qemu/disas/m68k.c
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   1/* This file is composed of several different files from the upstream
   2   sourceware.org CVS.  Original file boundaries marked with **** */
   3
   4#include "qemu/osdep.h"
   5#include <math.h>
   6
   7#include "disas/dis-asm.h"
   8
   9/* **** floatformat.h from sourceware.org CVS 2005-08-14.  */
  10/* IEEE floating point support declarations, for GDB, the GNU Debugger.
  11   Copyright 1991, 1994, 1995, 1997, 2000, 2003 Free Software Foundation, Inc.
  12
  13This file is part of GDB.
  14
  15This program is free software; you can redistribute it and/or modify
  16it under the terms of the GNU General Public License as published by
  17the Free Software Foundation; either version 2 of the License, or
  18(at your option) any later version.
  19
  20This program is distributed in the hope that it will be useful,
  21but WITHOUT ANY WARRANTY; without even the implied warranty of
  22MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  23GNU General Public License for more details.
  24
  25You should have received a copy of the GNU General Public License
  26along with this program; if not, see <http://www.gnu.org/licenses/>.  */
  27
  28#if !defined (FLOATFORMAT_H)
  29#define FLOATFORMAT_H 1
  30
  31/*#include "ansidecl.h" */
  32
  33/* A floatformat consists of a sign bit, an exponent and a mantissa.  Once the
  34   bytes are concatenated according to the byteorder flag, then each of those
  35   fields is contiguous.  We number the bits with 0 being the most significant
  36   (i.e. BITS_BIG_ENDIAN type numbering), and specify which bits each field
  37   contains with the *_start and *_len fields.  */
  38
  39/* What is the order of the bytes. */
  40
  41enum floatformat_byteorders {
  42
  43  /* Standard little endian byte order.
  44     EX: 1.2345678e10 => 00 00 80 c5 e0 fe 06 42 */
  45
  46  floatformat_little,
  47
  48  /* Standard big endian byte order.
  49     EX: 1.2345678e10 => 42 06 fe e0 c5 80 00 00 */
  50
  51  floatformat_big,
  52
  53  /* Little endian byte order but big endian word order.
  54     EX: 1.2345678e10 => e0 fe 06 42 00 00 80 c5 */
  55
  56  floatformat_littlebyte_bigword
  57
  58};
  59
  60enum floatformat_intbit { floatformat_intbit_yes, floatformat_intbit_no };
  61
  62struct floatformat
  63{
  64  enum floatformat_byteorders byteorder;
  65  unsigned int totalsize;       /* Total size of number in bits */
  66
  67  /* Sign bit is always one bit long.  1 means negative, 0 means positive.  */
  68  unsigned int sign_start;
  69
  70  unsigned int exp_start;
  71  unsigned int exp_len;
  72  /* Bias added to a "true" exponent to form the biased exponent.  It
  73     is intentionally signed as, otherwise, -exp_bias can turn into a
  74     very large number (e.g., given the exp_bias of 0x3fff and a 64
  75     bit long, the equation (long)(1 - exp_bias) evaluates to
  76     4294950914) instead of -16382).  */
  77  int exp_bias;
  78  /* Exponent value which indicates NaN.  This is the actual value stored in
  79     the float, not adjusted by the exp_bias.  This usually consists of all
  80     one bits.  */
  81  unsigned int exp_nan;
  82
  83  unsigned int man_start;
  84  unsigned int man_len;
  85
  86  /* Is the integer bit explicit or implicit?  */
  87  enum floatformat_intbit intbit;
  88
  89  /* Internal name for debugging. */
  90  const char *name;
  91
  92  /* Validator method.  */
  93  int (*is_valid) (const struct floatformat *fmt, const char *from);
  94};
  95
  96/* floatformats for IEEE single and double, big and little endian.  */
  97
  98extern const struct floatformat floatformat_ieee_single_big;
  99extern const struct floatformat floatformat_ieee_single_little;
 100extern const struct floatformat floatformat_ieee_double_big;
 101extern const struct floatformat floatformat_ieee_double_little;
 102
 103/* floatformat for ARM IEEE double, little endian bytes and big endian words */
 104
 105extern const struct floatformat floatformat_ieee_double_littlebyte_bigword;
 106
 107/* floatformats for various extendeds.  */
 108
 109extern const struct floatformat floatformat_i387_ext;
 110extern const struct floatformat floatformat_m68881_ext;
 111extern const struct floatformat floatformat_i960_ext;
 112extern const struct floatformat floatformat_m88110_ext;
 113extern const struct floatformat floatformat_m88110_harris_ext;
 114extern const struct floatformat floatformat_arm_ext_big;
 115extern const struct floatformat floatformat_arm_ext_littlebyte_bigword;
 116/* IA-64 Floating Point register spilt into memory.  */
 117extern const struct floatformat floatformat_ia64_spill_big;
 118extern const struct floatformat floatformat_ia64_spill_little;
 119extern const struct floatformat floatformat_ia64_quad_big;
 120extern const struct floatformat floatformat_ia64_quad_little;
 121
 122/* Convert from FMT to a double.
 123   FROM is the address of the extended float.
 124   Store the double in *TO.  */
 125
 126extern void
 127floatformat_to_double (const struct floatformat *, const char *, double *);
 128
 129/* The converse: convert the double *FROM to FMT
 130   and store where TO points.  */
 131
 132extern void
 133floatformat_from_double (const struct floatformat *, const double *, char *);
 134
 135/* Return non-zero iff the data at FROM is a valid number in format FMT.  */
 136
 137extern int
 138floatformat_is_valid (const struct floatformat *fmt, const char *from);
 139
 140#endif  /* defined (FLOATFORMAT_H) */
 141/* **** End of floatformat.h */
 142/* **** m68k-dis.h from sourceware.org CVS 2005-08-14.  */
 143/* Opcode table header for m680[01234]0/m6888[12]/m68851.
 144   Copyright 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1999, 2001,
 145   2003, 2004 Free Software Foundation, Inc.
 146
 147   This file is part of GDB, GAS, and the GNU binutils.
 148
 149   GDB, GAS, and the GNU binutils are free software; you can redistribute
 150   them and/or modify them under the terms of the GNU General Public
 151   License as published by the Free Software Foundation; either version
 152   1, or (at your option) any later version.
 153
 154   GDB, GAS, and the GNU binutils are distributed in the hope that they
 155   will be useful, but WITHOUT ANY WARRANTY; without even the implied
 156   warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See
 157   the GNU General Public License for more details.
 158
 159   You should have received a copy of the GNU General Public License
 160   along with this file; see the file COPYING.  If not,
 161   see <http://www.gnu.org/licenses/>.  */
 162
 163/* These are used as bit flags for the arch field in the m68k_opcode
 164   structure.  */
 165#define _m68k_undef  0
 166#define m68000   0x001
 167#define m68008   m68000 /* Synonym for -m68000.  otherwise unused.  */
 168#define m68010   0x002
 169#define m68020   0x004
 170#define m68030   0x008
 171#define m68ec030 m68030 /* Similar enough to -m68030 to ignore differences;
 172                           gas will deal with the few differences.  */
 173#define m68040   0x010
 174/* There is no 68050.  */
 175#define m68060   0x020
 176#define m68881   0x040
 177#define m68882   m68881 /* Synonym for -m68881.  otherwise unused.  */
 178#define m68851   0x080
 179#define cpu32    0x100          /* e.g., 68332 */
 180
 181#define mcfmac   0x200          /* ColdFire MAC. */
 182#define mcfemac  0x400          /* ColdFire EMAC. */
 183#define cfloat   0x800          /* ColdFire FPU.  */
 184#define mcfhwdiv 0x1000         /* ColdFire hardware divide.  */
 185
 186#define mcfisa_a 0x2000         /* ColdFire ISA_A.  */
 187#define mcfisa_aa 0x4000        /* ColdFire ISA_A+.  */
 188#define mcfisa_b 0x8000         /* ColdFire ISA_B.  */
 189#define mcfusp   0x10000        /* ColdFire USP instructions.  */
 190
 191#define mcf5200  0x20000
 192#define mcf5206e 0x40000
 193#define mcf521x  0x80000
 194#define mcf5249  0x100000
 195#define mcf528x  0x200000
 196#define mcf5307  0x400000
 197#define mcf5407  0x800000
 198#define mcf5470  0x1000000
 199#define mcf5480  0x2000000
 200
 201 /* Handy aliases.  */
 202#define m68040up   (m68040 | m68060)
 203#define m68030up   (m68030 | m68040up)
 204#define m68020up   (m68020 | m68030up)
 205#define m68010up   (m68010 | cpu32 | m68020up)
 206#define m68000up   (m68000 | m68010up)
 207
 208#define mfloat  (m68881 | m68882 | m68040 | m68060)
 209#define mmmu    (m68851 | m68030 | m68040 | m68060)
 210
 211/* The structure used to hold information for an opcode.  */
 212
 213struct m68k_opcode
 214{
 215  /* The opcode name.  */
 216  const char *name;
 217  /* The pseudo-size of the instruction(in bytes).  Used to determine
 218     number of bytes necessary to disassemble the instruction.  */
 219  unsigned int size;
 220  /* The opcode itself.  */
 221  unsigned long opcode;
 222  /* The mask used by the disassembler.  */
 223  unsigned long match;
 224  /* The arguments.  */
 225  const char *args;
 226  /* The architectures which support this opcode.  */
 227  unsigned int arch;
 228};
 229
 230/* The structure used to hold information for an opcode alias.  */
 231
 232struct m68k_opcode_alias
 233{
 234  /* The alias name.  */
 235  const char *alias;
 236  /* The instruction for which this is an alias.  */
 237  const char *primary;
 238};
 239
 240/* We store four bytes of opcode for all opcodes because that is the
 241   most any of them need.  The actual length of an instruction is
 242   always at least 2 bytes, and is as much longer as necessary to hold
 243   the operands it has.
 244
 245   The match field is a mask saying which bits must match particular
 246   opcode in order for an instruction to be an instance of that
 247   opcode.
 248
 249   The args field is a string containing two characters for each
 250   operand of the instruction.  The first specifies the kind of
 251   operand; the second, the place it is stored.  */
 252
 253/* Kinds of operands:
 254   Characters used: AaBbCcDdEeFfGgHIiJkLlMmnOopQqRrSsTtU VvWwXxYyZz01234|*~%;@!&$?/<>#^+-
 255
 256   D  data register only.  Stored as 3 bits.
 257   A  address register only.  Stored as 3 bits.
 258   a  address register indirect only.  Stored as 3 bits.
 259   R  either kind of register.  Stored as 4 bits.
 260   r  either kind of register indirect only.  Stored as 4 bits.
 261      At the moment, used only for cas2 instruction.
 262   F  floating point coprocessor register only.   Stored as 3 bits.
 263   O  an offset (or width): immediate data 0-31 or data register.
 264      Stored as 6 bits in special format for BF... insns.
 265   +  autoincrement only.  Stored as 3 bits (number of the address register).
 266   -  autodecrement only.  Stored as 3 bits (number of the address register).
 267   Q  quick immediate data.  Stored as 3 bits.
 268      This matches an immediate operand only when value is in range 1 .. 8.
 269   M  moveq immediate data.  Stored as 8 bits.
 270      This matches an immediate operand only when value is in range -128..127
 271   T  trap vector immediate data.  Stored as 4 bits.
 272
 273   k  K-factor for fmove.p instruction.   Stored as a 7-bit constant or
 274      a three bit register offset, depending on the field type.
 275
 276   #  immediate data.  Stored in special places (b, w or l)
 277      which say how many bits to store.
 278   ^  immediate data for floating point instructions.   Special places
 279      are offset by 2 bytes from '#'...
 280   B  pc-relative address, converted to an offset
 281      that is treated as immediate data.
 282   d  displacement and register.  Stores the register as 3 bits
 283      and stores the displacement in the entire second word.
 284
 285   C  the CCR.  No need to store it; this is just for filtering validity.
 286   S  the SR.  No need to store, just as with CCR.
 287   U  the USP.  No need to store, just as with CCR.
 288   E  the MAC ACC.  No need to store, just as with CCR.
 289   e  the EMAC ACC[0123].
 290   G  the MAC/EMAC MACSR.  No need to store, just as with CCR.
 291   g  the EMAC ACCEXT{01,23}.
 292   H  the MASK.  No need to store, just as with CCR.
 293   i  the MAC/EMAC scale factor.
 294
 295   I  Coprocessor ID.   Not printed if 1.   The Coprocessor ID is always
 296      extracted from the 'd' field of word one, which means that an extended
 297      coprocessor opcode can be skipped using the 'i' place, if needed.
 298
 299   s  System Control register for the floating point coprocessor.
 300
 301   J  Misc register for movec instruction, stored in 'j' format.
 302        Possible values:
 303        0x000   SFC     Source Function Code reg        [60, 40, 30, 20, 10]
 304        0x001   DFC     Data Function Code reg          [60, 40, 30, 20, 10]
 305        0x002   CACR    Cache Control Register          [60, 40, 30, 20, mcf]
 306        0x003   TC      MMU Translation Control         [60, 40]
 307        0x004   ITT0    Instruction Transparent
 308                                Translation reg 0       [60, 40]
 309        0x005   ITT1    Instruction Transparent
 310                                Translation reg 1       [60, 40]
 311        0x006   DTT0    Data Transparent
 312                                Translation reg 0       [60, 40]
 313        0x007   DTT1    Data Transparent
 314                                Translation reg 1       [60, 40]
 315        0x008   BUSCR   Bus Control Register            [60]
 316        0x800   USP     User Stack Pointer              [60, 40, 30, 20, 10]
 317        0x801   VBR     Vector Base reg                 [60, 40, 30, 20, 10, mcf]
 318        0x802   CAAR    Cache Address Register          [        30, 20]
 319        0x803   MSP     Master Stack Pointer            [    40, 30, 20]
 320        0x804   ISP     Interrupt Stack Pointer         [    40, 30, 20]
 321        0x805   MMUSR   MMU Status reg                  [    40]
 322        0x806   URP     User Root Pointer               [60, 40]
 323        0x807   SRP     Supervisor Root Pointer         [60, 40]
 324        0x808   PCR     Processor Configuration reg     [60]
 325        0xC00   ROMBAR  ROM Base Address Register       [520X]
 326        0xC04   RAMBAR0 RAM Base Address Register 0     [520X]
 327        0xC05   RAMBAR1 RAM Base Address Register 0     [520X]
 328        0xC0F   MBAR0   RAM Base Address Register 0     [520X]
 329        0xC04   FLASHBAR FLASH Base Address Register    [mcf528x]
 330        0xC05   RAMBAR  Static RAM Base Address Register [mcf528x]
 331
 332    L  Register list of the type d0-d7/a0-a7 etc.
 333       (New!  Improved!  Can also hold fp0-fp7, as well!)
 334       The assembler tries to see if the registers match the insn by
 335       looking at where the insn wants them stored.
 336
 337    l  Register list like L, but with all the bits reversed.
 338       Used for going the other way. . .
 339
 340    c  cache identifier which may be "nc" for no cache, "ic"
 341       for instruction cache, "dc" for data cache, or "bc"
 342       for both caches.  Used in cinv and cpush.  Always
 343       stored in position "d".
 344
 345    u  Any register, with ``upper'' or ``lower'' specification.  Used
 346       in the mac instructions with size word.
 347
 348 The remainder are all stored as 6 bits using an address mode and a
 349 register number; they differ in which addressing modes they match.
 350
 351   *  all                                       (modes 0-6,7.0-4)
 352   ~  alterable memory                          (modes 2-6,7.0,7.1)
 353                                                (not 0,1,7.2-4)
 354   %  alterable                                 (modes 0-6,7.0,7.1)
 355                                                (not 7.2-4)
 356   ;  data                                      (modes 0,2-6,7.0-4)
 357                                                (not 1)
 358   @  data, but not immediate                   (modes 0,2-6,7.0-3)
 359                                                (not 1,7.4)
 360   !  control                                   (modes 2,5,6,7.0-3)
 361                                                (not 0,1,3,4,7.4)
 362   &  alterable control                         (modes 2,5,6,7.0,7.1)
 363                                                (not 0,1,3,4,7.2-4)
 364   $  alterable data                            (modes 0,2-6,7.0,7.1)
 365                                                (not 1,7.2-4)
 366   ?  alterable control, or data register       (modes 0,2,5,6,7.0,7.1)
 367                                                (not 1,3,4,7.2-4)
 368   /  control, or data register                 (modes 0,2,5,6,7.0-3)
 369                                                (not 1,3,4,7.4)
 370   >  *save operands                            (modes 2,4,5,6,7.0,7.1)
 371                                                (not 0,1,3,7.2-4)
 372   <  *restore operands                         (modes 2,3,5,6,7.0-3)
 373                                                (not 0,1,4,7.4)
 374
 375   coldfire move operands:
 376   m                                            (modes 0-4)
 377   n                                            (modes 5,7.2)
 378   o                                            (modes 6,7.0,7.1,7.3,7.4)
 379   p                                            (modes 0-5)
 380
 381   coldfire bset/bclr/btst/mulsl/mulul operands:
 382   q                                            (modes 0,2-5)
 383   v                                            (modes 0,2-5,7.0,7.1)
 384   b                                            (modes 0,2-5,7.2)
 385   w                                            (modes 2-5,7.2)
 386   y                                            (modes 2,5)
 387   z                                            (modes 2,5,7.2)
 388   x  mov3q immediate operand.
 389   4                                            (modes 2,3,4,5)
 390  */
 391
 392/* For the 68851:  */
 393/* I didn't use much imagination in choosing the
 394   following codes, so many of them aren't very
 395   mnemonic. -rab
 396
 397   0  32 bit pmmu register
 398        Possible values:
 399        000     TC      Translation Control Register (68030, 68851)
 400
 401   1  16 bit pmmu register
 402        111     AC      Access Control (68851)
 403
 404   2  8 bit pmmu register
 405        100     CAL     Current Access Level (68851)
 406        101     VAL     Validate Access Level (68851)
 407        110     SCC     Stack Change Control (68851)
 408
 409   3  68030-only pmmu registers (32 bit)
 410        010     TT0     Transparent Translation reg 0
 411                        (aka Access Control reg 0 -- AC0 -- on 68ec030)
 412        011     TT1     Transparent Translation reg 1
 413                        (aka Access Control reg 1 -- AC1 -- on 68ec030)
 414
 415   W  wide pmmu registers
 416        Possible values:
 417        001     DRP     Dma Root Pointer (68851)
 418        010     SRP     Supervisor Root Pointer (68030, 68851)
 419        011     CRP     Cpu Root Pointer (68030, 68851)
 420
 421   f    function code register (68030, 68851)
 422        0       SFC
 423        1       DFC
 424
 425   V    VAL register only (68851)
 426
 427   X    BADx, BACx (16 bit)
 428        100     BAD     Breakpoint Acknowledge Data (68851)
 429        101     BAC     Breakpoint Acknowledge Control (68851)
 430
 431   Y    PSR (68851) (MMUSR on 68030) (ACUSR on 68ec030)
 432   Z    PCSR (68851)
 433
 434   |    memory          (modes 2-6, 7.*)
 435
 436   t  address test level (68030 only)
 437      Stored as 3 bits, range 0-7.
 438      Also used for breakpoint instruction now.
 439
 440*/
 441
 442/* Places to put an operand, for non-general operands:
 443   Characters used: BbCcDdFfGgHhIijkLlMmNnostWw123456789/
 444
 445   s  source, low bits of first word.
 446   d  dest, shifted 9 in first word
 447   1  second word, shifted 12
 448   2  second word, shifted 6
 449   3  second word, shifted 0
 450   4  third word, shifted 12
 451   5  third word, shifted 6
 452   6  third word, shifted 0
 453   7  second word, shifted 7
 454   8  second word, shifted 10
 455   9  second word, shifted 5
 456   D  store in both place 1 and place 3; for divul and divsl.
 457   B  first word, low byte, for branch displacements
 458   W  second word (entire), for branch displacements
 459   L  second and third words (entire), for branch displacements
 460      (also overloaded for move16)
 461   b  second word, low byte
 462   w  second word (entire) [variable word/long branch offset for dbra]
 463   W  second word (entire) (must be signed 16 bit value)
 464   l  second and third word (entire)
 465   g  variable branch offset for bra and similar instructions.
 466      The place to store depends on the magnitude of offset.
 467   t  store in both place 7 and place 8; for floating point operations
 468   c  branch offset for cpBcc operations.
 469      The place to store is word two if bit six of word one is zero,
 470      and words two and three if bit six of word one is one.
 471   i  Increment by two, to skip over coprocessor extended operands.   Only
 472      works with the 'I' format.
 473   k  Dynamic K-factor field.   Bits 6-4 of word 2, used as a register number.
 474      Also used for dynamic fmovem instruction.
 475   C  floating point coprocessor constant - 7 bits.  Also used for static
 476      K-factors...
 477   j  Movec register #, stored in 12 low bits of second word.
 478   m  For M[S]ACx; 4 bits split with MSB shifted 6 bits in first word
 479      and remaining 3 bits of register shifted 9 bits in first word.
 480      Indicate upper/lower in 1 bit shifted 7 bits in second word.
 481      Use with `R' or `u' format.
 482   n  `m' without upper/lower indication. (For M[S]ACx; 4 bits split
 483      with MSB shifted 6 bits in first word and remaining 3 bits of
 484      register shifted 9 bits in first word.  No upper/lower
 485      indication is done.)  Use with `R' or `u' format.
 486   o  For M[S]ACw; 4 bits shifted 12 in second word (like `1').
 487      Indicate upper/lower in 1 bit shifted 7 bits in second word.
 488      Use with `R' or `u' format.
 489   M  For M[S]ACw; 4 bits in low bits of first word.  Indicate
 490      upper/lower in 1 bit shifted 6 bits in second word.  Use with
 491      `R' or `u' format.
 492   N  For M[S]ACw; 4 bits in low bits of second word.  Indicate
 493      upper/lower in 1 bit shifted 6 bits in second word.  Use with
 494      `R' or `u' format.
 495   h  shift indicator (scale factor), 1 bit shifted 10 in second word
 496
 497 Places to put operand, for general operands:
 498   d  destination, shifted 6 bits in first word
 499   b  source, at low bit of first word, and immediate uses one byte
 500   w  source, at low bit of first word, and immediate uses two bytes
 501   l  source, at low bit of first word, and immediate uses four bytes
 502   s  source, at low bit of first word.
 503      Used sometimes in contexts where immediate is not allowed anyway.
 504   f  single precision float, low bit of 1st word, immediate uses 4 bytes
 505   F  double precision float, low bit of 1st word, immediate uses 8 bytes
 506   x  extended precision float, low bit of 1st word, immediate uses 12 bytes
 507   p  packed float, low bit of 1st word, immediate uses 12 bytes
 508   G  EMAC accumulator, load  (bit 4 2nd word, !bit8 first word)
 509   H  EMAC accumulator, non load  (bit 4 2nd word, bit 8 first word)
 510   F  EMAC ACCx
 511   f  EMAC ACCy
 512   I  MAC/EMAC scale factor
 513   /  Like 's', but set 2nd word, bit 5 if trailing_ampersand set
 514   ]  first word, bit 10
 515*/
 516
 517extern const struct m68k_opcode m68k_opcodes[];
 518extern const struct m68k_opcode_alias m68k_opcode_aliases[];
 519
 520extern const int m68k_numopcodes, m68k_numaliases;
 521
 522/* **** End of m68k-opcode.h */
 523/* **** m68k-dis.c from sourceware.org CVS 2005-08-14.  */
 524/* Print Motorola 68k instructions.
 525   Copyright 1986, 1987, 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997,
 526   1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005
 527   Free Software Foundation, Inc.
 528
 529   This file is free software; you can redistribute it and/or modify
 530   it under the terms of the GNU General Public License as published by
 531   the Free Software Foundation; either version 2 of the License, or
 532   (at your option) any later version.
 533
 534   This program is distributed in the hope that it will be useful,
 535   but WITHOUT ANY WARRANTY; without even the implied warranty of
 536   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 537   GNU General Public License for more details.
 538
 539   You should have received a copy of the GNU General Public License
 540   along with this program; if not, see <http://www.gnu.org/licenses/>.  */
 541
 542/* Local function prototypes.  */
 543
 544static const char * const fpcr_names[] =
 545{
 546  "", "%fpiar", "%fpsr", "%fpiar/%fpsr", "%fpcr",
 547  "%fpiar/%fpcr", "%fpsr/%fpcr", "%fpiar/%fpsr/%fpcr"
 548};
 549
 550static const char *const reg_names[] =
 551{
 552  "%d0", "%d1", "%d2", "%d3", "%d4", "%d5", "%d6", "%d7",
 553  "%a0", "%a1", "%a2", "%a3", "%a4", "%a5", "%fp", "%sp",
 554  "%ps", "%pc"
 555};
 556
 557/* Name of register halves for MAC/EMAC.
