (*info->fprintf_func) (info->stream, "%d", num);
		    break;
		  }
		case '$':
		  fput_const (GET_FIELD (insn, 20, 28), info);
		  break;
		case 'A':
		  fput_const (GET_FIELD (insn, 6, 18), info);
		  break;
		case 'D':
		  fput_const (GET_FIELD (insn, 6, 31), info);
		  break;
		case 'v':
		  (*info->fprintf_func) (info->stream, ",%d",
					 GET_FIELD (insn, 23, 25));
		  break;
		case 'O':
		  fput_const ((GET_FIELD (insn, 6,20) << 5 |
			       GET_FIELD (insn, 27, 31)), info);
		  break;
		case 'o':
		  fput_const (GET_FIELD (insn, 6, 20), info);
		  break;
		case '2':
		  fput_const ((GET_FIELD (insn, 6, 22) << 5 |
			       GET_FIELD (insn, 27, 31)), info);
		  break;
		case '1':
		  fput_const ((GET_FIELD (insn, 11, 20) << 5 |
			       GET_FIELD (insn, 27, 31)), info);
		  break;
		case '0':
		  fput_const ((GET_FIELD (insn, 16, 20) << 5 |
			       GET_FIELD (insn, 27, 31)), info);
		  break;
		case 'u':
		  (*info->fprintf_func) (info->stream, ",%d",
					 GET_FIELD (insn, 23, 25));
		  break;
		case 'F':
		  /* If no destination completer and not before a completer
		     for fcmp, need a space here.  */
		  if (s[1] == 'G' || s[1] == '?')
		    fputs_filtered
		      (float_format_names[GET_FIELD (insn, 19, 20)], info);
		  else
		    (*info->fprintf_func)
		      (info->stream, "%s ",
		       float_format_names[GET_FIELD (insn, 19, 20)]);
		  break;
		case 'G':
		  (*info->fprintf_func)
		    (info->stream, "%s ",
		     float_format_names[GET_FIELD (insn, 17, 18)]);
		  break;
		case 'H':
		  if (GET_FIELD (insn, 26, 26) == 1)
		    (*info->fprintf_func) (info->stream, "%s ",
					   float_format_names[0]);
		  else
		    (*info->fprintf_func) (info->stream, "%s ",
					   float_format_names[1]);
		  break;
		case 'I':
		  /* If no destination completer and not before a completer
		     for fcmp, need a space here.  */
		  if (s[1] == '?')
		    fputs_filtered
		      (float_format_names[GET_FIELD (insn, 20, 20)], info);
		  else
		    (*info->fprintf_func)
		      (info->stream, "%s ",
		       float_format_names[GET_FIELD (insn, 20, 20)]);
		  break;

		case 'J':
		  fput_const (extract_14 (insn), info);
		  break;

		case '#':
		  {
		    int sign = GET_FIELD (insn, 31, 31);
		    int imm10 = GET_FIELD (insn, 18, 27);
		    int disp;

		    if (sign)
		      disp = (-1 << 10) | imm10;
		    else
		      disp = imm10;

		    disp <<= 3;
		    fput_const (disp, info);
		    break;
		  }
		case 'K':
		case 'd':
		  {
		    int sign = GET_FIELD (insn, 31, 31);
		    int imm11 = GET_FIELD (insn, 18, 28);
		    int disp;

		    if (sign)
		      disp = (-1 << 11) | imm11;
		    else
		      disp = imm11;

		    disp <<= 2;
		    fput_const (disp, info);
		    break;
		  }

		case '>':
		case 'y':
		  {
		    /* 16-bit long disp., PA2.0 wide only.  */
		    int disp = extract_16 (insn);
		    disp &= ~3;
		    fput_const (disp, info);
		    break;
		  }

		case '&':
		  {
		    /* 16-bit long disp., PA2.0 wide only.  */
		    int disp = extract_16 (insn);
		    disp &= ~7;
		    fput_const (disp, info);
		    break;
		  }

		case '_':
		  break; /* Dealt with by '{' */

		case '{':
		  {
		    int sub = GET_FIELD (insn, 14, 16);
		    int df = GET_FIELD (insn, 17, 18);
		    int sf = GET_FIELD (insn, 19, 20);
		    const char * const * source = float_format_names;
		    const char * const * dest = float_format_names;
		    const char *t = "";

		    if (sub == 4)
		      {
			fputs_filtered (",UND ", info);
			break;
		      }
		    if ((sub & 3) == 3)
		      t = ",t";
		    if ((sub & 3) == 1)
		      source = sub & 4 ? fcnv_ufixed_names : fcnv_fixed_names;
		    if (sub & 2)
		      dest = sub & 4 ? fcnv_ufixed_names : fcnv_fixed_names;

		    (*info->fprintf_func) (info->stream, "%s%s%s ",
					   t, source[sf], dest[df]);
		    break;
		  }

		case 'm':
		  {
		    int y = GET_FIELD (insn, 16, 18);

		    if (y != 1)
		      fput_const ((y ^ 1) - 1, info);
		  }
		  break;

		case 'h':
		  {
		    int cbit;

		    cbit = GET_FIELD (insn, 16, 18);

		    if (cbit > 0)
		      (*info->fprintf_func) (info->stream, ",%d", cbit - 1);
		    break;
		  }

		case '=':
		  {
		    int cond = GET_FIELD (insn, 27, 31);

		    switch (cond)
		      {
		      case  0: fputs_filtered (" ", info); break;
		      case  1: fputs_filtered ("acc ", info); break;
		      case  2: fputs_filtered ("rej ", info); break;
		      case  5: fputs_filtered ("acc8 ", info); break;
		      case  6: fputs_filtered ("rej8 ", info); break;
		      case  9: fputs_filtered ("acc6 ", info); break;
		      case 13: fputs_filtered ("acc4 ", info); break;
		      case 17: fputs_filtered ("acc2 ", info); break;
		      default: break;
		      }
		    break;
		  }

		case 'X':
		  (*info->print_address_func)
		    (memaddr + 8 + extract_22 (insn), info);
		  break;
		case 'L':
		  fputs_filtered (",rp", info);
		  break;
		default:
		  (*info->fprintf_func) (info->stream, "%c", *s);
		  break;
		}
	    }
	  return sizeof (insn);
	}
    }
  info->fprintf_func(info->stream, "<unknown>");
  return sizeof (insn);
}