 558   Separate from reg_names since 'spu', 'fpl' look weird.  */
 559static const char *const reg_half_names[] =
 560{
 561  "%d0", "%d1", "%d2", "%d3", "%d4", "%d5", "%d6", "%d7",
 562  "%a0", "%a1", "%a2", "%a3", "%a4", "%a5", "%a6", "%a7",
 563  "%ps", "%pc"
 564};
 565
 566/* Sign-extend an (unsigned char).  */
 567#if __STDC__ == 1
 568#define COERCE_SIGNED_CHAR(ch) ((signed char) (ch))
 569#else
 570#define COERCE_SIGNED_CHAR(ch) ((int) (((ch) ^ 0x80) & 0xFF) - 128)
 571#endif
 572
 573/* Get a 1 byte signed integer.  */
 574#define NEXTBYTE(p)  (p += 2, fetch_data(info, p), COERCE_SIGNED_CHAR(p[-1]))
 575
 576/* Get a 2 byte signed integer.  */
 577#define COERCE16(x) ((int) (((x) ^ 0x8000) - 0x8000))
 578#define NEXTWORD(p)  \
 579  (p += 2, fetch_data(info, p), \
 580   COERCE16 ((p[-2] << 8) + p[-1]))
 581
 582/* Get a 4 byte signed integer.  */
 583#define COERCE32(x) ((bfd_signed_vma) ((x) ^ 0x80000000) - 0x80000000)
 584#define NEXTLONG(p)  \
 585  (p += 4, fetch_data(info, p), \
 586   (COERCE32 ((((((p[-4] << 8) + p[-3]) << 8) + p[-2]) << 8) + p[-1])))
 587
 588/* Get a 4 byte unsigned integer.  */
 589#define NEXTULONG(p)  \
 590  (p += 4, fetch_data(info, p), \
 591   (unsigned int) ((((((p[-4] << 8) + p[-3]) << 8) + p[-2]) << 8) + p[-1]))
 592
 593/* Get a single precision float.  */
 594#define NEXTSINGLE(val, p) \
 595  (p += 4, fetch_data(info, p), \
 596   floatformat_to_double (&floatformat_ieee_single_big, (char *) p - 4, &val))
 597
 598/* Get a double precision float.  */
 599#define NEXTDOUBLE(val, p) \
 600  (p += 8, fetch_data(info, p), \
 601   floatformat_to_double (&floatformat_ieee_double_big, (char *) p - 8, &val))
 602
 603/* Get an extended precision float.  */
 604#define NEXTEXTEND(val, p) \
 605  (p += 12, fetch_data(info, p), \
 606   floatformat_to_double (&floatformat_m68881_ext, (char *) p - 12, &val))
 607
 608/* Need a function to convert from packed to double
 609   precision.   Actually, it's easier to print a
 610   packed number than a double anyway, so maybe
 611   there should be a special case to handle this... */
 612#define NEXTPACKED(p) \
 613  (p += 12, fetch_data(info, p), 0.0)
 614
 615/* Maximum length of an instruction.  */
 616#define MAXLEN 22
 617
 618struct private
 619{
 620  /* Points to first byte not fetched.  */
 621  bfd_byte *max_fetched;
 622  bfd_byte the_buffer[MAXLEN];
 623  bfd_vma insn_start;
 624  sigjmp_buf bailout;
 625};
 626
 627/* Make sure that bytes from INFO->PRIVATE_DATA->BUFFER (inclusive)
 628   to ADDR (exclusive) are valid.  Returns 1 for success, longjmps
 629   on error.  */
 630static int
 631fetch_data2(struct disassemble_info *info, bfd_byte *addr)
 632{
 633  int status;
 634  struct private *priv = (struct private *)info->private_data;
 635  bfd_vma start = priv->insn_start + (priv->max_fetched - priv->the_buffer);
 636
 637  status = (*info->read_memory_func) (start,
 638                                      priv->max_fetched,
 639                                      addr - priv->max_fetched,
 640                                      info);
 641  if (status != 0)
 642    {
 643      (*info->memory_error_func) (status, start, info);
 644      siglongjmp(priv->bailout, 1);
 645    }
 646  else
 647    priv->max_fetched = addr;
 648  return 1;
 649}
 650
 651static int
 652fetch_data(struct disassemble_info *info, bfd_byte *addr)
 653{
 654    if (addr <= ((struct private *) (info->private_data))->max_fetched) {
 655        return 1;
 656    } else {
 657        return fetch_data2(info, addr);
 658    }
 659}
 660
 661/* This function is used to print to the bit-bucket.  */
 662static int
 663dummy_printer (FILE *file ATTRIBUTE_UNUSED,
 664               const char *format ATTRIBUTE_UNUSED,
 665               ...)
 666{
 667  return 0;
 668}
 669
 670static void
 671dummy_print_address (bfd_vma vma ATTRIBUTE_UNUSED,
 672                     struct disassemble_info *info ATTRIBUTE_UNUSED)
 673{
 674}
 675
 676/* Fetch BITS bits from a position in the instruction specified by CODE.
 677   CODE is a "place to put an argument", or 'x' for a destination
 678   that is a general address (mode and register).
 679   BUFFER contains the instruction.  */
 680
 681static int
 682fetch_arg (unsigned char *buffer,
 683           int code,
 684           int bits,
 685           disassemble_info *info)
 686{
 687  int val = 0;
 688
 689  switch (code)
 690    {
 691    case '/': /* MAC/EMAC mask bit.  */
 692      val = buffer[3] >> 5;
 693      break;
 694
 695    case 'G': /* EMAC ACC load.  */
 696      val = ((buffer[3] >> 3) & 0x2) | ((~buffer[1] >> 7) & 0x1);
 697      break;
 698
 699    case 'H': /* EMAC ACC !load.  */
 700      val = ((buffer[3] >> 3) & 0x2) | ((buffer[1] >> 7) & 0x1);
 701      break;
 702
 703    case ']': /* EMAC ACCEXT bit.  */
 704      val = buffer[0] >> 2;
 705      break;
 706
 707    case 'I': /* MAC/EMAC scale factor.  */
 708      val = buffer[2] >> 1;
 709      break;
 710
 711    case 'F': /* EMAC ACCx.  */
 712      val = buffer[0] >> 1;
 713      break;
 714
 715    case 'f':
 716      val = buffer[1];
 717      break;
 718
 719    case 's':
 720      val = buffer[1];
 721      break;
 722
 723    case 'd':                   /* Destination, for register or quick.  */
 724      val = (buffer[0] << 8) + buffer[1];
 725      val >>= 9;
 726      break;
 727
 728    case 'x':                   /* Destination, for general arg.  */
 729      val = (buffer[0] << 8) + buffer[1];
 730      val >>= 6;
 731      break;
 732
 733    case 'k':
 734      fetch_data(info, buffer + 3);
 735      val = (buffer[3] >> 4);
 736      break;
 737
 738    case 'C':
 739      fetch_data(info, buffer + 3);
 740      val = buffer[3];
 741      break;
 742
 743    case '1':
 744      fetch_data(info, buffer + 3);
 745      val = (buffer[2] << 8) + buffer[3];
 746      val >>= 12;
 747      break;
 748
 749    case '2':
 750      fetch_data(info, buffer + 3);
 751      val = (buffer[2] << 8) + buffer[3];
 752      val >>= 6;
 753      break;
 754
 755    case '3':
 756    case 'j':
 757      fetch_data(info, buffer + 3);
 758      val = (buffer[2] << 8) + buffer[3];
 759      break;
 760
 761    case '4':
 762      fetch_data(info, buffer + 5);
 763      val = (buffer[4] << 8) + buffer[5];
 764      val >>= 12;
 765      break;
 766
 767    case '5':
 768      fetch_data(info, buffer + 5);
 769      val = (buffer[4] << 8) + buffer[5];
 770      val >>= 6;
 771      break;
 772
 773    case '6':
 774      fetch_data(info, buffer + 5);
 775      val = (buffer[4] << 8) + buffer[5];
 776      break;
 777
 778    case '7':
 779      fetch_data(info, buffer + 3);
 780      val = (buffer[2] << 8) + buffer[3];
 781      val >>= 7;
 782      break;
 783
 784    case '8':
 785      fetch_data(info, buffer + 3);
 786      val = (buffer[2] << 8) + buffer[3];
 787      val >>= 10;
 788      break;
 789
 790    case '9':
 791      fetch_data(info, buffer + 3);
 792      val = (buffer[2] << 8) + buffer[3];
 793      val >>= 5;
 794      break;
 795
 796    case 'e':
 797      val = (buffer[1] >> 6);
 798      break;
 799
 800    case 'm':
 801      val = (buffer[1] & 0x40 ? 0x8 : 0)
 802        | ((buffer[0] >> 1) & 0x7)
 803        | (buffer[3] & 0x80 ? 0x10 : 0);
 804      break;
 805
 806    case 'n':
 807      val = (buffer[1] & 0x40 ? 0x8 : 0) | ((buffer[0] >> 1) & 0x7);
 808      break;
 809
 810    case 'o':
 811      val = (buffer[2] >> 4) | (buffer[3] & 0x80 ? 0x10 : 0);
 812      break;
 813
 814    case 'M':
 815      val = (buffer[1] & 0xf) | (buffer[3] & 0x40 ? 0x10 : 0);
 816      break;
 817
 818    case 'N':
 819      val = (buffer[3] & 0xf) | (buffer[3] & 0x40 ? 0x10 : 0);
 820      break;
 821
 822    case 'h':
 823      val = buffer[2] >> 2;
 824      break;
 825
 826    default:
 827      abort ();
 828    }
 829
 830  switch (bits)
 831    {
 832    case 1:
 833      return val & 1;
 834    case 2:
 835      return val & 3;
 836    case 3:
 837      return val & 7;
 838    case 4:
 839      return val & 017;
 840    case 5:
 841      return val & 037;
 842    case 6:
 843      return val & 077;
 844    case 7:
 845      return val & 0177;
 846    case 8:
 847      return val & 0377;
 848    case 12:
 849      return val & 07777;
 850    default:
 851      abort ();
 852    }
 853}
 854
 855/* Check if an EA is valid for a particular code.  This is required
 856   for the EMAC instructions since the type of source address determines
 857   if it is a EMAC-load instruction if the EA is mode 2-5, otherwise it
 858   is a non-load EMAC instruction and the bits mean register Ry.
 859   A similar case exists for the movem instructions where the register
 860   mask is interpreted differently for different EAs.  */
 861
 862static bfd_boolean
 863m68k_valid_ea (char code, int val)
 864{
 865  int mode, mask;
 866#define M(n0,n1,n2,n3,n4,n5,n6,n70,n71,n72,n73,n74) \
 867  (n0 | n1 << 1 | n2 << 2 | n3 << 3 | n4 << 4 | n5 << 5 | n6 << 6 \
 868   | n70 << 7 | n71 << 8 | n72 << 9 | n73 << 10 | n74 << 11)
 869
 870  switch (code)
 871    {
 872    case '*':
 873      mask = M (1,1,1,1,1,1,1,1,1,1,1,1);
 874      break;
 875    case '~':
 876      mask = M (0,0,1,1,1,1,1,1,1,0,0,0);
 877      break;
 878    case '%':
 879      mask = M (1,1,1,1,1,1,1,1,1,0,0,0);
 880      break;
 881    case ';':
 882      mask = M (1,0,1,1,1,1,1,1,1,1,1,1);
 883      break;
 884    case '@':
 885      mask = M (1,0,1,1,1,1,1,1,1,1,1,0);
 886      break;
 887    case '!':
 888      mask = M (0,0,1,0,0,1,1,1,1,1,1,0);
 889      break;
 890    case '&':
 891      mask = M (0,0,1,0,0,1,1,1,1,0,0,0);
 892      break;
 893    case '$':
 894      mask = M (1,0,1,1,1,1,1,1,1,0,0,0);
 895      break;
 896    case '?':
 897      mask = M (1,0,1,0,0,1,1,1,1,0,0,0);
 898      break;
 899    case '/':
 900      mask = M (1,0,1,0,0,1,1,1,1,1,1,0);
 901      break;
 902    case '|':
 903      mask = M (0,0,1,0,0,1,1,1,1,1,1,0);
 904      break;
 905    case '>':
 906      mask = M (0,0,1,0,1,1,1,1,1,0,0,0);
 907      break;
 908    case '<':
 909      mask = M (0,0,1,1,0,1,1,1,1,1,1,0);
 910      break;
 911    case 'm':
 912      mask = M (1,1,1,1,1,0,0,0,0,0,0,0);
 913      break;
 914    case 'n':
 915      mask = M (0,0,0,0,0,1,0,0,0,1,0,0);
 916      break;
 917    case 'o':
 918      mask = M (0,0,0,0,0,0,1,1,1,0,1,1);
 919      break;
 920    case 'p':
 921      mask = M (1,1,1,1,1,1,0,0,0,0,0,0);
 922      break;
 923    case 'q':
 924      mask = M (1,0,1,1,1,1,0,0,0,0,0,0);
 925      break;
 926    case 'v':
 927      mask = M (1,0,1,1,1,1,0,1,1,0,0,0);
 928      break;
 929    case 'b':
 930      mask = M (1,0,1,1,1,1,0,0,0,1,0,0);
 931      break;
 932    case 'w':
 933      mask = M (0,0,1,1,1,1,0,0,0,1,0,0);
 934      break;
 935    case 'y':
 936      mask = M (0,0,1,0,0,1,0,0,0,0,0,0);
 937      break;
 938    case 'z':
 939      mask = M (0,0,1,0,0,1,0,0,0,1,0,0);
 940      break;
 941    case '4':
 942      mask = M (0,0,1,1,1,1,0,0,0,0,0,0);
 943      break;
 944    default:
 945      abort ();
 946    }
 947#undef M
 948
 949  mode = (val >> 3) & 7;
 950  if (mode == 7)
 951    mode += val & 7;
 952  return (mask & (1 << mode)) != 0;
 953}
 954
 955/* Print a base register REGNO and displacement DISP, on INFO->STREAM.
 956   REGNO = -1 for pc, -2 for none (suppressed).  */
 957
 958static void
 959print_base (int regno, bfd_vma disp, disassemble_info *info)
 960{
 961  if (regno == -1)
 962    {
 963      (*info->fprintf_func) (info->stream, "%%pc@(");
 964      (*info->print_address_func) (disp, info);
 965    }
 966  else
 967    {
 968      char buf[50];
 969
 970      if (regno == -2)
 971        (*info->fprintf_func) (info->stream, "@(");
 972      else if (regno == -3)
 973        (*info->fprintf_func) (info->stream, "%%zpc@(");
 974      else
 975        (*info->fprintf_func) (info->stream, "%s@(", reg_names[regno]);
 976
 977      sprintf_vma (buf, disp);
 978      (*info->fprintf_func) (info->stream, "%s", buf);
 979    }
 980}
 981
 982/* Print an indexed argument.  The base register is BASEREG (-1 for pc).
 983   P points to extension word, in buffer.
 984   ADDR is the nominal core address of that extension word.  */
 985
 986static unsigned char *
 987print_indexed (int basereg,
 988               unsigned char *p,
 989               bfd_vma addr,
 990               disassemble_info *info)
 991{
 992  int word;
 993  static const char *const scales[] = { "", ":2", ":4", ":8" };
 994  bfd_vma base_disp;
 995  bfd_vma outer_disp;
 996  char buf[40];
 997  char vmabuf[50];
 998
 999  word = NEXTWORD (p);
1000
1001  /* Generate the text for the index register.
1002     Where this will be output is not yet determined.  */
1003  sprintf (buf, "%s:%c%s",
1004           reg_names[(word >> 12) & 0xf],
1005           (word & 0x800) ? 'l' : 'w',
1006           scales[(word >> 9) & 3]);
1007
1008  /* Handle the 68000 style of indexing.  */
1009
1010  if ((word & 0x100) == 0)
1011    {
1012      base_disp = word & 0xff;
1013      if ((base_disp & 0x80) != 0)
1014        base_disp -= 0x100;
1015      if (basereg == -1)
1016        base_disp += addr;
1017      print_base (basereg, base_disp, info);
1018      (*info->fprintf_func) (info->stream, ",%s)", buf);
1019      return p;
1020    }
1021
1022  /* Handle the generalized kind.  */
1023  /* First, compute the displacement to add to the base register.  */
1024  if (word & 0200)
1025    {
1026      if (basereg == -1)
1027        basereg = -3;
1028      else
1029        basereg = -2;
1030    }
1031  if (word & 0100)
1032    buf[0] = '\0';
1033  base_disp = 0;
1034  switch ((word >> 4) & 3)
1035    {
1036    case 2:
1037      base_disp = NEXTWORD (p);
1038      break;
1039    case 3:
1040      base_disp = NEXTLONG (p);
1041    }
1042  if (basereg == -1)
1043    base_disp += addr;
1044
1045  /* Handle single-level case (not indirect).  */
1046  if ((word & 7) == 0)
1047    {
1048      print_base (basereg, base_disp, info);
1049      if (buf[0] != '\0')
1050        (*info->fprintf_func) (info->stream, ",%s", buf);
1051      (*info->fprintf_func) (info->stream, ")");
1052      return p;
1053    }
1054
1055  /* Two level.  Compute displacement to add after indirection.  */
1056  outer_disp = 0;
1057  switch (word & 3)
1058    {
1059    case 2:
1060      outer_disp = NEXTWORD (p);
1061      break;
1062    case 3:
1063      outer_disp = NEXTLONG (p);
1064    }
1065
1066  print_base (basereg, base_disp, info);
1067  if ((word & 4) == 0 && buf[0] != '\0')
1068    {
1069      (*info->fprintf_func) (info->stream, ",%s", buf);
1070      buf[0] = '\0';
1071    }
1072  sprintf_vma (vmabuf, outer_disp);
1073  (*info->fprintf_func) (info->stream, ")@(%s", vmabuf);
1074  if (buf[0] != '\0')
1075    (*info->fprintf_func) (info->stream, ",%s", buf);
1076  (*info->fprintf_func) (info->stream, ")");
1077
1078  return p;
1079}
1080
1081/* Returns number of bytes "eaten" by the operand, or
1082   return -1 if an invalid operand was found, or -2 if
1083   an opcode table error was found.
1084   ADDR is the pc for this arg to be relative to.  */
1085
1086static int
1087print_insn_arg (const char *d,
1088                unsigned char *buffer,
1089                unsigned char *p0,
1090                bfd_vma addr,
1091                disassemble_info *info)
1092{
1093  int val = 0;
1094  int place = d[1];
1095  unsigned char *p = p0;
1096  int regno;
1097  const char *regname;
1098  unsigned char *p1;
1099  double flval;
1100  int flt_p;
1101  bfd_signed_vma disp;
1102  unsigned int uval;
1103
1104  switch (*d)
1105    {
1106    case 'c':           /* Cache identifier.  */
1107      {
1108        static const char *const cacheFieldName[] = { "nc", "dc", "ic", "bc" };
1109        val = fetch_arg (buffer, place, 2, info);
1110        (*info->fprintf_func) (info->stream, "%s", cacheFieldName[val]);
1111        break;
1112      }
1113
1114    case 'a':           /* Address register indirect only. Cf. case '+'.  */
1115      {
1116        (*info->fprintf_func)
1117          (info->stream,
1118           "%s@",
1119           reg_names[fetch_arg (buffer, place, 3, info) + 8]);
1120        break;
1121      }
1122
1123    case '_':           /* 32-bit absolute address for move16.  */
1124      {
1125        uval = NEXTULONG (p);
1126        (*info->print_address_func) (uval, info);
1127        break;
1128      }
1129
1130    case 'C':
1131      (*info->fprintf_func) (info->stream, "%%ccr");
1132      break;
1133
1134    case 'S':
1135      (*info->fprintf_func) (info->stream, "%%sr");
1136      break;
1137
1138    case 'U':
1139      (*info->fprintf_func) (info->stream, "%%usp");
1140      break;
1141
1142    case 'E':
1143      (*info->fprintf_func) (info->stream, "%%acc");
1144      break;
1145
1146    case 'G':
1147      (*info->fprintf_func) (info->stream, "%%macsr");
1148      break;
1149
1150    case 'H':
1151      (*info->fprintf_func) (info->stream, "%%mask");
1152      break;
1153
1154    case 'J':
1155      {
1156        /* FIXME: There's a problem here, different m68k processors call the
1157           same address different names. This table can't get it right
1158           because it doesn't know which processor it's disassembling for.  */
1159        static const struct { const char *name; int value; } names[]
1160          = {{"%sfc", 0x000}, {"%dfc", 0x001}, {"%cacr", 0x002},
1161             {"%tc",  0x003}, {"%itt0",0x004}, {"%itt1", 0x005},
1162             {"%dtt0",0x006}, {"%dtt1",0x007}, {"%buscr",0x008},
1163             {"%usp", 0x800}, {"%vbr", 0x801}, {"%caar", 0x802},
1164             {"%msp", 0x803}, {"%isp", 0x804},
1165             {"%flashbar", 0xc04}, {"%rambar", 0xc05}, /* mcf528x added these.  */
1166
1167             /* Should we be calling this psr like we do in case 'Y'?  */
1168             {"%mmusr",0x805},
1169
1170             {"%urp", 0x806}, {"%srp", 0x807}, {"%pcr", 0x808}};
1171
1172        val = fetch_arg (buffer, place, 12, info);
1173        for (regno = sizeof names / sizeof names[0] - 1; regno >= 0; regno--)
1174          if (names[regno].value == val)
1175            {
1176              (*info->fprintf_func) (info->stream, "%s", names[regno].name);
1177              break;
1178            }
1179        if (regno < 0)
1180          (*info->fprintf_func) (info->stream, "%d", val);
1181      }
1182      break;
1183
1184    case 'Q':
1185      val = fetch_arg (buffer, place, 3, info);
1186      /* 0 means 8, except for the bkpt instruction... */
1187      if (val == 0 && d[1] != 's')
1188        val = 8;
1189      (*info->fprintf_func) (info->stream, "#%d", val);
1190      break;
1191
1192    case 'x':
1193      val = fetch_arg (buffer, place, 3, info);
1194      /* 0 means -1.  */
1195      if (val == 0)
1196        val = -1;
1197      (*info->fprintf_func) (info->stream, "#%d", val);
1198      break;
1199
1200    case 'M':
1201      if (place == 'h')
1202        {
1203          static const char *const scalefactor_name[] = { "<<", ">>" };
1204          val = fetch_arg (buffer, place, 1, info);
1205          (*info->fprintf_func) (info->stream, "%s", scalefactor_name[val]);
1206        }
1207      else
1208        {
1209          val = fetch_arg (buffer, place, 8, info);
1210          if (val & 0x80)
1211            val = val - 0x100;
1212          (*info->fprintf_func) (info->stream, "#%d", val);
1213        }
1214      break;
1215
1216    case 'T':
1217      val = fetch_arg (buffer, place, 4, info);
1218      (*info->fprintf_func) (info->stream, "#%d", val);
1219      break;
1220
1221    case 'D':
1222      (*info->fprintf_func) (info->stream, "%s",
1223                             reg_names[fetch_arg (buffer, place, 3, info)]);
1224      break;
1225
1226    case 'A':
1227      (*info->fprintf_func)
1228        (info->stream, "%s",
1229         reg_names[fetch_arg (buffer, place, 3, info) + 010]);
1230      break;
1231
1232    case 'R':
1233      (*info->fprintf_func)
1234        (info->stream, "%s",
1235         reg_names[fetch_arg (buffer, place, 4, info)]);
1236      break;
1237
1238    case 'r':
1239      regno = fetch_arg (buffer, place, 4, info);
1240      if (regno > 7)
1241        (*info->fprintf_func) (info->stream, "%s@", reg_names[regno]);
1242      else
1243        (*info->fprintf_func) (info->stream, "@(%s)", reg_names[regno]);
1244      break;
1245
1246    case 'F':
1247      (*info->fprintf_func)
1248        (info->stream, "%%fp%d",
1249         fetch_arg (buffer, place, 3, info));
1250      break;
1251
1252    case 'O':
1253      val = fetch_arg (buffer, place, 6, info);
1254      if (val & 0x20)
1255        (*info->fprintf_func) (info->stream, "%s", reg_names[val & 7]);
1256      else
1257        (*info->fprintf_func) (info->stream, "%d", val);
1258      break;
1259
1260    case '+':
1261      (*info->fprintf_func)
1262        (info->stream, "%s@+",
1263         reg_names[fetch_arg (buffer, place, 3, info) + 8]);
1264      break;
1265
1266    case '-':
1267      (*info->fprintf_func)
1268        (info->stream, "%s@-",
1269         reg_names[fetch_arg (buffer, place, 3, info) + 8]);
1270      break;
1271
1272    case 'k':
1273      if (place == 'k')
1274        (*info->fprintf_func)
1275          (info->stream, "{%s}",
1276           reg_names[fetch_arg (buffer, place, 3, info)]);
1277      else if (place == 'C')
1278        {
1279          val = fetch_arg (buffer, place, 7, info);
1280          if (val > 63)         /* This is a signed constant.  */
1281            val -= 128;
1282          (*info->fprintf_func) (info->stream, "{#%d}", val);
1283        }
1284      else
1285        return -2;
1286      break;
1287
1288    case '#':
1289    case '^':
1290      p1 = buffer + (*d == '#' ? 2 : 4);
1291      if (place == 's')
1292        val = fetch_arg (buffer, place, 4, info);
1293      else if (place == 'C')
1294        val = fetch_arg (buffer, place, 7, info);
1295      else if (place == '8')
1296        val = fetch_arg (buffer, place, 3, info);
1297      else if (place == '3')
1298        val = fetch_arg (buffer, place, 8, info);
1299      else if (place == 'b')
1300        val = NEXTBYTE (p1);
1301      else if (place == 'w' || place == 'W')
1302        val = NEXTWORD (p1);
1303      else if (place == 'l')
1304        val = NEXTLONG (p1);
1305      else
1306        return -2;
1307      (*info->fprintf_func) (info->stream, "#%d", val);
1308      break;
1309
1310    case 'B':
1311      if (place == 'b')
1312        disp = NEXTBYTE (p);
1313      else if (place == 'B')
1314        disp = COERCE_SIGNED_CHAR (buffer[1]);
1315      else if (place == 'w' || place == 'W')
1316        disp = NEXTWORD (p);
1317      else if (place == 'l' || place == 'L' || place == 'C')
1318        disp = NEXTLONG (p);
1319      else if (place == 'g')
1320        {
1321          disp = NEXTBYTE (buffer);
1322          if (disp == 0)
1323            disp = NEXTWORD (p);
1324          else if (disp == -1)
1325            disp = NEXTLONG (p);
1326        }
1327      else if (place == 'c')
1328        {
1329          if (buffer[1] & 0x40)         /* If bit six is one, long offset.  */
1330            disp = NEXTLONG (p);
1331          else
1332            disp = NEXTWORD (p);
1333        }
1334      else
1335        return -2;
1336
1337      (*info->print_address_func) (addr + disp, info);
1338      break;
1339
1340    case 'd':
1341      val = NEXTWORD (p);
1342      (*info->fprintf_func)
1343        (info->stream, "%s@(%d)",
1344         reg_names[fetch_arg (buffer, place, 3, info) + 8], val);
1345      break;
1346
1347    case 's':
1348      (*info->fprintf_func) (info->stream, "%s",
1349                             fpcr_names[fetch_arg (buffer, place, 3, info)]);
1350      break;
1351
1352    case 'e':
1353      val = fetch_arg(buffer, place, 2, info);
1354      (*info->fprintf_func) (info->stream, "%%acc%d", val);
1355      break;
1356
1357    case 'g':
1358      val = fetch_arg(buffer, place, 1, info);
1359      (*info->fprintf_func) (info->stream, "%%accext%s", val==0 ? "01" : "23");
1360      break;
1361
1362    case 'i':
1363      val = fetch_arg(buffer, place, 2, info);
1364      if (val == 1)
1365        (*info->fprintf_func) (info->stream, "<<");
1366      else if (val == 3)
1367        (*info->fprintf_func) (info->stream, ">>");
1368      else
1369        return -1;
1370      break;
1371
1372    case 'I':
1373      /* Get coprocessor ID... */
1374      val = fetch_arg (buffer, 'd', 3, info);
1375
1376      if (val != 1)                             /* Unusual coprocessor ID?  */
1377        (*info->fprintf_func) (info->stream, "(cpid=%d) ", val);
1378      break;
1379
1380    case '4':
1381    case '*':
1382    case '~':
1383    case '%':
1384    case ';':
1385    case '@':
1386    case '!':
1387    case '$':
1388    case '?':
1389    case '/':
1390    case '&':
1391    case '|':
1392    case '<':
1393    case '>':
1394    case 'm':
1395    case 'n':
1396    case 'o':
1397    case 'p':
1398    case 'q':
1399    case 'v':
1400    case 'b':
1401    case 'w':
1402    case 'y':
1403    case 'z':
1404      if (place == 'd')
1405        {
1406          val = fetch_arg (buffer, 'x', 6, info);
1407          val = ((val & 7) << 3) + ((val >> 3) & 7);
1408        }
1409      else
1410        val = fetch_arg (buffer, 's', 6, info);
1411
1412      /* If the <ea> is invalid for *d, then reject this match.  */
1413      if (!m68k_valid_ea (*d, val))
1414        return -1;
1415
1416      /* Get register number assuming address register.  */
1417      regno = (val & 7) + 8;
1418      regname = reg_names[regno];
1419      switch (val >> 3)
1420        {
1421        case 0:
1422          (*info->fprintf_func) (info->stream, "%s", reg_names[val]);
1423          break;
1424
1425        case 1:
1426          (*info->fprintf_func) (info->stream, "%s", regname);
1427          break;
1428
1429        case 2:
1430          (*info->fprintf_func) (info->stream, "%s@", regname);
1431          break;
1432
1433        case 3:
1434          (*info->fprintf_func) (info->stream, "%s@+", regname);
1435          break;
1436
1437        case 4:
1438          (*info->fprintf_func) (info->stream, "%s@-", regname);
1439          break;
1440
1441        case 5:
1442          val = NEXTWORD (p);
1443          (*info->fprintf_func) (info->stream, "%s@(%d)", regname, val);
1444          break;
1445
1446        case 6:
1447          p = print_indexed (regno, p, addr, info);
1448          break;
1449
1450        case 7:
1451          switch (val & 7)
1452            {
1453            case 0:
1454              val = NEXTWORD (p);
1455              (*info->print_address_func) (val, info);
1456              break;
1457
1458            case 1:
1459              uval = NEXTULONG (p);
1460              (*info->print_address_func) (uval, info);
1461              break;
1462
1463            case 2:
1464              val = NEXTWORD (p);
1465              (*info->fprintf_func) (info->stream, "%%pc@(");
1466              (*info->print_address_func) (addr + val, info);
1467              (*info->fprintf_func) (info->stream, ")");
1468              break;
1469
1470            case 3:
1471              p = print_indexed (-1, p, addr, info);
1472              break;
1473
1474            case 4:
1475              flt_p = 1;        /* Assume it's a float... */
1476              switch (place)
1477              {
1478                case 'b':
1479                  val = NEXTBYTE (p);
1480                  flt_p = 0;
1481                  break;
1482
1483                case 'w':
1484                  val = NEXTWORD (p);
1485                  flt_p = 0;
1486                  break;
1487
1488                case 'l':
1489                  val = NEXTLONG (p);
1490                  flt_p = 0;
1491                  break;
1492
1493                case 'f':
1494                  NEXTSINGLE (flval, p);
1495                  break;
1496
1497                case 'F':
1498                  NEXTDOUBLE (flval, p);
1499                  break;
1500
1501                case 'x':
1502                  NEXTEXTEND (flval, p);
1503                  break;
1504
1505                case 'p':
1506                  flval = NEXTPACKED (p);
1507                  break;
1508
1509                default:
1510                  return -1;
1511              }
1512              if (flt_p)        /* Print a float? */
1513                (*info->fprintf_func) (info->stream, "#%g", flval);
1514              else
1515                (*info->fprintf_func) (info->stream, "#%d", val);
1516              break;
1517
1518            default:
1519              return -1;
1520            }
1521        }
1522
1523      /* If place is '/', then this is the case of the mask bit for
1524         mac/emac loads. Now that the arg has been printed, grab the
1525         mask bit and if set, add a '&' to the arg.  */
1526      if (place == '/')
1527        {
1528          val = fetch_arg (buffer, place, 1, info);
1529          if (val)
1530            info->fprintf_func (info->stream, "&");
1531        }
1532      break;
1533
1534    case 'L':
1535    case 'l':
1536        if (place == 'w')
1537          {
1538            char doneany;
1539            p1 = buffer + 2;
1540            val = NEXTWORD (p1);
1541            /* Move the pointer ahead if this point is farther ahead
1542               than the last.  */
1543            p = p1 > p ? p1 : p;
1544            if (val == 0)
1545              {
1546                (*info->fprintf_func) (info->stream, "#0");
1547                break;
1548              }
1549            if (*d == 'l')
1550              {
1551                int newval = 0;
1552
1553                for (regno = 0; regno < 16; ++regno)
1554                  if (val & (0x8000 >> regno))
1555                    newval |= 1 << regno;
1556                val = newval;
1557              }
1558            val &= 0xffff;
1559            doneany = 0;
1560            for (regno = 0; regno < 16; ++regno)
1561              if (val & (1 << regno))
1562                {
1563                  int first_regno;
1564
1565                  if (doneany)
1566                    (*info->fprintf_func) (info->stream, "/");
1567                  doneany = 1;
1568                  (*info->fprintf_func) (info->stream, "%s", reg_names[regno]);
1569                  first_regno = regno;
1570                  while (val & (1 << (regno + 1)))
1571                    ++regno;
1572                  if (regno > first_regno)
1573                    (*info->fprintf_func) (info->stream, "-%s",
1574                                           reg_names[regno]);
1575                }
1576          }
1577        else if (place == '3')
1578          {
1579            /* `fmovem' insn.  */
1580            char doneany;
1581            val = fetch_arg (buffer, place, 8, info);
1582            if (val == 0)
1583              {
1584                (*info->fprintf_func) (info->stream, "#0");
1585                break;
1586              }
1587            if (*d == 'l')
1588              {
1589                int newval = 0;
1590
1591                for (regno = 0; regno < 8; ++regno)
1592                  if (val & (0x80 >> regno))
1593                    newval |= 1 << regno;
1594                val = newval;
1595              }
1596            val &= 0xff;
1597            doneany = 0;
1598            for (regno = 0; regno < 8; ++regno)
1599              if (val & (1 << regno))
1600                {
1601                  int first_regno;
1602                  if (doneany)
1603                    (*info->fprintf_func) (info->stream, "/");
1604                  doneany = 1;
1605                  (*info->fprintf_func) (info->stream, "%%fp%d", regno);
1606                  first_regno = regno;
1607                  while (val & (1 << (regno + 1)))
1608                    ++regno;
1609                  if (regno > first_regno)
1610                    (*info->fprintf_func) (info->stream, "-%%fp%d", regno);
1611                }
1612          }
1613        else if (place == '8')
1614          {
1615            /* fmoveml for FP status registers.  */
1616            (*info->fprintf_func) (info->stream, "%s",
1617                                   fpcr_names[fetch_arg (buffer, place, 3,
1618                                                         info)]);
1619          }
1620        else
1621          return -2;
1622      break;
1623
1624    case 'X':
1625      place = '8';
1626      /* fall through */
1627    case 'Y':
1628    case 'Z':
1629    case 'W':
1630    case '0':
1631    case '1':
1632    case '2':
1633    case '3':
1634      {
1635        int val = fetch_arg (buffer, place, 5, info);
1636        const char *name = 0;
1637
1638        switch (val)
1639          {
1640          case 2: name = "%tt0"; break;
1641          case 3: name = "%tt1"; break;
1642          case 0x10: name = "%tc"; break;
1643          case 0x11: name = "%drp"; break;
1644          case 0x12: name = "%srp"; break;
1645          case 0x13: name = "%crp"; break;
1646          case 0x14: name = "%cal"; break;
1647          case 0x15: name = "%val"; break;
1648          case 0x16: name = "%scc"; break;
1649          case 0x17: name = "%ac"; break;
1650          case 0x18: name = "%psr"; break;
1651          case 0x19: name = "%pcsr"; break;
1652          case 0x1c:
1653          case 0x1d:
1654            {
1655              int break_reg = ((buffer[3] >> 2) & 7);
1656
1657              (*info->fprintf_func)
1658                (info->stream, val == 0x1c ? "%%bad%d" : "%%bac%d",
1659                 break_reg);
1660            }
1661            break;
1662          default:
1663            (*info->fprintf_func) (info->stream, "<mmu register %d>", val);
1664          }
1665        if (name)
1666          (*info->fprintf_func) (info->stream, "%s", name);
1667      }
1668      break;
1669
1670    case 'f':
1671      {
1672        int fc = fetch_arg (buffer, place, 5, info);
1673
1674        if (fc == 1)
1675          (*info->fprintf_func) (info->stream, "%%dfc");
1676        else if (fc == 0)
1677          (*info->fprintf_func) (info->stream, "%%sfc");
1678        else
1679          /* xgettext:c-format */
1680          (*info->fprintf_func) (info->stream, "<function code %d>", fc);
1681      }
1682      break;
1683
1684    case 'V':
1685      (*info->fprintf_func) (info->stream, "%%val");
1686      break;
1687
1688    case 't':
1689      {
1690        int level = fetch_arg (buffer, place, 3, info);
1691
1692        (*info->fprintf_func) (info->stream, "%d", level);
1693      }
1694      break;
1695
1696    case 'u':
1697      {
1698        short is_upper = 0;
1699        int reg = fetch_arg (buffer, place, 5, info);
1700
1701        if (reg & 0x10)
1702          {
1703            is_upper = 1;
1704            reg &= 0xf;
1705          }
1706        (*info->fprintf_func) (info->stream, "%s%s",
1707                               reg_half_names[reg],
1708                               is_upper ? "u" : "l");
1709      }
1710      break;
1711
1712    default:
1713      return -2;
1714    }
1715
1716  return p - p0;
1717}
1718
1719/* Try to match the current instruction to best and if so, return the
1720   number of bytes consumed from the instruction stream, else zero.  */
1721
1722static int
1723match_insn_m68k (bfd_vma memaddr,
1724                 disassemble_info * info,
1725                 const struct m68k_opcode * best,
1726                 struct private * priv)
1727{
1728  unsigned char *save_p;
1729  unsigned char *p;
1730  const char *d;
1731
1732  bfd_byte *buffer = priv->the_buffer;
1733  fprintf_function save_printer = info->fprintf_func;
1734  void (* save_print_address) (bfd_vma, struct disassemble_info *)
1735    = info->print_address_func;
1736
1737  /* Point at first word of argument data,
1738     and at descriptor for first argument.  */
1739  p = buffer + 2;
1740
1741  /* Figure out how long the fixed-size portion of the instruction is.
1742     The only place this is stored in the opcode table is
1743     in the arguments--look for arguments which specify fields in the 2nd
1744     or 3rd words of the instruction.  */
1745  for (d = best->args; *d; d += 2)
1746    {
1747      /* I don't think it is necessary to be checking d[0] here;
1748         I suspect all this could be moved to the case statement below.  */
1749      if (d[0] == '#')
1750        {
1751          if (d[1] == 'l' && p - buffer < 6)
1752            p = buffer + 6;
1753          else if (p - buffer < 4 && d[1] != 'C' && d[1] != '8')
1754            p = buffer + 4;
1755        }
1756
1757      if ((d[0] == 'L' || d[0] == 'l') && d[1] == 'w' && p - buffer < 4)
1758        p = buffer + 4;
1759
1760      switch (d[1])
1761        {
1762        case '1':
1763        case '2':
1764        case '3':
1765        case '7':
1766        case '8':
1767        case '9':
1768        case 'i':
1769          if (p - buffer < 4)
1770            p = buffer + 4;
1771          break;
1772        case '4':
1773        case '5':
1774        case '6':
1775          if (p - buffer < 6)
1776            p = buffer + 6;
1777          break;
1778        default:
1779          break;
1780        }
1781    }
1782
1783  /* pflusha is an exceptions.  It takes no arguments but is two words
1784     long.  Recognize it by looking at the lower 16 bits of the mask.  */
1785  if (p - buffer < 4 && (best->match & 0xFFFF) != 0)
1786    p = buffer + 4;
1787
1788  /* lpstop is another exception.  It takes a one word argument but is
1789     three words long.  */
1790  if (p - buffer < 6
1791      && (best->match & 0xffff) == 0xffff
1792      && best->args[0] == '#'
1793      && best->args[1] == 'w')
1794    {
1795      /* Copy the one word argument into the usual location for a one
1796         word argument, to simplify printing it.  We can get away with
1797         this because we know exactly what the second word is, and we
1798         aren't going to print anything based on it.  */
1799      p = buffer + 6;
1800      fetch_data(info, p);
1801      buffer[2] = buffer[4];
1802      buffer[3] = buffer[5];
1803    }
1804
1805  fetch_data(info, p);
1806
1807  d = best->args;
1808
1809  save_p = p;
1810  info->print_address_func = dummy_print_address;
1811  info->fprintf_func = dummy_printer;
1812
1813  /* We scan the operands twice.  The first time we don't print anything,
1814     but look for errors.  */
1815  for (; *d; d += 2)
1816    {
1817      int eaten = print_insn_arg (d, buffer, p, memaddr + (p - buffer), info);
1818
1819      if (eaten >= 0)
1820        p += eaten;
1821      else if (eaten == -1)
1822        {
1823          info->fprintf_func = save_printer;
1824          info->print_address_func = save_print_address;
1825          return 0;
1826        }
1827      else
1828        {
1829          info->fprintf_func (info->stream,
1830                              /* xgettext:c-format */
1831                              "<internal error in opcode table: %s %s>\n",
1832                              best->name,  best->args);
1833          info->fprintf_func = save_printer;
1834          info->print_address_func = save_print_address;
1835          return 2;
1836        }
1837    }
1838
1839  p = save_p;
1840  info->fprintf_func = save_printer;
1841  info->print_address_func = save_print_address;
1842
1843  d = best->args;
1844
1845  info->fprintf_func (info->stream, "%s", best->name);
1846
1847  if (*d)
1848    info->fprintf_func (info->stream, " ");
1849
1850  while (*d)
1851    {
1852      p += print_insn_arg (d, buffer, p, memaddr + (p - buffer), info);
1853      d += 2;
1854
1855      if (*d && *(d - 2) != 'I' && *d != 'k')
1856        info->fprintf_func (info->stream, ",");
1857    }
1858
1859  return p - buffer;
1860}
1861
1862/* Print the m68k instruction at address MEMADDR in debugged memory,
1863   on INFO->STREAM.  Returns length of the instruction, in bytes.  */
1864
1865int
1866print_insn_m68k (bfd_vma memaddr, disassemble_info *info)
1867{
1868  int i;
1869  const char *d;
1870  unsigned int arch_mask;
1871  struct private priv;
1872  bfd_byte *buffer = priv.the_buffer;
1873  int major_opcode;
1874  static int numopcodes[16];
1875  static const struct m68k_opcode **opcodes[16];
1876  int val;
1877
1878  if (!opcodes[0])
1879    {
1880      /* Speed up the matching by sorting the opcode
1881         table on the upper four bits of the opcode.  */
1882      const struct m68k_opcode **opc_pointer[16];
1883
1884      /* First count how many opcodes are in each of the sixteen buckets.  */
1885      for (i = 0; i < m68k_numopcodes; i++)
1886        numopcodes[(m68k_opcodes[i].opcode >> 28) & 15]++;
1887
1888      /* Then create a sorted table of pointers
1889         that point into the unsorted table.  */
1890      opc_pointer[0] = malloc (sizeof (struct m68k_opcode *)
1891                               * m68k_numopcodes);
1892      opcodes[0] = opc_pointer[0];
1893
1894      for (i = 1; i < 16; i++)
1895        {
1896          opc_pointer[i] = opc_pointer[i - 1] + numopcodes[i - 1];
1897          opcodes[i] = opc_pointer[i];
1898        }
1899
1900      for (i = 0; i < m68k_numopcodes; i++)
1901        *opc_pointer[(m68k_opcodes[i].opcode >> 28) & 15]++ = &m68k_opcodes[i];
1902    }
1903
1904  info->private_data = (PTR) &priv;
1905  /* Tell objdump to use two bytes per chunk
1906     and six bytes per line for displaying raw data.  */
1907  info->bytes_per_chunk = 2;
1908  info->bytes_per_line = 6;
1909  info->display_endian = BFD_ENDIAN_BIG;
1910  priv.max_fetched = priv.the_buffer;
1911  priv.insn_start = memaddr;
1912
1913  if (sigsetjmp(priv.bailout, 0) != 0) {
1914      /* Error return.  */
1915      return -1;
1916  }
1917
1918  switch (info->mach)
1919    {
1920    default:
1921    case 0:
1922      arch_mask = (unsigned int) -1;
1923      break;
1924    case bfd_mach_m68000:
1925      arch_mask = m68000|m68881|m68851;
1926      break;
1927    case bfd_mach_m68008:
1928      arch_mask = m68008|m68881|m68851;
1929      break;
1930    case bfd_mach_m68010:
1931      arch_mask = m68010|m68881|m68851;
1932      break;
1933    case bfd_mach_m68020:
1934      arch_mask = m68020|m68881|m68851;
1935      break;
1936    case bfd_mach_m68030:
1937      arch_mask = m68030|m68881|m68851;
1938      break;
1939    case bfd_mach_m68040:
1940      arch_mask = m68040|m68881|m68851;
1941      break;
1942    case bfd_mach_m68060:
1943      arch_mask = m68060|m68881|m68851;
1944      break;
1945    case bfd_mach_mcf5200:
1946      arch_mask = mcfisa_a;
1947      break;
1948    case bfd_mach_mcf521x:
1949    case bfd_mach_mcf528x:
1950      arch_mask = mcfisa_a|mcfhwdiv|mcfisa_aa|mcfusp|mcfemac;
1951      break;
1952    case bfd_mach_mcf5206e:
1953      arch_mask = mcfisa_a|mcfhwdiv|mcfmac;
1954      break;
1955    case bfd_mach_mcf5249:
1956      arch_mask = mcfisa_a|mcfhwdiv|mcfemac;
1957      break;
1958    case bfd_mach_mcf5307:
1959      arch_mask = mcfisa_a|mcfhwdiv|mcfmac;
1960      break;
1961    case bfd_mach_mcf5407:
1962      arch_mask = mcfisa_a|mcfhwdiv|mcfisa_b|mcfmac;
1963      break;
1964    case bfd_mach_mcf547x:
1965    case bfd_mach_mcf548x:
1966    case bfd_mach_mcfv4e:
1967      arch_mask = mcfisa_a|mcfhwdiv|mcfisa_b|mcfusp|cfloat|mcfemac;
1968      break;
1969    }
1970
1971  fetch_data(info, buffer + 2);
1972  major_opcode = (buffer[0] >> 4) & 15;
1973
1974  for (i = 0; i < numopcodes[major_opcode]; i++)
1975    {
1976      const struct m68k_opcode *opc = opcodes[major_opcode][i];
1977      unsigned long opcode = opc->opcode;
1978      unsigned long match = opc->match;
1979
1980      if (((0xff & buffer[0] & (match >> 24)) == (0xff & (opcode >> 24)))
1981          && ((0xff & buffer[1] & (match >> 16)) == (0xff & (opcode >> 16)))
1982          /* Only fetch the next two bytes if we need to.  */
1983          && (((0xffff & match) == 0)
1984              ||
1985              (fetch_data(info, buffer + 4)
1986               && ((0xff & buffer[2] & (match >> 8)) == (0xff & (opcode >> 8)))
1987               && ((0xff & buffer[3] & match) == (0xff & opcode)))
1988              )
1989          && (opc->arch & arch_mask) != 0)
1990        {
1991          /* Don't use for printout the variants of divul and divsl
1992             that have the same register number in two places.
1993             The more general variants will match instead.  */
1994          for (d = opc->args; *d; d += 2)
1995            if (d[1] == 'D')
1996              break;
1997
1998          /* Don't use for printout the variants of most floating
1999             point coprocessor instructions which use the same
2000             register number in two places, as above.  */
2001          if (*d == '\0')
2002            for (d = opc->args; *d; d += 2)
2003              if (d[1] == 't')
2004                break;
2005
2006          /* Don't match fmovel with more than one register;
2007             wait for fmoveml.  */
2008          if (*d == '\0')
2009            {
2010              for (d = opc->args; *d; d += 2)
2011                {
2012                  if (d[0] == 's' && d[1] == '8')
2013                    {
2014                      val = fetch_arg (buffer, d[1], 3, info);
2015                      if ((val & (val - 1)) != 0)
2016                        break;
2017                    }
2018                }
2019            }
2020
2021          /* Don't match FPU insns with non-default coprocessor ID.  */
2022          if (*d == '\0')
2023            {
2024              for (d = opc->args; *d; d += 2)
2025                {
2026                  if (d[0] == 'I')
2027                    {
2028                      val = fetch_arg (buffer, 'd', 3, info);
2029                      if (val != 1)
2030                        break;
2031                    }
2032                }
2033            }
2034
2035          if (*d == '\0')
2036            if ((val = match_insn_m68k (memaddr, info, opc, & priv)))
2037              return val;
2038        }
2039    }
2040
2041  /* Handle undefined instructions.  */
2042  info->fprintf_func (info->stream, "0%o", (buffer[0] << 8) + buffer[1]);
2043  return 2;
2044}
2045/* **** End of m68k-dis.c */
2046/* **** m68k-opc.h from sourceware.org CVS 2005-08-14.  */
2047/* Opcode table for m680[012346]0/m6888[12]/m68851/mcf5200.
2048   Copyright 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
2049   2000, 2001, 2003, 2004, 2005
2050   Free Software Foundation, Inc.
2051
2052   This file is part of GDB, GAS, and the GNU binutils.
2053
2054   GDB, GAS, and the GNU binutils are free software; you can redistribute
2055   them and/or modify them under the terms of the GNU General Public
2056   License as published by the Free Software Foundation; either version
2057   1, or (at your option) any later version.
2058
2059   GDB, GAS, and the GNU binutils are distributed in the hope that they
2060   will be useful, but WITHOUT ANY WARRANTY; without even the implied
2061   warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See
2062   the GNU General Public License for more details.
2063
2064   You should have received a copy of the GNU General Public License
2065   along with this file; see the file COPYING.  If not,
2066   see <http://www.gnu.org/licenses/>.  */
2067
2068#define one(x) ((unsigned int) (x) << 16)
2069#define two(x, y) (((unsigned int) (x) << 16) + (y))
2070
2071/* The assembler requires that all instances of the same mnemonic must
2072   be consecutive.  If they aren't, the assembler will bomb at
2073   runtime.  */
2074
2075const struct m68k_opcode m68k_opcodes[] =
2076{
2077{"abcd", 2,     one(0140400),   one(0170770), "DsDd", m68000up },
2078{"abcd", 2,     one(0140410),   one(0170770), "-s-d", m68000up },
2079
2080{"addaw", 2,    one(0150300),   one(0170700), "*wAd", m68000up },
2081{"addal", 2,    one(0150700),   one(0170700), "*lAd", m68000up | mcfisa_a },
2082
2083{"addib", 4,    one(0003000),   one(0177700), "#b$s", m68000up },
2084{"addiw", 4,    one(0003100),   one(0177700), "#w$s", m68000up },
2085{"addil", 6,    one(0003200),   one(0177700), "#l$s", m68000up },
2086{"addil", 6,    one(0003200),   one(0177700), "#lDs", mcfisa_a },
2087
2088{"addqb", 2,    one(0050000),   one(0170700), "Qd$b", m68000up },
2089{"addqw", 2,    one(0050100),   one(0170700), "Qd%w", m68000up },
2090{"addql", 2,    one(0050200),   one(0170700), "Qd%l", m68000up | mcfisa_a },
2091
2092/* The add opcode can generate the adda, addi, and addq instructions.  */
2093{"addb", 2,     one(0050000),   one(0170700), "Qd$b", m68000up },
2094{"addb", 4,     one(0003000),   one(0177700), "#b$s", m68000up },
2095{"addb", 2,     one(0150000),   one(0170700), ";bDd", m68000up },
2096{"addb", 2,     one(0150400),   one(0170700), "Dd~b", m68000up },
2097{"addw", 2,     one(0050100),   one(0170700), "Qd%w", m68000up },
2098{"addw", 2,     one(0150300),   one(0170700), "*wAd", m68000up },
2099{"addw", 4,     one(0003100),   one(0177700), "#w$s", m68000up },
2100{"addw", 2,     one(0150100),   one(0170700), "*wDd", m68000up },
2101{"addw", 2,     one(0150500),   one(0170700), "Dd~w", m68000up },
2102{"addl", 2,     one(0050200),   one(0170700), "Qd%l", m68000up | mcfisa_a },
2103{"addl", 6,     one(0003200),   one(0177700), "#l$s", m68000up },
2104{"addl", 6,     one(0003200),   one(0177700), "#lDs", mcfisa_a },
2105{"addl", 2,     one(0150700),   one(0170700), "*lAd", m68000up | mcfisa_a },
2106{"addl", 2,     one(0150200),   one(0170700), "*lDd", m68000up | mcfisa_a },
2107{"addl", 2,     one(0150600),   one(0170700), "Dd~l", m68000up | mcfisa_a },
2108
2109{"addxb", 2,    one(0150400),   one(0170770), "DsDd", m68000up },
2110{"addxb", 2,    one(0150410),   one(0170770), "-s-d", m68000up },
2111{"addxw", 2,    one(0150500),   one(0170770), "DsDd", m68000up },
2112{"addxw", 2,    one(0150510),   one(0170770), "-s-d", m68000up },
2113{"addxl", 2,    one(0150600),   one(0170770), "DsDd", m68000up | mcfisa_a },
2114{"addxl", 2,    one(0150610),   one(0170770), "-s-d", m68000up },
2115
2116{"andib", 4,    one(0001000),   one(0177700), "#b$s", m68000up },
2117{"andib", 4,    one(0001074),   one(0177777), "#bCs", m68000up },
2118{"andiw", 4,    one(0001100),   one(0177700), "#w$s", m68000up },
2119{"andiw", 4,    one(0001174),   one(0177777), "#wSs", m68000up },
2120{"andil", 6,    one(0001200),   one(0177700), "#l$s", m68000up },
2121{"andil", 6,    one(0001200),   one(0177700), "#lDs", mcfisa_a },
2122{"andi", 4,     one(0001100),   one(0177700), "#w$s", m68000up },
2123{"andi", 4,     one(0001074),   one(0177777), "#bCs", m68000up },
2124{"andi", 4,     one(0001174),   one(0177777), "#wSs", m68000up },
2125
2126/* The and opcode can generate the andi instruction.  */
2127{"andb", 4,     one(0001000),   one(0177700), "#b$s", m68000up },
2128{"andb", 4,     one(0001074),   one(0177777), "#bCs", m68000up },
2129{"andb", 2,     one(0140000),   one(0170700), ";bDd", m68000up },
2130{"andb", 2,     one(0140400),   one(0170700), "Dd~b", m68000up },
2131{"andw", 4,     one(0001100),   one(0177700), "#w$s", m68000up },
2132{"andw", 4,     one(0001174),   one(0177777), "#wSs", m68000up },
2133{"andw", 2,     one(0140100),   one(0170700), ";wDd", m68000up },
2134{"andw", 2,     one(0140500),   one(0170700), "Dd~w", m68000up },
2135{"andl", 6,     one(0001200),   one(0177700), "#l$s", m68000up },
2136{"andl", 6,     one(0001200),   one(0177700), "#lDs", mcfisa_a },
2137{"andl", 2,     one(0140200),   one(0170700), ";lDd", m68000up | mcfisa_a },
2138{"andl", 2,     one(0140600),   one(0170700), "Dd~l", m68000up | mcfisa_a },
2139{"and", 4,      one(0001100),   one(0177700), "#w$w", m68000up },
2140{"and", 4,      one(0001074),   one(0177777), "#bCs", m68000up },
2141{"and", 4,      one(0001174),   one(0177777), "#wSs", m68000up },
2142{"and", 2,      one(0140100),   one(0170700), ";wDd", m68000up },
2143{"and", 2,      one(0140500),   one(0170700), "Dd~w", m68000up },
2144
2145{"aslb", 2,     one(0160400),   one(0170770), "QdDs", m68000up },
2146{"aslb", 2,     one(0160440),   one(0170770), "DdDs", m68000up },
2147{"aslw", 2,     one(0160500),   one(0170770), "QdDs", m68000up },
2148{"aslw", 2,     one(0160540),   one(0170770), "DdDs", m68000up },
2149{"aslw", 2,     one(0160700),   one(0177700), "~s",   m68000up },
2150{"asll", 2,     one(0160600),   one(0170770), "QdDs", m68000up | mcfisa_a },
2151{"asll", 2,     one(0160640),   one(0170770), "DdDs", m68000up | mcfisa_a },
2152
2153{"asrb", 2,     one(0160000),   one(0170770), "QdDs", m68000up },
2154{"asrb", 2,     one(0160040),   one(0170770), "DdDs", m68000up },
2155{"asrw", 2,     one(0160100),   one(0170770), "QdDs", m68000up },
2156{"asrw", 2,     one(0160140),   one(0170770), "DdDs", m68000up },
2157{"asrw", 2,     one(0160300),   one(0177700), "~s",   m68000up },
2158{"asrl", 2,     one(0160200),   one(0170770), "QdDs", m68000up | mcfisa_a },
2159{"asrl", 2,     one(0160240),   one(0170770), "DdDs", m68000up | mcfisa_a },
2160
2161{"bhiw", 2,     one(0061000),   one(0177777), "BW", m68000up | mcfisa_a },
2162{"blsw", 2,     one(0061400),   one(0177777), "BW", m68000up | mcfisa_a },
2163{"bccw", 2,     one(0062000),   one(0177777), "BW", m68000up | mcfisa_a },
2164{"bcsw", 2,     one(0062400),   one(0177777), "BW", m68000up | mcfisa_a },
2165{"bnew", 2,     one(0063000),   one(0177777), "BW", m68000up | mcfisa_a },
2166{"beqw", 2,     one(0063400),   one(0177777), "BW", m68000up | mcfisa_a },
2167{"bvcw", 2,     one(0064000),   one(0177777), "BW", m68000up | mcfisa_a },
2168{"bvsw", 2,     one(0064400),   one(0177777), "BW", m68000up | mcfisa_a },
2169{"bplw", 2,     one(0065000),   one(0177777), "BW", m68000up | mcfisa_a },
2170{"bmiw", 2,     one(0065400),   one(0177777), "BW", m68000up | mcfisa_a },
2171{"bgew", 2,     one(0066000),   one(0177777), "BW", m68000up | mcfisa_a },
2172{"bltw", 2,     one(0066400),   one(0177777), "BW", m68000up | mcfisa_a },
2173{"bgtw", 2,     one(0067000),   one(0177777), "BW", m68000up | mcfisa_a },
2174{"blew", 2,     one(0067400),   one(0177777), "BW", m68000up | mcfisa_a },
2175
2176{"bhil", 2,     one(0061377),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2177{"blsl", 2,     one(0061777),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2178{"bccl", 2,     one(0062377),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2179{"bcsl", 2,     one(0062777),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2180{"bnel", 2,     one(0063377),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2181{"beql", 2,     one(0063777),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2182{"bvcl", 2,     one(0064377),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2183{"bvsl", 2,     one(0064777),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2184{"bpll", 2,     one(0065377),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2185{"bmil", 2,     one(0065777),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2186{"bgel", 2,     one(0066377),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2187{"bltl", 2,     one(0066777),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2188{"bgtl", 2,     one(0067377),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2189{"blel", 2,     one(0067777),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2190
2191{"bhis", 2,     one(0061000),   one(0177400), "BB", m68000up | mcfisa_a },
2192{"blss", 2,     one(0061400),   one(0177400), "BB", m68000up | mcfisa_a },
2193{"bccs", 2,     one(0062000),   one(0177400), "BB", m68000up | mcfisa_a },
2194{"bcss", 2,     one(0062400),   one(0177400), "BB", m68000up | mcfisa_a },
2195{"bnes", 2,     one(0063000),   one(0177400), "BB", m68000up | mcfisa_a },
2196{"beqs", 2,     one(0063400),   one(0177400), "BB", m68000up | mcfisa_a },
2197{"bvcs", 2,     one(0064000),   one(0177400), "BB", m68000up | mcfisa_a },
2198{"bvss", 2,     one(0064400),   one(0177400), "BB", m68000up | mcfisa_a },
2199{"bpls", 2,     one(0065000),   one(0177400), "BB", m68000up | mcfisa_a },
2200{"bmis", 2,     one(0065400),   one(0177400), "BB", m68000up | mcfisa_a },
2201{"bges", 2,     one(0066000),   one(0177400), "BB", m68000up | mcfisa_a },
2202{"blts", 2,     one(0066400),   one(0177400), "BB", m68000up | mcfisa_a },
2203{"bgts", 2,     one(0067000),   one(0177400), "BB", m68000up | mcfisa_a },
2204{"bles", 2,     one(0067400),   one(0177400), "BB", m68000up | mcfisa_a },
2205
2206{"jhi", 2,      one(0061000),   one(0177400), "Bg", m68000up | mcfisa_a },
2207{"jls", 2,      one(0061400),   one(0177400), "Bg", m68000up | mcfisa_a },
2208{"jcc", 2,      one(0062000),   one(0177400), "Bg", m68000up | mcfisa_a },
2209{"jcs", 2,      one(0062400),   one(0177400), "Bg", m68000up | mcfisa_a },
2210{"jne", 2,      one(0063000),   one(0177400), "Bg", m68000up | mcfisa_a },
2211{"jeq", 2,      one(0063400),   one(0177400), "Bg", m68000up | mcfisa_a },
2212{"jvc", 2,      one(0064000),   one(0177400), "Bg", m68000up | mcfisa_a },
2213{"jvs", 2,      one(0064400),   one(0177400), "Bg", m68000up | mcfisa_a },
2214{"jpl", 2,      one(0065000),   one(0177400), "Bg", m68000up | mcfisa_a },
2215{"jmi", 2,      one(0065400),   one(0177400), "Bg", m68000up | mcfisa_a },
2216{"jge", 2,      one(0066000),   one(0177400), "Bg", m68000up | mcfisa_a },
2217{"jlt", 2,      one(0066400),   one(0177400), "Bg", m68000up | mcfisa_a },
2218{"jgt", 2,      one(0067000),   one(0177400), "Bg", m68000up | mcfisa_a },
2219{"jle", 2,      one(0067400),   one(0177400), "Bg", m68000up | mcfisa_a },
2220
2221{"bchg", 2,     one(0000500),   one(0170700), "Dd$s", m68000up | mcfisa_a },
2222{"bchg", 4,     one(0004100),   one(0177700), "#b$s", m68000up },
2223{"bchg", 4,     one(0004100),   one(0177700), "#bqs", mcfisa_a },
2224
2225{"bclr", 2,     one(0000600),   one(0170700), "Dd$s", m68000up | mcfisa_a },
2226{"bclr", 4,     one(0004200),   one(0177700), "#b$s", m68000up },
2227{"bclr", 4,     one(0004200),   one(0177700), "#bqs", mcfisa_a },
2228
2229{"bfchg", 4,    two(0165300, 0), two(0177700, 0170000), "?sO2O3",   m68020up },
2230{"bfclr", 4,    two(0166300, 0), two(0177700, 0170000), "?sO2O3",   m68020up },
2231{"bfexts", 4,   two(0165700, 0), two(0177700, 0100000), "/sO2O3D1", m68020up },
2232{"bfextu", 4,   two(0164700, 0), two(0177700, 0100000), "/sO2O3D1", m68020up },
2233{"bfffo", 4,    two(0166700, 0), two(0177700, 0100000), "/sO2O3D1", m68020up },
2234{"bfins", 4,    two(0167700, 0), two(0177700, 0100000), "D1?sO2O3", m68020up },
2235{"bfset", 4,    two(0167300, 0), two(0177700, 0170000), "?sO2O3",   m68020up },
2236{"bftst", 4,    two(0164300, 0), two(0177700, 0170000), "/sO2O3",   m68020up },
2237
2238{"bgnd", 2,     one(0045372),   one(0177777), "", cpu32 },
2239
2240{"bitrev", 2,   one(0000300),   one(0177770), "Ds", mcfisa_aa},
2241
2242{"bkpt", 2,     one(0044110),   one(0177770), "ts", m68010up },
2243
2244{"braw", 2,     one(0060000),   one(0177777), "BW", m68000up | mcfisa_a },
2245{"bral", 2,     one(0060377),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2246{"bras", 2,     one(0060000),   one(0177400), "BB", m68000up | mcfisa_a },
2247
2248{"bset", 2,     one(0000700),   one(0170700), "Dd$s", m68000up | mcfisa_a },
2249{"bset", 2,     one(0000700),   one(0170700), "Ddvs", mcfisa_a },
2250{"bset", 4,     one(0004300),   one(0177700), "#b$s", m68000up },
2251{"bset", 4,     one(0004300),   one(0177700), "#bqs", mcfisa_a },
2252
2253{"bsrw", 2,     one(0060400),   one(0177777), "BW", m68000up | mcfisa_a },
2254{"bsrl", 2,     one(0060777),   one(0177777), "BL", m68020up | cpu32 | mcfisa_b},
2255{"bsrs", 2,     one(0060400),   one(0177400), "BB", m68000up | mcfisa_a },
2256
2257{"btst", 2,     one(0000400),   one(0170700), "Dd;b", m68000up | mcfisa_a },
2258{"btst", 4,     one(0004000),   one(0177700), "#b@s", m68000up },
2259{"btst", 4,     one(0004000),   one(0177700), "#bqs", mcfisa_a },
2260
2261{"byterev", 2,  one(0001300),   one(0177770), "Ds", mcfisa_aa},
2262
2263{"callm", 4,    one(0003300),   one(0177700), "#b!s", m68020 },
2264
2265{"cas2w", 6,    two(0006374,0), two(0177777,0007070), "D3D6D2D5r1r4", m68020up },
2266{"cas2w", 6,    two(0006374,0), two(0177777,0007070), "D3D6D2D5R1R4", m68020up },
2267{"cas2l", 6,    two(0007374,0), two(0177777,0007070), "D3D6D2D5r1r4", m68020up },
2268{"cas2l", 6,    two(0007374,0), two(0177777,0007070), "D3D6D2D5R1R4", m68020up },
2269
2270{"casb", 4,     two(0005300, 0), two(0177700, 0177070), "D3D2~s", m68020up },
2271{"casw", 4,     two(0006300, 0), two(0177700, 0177070), "D3D2~s", m68020up },
2272{"casl", 4,     two(0007300, 0), two(0177700, 0177070), "D3D2~s", m68020up },
2273
2274{"chk2b", 4,    two(0000300,0004000), two(0177700,07777), "!sR1", m68020up | cpu32 },
2275{"chk2w", 4,    two(0001300,0004000),   two(0177700,07777), "!sR1", m68020up | cpu32 },
2276{"chk2l", 4,    two(0002300,0004000),   two(0177700,07777), "!sR1", m68020up | cpu32 },
2277
2278{"chkl", 2,     one(0040400),           one(0170700), ";lDd", m68000up },
2279{"chkw", 2,     one(0040600),           one(0170700), ";wDd", m68000up },
2280
2281#define SCOPE_LINE (0x1 << 3)
2282#define SCOPE_PAGE (0x2 << 3)
2283#define SCOPE_ALL  (0x3 << 3)
2284
2285{"cinva", 2,    one(0xf400|SCOPE_ALL),  one(0xff38), "ce",   m68040up },
2286{"cinvl", 2,    one(0xf400|SCOPE_LINE), one(0xff38), "ceas", m68040up },
2287{"cinvp", 2,    one(0xf400|SCOPE_PAGE), one(0xff38), "ceas", m68040up },
2288
2289{"cpusha", 2,   one(0xf420|SCOPE_ALL),  one(0xff38), "ce",   m68040up },
2290{"cpushl", 2,   one(0xf420|SCOPE_LINE), one(0xff38), "ceas", m68040up | mcfisa_a },
2291{"cpushp", 2,   one(0xf420|SCOPE_PAGE), one(0xff38), "ceas", m68040up },
2292
2293#undef SCOPE_LINE
2294#undef SCOPE_PAGE
2295#undef SCOPE_ALL
2296
2297{"clrb", 2,     one(0041000),   one(0177700), "$s", m68000up | mcfisa_a },
2298{"clrw", 2,     one(0041100),   one(0177700), "$s", m68000up | mcfisa_a },
2299{"clrl", 2,     one(0041200),   one(0177700), "$s", m68000up | mcfisa_a },
2300
2301{"cmp2b", 4,    two(0000300,0), two(0177700,07777), "!sR1", m68020up | cpu32 },
2302{"cmp2w", 4,    two(0001300,0), two(0177700,07777), "!sR1", m68020up | cpu32 },
2303{"cmp2l", 4,    two(0002300,0), two(0177700,07777), "!sR1", m68020up | cpu32 },
2304
2305{"cmpaw", 2,    one(0130300),   one(0170700), "*wAd", m68000up },
2306{"cmpal", 2,    one(0130700),   one(0170700), "*lAd", m68000up | mcfisa_a },
2307
2308{"cmpib", 4,    one(0006000),   one(0177700), "#b@s", m68000up },
2309{"cmpib", 4,    one(0006000),   one(0177700), "#bDs", mcfisa_b },
2310{"cmpiw", 4,    one(0006100),   one(0177700), "#w@s", m68000up },
2311{"cmpiw", 4,    one(0006100),   one(0177700), "#wDs", mcfisa_b },
2312{"cmpil", 6,    one(0006200),   one(0177700), "#l@s", m68000up },
2313{"cmpil", 6,    one(0006200),   one(0177700), "#lDs", mcfisa_a },
2314
2315{"cmpmb", 2,    one(0130410),   one(0170770), "+s+d", m68000up },
2316{"cmpmw", 2,    one(0130510),   one(0170770), "+s+d", m68000up },
2317{"cmpml", 2,    one(0130610),   one(0170770), "+s+d", m68000up },
2318
2319/* The cmp opcode can generate the cmpa, cmpm, and cmpi instructions.  */
2320{"cmpb", 4,     one(0006000),   one(0177700), "#b@s", m68000up },
2321{"cmpb", 4,     one(0006000),   one(0177700), "#bDs", mcfisa_b },
2322{"cmpb", 2,     one(0130410),   one(0170770), "+s+d", m68000up },
2323{"cmpb", 2,     one(0130000),   one(0170700), ";bDd", m68000up },
2324{"cmpb", 2,     one(0130000),   one(0170700), "*bDd", mcfisa_b },
2325{"cmpw", 2,     one(0130300),   one(0170700), "*wAd", m68000up },
2326{"cmpw", 4,     one(0006100),   one(0177700), "#w@s", m68000up },
2327{"cmpw", 4,     one(0006100),   one(0177700), "#wDs", mcfisa_b },
2328{"cmpw", 2,     one(0130510),   one(0170770), "+s+d", m68000up },
2329{"cmpw", 2,     one(0130100),   one(0170700), "*wDd", m68000up | mcfisa_b },
2330{"cmpl", 2,     one(0130700),   one(0170700), "*lAd", m68000up | mcfisa_a },
2331{"cmpl", 6,     one(0006200),   one(0177700), "#l@s", m68000up },
2332{"cmpl", 6,     one(0006200),   one(0177700), "#lDs", mcfisa_a },
2333{"cmpl", 2,     one(0130610),   one(0170770), "+s+d", m68000up },
2334{"cmpl", 2,     one(0130200),   one(0170700), "*lDd", m68000up | mcfisa_a },
2335
2336{"dbcc", 2,     one(0052310),   one(0177770), "DsBw", m68000up },
2337{"dbcs", 2,     one(0052710),   one(0177770), "DsBw", m68000up },
2338{"dbeq", 2,     one(0053710),   one(0177770), "DsBw", m68000up },
2339{"dbf", 2,      one(0050710),   one(0177770), "DsBw", m68000up },
2340{"dbge", 2,     one(0056310),   one(0177770), "DsBw", m68000up },
2341{"dbgt", 2,     one(0057310),   one(0177770), "DsBw", m68000up },
2342{"dbhi", 2,     one(0051310),   one(0177770), "DsBw", m68000up },
2343{"dble", 2,     one(0057710),   one(0177770), "DsBw", m68000up },
2344{"dbls", 2,     one(0051710),   one(0177770), "DsBw", m68000up },
2345{"dblt", 2,     one(0056710),   one(0177770), "DsBw", m68000up },
2346{"dbmi", 2,     one(0055710),   one(0177770), "DsBw", m68000up },
2347{"dbne", 2,     one(0053310),   one(0177770), "DsBw", m68000up },
2348{"dbpl", 2,     one(0055310),   one(0177770), "DsBw", m68000up },
2349{"dbt", 2,      one(0050310),   one(0177770), "DsBw", m68000up },
2350{"dbvc", 2,     one(0054310),   one(0177770), "DsBw", m68000up },
2351{"dbvs", 2,     one(0054710),   one(0177770), "DsBw", m68000up },
2352
2353{"divsw", 2,    one(0100700),   one(0170700), ";wDd", m68000up | mcfhwdiv },
2354
2355{"divsl", 4,    two(0046100,0006000),two(0177700,0107770),";lD3D1", m68020up|cpu32 },
2356{"divsl", 4,    two(0046100,0004000),two(0177700,0107770),";lDD",   m68020up|cpu32 },
2357{"divsl", 4,    two(0046100,0004000),two(0177700,0107770),"qsDD",   mcfhwdiv },
2358
2359{"divsll", 4,   two(0046100,0004000),two(0177700,0107770),";lD3D1",m68020up|cpu32 },
2360{"divsll", 4,   two(0046100,0004000),two(0177700,0107770),";lDD",  m68020up|cpu32 },
2361
2362{"divuw", 2,    one(0100300),           one(0170700), ";wDd", m68000up | mcfhwdiv },
2363
2364{"divul", 4,    two(0046100,0002000),two(0177700,0107770),";lD3D1", m68020up|cpu32 },
2365{"divul", 4,    two(0046100,0000000),two(0177700,0107770),";lDD",   m68020up|cpu32 },
2366{"divul", 4,    two(0046100,0000000),two(0177700,0107770),"qsDD",   mcfhwdiv },
2367
2368{"divull", 4,   two(0046100,0000000),two(0177700,0107770),";lD3D1",m68020up|cpu32 },
2369{"divull", 4,   two(0046100,0000000),two(0177700,0107770),";lDD",  m68020up|cpu32 },
2370
2371{"eorib", 4,    one(0005000),   one(0177700), "#b$s", m68000up },
2372{"eorib", 4,    one(0005074),   one(0177777), "#bCs", m68000up },
2373{"eoriw", 4,    one(0005100),   one(0177700), "#w$s", m68000up },
2374{"eoriw", 4,    one(0005174),   one(0177777), "#wSs", m68000up },
2375{"eoril", 6,    one(0005200),   one(0177700), "#l$s", m68000up },
2376{"eoril", 6,    one(0005200),   one(0177700), "#lDs", mcfisa_a },
2377{"eori", 4,     one(0005074),   one(0177777), "#bCs", m68000up },
2378{"eori", 4,     one(0005174),   one(0177777), "#wSs", m68000up },
2379{"eori", 4,     one(0005100),   one(0177700), "#w$s", m68000up },
2380
2381/* The eor opcode can generate the eori instruction.  */
2382{"eorb", 4,     one(0005000),   one(0177700), "#b$s", m68000up },
2383{"eorb", 4,     one(0005074),   one(0177777), "#bCs", m68000up },
2384{"eorb", 2,     one(0130400),   one(0170700), "Dd$s", m68000up },
2385{"eorw", 4,     one(0005100),   one(0177700), "#w$s", m68000up },
2386{"eorw", 4,     one(0005174),   one(0177777), "#wSs", m68000up },
2387{"eorw", 2,     one(0130500),   one(0170700), "Dd$s", m68000up },
2388{"eorl", 6,     one(0005200),   one(0177700), "#l$s", m68000up },
2389{"eorl", 6,     one(0005200),   one(0177700), "#lDs", mcfisa_a },
2390{"eorl", 2,     one(0130600),   one(0170700), "Dd$s", m68000up | mcfisa_a },
2391{"eor", 4,      one(0005074),   one(0177777), "#bCs", m68000up },
2392{"eor", 4,      one(0005174),   one(0177777), "#wSs", m68000up },
2393{"eor", 4,      one(0005100),   one(0177700), "#w$s", m68000up },
2394{"eor", 2,      one(0130500),   one(0170700), "Dd$s", m68000up },
2395
2396{"exg", 2,      one(0140500),   one(0170770), "DdDs", m68000up },
2397{"exg", 2,      one(0140510),   one(0170770), "AdAs", m68000up },
2398{"exg", 2,      one(0140610),   one(0170770), "DdAs", m68000up },
2399{"exg", 2,      one(0140610),   one(0170770), "AsDd", m68000up },
2400
2401{"extw", 2,     one(0044200),   one(0177770), "Ds", m68000up|mcfisa_a },
2402{"extl", 2,     one(0044300),   one(0177770), "Ds", m68000up|mcfisa_a },
2403{"extbl", 2,    one(0044700),   one(0177770), "Ds", m68020up|cpu32|mcfisa_a },
2404
2405{"ff1", 2,      one(0002300), one(0177770), "Ds", mcfisa_aa},
2406
2407/* float stuff starts here */
2408
2409{"fabsb", 4,    two(0xF000, 0x5818), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2410{"fabsb", 4,    two(0xF000, 0x5818), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2411{"fabsd", 4,    two(0xF000, 0x0018), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2412{"fabsd", 4,    two(0xF000, 0x0018), two(0xF1C0, 0xE07F), "IiFt", cfloat },
2413{"fabsd", 4,    two(0xF000, 0x5418), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2414{"fabsd", 4,    two(0xF000, 0x5418), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2415{"fabsl", 4,    two(0xF000, 0x4018), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2416{"fabsl", 4,    two(0xF000, 0x4018), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2417{"fabsp", 4,    two(0xF000, 0x4C18), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2418{"fabss", 4,    two(0xF000, 0x4418), two(0xF1C0, 0xFC7F), "Ii;fF7", cfloat },
2419{"fabss", 4,    two(0xF000, 0x4418), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2420{"fabsw", 4,    two(0xF000, 0x5018), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2421{"fabsw", 4,    two(0xF000, 0x5018), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2422{"fabsx", 4,    two(0xF000, 0x0018), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2423{"fabsx", 4,    two(0xF000, 0x4818), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2424{"fabsx", 4,    two(0xF000, 0x0018), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2425
2426{"fsabsb", 4,   two(0xF000, 0x5858), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
2427{"fsabsb", 4,   two(0xF000, 0x5858), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2428{"fsabsd", 4,   two(0xF000, 0x0058), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2429{"fsabsd", 4,   two(0xF000, 0x0058), two(0xF1C0, 0xE07F), "IiFt", cfloat },
2430{"fsabsd", 4,   two(0xF000, 0x5458), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
2431{"fsabsd", 4,   two(0xF000, 0x5458), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2432{"fsabsl", 4,   two(0xF000, 0x4058), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
2433{"fsabsl", 4,   two(0xF000, 0x4058), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2434{"fsabsp", 4,   two(0xF000, 0x4C58), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
2435{"fsabss", 4,   two(0xF000, 0x4258), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2436{"fsabss", 4,   two(0xF000, 0x4458), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
2437{"fsabsw", 4,   two(0xF000, 0x5058), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
2438{"fsabsw", 4,   two(0xF000, 0x5058), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2439{"fsabsx", 4,   two(0xF000, 0x0058), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
2440{"fsabsx", 4,   two(0xF000, 0x4858), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
2441{"fsabsx", 4,   two(0xF000, 0x0058), two(0xF1C0, 0xE07F), "IiFt",   m68040up },
2442
2443{"fdabsb", 4,   two(0xF000, 0x585C), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2444{"fdabsb", 4,   two(0xF000, 0x585c), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up},
2445{"fdabsd", 4,   two(0xF000, 0x005C), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2446{"fdabsd", 4,   two(0xF000, 0x005C), two(0xF1C0, 0xE07F), "IiFt", cfloat },
2447{"fdabsd", 4,   two(0xF000, 0x545C), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2448{"fdabsd", 4,   two(0xF000, 0x545c), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up},
2449{"fdabsl", 4,   two(0xF000, 0x405C), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2450{"fdabsl", 4,   two(0xF000, 0x405c), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up},
2451{"fdabsp", 4,   two(0xF000, 0x4C5c), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up},
2452{"fdabss", 4,   two(0xF000, 0x425C), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2453{"fdabss", 4,   two(0xF000, 0x445c), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up},
2454{"fdabsw", 4,   two(0xF000, 0x505C), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2455{"fdabsw", 4,   two(0xF000, 0x505c), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up},
2456{"fdabsx", 4,   two(0xF000, 0x005c), two(0xF1C0, 0xE07F), "IiF8F7", m68040up},
2457{"fdabsx", 4,   two(0xF000, 0x485c), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up},
2458{"fdabsx", 4,   two(0xF000, 0x005c), two(0xF1C0, 0xE07F), "IiFt",   m68040up},
2459
2460{"facosb", 4,   two(0xF000, 0x581C), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2461{"facosd", 4,   two(0xF000, 0x541C), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2462{"facosl", 4,   two(0xF000, 0x401C), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2463{"facosp", 4,   two(0xF000, 0x4C1C), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2464{"facoss", 4,   two(0xF000, 0x441C), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2465{"facosw", 4,   two(0xF000, 0x501C), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2466{"facosx", 4,   two(0xF000, 0x001C), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2467{"facosx", 4,   two(0xF000, 0x481C), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2468{"facosx", 4,   two(0xF000, 0x001C), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2469
2470{"faddb", 4,    two(0xF000, 0x5822), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2471{"faddb", 4,    two(0xF000, 0x5822), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2472{"faddd", 4,    two(0xF000, 0x0022), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2473{"faddd", 4,    two(0xF000, 0x5422), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2474{"faddd", 4,    two(0xF000, 0x5422), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2475{"faddd", 4,    two(0xF000, 0x5422), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2476{"faddl", 4,    two(0xF000, 0x4022), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2477{"faddl", 4,    two(0xF000, 0x4022), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2478{"faddp", 4,    two(0xF000, 0x4C22), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2479{"fadds", 4,    two(0xF000, 0x4422), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2480{"fadds", 4,    two(0xF000, 0x4422), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2481{"faddw", 4,    two(0xF000, 0x5022), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2482{"faddw", 4,    two(0xF000, 0x5022), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2483{"faddx", 4,    two(0xF000, 0x0022), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2484{"faddx", 4,    two(0xF000, 0x4822), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2485
2486{"fsaddb", 4,   two(0xF000, 0x5862), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
2487{"fsaddb", 4,   two(0xF000, 0x5862), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2488{"fsaddd", 4,   two(0xF000, 0x0066), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2489{"fsaddd", 4,   two(0xF000, 0x5462), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
2490{"fsaddd", 4,   two(0xF000, 0x5462), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2491{"fsaddl", 4,   two(0xF000, 0x4062), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
2492{"fsaddl", 4,   two(0xF000, 0x4062), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2493{"fsaddp", 4,   two(0xF000, 0x4C62), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
2494{"fsadds", 4,   two(0xF000, 0x4462), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
2495{"fsadds", 4,   two(0xF000, 0x4862), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2496{"fsaddw", 4,   two(0xF000, 0x5062), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
2497{"fsaddw", 4,   two(0xF000, 0x5062), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2498{"fsaddx", 4,   two(0xF000, 0x0062), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
2499{"fsaddx", 4,   two(0xF000, 0x4862), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
2500
2501{"fdaddb", 4,   two(0xF000, 0x5826), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2502{"fdaddb", 4,   two(0xF000, 0x5866), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
2503{"fdaddd", 4,   two(0xF000, 0x0066), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2504{"fdaddd", 4,   two(0xF000, 0x5426), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2505{"fdaddd", 4,   two(0xF000, 0x5466), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
2506{"fdaddl", 4,   two(0xF000, 0x4026), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2507{"fdaddl", 4,   two(0xF000, 0x4066), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
2508{"fdaddp", 4,   two(0xF000, 0x4C66), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
2509{"fdadds", 4,   two(0xF000, 0x4466), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
2510{"fdadds", 4,   two(0xF000, 0x4826), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2511{"fdaddw", 4,   two(0xF000, 0x5026), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2512{"fdaddw", 4,   two(0xF000, 0x5066), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
2513{"fdaddx", 4,   two(0xF000, 0x0066), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
2514{"fdaddx", 4,   two(0xF000, 0x4866), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
2515
2516{"fasinb", 4,   two(0xF000, 0x580C), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2517{"fasind", 4,   two(0xF000, 0x540C), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2518{"fasinl", 4,   two(0xF000, 0x400C), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2519{"fasinp", 4,   two(0xF000, 0x4C0C), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2520{"fasins", 4,   two(0xF000, 0x440C), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2521{"fasinw", 4,   two(0xF000, 0x500C), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2522{"fasinx", 4,   two(0xF000, 0x000C), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2523{"fasinx", 4,   two(0xF000, 0x480C), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2524{"fasinx", 4,   two(0xF000, 0x000C), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2525
2526{"fatanb", 4,   two(0xF000, 0x580A), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2527{"fatand", 4,   two(0xF000, 0x540A), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2528{"fatanl", 4,   two(0xF000, 0x400A), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2529{"fatanp", 4,   two(0xF000, 0x4C0A), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2530{"fatans", 4,   two(0xF000, 0x440A), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2531{"fatanw", 4,   two(0xF000, 0x500A), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2532{"fatanx", 4,   two(0xF000, 0x000A), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2533{"fatanx", 4,   two(0xF000, 0x480A), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2534{"fatanx", 4,   two(0xF000, 0x000A), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2535
2536{"fatanhb", 4,  two(0xF000, 0x580D), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2537{"fatanhd", 4,  two(0xF000, 0x540D), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2538{"fatanhl", 4,  two(0xF000, 0x400D), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2539{"fatanhp", 4,  two(0xF000, 0x4C0D), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2540{"fatanhs", 4,  two(0xF000, 0x440D), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2541{"fatanhw", 4,  two(0xF000, 0x500D), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2542{"fatanhx", 4,  two(0xF000, 0x000D), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2543{"fatanhx", 4,  two(0xF000, 0x480D), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2544{"fatanhx", 4,  two(0xF000, 0x000D), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2545
2546{"fbeq", 2,     one(0xF081),            one(0xF1FF), "IdBW", mfloat | cfloat },
2547{"fbf", 2,      one(0xF080),            one(0xF1FF), "IdBW", mfloat | cfloat },
2548{"fbge", 2,     one(0xF093),            one(0xF1FF), "IdBW", mfloat | cfloat },
2549{"fbgl", 2,     one(0xF096),            one(0xF1FF), "IdBW", mfloat | cfloat },
2550{"fbgle", 2,    one(0xF097),            one(0xF1FF), "IdBW", mfloat | cfloat },
2551{"fbgt", 2,     one(0xF092),            one(0xF1FF), "IdBW", mfloat | cfloat },
2552{"fble", 2,     one(0xF095),            one(0xF1FF), "IdBW", mfloat | cfloat },
2553{"fblt", 2,     one(0xF094),            one(0xF1FF), "IdBW", mfloat | cfloat },
2554{"fbne", 2,     one(0xF08E),            one(0xF1FF), "IdBW", mfloat | cfloat },
2555{"fbnge", 2,    one(0xF09C),            one(0xF1FF), "IdBW", mfloat | cfloat },
2556{"fbngl", 2,    one(0xF099),            one(0xF1FF), "IdBW", mfloat | cfloat },
2557{"fbngle", 2,   one(0xF098),            one(0xF1FF), "IdBW", mfloat | cfloat },
2558{"fbngt", 2,    one(0xF09D),            one(0xF1FF), "IdBW", mfloat | cfloat },
2559{"fbnle", 2,    one(0xF09A),            one(0xF1FF), "IdBW", mfloat | cfloat },
2560{"fbnlt", 2,    one(0xF09B),            one(0xF1FF), "IdBW", mfloat | cfloat },
2561{"fboge", 2,    one(0xF083),            one(0xF1FF), "IdBW", mfloat | cfloat },
2562{"fbogl", 2,    one(0xF086),            one(0xF1FF), "IdBW", mfloat | cfloat },
2563{"fbogt", 2,    one(0xF082),            one(0xF1FF), "IdBW", mfloat | cfloat },
2564{"fbole", 2,    one(0xF085),            one(0xF1FF), "IdBW", mfloat | cfloat },
2565{"fbolt", 2,    one(0xF084),            one(0xF1FF), "IdBW", mfloat | cfloat },
2566{"fbor", 2,     one(0xF087),            one(0xF1FF), "IdBW", mfloat | cfloat },
2567{"fbseq", 2,    one(0xF091),            one(0xF1FF), "IdBW", mfloat | cfloat },
2568{"fbsf", 2,     one(0xF090),            one(0xF1FF), "IdBW", mfloat | cfloat },
2569{"fbsne", 2,    one(0xF09E),            one(0xF1FF), "IdBW", mfloat | cfloat },
2570{"fbst", 2,     one(0xF09F),            one(0xF1FF), "IdBW", mfloat | cfloat },
2571{"fbt", 2,      one(0xF08F),            one(0xF1FF), "IdBW", mfloat | cfloat },
2572{"fbueq", 2,    one(0xF089),            one(0xF1FF), "IdBW", mfloat | cfloat },
2573{"fbuge", 2,    one(0xF08B),            one(0xF1FF), "IdBW", mfloat | cfloat },
2574{"fbugt", 2,    one(0xF08A),            one(0xF1FF), "IdBW", mfloat | cfloat },
2575{"fbule", 2,    one(0xF08D),            one(0xF1FF), "IdBW", mfloat | cfloat },
2576{"fbult", 2,    one(0xF08C),            one(0xF1FF), "IdBW", mfloat | cfloat },
2577{"fbun", 2,     one(0xF088),            one(0xF1FF), "IdBW", mfloat | cfloat },
2578
2579{"fbeql", 2,    one(0xF0C1),            one(0xF1FF), "IdBC", mfloat | cfloat },
2580{"fbfl", 2,     one(0xF0C0),            one(0xF1FF), "IdBC", mfloat | cfloat },
2581{"fbgel", 2,    one(0xF0D3),            one(0xF1FF), "IdBC", mfloat | cfloat },
2582{"fbgll", 2,    one(0xF0D6),            one(0xF1FF), "IdBC", mfloat | cfloat },
2583{"fbglel", 2,   one(0xF0D7),            one(0xF1FF), "IdBC", mfloat | cfloat },
2584{"fbgtl", 2,    one(0xF0D2),            one(0xF1FF), "IdBC", mfloat | cfloat },
2585{"fblel", 2,    one(0xF0D5),            one(0xF1FF), "IdBC", mfloat | cfloat },
2586{"fbltl", 2,    one(0xF0D4),            one(0xF1FF), "IdBC", mfloat | cfloat },
2587{"fbnel", 2,    one(0xF0CE),            one(0xF1FF), "IdBC", mfloat | cfloat },
2588{"fbngel", 2,   one(0xF0DC),            one(0xF1FF), "IdBC", mfloat | cfloat },
2589{"fbngll", 2,   one(0xF0D9),            one(0xF1FF), "IdBC", mfloat | cfloat },
2590{"fbnglel", 2,  one(0xF0D8),            one(0xF1FF), "IdBC", mfloat | cfloat },
2591{"fbngtl", 2,   one(0xF0DD),            one(0xF1FF), "IdBC", mfloat | cfloat },
2592{"fbnlel", 2,   one(0xF0DA),            one(0xF1FF), "IdBC", mfloat | cfloat },
2593{"fbnltl", 2,   one(0xF0DB),            one(0xF1FF), "IdBC", mfloat | cfloat },
2594{"fbogel", 2,   one(0xF0C3),            one(0xF1FF), "IdBC", mfloat | cfloat },
2595{"fbogll", 2,   one(0xF0C6),            one(0xF1FF), "IdBC", mfloat | cfloat },
2596{"fbogtl", 2,   one(0xF0C2),            one(0xF1FF), "IdBC", mfloat | cfloat },
2597{"fbolel", 2,   one(0xF0C5),            one(0xF1FF), "IdBC", mfloat | cfloat },
2598{"fboltl", 2,   one(0xF0C4),            one(0xF1FF), "IdBC", mfloat | cfloat },
2599{"fborl", 2,    one(0xF0C7),            one(0xF1FF), "IdBC", mfloat | cfloat },
2600{"fbseql", 2,   one(0xF0D1),            one(0xF1FF), "IdBC", mfloat | cfloat },
2601{"fbsfl", 2,    one(0xF0D0),            one(0xF1FF), "IdBC", mfloat | cfloat },
2602{"fbsnel", 2,   one(0xF0DE),            one(0xF1FF), "IdBC", mfloat | cfloat },
2603{"fbstl", 2,    one(0xF0DF),            one(0xF1FF), "IdBC", mfloat | cfloat },
2604{"fbtl", 2,     one(0xF0CF),            one(0xF1FF), "IdBC", mfloat | cfloat },
2605{"fbueql", 2,   one(0xF0C9),            one(0xF1FF), "IdBC", mfloat | cfloat },
2606{"fbugel", 2,   one(0xF0CB),            one(0xF1FF), "IdBC", mfloat | cfloat },
2607{"fbugtl", 2,   one(0xF0CA),            one(0xF1FF), "IdBC", mfloat | cfloat },
2608{"fbulel", 2,   one(0xF0CD),            one(0xF1FF), "IdBC", mfloat | cfloat },
2609{"fbultl", 2,   one(0xF0CC),            one(0xF1FF), "IdBC", mfloat | cfloat },
2610{"fbunl", 2,    one(0xF0C8),            one(0xF1FF), "IdBC", mfloat | cfloat },
2611
2612{"fjeq", 2,     one(0xF081),            one(0xF1BF), "IdBc", mfloat | cfloat },
2613{"fjf", 2,      one(0xF080),            one(0xF1BF), "IdBc", mfloat | cfloat },
2614{"fjge", 2,     one(0xF093),            one(0xF1BF), "IdBc", mfloat | cfloat },
2615{"fjgl", 2,     one(0xF096),            one(0xF1BF), "IdBc", mfloat | cfloat },
2616{"fjgle", 2,    one(0xF097),            one(0xF1BF), "IdBc", mfloat | cfloat },
2617{"fjgt", 2,     one(0xF092),            one(0xF1BF), "IdBc", mfloat | cfloat },
2618{"fjle", 2,     one(0xF095),            one(0xF1BF), "IdBc", mfloat | cfloat },
2619{"fjlt", 2,     one(0xF094),            one(0xF1BF), "IdBc", mfloat | cfloat },
2620{"fjne", 2,     one(0xF08E),            one(0xF1BF), "IdBc", mfloat | cfloat },
2621{"fjnge", 2,    one(0xF09C),            one(0xF1BF), "IdBc", mfloat | cfloat },
2622{"fjngl", 2,    one(0xF099),            one(0xF1BF), "IdBc", mfloat | cfloat },
2623{"fjngle", 2,   one(0xF098),            one(0xF1BF), "IdBc", mfloat | cfloat },
2624{"fjngt", 2,    one(0xF09D),            one(0xF1BF), "IdBc", mfloat | cfloat },
2625{"fjnle", 2,    one(0xF09A),            one(0xF1BF), "IdBc", mfloat | cfloat },
2626{"fjnlt", 2,    one(0xF09B),            one(0xF1BF), "IdBc", mfloat | cfloat },
2627{"fjoge", 2,    one(0xF083),            one(0xF1BF), "IdBc", mfloat | cfloat },
2628{"fjogl", 2,    one(0xF086),            one(0xF1BF), "IdBc", mfloat | cfloat },
2629{"fjogt", 2,    one(0xF082),            one(0xF1BF), "IdBc", mfloat | cfloat },
2630{"fjole", 2,    one(0xF085),            one(0xF1BF), "IdBc", mfloat | cfloat },
2631{"fjolt", 2,    one(0xF084),            one(0xF1BF), "IdBc", mfloat | cfloat },
2632{"fjor", 2,     one(0xF087),            one(0xF1BF), "IdBc", mfloat | cfloat },
2633{"fjseq", 2,    one(0xF091),            one(0xF1BF), "IdBc", mfloat | cfloat },
2634{"fjsf", 2,     one(0xF090),            one(0xF1BF), "IdBc", mfloat | cfloat },
2635{"fjsne", 2,    one(0xF09E),            one(0xF1BF), "IdBc", mfloat | cfloat },
2636{"fjst", 2,     one(0xF09F),            one(0xF1BF), "IdBc", mfloat | cfloat },
2637{"fjt", 2,      one(0xF08F),            one(0xF1BF), "IdBc", mfloat | cfloat },
2638{"fjueq", 2,    one(0xF089),            one(0xF1BF), "IdBc", mfloat | cfloat },
2639{"fjuge", 2,    one(0xF08B),            one(0xF1BF), "IdBc", mfloat | cfloat },
2640{"fjugt", 2,    one(0xF08A),            one(0xF1BF), "IdBc", mfloat | cfloat },
2641{"fjule", 2,    one(0xF08D),            one(0xF1BF), "IdBc", mfloat | cfloat },
2642{"fjult", 2,    one(0xF08C),            one(0xF1BF), "IdBc", mfloat | cfloat },
2643{"fjun", 2,     one(0xF088),            one(0xF1BF), "IdBc", mfloat | cfloat },
2644
2645{"fcmpb", 4,    two(0xF000, 0x5838), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2646{"fcmpb", 4,    two(0xF000, 0x5838), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2647{"fcmpd", 4,    two(0xF000, 0x5438), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2648{"fcmpd", 4,    two(0xF000, 0x5438), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2649{"fcmpd", 4,    two(0xF000, 0x0038), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2650{"fcmpl", 4,    two(0xF000, 0x4038), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2651{"fcmpl", 4,    two(0xF000, 0x4038), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2652{"fcmpp", 4,    two(0xF000, 0x4C38), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2653{"fcmps", 4,    two(0xF000, 0x4438), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2654{"fcmps", 4,    two(0xF000, 0x4438), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2655{"fcmpw", 4,    two(0xF000, 0x5038), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2656{"fcmpw", 4,    two(0xF000, 0x5038), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2657{"fcmpx", 4,    two(0xF000, 0x0038), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2658{"fcmpx", 4,    two(0xF000, 0x4838), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2659
2660{"fcosb", 4,    two(0xF000, 0x581D), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2661{"fcosd", 4,    two(0xF000, 0x541D), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2662{"fcosl", 4,    two(0xF000, 0x401D), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2663{"fcosp", 4,    two(0xF000, 0x4C1D), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2664{"fcoss", 4,    two(0xF000, 0x441D), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2665{"fcosw", 4,    two(0xF000, 0x501D), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2666{"fcosx", 4,    two(0xF000, 0x001D), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2667{"fcosx", 4,    two(0xF000, 0x481D), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2668{"fcosx", 4,    two(0xF000, 0x001D), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2669
2670{"fcoshb", 4,   two(0xF000, 0x5819), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2671{"fcoshd", 4,   two(0xF000, 0x5419), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2672{"fcoshl", 4,   two(0xF000, 0x4019), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2673{"fcoshp", 4,   two(0xF000, 0x4C19), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2674{"fcoshs", 4,   two(0xF000, 0x4419), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2675{"fcoshw", 4,   two(0xF000, 0x5019), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2676{"fcoshx", 4,   two(0xF000, 0x0019), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2677{"fcoshx", 4,   two(0xF000, 0x4819), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2678{"fcoshx", 4,   two(0xF000, 0x0019), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2679
2680{"fdbeq", 4,    two(0xF048, 0x0001), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2681{"fdbf", 4,     two(0xF048, 0x0000), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2682{"fdbge", 4,    two(0xF048, 0x0013), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2683{"fdbgl", 4,    two(0xF048, 0x0016), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2684{"fdbgle", 4,   two(0xF048, 0x0017), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2685{"fdbgt", 4,    two(0xF048, 0x0012), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2686{"fdble", 4,    two(0xF048, 0x0015), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2687{"fdblt", 4,    two(0xF048, 0x0014), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2688{"fdbne", 4,    two(0xF048, 0x000E), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2689{"fdbnge", 4,   two(0xF048, 0x001C), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2690{"fdbngl", 4,   two(0xF048, 0x0019), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2691{"fdbngle", 4,  two(0xF048, 0x0018), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2692{"fdbngt", 4,   two(0xF048, 0x001D), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2693{"fdbnle", 4,   two(0xF048, 0x001A), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2694{"fdbnlt", 4,   two(0xF048, 0x001B), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2695{"fdboge", 4,   two(0xF048, 0x0003), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2696{"fdbogl", 4,   two(0xF048, 0x0006), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2697{"fdbogt", 4,   two(0xF048, 0x0002), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2698{"fdbole", 4,   two(0xF048, 0x0005), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2699{"fdbolt", 4,   two(0xF048, 0x0004), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2700{"fdbor", 4,    two(0xF048, 0x0007), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2701{"fdbseq", 4,   two(0xF048, 0x0011), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2702{"fdbsf", 4,    two(0xF048, 0x0010), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2703{"fdbsne", 4,   two(0xF048, 0x001E), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2704{"fdbst", 4,    two(0xF048, 0x001F), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2705{"fdbt", 4,     two(0xF048, 0x000F), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2706{"fdbueq", 4,   two(0xF048, 0x0009), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2707{"fdbuge", 4,   two(0xF048, 0x000B), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2708{"fdbugt", 4,   two(0xF048, 0x000A), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2709{"fdbule", 4,   two(0xF048, 0x000D), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2710{"fdbult", 4,   two(0xF048, 0x000C), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2711{"fdbun", 4,    two(0xF048, 0x0008), two(0xF1F8, 0xFFFF), "IiDsBw", mfloat },
2712
2713{"fdivb", 4,    two(0xF000, 0x5820), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2714{"fdivb", 4,    two(0xF000, 0x5820), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2715{"fdivd", 4,    two(0xF000, 0x0020), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2716{"fdivd", 4,    two(0xF000, 0x5420), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2717{"fdivd", 4,    two(0xF000, 0x5420), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2718{"fdivl", 4,    two(0xF000, 0x4020), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2719{"fdivl", 4,    two(0xF000, 0x4020), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2720{"fdivp", 4,    two(0xF000, 0x4C20), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2721{"fdivs", 4,    two(0xF000, 0x4420), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2722{"fdivs", 4,    two(0xF000, 0x4420), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2723{"fdivw", 4,    two(0xF000, 0x5020), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2724{"fdivw", 4,    two(0xF000, 0x5020), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2725{"fdivx", 4,    two(0xF000, 0x0020), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2726{"fdivx", 4,    two(0xF000, 0x4820), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2727
2728{"fsdivb", 4,   two(0xF000, 0x5860), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
2729{"fsdivb", 4,   two(0xF000, 0x5860), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2730{"fsdivd", 4,   two(0xF000, 0x0060), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2731{"fsdivd", 4,   two(0xF000, 0x5460), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
2732{"fsdivd", 4,   two(0xF000, 0x5460), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2733{"fsdivl", 4,   two(0xF000, 0x4060), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
2734{"fsdivl", 4,   two(0xF000, 0x4060), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2735{"fsdivp", 4,   two(0xF000, 0x4C60), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
2736{"fsdivs", 4,   two(0xF000, 0x4460), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
2737{"fsdivs", 4,   two(0xF000, 0x4460), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2738{"fsdivw", 4,   two(0xF000, 0x5060), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
2739{"fsdivw", 4,   two(0xF000, 0x5060), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2740{"fsdivx", 4,   two(0xF000, 0x0060), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
2741{"fsdivx", 4,   two(0xF000, 0x4860), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
2742
2743{"fddivb", 4,   two(0xF000, 0x5864), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
2744{"fddivb", 4,   two(0xF000, 0x5864), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2745{"fddivd", 4,   two(0xF000, 0x0064), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2746{"fddivd", 4,   two(0xF000, 0x5464), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
2747{"fddivd", 4,   two(0xF000, 0x5464), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2748{"fddivl", 4,   two(0xF000, 0x4064), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
2749{"fddivl", 4,   two(0xF000, 0x4064), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2750{"fddivp", 4,   two(0xF000, 0x4C64), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
2751{"fddivs", 4,   two(0xF000, 0x4464), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
2752{"fddivs", 4,   two(0xF000, 0x4464), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2753{"fddivw", 4,   two(0xF000, 0x5064), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
2754{"fddivw", 4,   two(0xF000, 0x5064), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2755{"fddivx", 4,   two(0xF000, 0x0064), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
2756{"fddivx", 4,   two(0xF000, 0x4864), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
2757
2758{"fetoxb", 4,   two(0xF000, 0x5810), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2759{"fetoxd", 4,   two(0xF000, 0x5410), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2760{"fetoxl", 4,   two(0xF000, 0x4010), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2761{"fetoxp", 4,   two(0xF000, 0x4C10), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2762{"fetoxs", 4,   two(0xF000, 0x4410), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2763{"fetoxw", 4,   two(0xF000, 0x5010), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2764{"fetoxx", 4,   two(0xF000, 0x0010), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2765{"fetoxx", 4,   two(0xF000, 0x4810), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2766{"fetoxx", 4,   two(0xF000, 0x0010), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2767
2768{"fetoxm1b", 4, two(0xF000, 0x5808), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2769{"fetoxm1d", 4, two(0xF000, 0x5408), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2770{"fetoxm1l", 4, two(0xF000, 0x4008), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2771{"fetoxm1p", 4, two(0xF000, 0x4C08), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2772{"fetoxm1s", 4, two(0xF000, 0x4408), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2773{"fetoxm1w", 4, two(0xF000, 0x5008), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2774{"fetoxm1x", 4, two(0xF000, 0x0008), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2775{"fetoxm1x", 4, two(0xF000, 0x4808), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2776{"fetoxm1x", 4, two(0xF000, 0x0008), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2777
2778{"fgetexpb", 4, two(0xF000, 0x581E), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2779{"fgetexpd", 4, two(0xF000, 0x541E), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2780{"fgetexpl", 4, two(0xF000, 0x401E), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2781{"fgetexpp", 4, two(0xF000, 0x4C1E), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2782{"fgetexps", 4, two(0xF000, 0x441E), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2783{"fgetexpw", 4, two(0xF000, 0x501E), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2784{"fgetexpx", 4, two(0xF000, 0x001E), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2785{"fgetexpx", 4, two(0xF000, 0x481E), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2786{"fgetexpx", 4, two(0xF000, 0x001E), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2787
2788{"fgetmanb", 4, two(0xF000, 0x581F), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2789{"fgetmand", 4, two(0xF000, 0x541F), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2790{"fgetmanl", 4, two(0xF000, 0x401F), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2791{"fgetmanp", 4, two(0xF000, 0x4C1F), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2792{"fgetmans", 4, two(0xF000, 0x441F), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2793{"fgetmanw", 4, two(0xF000, 0x501F), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2794{"fgetmanx", 4, two(0xF000, 0x001F), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2795{"fgetmanx", 4, two(0xF000, 0x481F), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2796{"fgetmanx", 4, two(0xF000, 0x001F), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2797
2798{"fintb", 4,    two(0xF000, 0x5801), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2799{"fintb", 4,    two(0xF000, 0x5801), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2800{"fintd", 4,    two(0xF000, 0x0001), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2801{"fintd", 4,    two(0xF000, 0x0001), two(0xF1C0, 0xE07F), "IiFt", cfloat },
2802{"fintd", 4,    two(0xF000, 0x5401), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2803{"fintd", 4,    two(0xF000, 0x5401), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2804{"fintl", 4,    two(0xF000, 0x4001), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2805{"fintl", 4,    two(0xF000, 0x4001), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2806{"fintp", 4,    two(0xF000, 0x4C01), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2807{"fints", 4,    two(0xF000, 0x4401), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2808{"fints", 4,    two(0xF000, 0x4401), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2809{"fintw", 4,    two(0xF000, 0x5001), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2810{"fintw", 4,    two(0xF000, 0x5001), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2811{"fintx", 4,    two(0xF000, 0x0001), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2812{"fintx", 4,    two(0xF000, 0x4801), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2813{"fintx", 4,    two(0xF000, 0x0001), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2814
2815{"fintrzb", 4,  two(0xF000, 0x5803), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2816{"fintrzb", 4,  two(0xF000, 0x5803), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2817{"fintrzd", 4,  two(0xF000, 0x0003), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2818{"fintrzd", 4,  two(0xF000, 0x0003), two(0xF1C0, 0xE07F), "IiFt",   cfloat },
2819{"fintrzd", 4,  two(0xF000, 0x5403), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2820{"fintrzd", 4,  two(0xF000, 0x5403), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2821{"fintrzl", 4,  two(0xF000, 0x4003), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2822{"fintrzl", 4,  two(0xF000, 0x4003), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2823{"fintrzp", 4,  two(0xF000, 0x4C03), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2824{"fintrzs", 4,  two(0xF000, 0x4403), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2825{"fintrzs", 4,  two(0xF000, 0x4403), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2826{"fintrzw", 4,  two(0xF000, 0x5003), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2827{"fintrzw", 4,  two(0xF000, 0x5003), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2828{"fintrzx", 4,  two(0xF000, 0x0003), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2829{"fintrzx", 4,  two(0xF000, 0x4803), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2830{"fintrzx", 4,  two(0xF000, 0x0003), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2831
2832{"flog10b", 4,  two(0xF000, 0x5815), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2833{"flog10d", 4,  two(0xF000, 0x5415), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2834{"flog10l", 4,  two(0xF000, 0x4015), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2835{"flog10p", 4,  two(0xF000, 0x4C15), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2836{"flog10s", 4,  two(0xF000, 0x4415), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2837{"flog10w", 4,  two(0xF000, 0x5015), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2838{"flog10x", 4,  two(0xF000, 0x0015), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2839{"flog10x", 4,  two(0xF000, 0x4815), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2840{"flog10x", 4,  two(0xF000, 0x0015), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2841
2842{"flog2b", 4,   two(0xF000, 0x5816), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2843{"flog2d", 4,   two(0xF000, 0x5416), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2844{"flog2l", 4,   two(0xF000, 0x4016), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2845{"flog2p", 4,   two(0xF000, 0x4C16), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2846{"flog2s", 4,   two(0xF000, 0x4416), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2847{"flog2w", 4,   two(0xF000, 0x5016), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2848{"flog2x", 4,   two(0xF000, 0x0016), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2849{"flog2x", 4,   two(0xF000, 0x4816), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2850{"flog2x", 4,   two(0xF000, 0x0016), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2851
2852{"flognb", 4,   two(0xF000, 0x5814), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2853{"flognd", 4,   two(0xF000, 0x5414), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2854{"flognl", 4,   two(0xF000, 0x4014), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2855{"flognp", 4,   two(0xF000, 0x4C14), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2856{"flogns", 4,   two(0xF000, 0x4414), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2857{"flognw", 4,   two(0xF000, 0x5014), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2858{"flognx", 4,   two(0xF000, 0x0014), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2859{"flognx", 4,   two(0xF000, 0x4814), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2860{"flognx", 4,   two(0xF000, 0x0014), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2861
2862{"flognp1b", 4, two(0xF000, 0x5806), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2863{"flognp1d", 4, two(0xF000, 0x5406), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2864{"flognp1l", 4, two(0xF000, 0x4006), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2865{"flognp1p", 4, two(0xF000, 0x4C06), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2866{"flognp1s", 4, two(0xF000, 0x4406), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2867{"flognp1w", 4, two(0xF000, 0x5006), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2868{"flognp1x", 4, two(0xF000, 0x0006), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2869{"flognp1x", 4, two(0xF000, 0x4806), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2870{"flognp1x", 4, two(0xF000, 0x0006), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
2871
2872{"fmodb", 4,    two(0xF000, 0x5821), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2873{"fmodd", 4,    two(0xF000, 0x5421), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2874{"fmodl", 4,    two(0xF000, 0x4021), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2875{"fmodp", 4,    two(0xF000, 0x4C21), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2876{"fmods", 4,    two(0xF000, 0x4421), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2877{"fmodw", 4,    two(0xF000, 0x5021), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2878{"fmodx", 4,    two(0xF000, 0x0021), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
2879{"fmodx", 4,    two(0xF000, 0x4821), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2880
2881{"fmoveb", 4,   two(0xF000, 0x5800), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2882{"fmoveb", 4,   two(0xF000, 0x7800), two(0xF1C0, 0xFC7F), "IiF7bs", cfloat },
2883{"fmoveb", 4,   two(0xF000, 0x5800), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
2884{"fmoveb", 4,   two(0xF000, 0x7800), two(0xF1C0, 0xFC7F), "IiF7$b", mfloat },
2885{"fmoved", 4,   two(0xF000, 0x5400), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
2886{"fmoved", 4,   two(0xF000, 0x7400), two(0xF1C0, 0xFC7F), "IiF7~F", mfloat },
2887{"fmoved", 4,   two(0xF000, 0x0000), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2888{"fmoved", 4,   two(0xF000, 0x5400), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2889{"fmoved", 4,   two(0xF000, 0x7400), two(0xF1C0, 0xFC7F), "IiF7ws", cfloat },
2890{"fmovel", 4,   two(0xF000, 0x4000), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
2891{"fmovel", 4,   two(0xF000, 0x6000), two(0xF1C0, 0xFC7F), "IiF7$l", mfloat },
2892/* FIXME: the next two variants should not permit moving an address
2893   register to anything but the floating point instruction register.  */
2894{"fmovel", 4,   two(0xF000, 0xA000), two(0xF1C0, 0xE3FF), "Iis8%s", mfloat },
2895{"fmovel", 4,   two(0xF000, 0x8000), two(0xF1C0, 0xE3FF), "Ii*ls8", mfloat },
2896{"fmovel", 4,   two(0xF000, 0x4000), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2897{"fmovel", 4,   two(0xF000, 0x6000), two(0xF1C0, 0xFC7F), "IiF7bs", cfloat },
2898  /* Move the FP control registers.  */
2899{"fmovel", 4,   two(0xF000, 0xA000), two(0xF1C0, 0xE3FF), "Iis8ps", cfloat },
2900{"fmovel", 4,   two(0xF000, 0x8000), two(0xF1C0, 0xE3FF), "Iibss8", cfloat },
2901{"fmovep", 4,   two(0xF000, 0x4C00), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
2902{"fmovep", 4,   two(0xF000, 0x6C00), two(0xF1C0, 0xFC00), "IiF7~pkC", mfloat },
2903{"fmovep", 4,   two(0xF000, 0x7C00), two(0xF1C0, 0xFC0F), "IiF7~pDk", mfloat },
2904{"fmoves", 4,   two(0xF000, 0x4400), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
2905{"fmoves", 4,   two(0xF000, 0x6400), two(0xF1C0, 0xFC7F), "IiF7$f", mfloat },
2906{"fmoves", 4,   two(0xF000, 0x4400), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2907{"fmoves", 4,   two(0xF000, 0x6400), two(0xF1C0, 0xFC7F), "IiF7qs", cfloat },
2908{"fmovew", 4,   two(0xF000, 0x5000), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
2909{"fmovew", 4,   two(0xF000, 0x7000), two(0xF1C0, 0xFC7F), "IiF7$w", mfloat },
2910{"fmovew", 4,   two(0xF000, 0x5000), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2911{"fmovew", 4,   two(0xF000, 0x7000), two(0xF1C0, 0xFC7F), "IiF7qs", cfloat },
2912{"fmovex", 4,   two(0xF000, 0x0000), two(0xF1FF, 0xE07F), "IiF8F7", mfloat },
2913{"fmovex", 4,   two(0xF000, 0x4800), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
2914{"fmovex", 4,   two(0xF000, 0x6800), two(0xF1C0, 0xFC7F), "IiF7~x", mfloat },
2915
2916{"fsmoveb", 4,  two(0xF000, 0x5840), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
2917{"fsmoveb", 4,  two(0xF000, 0x5840), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2918{"fsmoveb", 4,  two(0xF000, 0x7840), two(0xF1C0, 0xFC7F), "IiF7qs", cfloat },
2919{"fsmoved", 4,  two(0xF000, 0x0040), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2920{"fsmoved", 4,  two(0xF000, 0x5440), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
2921{"fsmoved", 4,  two(0xF000, 0x5440), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2922{"fsmoved", 4,  two(0xF000, 0x7440), two(0xF1C0, 0xFC7F), "IiF7ws", cfloat },
2923{"fsmovel", 4,  two(0xF000, 0x4040), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
2924{"fsmovel", 4,  two(0xF000, 0x4040), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2925{"fsmovel", 4,  two(0xF000, 0x6040), two(0xF1C0, 0xFC7F), "IiF7qs", cfloat },
2926{"fsmoves", 4,  two(0xF000, 0x4440), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
2927{"fsmoves", 4,  two(0xF000, 0x4440), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2928{"fsmoves", 4,  two(0xF000, 0x6440), two(0xF1C0, 0xFC7F), "IiF7qs", cfloat },
2929{"fsmovew", 4,  two(0xF000, 0x5040), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
2930{"fsmovew", 4,  two(0xF000, 0x5040), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2931{"fsmovew", 4,  two(0xF000, 0x7040), two(0xF1C0, 0xFC7F), "IiF7qs", cfloat },
2932{"fsmovex", 4,  two(0xF000, 0x0040), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
2933{"fsmovex", 4,  two(0xF000, 0x4840), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
2934{"fsmovep", 4,  two(0xF000, 0x4C40), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
2935
2936{"fdmoveb", 4,  two(0xF000, 0x5844), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
2937{"fdmoveb", 4,  two(0xF000, 0x5844), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2938{"fdmoveb", 4,  two(0xF000, 0x7844), two(0xF1C0, 0xFC7F), "IiF7qs", cfloat },
2939{"fdmoved", 4,  two(0xF000, 0x0044), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
2940{"fdmoved", 4,  two(0xF000, 0x5444), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
2941{"fdmoved", 4,  two(0xF000, 0x5444), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
2942{"fdmoved", 4,  two(0xF000, 0x7444), two(0xF1C0, 0xFC7F), "IiF7qs", cfloat },
2943{"fdmovel", 4,  two(0xF000, 0x4044), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
2944{"fdmovel", 4,  two(0xF000, 0x4044), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2945{"fdmovel", 4,  two(0xF000, 0x6044), two(0xF1C0, 0xFC7F), "IiF7qs", cfloat },
2946{"fdmoves", 4,  two(0xF000, 0x4444), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
2947{"fdmoves", 4,  two(0xF000, 0x4444), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2948{"fdmoves", 4,  two(0xF000, 0x6444), two(0xF1C0, 0xFC7F), "IiF7qs", cfloat },
2949{"fdmovew", 4,  two(0xF000, 0x5044), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
2950{"fdmovew", 4,  two(0xF000, 0x5044), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
2951{"fdmovew", 4,  two(0xF000, 0x7044), two(0xF1C0, 0xFC7F), "IiF7qs", cfloat },
2952{"fdmovex", 4,  two(0xF000, 0x0044), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
2953{"fdmovex", 4,  two(0xF000, 0x4844), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
2954{"fdmovep", 4,  two(0xF000, 0x4C44), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
2955
2956{"fmovecrx", 4, two(0xF000, 0x5C00), two(0xF1FF, 0xFC00), "Ii#CF7", mfloat },
2957
2958{"fmovemd", 4,  two(0xF000, 0xD000), two(0xFFC0, 0xFF00), "Iizsl3", cfloat },
2959{"fmovemd", 4,  two(0xF000, 0xD000), two(0xFFC0, 0xFF00), "Iizs#3", cfloat },
2960{"fmovemd", 4,  two(0xF000, 0xF000), two(0xFFC0, 0xFF00), "Ii#3ys", cfloat },
2961{"fmovemd", 4,  two(0xF000, 0xF000), two(0xFFC0, 0xFF00), "Iil3ys", cfloat },
2962
2963{"fmovemx", 4,  two(0xF000, 0xF800), two(0xF1C0, 0xFF8F), "IiDk&s", mfloat },
2964{"fmovemx", 4,  two(0xF020, 0xE800), two(0xF1F8, 0xFF8F), "IiDk-s", mfloat },
2965{"fmovemx", 4,  two(0xF000, 0xD800), two(0xF1C0, 0xFF8F), "Ii&sDk", mfloat },
2966{"fmovemx", 4,  two(0xF018, 0xD800), two(0xF1F8, 0xFF8F), "Ii+sDk", mfloat },
2967{"fmovemx", 4,  two(0xF000, 0xF000), two(0xF1C0, 0xFF00), "Idl3&s", mfloat },
2968{"fmovemx", 4,  two(0xF000, 0xF000), two(0xF1C0, 0xFF00), "Id#3&s", mfloat },
2969{"fmovemx", 4,  two(0xF000, 0xD000), two(0xF1C0, 0xFF00), "Id&sl3", mfloat },
2970{"fmovemx", 4,  two(0xF000, 0xD000), two(0xF1C0, 0xFF00), "Id&s#3", mfloat },
2971{"fmovemx", 4,  two(0xF020, 0xE000), two(0xF1F8, 0xFF00), "IdL3-s", mfloat },
2972{"fmovemx", 4,  two(0xF020, 0xE000), two(0xF1F8, 0xFF00), "Id#3-s", mfloat },
2973{"fmovemx", 4,  two(0xF018, 0xD000), two(0xF1F8, 0xFF00), "Id+sl3", mfloat },
2974{"fmovemx", 4,  two(0xF018, 0xD000), two(0xF1F8, 0xFF00), "Id+s#3", mfloat },
2975
2976{"fmoveml", 4,  two(0xF000, 0xA000), two(0xF1C0, 0xE3FF), "Iis8%s", mfloat },
2977{"fmoveml", 4,  two(0xF000, 0xA000), two(0xF1C0, 0xE3FF), "IiL8~s", mfloat },
2978/* FIXME: In the next instruction, we should only permit %dn if the
2979   target is a single register.  We should only permit %an if the
2980   target is a single %fpiar.  */
2981{"fmoveml", 4,  two(0xF000, 0x8000), two(0xF1C0, 0xE3FF), "Ii*lL8", mfloat },
2982
2983{"fmovem", 4,   two(0xF000, 0xD000), two(0xFFC0, 0xFF00), "IizsL3", cfloat },
2984{"fmovem", 4,   two(0xF000, 0xD000), two(0xFFC0, 0xFF00), "Iizs#3", cfloat },
2985{"fmovem", 4,   two(0xF000, 0xF000), two(0xFFC0, 0xFF00), "Ii#3ys", cfloat },
2986{"fmovem", 4,   two(0xF000, 0xF000), two(0xFFC0, 0xFF00), "IiL3ys", cfloat },
2987
2988{"fmovem", 4,   two(0xF020, 0xE000), two(0xF1F8, 0xFF00), "IdL3-s", mfloat },
2989{"fmovem", 4,   two(0xF000, 0xF000), two(0xF1C0, 0xFF00), "Idl3&s", mfloat },
2990{"fmovem", 4,   two(0xF018, 0xD000), two(0xF1F8, 0xFF00), "Id+sl3", mfloat },
2991{"fmovem", 4,   two(0xF000, 0xD000), two(0xF1C0, 0xFF00), "Id&sl3", mfloat },
2992{"fmovem", 4,   two(0xF020, 0xE000), two(0xF1F8, 0xFF00), "Id#3-s", mfloat },
2993{"fmovem", 4,   two(0xF020, 0xE800), two(0xF1F8, 0xFF8F), "IiDk-s", mfloat },
2994{"fmovem", 4,   two(0xF000, 0xF000), two(0xF1C0, 0xFF00), "Id#3&s", mfloat },
2995{"fmovem", 4,   two(0xF000, 0xF800), two(0xF1C0, 0xFF8F), "IiDk&s", mfloat },
2996{"fmovem", 4,   two(0xF018, 0xD000), two(0xF1F8, 0xFF00), "Id+s#3", mfloat },
2997{"fmovem", 4,   two(0xF018, 0xD800), two(0xF1F8, 0xFF8F), "Ii+sDk", mfloat },
2998{"fmovem", 4,   two(0xF000, 0xD000), two(0xF1C0, 0xFF00), "Id&s#3", mfloat },
2999{"fmovem", 4,   two(0xF000, 0xD800), two(0xF1C0, 0xFF8F), "Ii&sDk", mfloat },
3000{"fmovem", 4,   two(0xF000, 0xA000), two(0xF1C0, 0xE3FF), "Iis8%s", mfloat },
3001{"fmovem", 4,   two(0xF000, 0x8000), two(0xF1C0, 0xE3FF), "Ii*ss8", mfloat },
3002{"fmovem", 4,   two(0xF000, 0xA000), two(0xF1C0, 0xE3FF), "IiL8~s", mfloat },
3003{"fmovem", 4,   two(0xF000, 0x8000), two(0xF2C0, 0xE3FF), "Ii*sL8", mfloat },
3004
3005{"fmulb", 4,    two(0xF000, 0x5823), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3006{"fmulb", 4,    two(0xF000, 0x5823), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3007{"fmuld", 4,    two(0xF000, 0x0023), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3008{"fmuld", 4,    two(0xF000, 0x5423), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3009{"fmuld", 4,    two(0xF000, 0x5423), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
3010{"fmull", 4,    two(0xF000, 0x4023), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3011{"fmull", 4,    two(0xF000, 0x4023), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3012{"fmulp", 4,    two(0xF000, 0x4C23), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3013{"fmuls", 4,    two(0xF000, 0x4423), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3014{"fmuls", 4,    two(0xF000, 0x4423), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3015{"fmulw", 4,    two(0xF000, 0x5023), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3016{"fmulw", 4,    two(0xF000, 0x5023), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3017{"fmulx", 4,    two(0xF000, 0x0023), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3018{"fmulx", 4,    two(0xF000, 0x4823), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3019
3020{"fsmulb", 4,   two(0xF000, 0x5863), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
3021{"fsmulb", 4,   two(0xF000, 0x5863), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3022{"fsmuld", 4,   two(0xF000, 0x0063), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3023{"fsmuld", 4,   two(0xF000, 0x5463), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
3024{"fsmuld", 4,   two(0xF000, 0x5463), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
3025{"fsmull", 4,   two(0xF000, 0x4063), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
3026{"fsmull", 4,   two(0xF000, 0x4063), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3027{"fsmulp", 4,   two(0xF000, 0x4C63), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
3028{"fsmuls", 4,   two(0xF000, 0x4463), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
3029{"fsmuls", 4,   two(0xF000, 0x4463), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3030{"fsmulw", 4,   two(0xF000, 0x5063), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
3031{"fsmulw", 4,   two(0xF000, 0x5063), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3032{"fsmulx", 4,   two(0xF000, 0x0063), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
3033{"fsmulx", 4,   two(0xF000, 0x4863), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
3034
3035{"fdmulb", 4,   two(0xF000, 0x5867), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
3036{"fdmulb", 4,   two(0xF000, 0x5867), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3037{"fdmuld", 4,   two(0xF000, 0x0067), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3038{"fdmuld", 4,   two(0xF000, 0x5467), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
3039{"fdmuld", 4,   two(0xF000, 0x5467), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
3040{"fdmull", 4,   two(0xF000, 0x4067), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
3041{"fdmull", 4,   two(0xF000, 0x4067), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3042{"fdmulp", 4,   two(0xF000, 0x4C67), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
3043{"fdmuls", 4,   two(0xF000, 0x4467), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
3044{"fdmuls", 4,   two(0xF000, 0x4467), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3045{"fdmulw", 4,   two(0xF000, 0x5067), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
3046{"fdmulw", 4,   two(0xF000, 0x5067), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3047{"fdmulx", 4,   two(0xF000, 0x0067), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
3048{"fdmulx", 4,   two(0xF000, 0x4867), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
3049
3050{"fnegb", 4,    two(0xF000, 0x581A), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3051{"fnegb", 4,    two(0xF000, 0x581A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3052{"fnegd", 4,    two(0xF000, 0x001A), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3053{"fnegd", 4,    two(0xF000, 0x001A), two(0xF1C0, 0xE07F), "IiFt",   cfloat },
3054{"fnegd", 4,    two(0xF000, 0x541A), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3055{"fnegd", 4,    two(0xF000, 0x541A), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
3056{"fnegl", 4,    two(0xF000, 0x401A), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3057{"fnegl", 4,    two(0xF000, 0x401A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3058{"fnegp", 4,    two(0xF000, 0x4C1A), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3059{"fnegs", 4,    two(0xF000, 0x441A), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3060{"fnegs", 4,    two(0xF000, 0x441A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3061{"fnegw", 4,    two(0xF000, 0x501A), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3062{"fnegw", 4,    two(0xF000, 0x501A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3063{"fnegx", 4,    two(0xF000, 0x001A), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3064{"fnegx", 4,    two(0xF000, 0x481A), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3065{"fnegx", 4,    two(0xF000, 0x001A), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
3066
3067{"fsnegb", 4,   two(0xF000, 0x585A), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
3068{"fsnegb", 4,   two(0xF000, 0x585A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3069{"fsnegd", 4,   two(0xF000, 0x005A), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3070{"fsnegd", 4,   two(0xF000, 0x005A), two(0xF1C0, 0xE07F), "IiFt",   cfloat },
3071{"fsnegd", 4,   two(0xF000, 0x545A), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
3072{"fsnegd", 4,   two(0xF000, 0x545A), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
3073{"fsnegl", 4,   two(0xF000, 0x405A), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
3074{"fsnegl", 4,   two(0xF000, 0x405A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3075{"fsnegp", 4,   two(0xF000, 0x4C5A), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
3076{"fsnegs", 4,   two(0xF000, 0x445A), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
3077{"fsnegs", 4,   two(0xF000, 0x445A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3078{"fsnegw", 4,   two(0xF000, 0x505A), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
3079{"fsnegw", 4,   two(0xF000, 0x505A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3080{"fsnegx", 4,   two(0xF000, 0x005A), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
3081{"fsnegx", 4,   two(0xF000, 0x485A), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
3082{"fsnegx", 4,   two(0xF000, 0x005A), two(0xF1C0, 0xE07F), "IiFt",   m68040up },
3083
3084{"fdnegb", 4,   two(0xF000, 0x585E), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
3085{"fdnegb", 4,   two(0xF000, 0x585E), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3086{"fdnegd", 4,   two(0xF000, 0x005E), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3087{"fdnegd", 4,   two(0xF000, 0x005E), two(0xF1C0, 0xE07F), "IiFt",   cfloat },
3088{"fdnegd", 4,   two(0xF000, 0x545E), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
3089{"fdnegd", 4,   two(0xF000, 0x545E), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
3090{"fdnegl", 4,   two(0xF000, 0x405E), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
3091{"fdnegl", 4,   two(0xF000, 0x405E), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3092{"fdnegp", 4,   two(0xF000, 0x4C5E), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
3093{"fdnegs", 4,   two(0xF000, 0x445E), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
3094{"fdnegs", 4,   two(0xF000, 0x445E), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3095{"fdnegw", 4,   two(0xF000, 0x505E), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
3096{"fdnegw", 4,   two(0xF000, 0x505E), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3097{"fdnegx", 4,   two(0xF000, 0x005E), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
3098{"fdnegx", 4,   two(0xF000, 0x485E), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
3099{"fdnegx", 4,   two(0xF000, 0x005E), two(0xF1C0, 0xE07F), "IiFt",   m68040up },
3100
3101{"fnop", 4,     two(0xF280, 0x0000), two(0xFFFF, 0xFFFF), "Ii", mfloat | cfloat },
3102
3103{"fremb", 4,    two(0xF000, 0x5825), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3104{"fremd", 4,    two(0xF000, 0x5425), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3105{"freml", 4,    two(0xF000, 0x4025), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3106{"fremp", 4,    two(0xF000, 0x4C25), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3107{"frems", 4,    two(0xF000, 0x4425), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3108{"fremw", 4,    two(0xF000, 0x5025), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3109{"fremx", 4,    two(0xF000, 0x0025), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3110{"fremx", 4,    two(0xF000, 0x4825), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3111
3112{"frestore", 2, one(0xF140),            one(0xF1C0), "Id<s", mfloat },
3113{"frestore", 2, one(0xF140),            one(0xF1C0), "Idys", cfloat },
3114
3115{"fsave", 2,    one(0xF100),            one(0xF1C0), "Id>s", mfloat },
3116{"fsave", 2,    one(0xF100),            one(0xF1C0), "Idzs", cfloat },
3117
3118{"fscaleb", 4,  two(0xF000, 0x5826), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3119{"fscaled", 4,  two(0xF000, 0x5426), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3120{"fscalel", 4,  two(0xF000, 0x4026), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3121{"fscalep", 4,  two(0xF000, 0x4C26), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3122{"fscales", 4,  two(0xF000, 0x4426), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3123{"fscalew", 4,  two(0xF000, 0x5026), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3124{"fscalex", 4,  two(0xF000, 0x0026), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3125{"fscalex", 4,  two(0xF000, 0x4826), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3126
3127/* $ is necessary to prevent the assembler from using PC-relative.
3128   If @ were used, "label: fseq label" could produce "ftrapeq", 2,
3129   because "label" became "pc@label".  */
3130{"fseq", 4,     two(0xF040, 0x0001), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3131{"fsf", 4,      two(0xF040, 0x0000), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3132{"fsge", 4,     two(0xF040, 0x0013), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3133{"fsgl", 4,     two(0xF040, 0x0016), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3134{"fsgle", 4,    two(0xF040, 0x0017), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3135{"fsgt", 4,     two(0xF040, 0x0012), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3136{"fsle", 4,     two(0xF040, 0x0015), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3137{"fslt", 4,     two(0xF040, 0x0014), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3138{"fsne", 4,     two(0xF040, 0x000E), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3139{"fsnge", 4,    two(0xF040, 0x001C), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3140{"fsngl", 4,    two(0xF040, 0x0019), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3141{"fsngle", 4,   two(0xF040, 0x0018), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3142{"fsngt", 4,    two(0xF040, 0x001D), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3143{"fsnle", 4,    two(0xF040, 0x001A), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3144{"fsnlt", 4,    two(0xF040, 0x001B), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3145{"fsoge", 4,    two(0xF040, 0x0003), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3146{"fsogl", 4,    two(0xF040, 0x0006), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3147{"fsogt", 4,    two(0xF040, 0x0002), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3148{"fsole", 4,    two(0xF040, 0x0005), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3149{"fsolt", 4,    two(0xF040, 0x0004), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3150{"fsor", 4,     two(0xF040, 0x0007), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3151{"fsseq", 4,    two(0xF040, 0x0011), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3152{"fssf", 4,     two(0xF040, 0x0010), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3153{"fssne", 4,    two(0xF040, 0x001E), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3154{"fsst", 4,     two(0xF040, 0x001F), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3155{"fst", 4,      two(0xF040, 0x000F), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3156{"fsueq", 4,    two(0xF040, 0x0009), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3157{"fsuge", 4,    two(0xF040, 0x000B), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3158{"fsugt", 4,    two(0xF040, 0x000A), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3159{"fsule", 4,    two(0xF040, 0x000D), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3160{"fsult", 4,    two(0xF040, 0x000C), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3161{"fsun", 4,     two(0xF040, 0x0008), two(0xF1C0, 0xFFFF), "Ii$s", mfloat },
3162
3163{"fsgldivb", 4, two(0xF000, 0x5824), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3164{"fsgldivd", 4, two(0xF000, 0x5424), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3165{"fsgldivl", 4, two(0xF000, 0x4024), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3166{"fsgldivp", 4, two(0xF000, 0x4C24), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3167{"fsgldivs", 4, two(0xF000, 0x4424), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3168{"fsgldivw", 4, two(0xF000, 0x5024), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3169{"fsgldivx", 4, two(0xF000, 0x0024), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3170{"fsgldivx", 4, two(0xF000, 0x4824), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3171{"fsgldivx", 4, two(0xF000, 0x0024), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
3172
3173{"fsglmulb", 4, two(0xF000, 0x5827), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3174{"fsglmuld", 4, two(0xF000, 0x5427), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3175{"fsglmull", 4, two(0xF000, 0x4027), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3176{"fsglmulp", 4, two(0xF000, 0x4C27), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3177{"fsglmuls", 4, two(0xF000, 0x4427), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3178{"fsglmulw", 4, two(0xF000, 0x5027), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3179{"fsglmulx", 4, two(0xF000, 0x0027), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3180{"fsglmulx", 4, two(0xF000, 0x4827), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3181{"fsglmulx", 4, two(0xF000, 0x0027), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
3182
3183{"fsinb", 4,    two(0xF000, 0x580E), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3184{"fsind", 4,    two(0xF000, 0x540E), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3185{"fsinl", 4,    two(0xF000, 0x400E), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3186{"fsinp", 4,    two(0xF000, 0x4C0E), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3187{"fsins", 4,    two(0xF000, 0x440E), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3188{"fsinw", 4,    two(0xF000, 0x500E), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3189{"fsinx", 4,    two(0xF000, 0x000E), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3190{"fsinx", 4,    two(0xF000, 0x480E), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3191{"fsinx", 4,    two(0xF000, 0x000E), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
3192
3193{"fsincosb", 4, two(0xF000, 0x5830), two(0xF1C0, 0xFC78), "Ii;bF3F7", mfloat },
3194{"fsincosd", 4, two(0xF000, 0x5430), two(0xF1C0, 0xFC78), "Ii;FF3F7", mfloat },
3195{"fsincosl", 4, two(0xF000, 0x4030), two(0xF1C0, 0xFC78), "Ii;lF3F7", mfloat },
3196{"fsincosp", 4, two(0xF000, 0x4C30), two(0xF1C0, 0xFC78), "Ii;pF3F7", mfloat },
3197{"fsincoss", 4, two(0xF000, 0x4430), two(0xF1C0, 0xFC78), "Ii;fF3F7", mfloat },
3198{"fsincosw", 4, two(0xF000, 0x5030), two(0xF1C0, 0xFC78), "Ii;wF3F7", mfloat },
3199{"fsincosx", 4, two(0xF000, 0x0030), two(0xF1C0, 0xE078), "IiF8F3F7", mfloat },
3200{"fsincosx", 4, two(0xF000, 0x4830), two(0xF1C0, 0xFC78), "Ii;xF3F7", mfloat },
3201
3202{"fsinhb", 4,   two(0xF000, 0x5802), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3203{"fsinhd", 4,   two(0xF000, 0x5402), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3204{"fsinhl", 4,   two(0xF000, 0x4002), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3205{"fsinhp", 4,   two(0xF000, 0x4C02), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3206{"fsinhs", 4,   two(0xF000, 0x4402), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3207{"fsinhw", 4,   two(0xF000, 0x5002), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3208{"fsinhx", 4,   two(0xF000, 0x0002), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3209{"fsinhx", 4,   two(0xF000, 0x4802), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3210{"fsinhx", 4,   two(0xF000, 0x0002), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
3211
3212{"fsqrtb", 4,   two(0xF000, 0x5804), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3213{"fsqrtb", 4,   two(0xF000, 0x5804), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3214{"fsqrtd", 4,   two(0xF000, 0x0004), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3215{"fsqrtd", 4,   two(0xF000, 0x0004), two(0xF1C0, 0xE07F), "IiFt",   cfloat },
3216{"fsqrtd", 4,   two(0xF000, 0x5404), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3217{"fsqrtd", 4,   two(0xF000, 0x5404), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
3218{"fsqrtl", 4,   two(0xF000, 0x4004), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3219{"fsqrtl", 4,   two(0xF000, 0x4004), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3220{"fsqrtp", 4,   two(0xF000, 0x4C04), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3221{"fsqrts", 4,   two(0xF000, 0x4404), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3222{"fsqrts", 4,   two(0xF000, 0x4404), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3223{"fsqrtw", 4,   two(0xF000, 0x5004), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3224{"fsqrtw", 4,   two(0xF000, 0x5004), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3225{"fsqrtx", 4,   two(0xF000, 0x0004), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3226{"fsqrtx", 4,   two(0xF000, 0x4804), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3227{"fsqrtx", 4,   two(0xF000, 0x0004), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
3228
3229{"fssqrtb", 4,  two(0xF000, 0x5841), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
3230{"fssqrtb", 4,  two(0xF000, 0x5841), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3231{"fssqrtd", 4,  two(0xF000, 0x0041), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3232{"fssqrtd", 4,  two(0xF000, 0x0041), two(0xF1C0, 0xE07F), "IiFt",   cfloat },
3233{"fssqrtd", 4,  two(0xF000, 0x5441), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
3234{"fssqrtd", 4,  two(0xF000, 0x5441), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
3235{"fssqrtl", 4,  two(0xF000, 0x4041), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
3236{"fssqrtl", 4,  two(0xF000, 0x4041), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3237{"fssqrtp", 4,  two(0xF000, 0x4C41), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
3238{"fssqrts", 4,  two(0xF000, 0x4441), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
3239{"fssqrts", 4,  two(0xF000, 0x4441), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3240{"fssqrtw", 4,  two(0xF000, 0x5041), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
3241{"fssqrtw", 4,  two(0xF000, 0x5041), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3242{"fssqrtx", 4,  two(0xF000, 0x0041), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
3243{"fssqrtx", 4,  two(0xF000, 0x4841), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
3244{"fssqrtx", 4,  two(0xF000, 0x0041), two(0xF1C0, 0xE07F), "IiFt",   m68040up },
3245
3246{"fdsqrtb", 4,  two(0xF000, 0x5845), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
3247{"fdsqrtb", 4,  two(0xF000, 0x5845), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3248{"fdsqrtd", 4,  two(0xF000, 0x0045), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3249{"fdsqrtd", 4,  two(0xF000, 0x0045), two(0xF1C0, 0xE07F), "IiFt",   cfloat },
3250{"fdsqrtd", 4,  two(0xF000, 0x5445), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
3251{"fdsqrtl", 4,  two(0xF000, 0x4045), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
3252{"fdsqrtl", 4,  two(0xF000, 0x4045), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3253{"fdsqrtp", 4,  two(0xF000, 0x4C45), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
3254{"fdsqrts", 4,  two(0xF000, 0x4445), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
3255{"fdsqrts", 4,  two(0xF000, 0x4445), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3256{"fdsqrtw", 4,  two(0xF000, 0x5045), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
3257{"fdsqrtw", 4,  two(0xF000, 0x5045), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3258{"fdsqrtx", 4,  two(0xF000, 0x0045), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
3259{"fdsqrtx", 4,  two(0xF000, 0x4845), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
3260{"fdsqrtx", 4,  two(0xF000, 0x0045), two(0xF1C0, 0xE07F), "IiFt",   m68040up },
3261
3262{"fsubb", 4,    two(0xF000, 0x5828), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3263{"fsubb", 4,    two(0xF000, 0x5828), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3264{"fsubd", 4,    two(0xF000, 0x0028), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3265{"fsubd", 4,    two(0xF000, 0x5428), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3266{"fsubd", 4,    two(0xF000, 0x5428), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
3267{"fsubl", 4,    two(0xF000, 0x4028), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3268{"fsubl", 4,    two(0xF000, 0x4028), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3269{"fsubp", 4,    two(0xF000, 0x4C28), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3270{"fsubs", 4,    two(0xF000, 0x4428), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3271{"fsubs", 4,    two(0xF000, 0x4428), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3272{"fsubw", 4,    two(0xF000, 0x5028), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3273{"fsubw", 4,    two(0xF000, 0x5028), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3274{"fsubx", 4,    two(0xF000, 0x0028), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3275{"fsubx", 4,    two(0xF000, 0x4828), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3276{"fsubx", 4,    two(0xF000, 0x0028), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
3277
3278{"fssubb", 4,   two(0xF000, 0x5828), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3279{"fssubb", 4,   two(0xF000, 0x5868), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
3280{"fssubd", 4,   two(0xF000, 0x0068), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3281{"fssubd", 4,   two(0xF000, 0x5468), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
3282{"fssubd", 4,   two(0xF000, 0x5468), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
3283{"fssubl", 4,   two(0xF000, 0x4068), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
3284{"fssubl", 4,   two(0xF000, 0x4068), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3285{"fssubp", 4,   two(0xF000, 0x4C68), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
3286{"fssubs", 4,   two(0xF000, 0x4468), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
3287{"fssubs", 4,   two(0xF000, 0x4468), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3288{"fssubw", 4,   two(0xF000, 0x5068), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
3289{"fssubw", 4,   two(0xF000, 0x5068), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3290{"fssubx", 4,   two(0xF000, 0x0068), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
3291{"fssubx", 4,   two(0xF000, 0x4868), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
3292{"fssubx", 4,   two(0xF000, 0x0068), two(0xF1C0, 0xE07F), "IiFt",   m68040up },
3293
3294{"fdsubb", 4,   two(0xF000, 0x586A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3295{"fdsubb", 4,   two(0xF000, 0x586c), two(0xF1C0, 0xFC7F), "Ii;bF7", m68040up },
3296{"fdsubd", 4,   two(0xF000, 0x006A), two(0xF1C0, 0xE07F), "IiF8F7", cfloat },
3297{"fdsubd", 4,   two(0xF000, 0x546A), two(0xF1C0, 0xFC7F), "IiwsF7", cfloat },
3298{"fdsubd", 4,   two(0xF000, 0x546c), two(0xF1C0, 0xFC7F), "Ii;FF7", m68040up },
3299{"fdsubl", 4,   two(0xF000, 0x406A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3300{"fdsubl", 4,   two(0xF000, 0x406c), two(0xF1C0, 0xFC7F), "Ii;lF7", m68040up },
3301{"fdsubp", 4,   two(0xF000, 0x4C6c), two(0xF1C0, 0xFC7F), "Ii;pF7", m68040up },
3302{"fdsubs", 4,   two(0xF000, 0x446A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3303{"fdsubs", 4,   two(0xF000, 0x446c), two(0xF1C0, 0xFC7F), "Ii;fF7", m68040up },
3304{"fdsubw", 4,   two(0xF000, 0x506A), two(0xF1C0, 0xFC7F), "IibsF7", cfloat },
3305{"fdsubw", 4,   two(0xF000, 0x506c), two(0xF1C0, 0xFC7F), "Ii;wF7", m68040up },
3306{"fdsubx", 4,   two(0xF000, 0x006c), two(0xF1C0, 0xE07F), "IiF8F7", m68040up },
3307{"fdsubx", 4,   two(0xF000, 0x486c), two(0xF1C0, 0xFC7F), "Ii;xF7", m68040up },
3308{"fdsubx", 4,   two(0xF000, 0x006c), two(0xF1C0, 0xE07F), "IiFt",   m68040up },
3309
3310{"ftanb", 4,    two(0xF000, 0x580F), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3311{"ftand", 4,    two(0xF000, 0x540F), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3312{"ftanl", 4,    two(0xF000, 0x400F), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3313{"ftanp", 4,    two(0xF000, 0x4C0F), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3314{"ftans", 4,    two(0xF000, 0x440F), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3315{"ftanw", 4,    two(0xF000, 0x500F), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3316{"ftanx", 4,    two(0xF000, 0x000F), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3317{"ftanx", 4,    two(0xF000, 0x480F), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3318{"ftanx", 4,    two(0xF000, 0x000F), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
3319
3320{"ftanhb", 4,   two(0xF000, 0x5809), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3321{"ftanhd", 4,   two(0xF000, 0x5409), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3322{"ftanhl", 4,   two(0xF000, 0x4009), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3323{"ftanhp", 4,   two(0xF000, 0x4C09), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3324{"ftanhs", 4,   two(0xF000, 0x4409), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3325{"ftanhw", 4,   two(0xF000, 0x5009), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3326{"ftanhx", 4,   two(0xF000, 0x0009), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3327{"ftanhx", 4,   two(0xF000, 0x4809), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3328{"ftanhx", 4,   two(0xF000, 0x0009), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
3329
3330{"ftentoxb", 4, two(0xF000, 0x5812), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3331{"ftentoxd", 4, two(0xF000, 0x5412), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3332{"ftentoxl", 4, two(0xF000, 0x4012), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3333{"ftentoxp", 4, two(0xF000, 0x4C12), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3334{"ftentoxs", 4, two(0xF000, 0x4412), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3335{"ftentoxw", 4, two(0xF000, 0x5012), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3336{"ftentoxx", 4, two(0xF000, 0x0012), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3337{"ftentoxx", 4, two(0xF000, 0x4812), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3338{"ftentoxx", 4, two(0xF000, 0x0012), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
3339
3340{"ftrapeq", 4,  two(0xF07C, 0x0001), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3341{"ftrapf", 4,   two(0xF07C, 0x0000), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3342{"ftrapge", 4,  two(0xF07C, 0x0013), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3343{"ftrapgl", 4,  two(0xF07C, 0x0016), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3344{"ftrapgle", 4, two(0xF07C, 0x0017), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3345{"ftrapgt", 4,  two(0xF07C, 0x0012), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3346{"ftraple", 4,  two(0xF07C, 0x0015), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3347{"ftraplt", 4,  two(0xF07C, 0x0014), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3348{"ftrapne", 4,  two(0xF07C, 0x000E), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3349{"ftrapnge", 4, two(0xF07C, 0x001C), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3350{"ftrapngl", 4, two(0xF07C, 0x0019), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3351{"ftrapngle", 4,two(0xF07C, 0x0018), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3352{"ftrapngt", 4, two(0xF07C, 0x001D), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3353{"ftrapnle", 4, two(0xF07C, 0x001A), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3354{"ftrapnlt", 4, two(0xF07C, 0x001B), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3355{"ftrapoge", 4, two(0xF07C, 0x0003), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3356{"ftrapogl", 4, two(0xF07C, 0x0006), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3357{"ftrapogt", 4, two(0xF07C, 0x0002), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3358{"ftrapole", 4, two(0xF07C, 0x0005), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3359{"ftrapolt", 4, two(0xF07C, 0x0004), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3360{"ftrapor", 4,  two(0xF07C, 0x0007), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3361{"ftrapseq", 4, two(0xF07C, 0x0011), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3362{"ftrapsf", 4,  two(0xF07C, 0x0010), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3363{"ftrapsne", 4, two(0xF07C, 0x001E), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3364{"ftrapst", 4,  two(0xF07C, 0x001F), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3365{"ftrapt", 4,   two(0xF07C, 0x000F), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3366{"ftrapueq", 4, two(0xF07C, 0x0009), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3367{"ftrapuge", 4, two(0xF07C, 0x000B), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3368{"ftrapugt", 4, two(0xF07C, 0x000A), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3369{"ftrapule", 4, two(0xF07C, 0x000D), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3370{"ftrapult", 4, two(0xF07C, 0x000C), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3371{"ftrapun", 4,  two(0xF07C, 0x0008), two(0xF1FF, 0xFFFF), "Ii", mfloat },
3372
3373{"ftrapeqw", 4, two(0xF07A, 0x0001), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3374{"ftrapfw", 4,  two(0xF07A, 0x0000), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3375{"ftrapgew", 4, two(0xF07A, 0x0013), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3376{"ftrapglw", 4, two(0xF07A, 0x0016), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3377{"ftrapglew", 4,two(0xF07A, 0x0017), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3378{"ftrapgtw", 4, two(0xF07A, 0x0012), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3379{"ftraplew", 4, two(0xF07A, 0x0015), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3380{"ftrapltw", 4, two(0xF07A, 0x0014), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3381{"ftrapnew", 4, two(0xF07A, 0x000E), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3382{"ftrapngew", 4,two(0xF07A, 0x001C), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3383{"ftrapnglw", 4,two(0xF07A, 0x0019), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3384{"ftrapnglew", 4,two(0xF07A, 0x0018), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3385{"ftrapngtw", 4,two(0xF07A, 0x001D), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3386{"ftrapnlew", 4,two(0xF07A, 0x001A), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3387{"ftrapnltw", 4,two(0xF07A, 0x001B), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3388{"ftrapogew", 4,two(0xF07A, 0x0003), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3389{"ftrapoglw", 4,two(0xF07A, 0x0006), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3390{"ftrapogtw", 4,two(0xF07A, 0x0002), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3391{"ftrapolew", 4,two(0xF07A, 0x0005), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3392{"ftrapoltw", 4,two(0xF07A, 0x0004), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3393{"ftraporw", 4, two(0xF07A, 0x0007), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3394{"ftrapseqw", 4,two(0xF07A, 0x0011), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3395{"ftrapsfw", 4, two(0xF07A, 0x0010), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3396{"ftrapsnew", 4,two(0xF07A, 0x001E), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3397{"ftrapstw", 4, two(0xF07A, 0x001F), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3398{"ftraptw", 4,  two(0xF07A, 0x000F), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3399{"ftrapueqw", 4,two(0xF07A, 0x0009), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3400{"ftrapugew", 4,two(0xF07A, 0x000B), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3401{"ftrapugtw", 4,two(0xF07A, 0x000A), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3402{"ftrapulew", 4,two(0xF07A, 0x000D), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3403{"ftrapultw", 4,two(0xF07A, 0x000C), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3404{"ftrapunw", 4, two(0xF07A, 0x0008), two(0xF1FF, 0xFFFF), "Ii^w", mfloat },
3405
3406{"ftrapeql", 4, two(0xF07B, 0x0001), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3407{"ftrapfl", 4,  two(0xF07B, 0x0000), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3408{"ftrapgel", 4, two(0xF07B, 0x0013), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3409{"ftrapgll", 4, two(0xF07B, 0x0016), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3410{"ftrapglel", 4,two(0xF07B, 0x0017), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3411{"ftrapgtl", 4, two(0xF07B, 0x0012), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3412{"ftraplel", 4, two(0xF07B, 0x0015), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3413{"ftrapltl", 4, two(0xF07B, 0x0014), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3414{"ftrapnel", 4, two(0xF07B, 0x000E), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3415{"ftrapngel", 4,two(0xF07B, 0x001C), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3416{"ftrapngll", 4,two(0xF07B, 0x0019), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3417{"ftrapnglel", 4,two(0xF07B, 0x0018), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3418{"ftrapngtl", 4,two(0xF07B, 0x001D), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3419{"ftrapnlel", 4,two(0xF07B, 0x001A), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3420{"ftrapnltl", 4,two(0xF07B, 0x001B), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3421{"ftrapogel", 4,two(0xF07B, 0x0003), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3422{"ftrapogll", 4,two(0xF07B, 0x0006), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3423{"ftrapogtl", 4,two(0xF07B, 0x0002), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3424{"ftrapolel", 4,two(0xF07B, 0x0005), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3425{"ftrapoltl", 4,two(0xF07B, 0x0004), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3426{"ftraporl", 4, two(0xF07B, 0x0007), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3427{"ftrapseql", 4,two(0xF07B, 0x0011), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3428{"ftrapsfl", 4, two(0xF07B, 0x0010), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3429{"ftrapsnel", 4,two(0xF07B, 0x001E), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3430{"ftrapstl", 4, two(0xF07B, 0x001F), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3431{"ftraptl", 4,  two(0xF07B, 0x000F), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3432{"ftrapueql", 4,two(0xF07B, 0x0009), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3433{"ftrapugel", 4,two(0xF07B, 0x000B), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3434{"ftrapugtl", 4,two(0xF07B, 0x000A), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3435{"ftrapulel", 4,two(0xF07B, 0x000D), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3436{"ftrapultl", 4,two(0xF07B, 0x000C), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3437{"ftrapunl", 4, two(0xF07B, 0x0008), two(0xF1FF, 0xFFFF), "Ii^l", mfloat },
3438
3439{"ftstb", 4,    two(0xF000, 0x583A), two(0xF1C0, 0xFC7F), "Ii;b", mfloat },
3440{"ftstb", 4,    two(0xF000, 0x583A), two(0xF1C0, 0xFC7F), "Iibs", cfloat },
3441{"ftstd", 4,    two(0xF000, 0x003A), two(0xF1C0, 0xE07F), "IiF8", cfloat },
3442{"ftstd", 4,    two(0xF000, 0x543A), two(0xF1C0, 0xFC7F), "Ii;F", mfloat },
3443{"ftstd", 4,    two(0xF000, 0x543A), two(0xF1C0, 0xFC7F), "Iibs", cfloat },
3444{"ftstl", 4,    two(0xF000, 0x403A), two(0xF1C0, 0xFC7F), "Ii;l", mfloat },
3445{"ftstl", 4,    two(0xF000, 0x403A), two(0xF1C0, 0xFC7F), "Iibs", cfloat },
3446{"ftstp", 4,    two(0xF000, 0x4C3A), two(0xF1C0, 0xFC7F), "Ii;p", mfloat },
3447{"ftsts", 4,    two(0xF000, 0x443A), two(0xF1C0, 0xFC7F), "Ii;f", mfloat },
3448{"ftsts", 4,    two(0xF000, 0x443A), two(0xF1C0, 0xFC7F), "Iibs", cfloat },
3449{"ftstw", 4,    two(0xF000, 0x503A), two(0xF1C0, 0xFC7F), "Ii;w", mfloat },
3450{"ftstw", 4,    two(0xF000, 0x503A), two(0xF1C0, 0xFC7F), "Iibs", cfloat },
3451{"ftstx", 4,    two(0xF000, 0x003A), two(0xF1C0, 0xE07F), "IiF8", mfloat },
3452{"ftstx", 4,    two(0xF000, 0x483A), two(0xF1C0, 0xFC7F), "Ii;x", mfloat },
3453
3454{"ftwotoxb", 4, two(0xF000, 0x5811), two(0xF1C0, 0xFC7F), "Ii;bF7", mfloat },
3455{"ftwotoxd", 4, two(0xF000, 0x5411), two(0xF1C0, 0xFC7F), "Ii;FF7", mfloat },
3456{"ftwotoxl", 4, two(0xF000, 0x4011), two(0xF1C0, 0xFC7F), "Ii;lF7", mfloat },
3457{"ftwotoxp", 4, two(0xF000, 0x4C11), two(0xF1C0, 0xFC7F), "Ii;pF7", mfloat },
3458{"ftwotoxs", 4, two(0xF000, 0x4411), two(0xF1C0, 0xFC7F), "Ii;fF7", mfloat },
3459{"ftwotoxw", 4, two(0xF000, 0x5011), two(0xF1C0, 0xFC7F), "Ii;wF7", mfloat },
3460{"ftwotoxx", 4, two(0xF000, 0x0011), two(0xF1C0, 0xE07F), "IiF8F7", mfloat },
3461{"ftwotoxx", 4, two(0xF000, 0x4811), two(0xF1C0, 0xFC7F), "Ii;xF7", mfloat },
3462{"ftwotoxx", 4, two(0xF000, 0x0011), two(0xF1C0, 0xE07F), "IiFt",   mfloat },
3463
3464{"halt", 2,     one(0045310),   one(0177777), "",     m68060 | mcfisa_a },
3465
3466{"illegal", 2,  one(0045374),   one(0177777), "",     m68000up | mcfisa_a },
3467{"intouch", 2,  one(0xf428),    one(0xfff8), "As",    mcfisa_b },
3468
3469{"jmp", 2,      one(0047300),   one(0177700), "!s", m68000up | mcfisa_a },
3470
3471{"jra", 2,      one(0060000),   one(0177400), "Bg", m68000up | mcfisa_a },
3472{"jra", 2,      one(0047300),   one(0177700), "!s", m68000up | mcfisa_a },
3473
3474{"jsr", 2,      one(0047200),   one(0177700), "!s", m68000up | mcfisa_a },
3475
3476{"jbsr", 2,     one(0060400),   one(0177400), "Bg", m68000up | mcfisa_a },
3477{"jbsr", 2,     one(0047200),   one(0177700), "!s", m68000up | mcfisa_a },
3478
3479{"lea", 2,      one(0040700),   one(0170700), "!sAd", m68000up | mcfisa_a },
3480
3481{"lpstop", 6,   two(0174000,0000700),two(0177777,0177777),"#w", cpu32|m68060 },
3482
3483{"linkw", 4,    one(0047120),   one(0177770), "As#w", m68000up | mcfisa_a },
3484{"linkl", 6,    one(0044010),   one(0177770), "As#l", m68020up | cpu32 },
3485{"link", 4,     one(0047120),   one(0177770), "As#W", m68000up | mcfisa_a },
3486{"link", 6,     one(0044010),   one(0177770), "As#l", m68020up | cpu32 },
3487
3488{"lslb", 2,     one(0160410),   one(0170770), "QdDs", m68000up },
3489{"lslb", 2,     one(0160450),   one(0170770), "DdDs", m68000up },
3490{"lslw", 2,     one(0160510),   one(0170770), "QdDs", m68000up },
3491{"lslw", 2,     one(0160550),   one(0170770), "DdDs", m68000up },
3492{"lslw", 2,     one(0161700),   one(0177700), "~s",   m68000up },
3493{"lsll", 2,     one(0160610),   one(0170770), "QdDs", m68000up | mcfisa_a },
3494{"lsll", 2,     one(0160650),   one(0170770), "DdDs", m68000up | mcfisa_a },
3495
3496{"lsrb", 2,     one(0160010),   one(0170770), "QdDs", m68000up },
3497{"lsrb", 2,     one(0160050),   one(0170770), "DdDs", m68000up },
3498{"lsrw", 2,     one(0160110),   one(0170770), "QdDs", m68000up },
3499{"lsrw", 2,     one(0160150),   one(0170770), "DdDs", m68000up },
3500{"lsrw", 2,     one(0161300),   one(0177700), "~s",   m68000up },
3501{"lsrl", 2,     one(0160210),   one(0170770), "QdDs", m68000up | mcfisa_a },
3502{"lsrl", 2,     one(0160250),   one(0170770), "DdDs", m68000up | mcfisa_a },
3503
3504{"macw", 4,     two(0xa080, 0x0000), two(0xf180, 0x0910), "uNuoiI4/Rn", mcfmac },
3505{"macw", 4,     two(0xa080, 0x0200), two(0xf180, 0x0910), "uNuoMh4/Rn", mcfmac },
3506{"macw", 4,     two(0xa080, 0x0000), two(0xf180, 0x0f10), "uNuo4/Rn", mcfmac },
3507{"macw", 4,     two(0xa000, 0x0000), two(0xf1b0, 0x0900), "uMumiI", mcfmac },
3508{"macw", 4,     two(0xa000, 0x0200), two(0xf1b0, 0x0900), "uMumMh", mcfmac },
3509{"macw", 4,     two(0xa000, 0x0000), two(0xf1b0, 0x0f00), "uMum", mcfmac },
3510
3511{"macw", 4,     two(0xa000, 0x0000), two(0xf100, 0x0900), "uNuoiI4/RneG", mcfemac },/* Ry,Rx,SF,<ea>,accX.  */
3512{"macw", 4,     two(0xa000, 0x0200), two(0xf100, 0x0900), "uNuoMh4/RneG", mcfemac },/* Ry,Rx,+1/-1,<ea>,accX.  */
3513{"macw", 4,     two(0xa000, 0x0000), two(0xf100, 0x0f00), "uNuo4/RneG", mcfemac },/* Ry,Rx,<ea>,accX.  */
3514{"macw", 4,     two(0xa000, 0x0000), two(0xf130, 0x0900), "uMumiIeH", mcfemac },/* Ry,Rx,SF,accX.  */
3515{"macw", 4,     two(0xa000, 0x0200), two(0xf130, 0x0900), "uMumMheH", mcfemac },/* Ry,Rx,+1/-1,accX.  */
3516{"macw", 4,     two(0xa000, 0x0000), two(0xf130, 0x0f00), "uMumeH", mcfemac }, /* Ry,Rx,accX.  */
3517
3518{"macl", 4,     two(0xa080, 0x0800), two(0xf180, 0x0910), "RNRoiI4/Rn", mcfmac },
3519{"macl", 4,     two(0xa080, 0x0a00), two(0xf180, 0x0910), "RNRoMh4/Rn", mcfmac },
3520{"macl", 4,     two(0xa080, 0x0800), two(0xf180, 0x0f10), "RNRo4/Rn", mcfmac },
3521{"macl", 4,     two(0xa000, 0x0800), two(0xf1b0, 0x0b00), "RMRmiI", mcfmac },
3522{"macl", 4,     two(0xa000, 0x0a00), two(0xf1b0, 0x0b00), "RMRmMh", mcfmac },
3523{"macl", 4,     two(0xa000, 0x0800), two(0xf1b0, 0x0800), "RMRm", mcfmac },
3524
3525{"macl", 4,     two(0xa000, 0x0800), two(0xf100, 0x0900), "R3R1iI4/RneG", mcfemac },
3526{"macl", 4,     two(0xa000, 0x0a00), two(0xf100, 0x0900), "R3R1Mh4/RneG", mcfemac },
3527{"macl", 4,     two(0xa000, 0x0800), two(0xf100, 0x0f00), "R3R14/RneG", mcfemac },
3528{"macl", 4,     two(0xa000, 0x0800), two(0xf130, 0x0900), "RMRmiIeH", mcfemac },
3529{"macl", 4,     two(0xa000, 0x0a00), two(0xf130, 0x0900), "RMRmMheH", mcfemac },
3530{"macl", 4,     two(0xa000, 0x0800), two(0xf130, 0x0f00), "RMRmeH", mcfemac },
3531
3532/* NOTE: The mcf5200 family programmer's reference manual does not
3533   indicate the byte form of the movea instruction is invalid (as it
3534   is on 68000 family cpus).  However, experiments on the 5202 yield
3535   unexpected results.  The value is copied, but it is not sign extended
3536   (as is done with movea.w) and the top three bytes in the address
3537   register are not disturbed.  I don't know if this is the intended
3538   behavior --- it could be a hole in instruction decoding (Motorola
3539   decided not to trap all invalid instructions for performance reasons)
3540   --- but I suspect that it is not.
3541
3542   I reported this to Motorola ISD Technical Communications Support,
3543   which replied that other coldfire assemblers reject movea.b.  For
3544   this reason I've decided to not allow moveab.
3545
3546        jtc@cygnus.com - 97/01/24.  */
3547
3548{"moveal", 2,   one(0020100),   one(0170700), "*lAd", m68000up | mcfisa_a },
3549{"moveaw", 2,   one(0030100),   one(0170700), "*wAd", m68000up | mcfisa_a },
3550
3551{"movclrl", 2,  one(0xA1C0),    one(0xf9f0), "eFRs", mcfemac },
3552
3553{"movec", 4,    one(0047173),   one(0177777), "R1Jj", m68010up | mcfisa_a },
3554{"movec", 4,    one(0047173),   one(0177777), "R1#j", m68010up | mcfisa_a },
3555{"movec", 4,    one(0047172),   one(0177777), "JjR1", m68010up },
3556{"movec", 4,    one(0047172),   one(0177777), "#jR1", m68010up },
3557
3558{"movemw", 4,   one(0044200),   one(0177700), "Lw&s", m68000up },
3559{"movemw", 4,   one(0044240),   one(0177770), "lw-s", m68000up },
3560{"movemw", 4,   one(0044200),   one(0177700), "#w>s", m68000up },
3561{"movemw", 4,   one(0046200),   one(0177700), "<sLw", m68000up },
3562{"movemw", 4,   one(0046200),   one(0177700), "<s#w", m68000up },
3563{"moveml", 4,   one(0044300),   one(0177700), "Lw&s", m68000up },
3564{"moveml", 4,   one(0044340),   one(0177770), "lw-s", m68000up },
3565{"moveml", 4,   one(0044300),   one(0177700), "#w>s", m68000up },
3566{"moveml", 4,   one(0046300),   one(0177700), "<sLw", m68000up },
3567{"moveml", 4,   one(0046300),   one(0177700), "<s#w", m68000up },
3568/* FIXME: need specifier for mode 2 and 5 to simplify below insn patterns.  */
3569{"moveml", 4,   one(0044320),   one(0177770), "Lwas", mcfisa_a },
3570{"moveml", 4,   one(0044320),   one(0177770), "#was", mcfisa_a },
3571{"moveml", 4,   one(0044350),   one(0177770), "Lwds", mcfisa_a },
3572{"moveml", 4,   one(0044350),   one(0177770), "#wds", mcfisa_a },
3573{"moveml", 4,   one(0046320),   one(0177770), "asLw", mcfisa_a },
3574{"moveml", 4,   one(0046320),   one(0177770), "as#w", mcfisa_a },
3575{"moveml", 4,   one(0046350),   one(0177770), "dsLw", mcfisa_a },
3576{"moveml", 4,   one(0046350),   one(0177770), "ds#w", mcfisa_a },
3577
3578{"movepw", 2,   one(0000410),   one(0170770), "dsDd", m68000up },
3579{"movepw", 2,   one(0000610),   one(0170770), "Ddds", m68000up },
3580{"movepl", 2,   one(0000510),   one(0170770), "dsDd", m68000up },
3581{"movepl", 2,   one(0000710),   one(0170770), "Ddds", m68000up },
3582
3583{"moveq", 2,    one(0070000),   one(0170400), "MsDd", m68000up | mcfisa_a },
3584{"moveq", 2,    one(0070000),   one(0170400), "#BDd", m68000up | mcfisa_a },
3585
3586/* The move opcode can generate the movea and moveq instructions.  */
3587{"moveb", 2,    one(0010000),   one(0170000), ";b$d", m68000up },
3588{"moveb", 2,    one(0010000),   one(0170070), "Ds$d", mcfisa_a },
3589{"moveb", 2,    one(0010020),   one(0170070), "as$d", mcfisa_a },
3590{"moveb", 2,    one(0010030),   one(0170070), "+s$d", mcfisa_a },
3591{"moveb", 2,    one(0010040),   one(0170070), "-s$d", mcfisa_a },
3592{"moveb", 2,    one(0010000),   one(0170000), "nsqd", mcfisa_a },
3593{"moveb", 2,    one(0010000),   one(0170700), "obDd", mcfisa_a },
3594{"moveb", 2,    one(0010200),   one(0170700), "obad", mcfisa_a },
3595{"moveb", 2,    one(0010300),   one(0170700), "ob+d", mcfisa_a },
3596{"moveb", 2,    one(0010400),   one(0170700), "ob-d", mcfisa_a },
3597{"moveb", 2,    one(0010000),   one(0170000), "obnd", mcfisa_b },
3598
3599{"movew", 2,    one(0030000),   one(0170000), "*w%d", m68000up },
3600{"movew", 2,    one(0030000),   one(0170000), "ms%d", mcfisa_a },
3601{"movew", 2,    one(0030000),   one(0170000), "nspd", mcfisa_a },
3602{"movew", 2,    one(0030000),   one(0170000), "owmd", mcfisa_a },
3603{"movew", 2,    one(0030000),   one(0170000), "ownd", mcfisa_b },
3604{"movew", 2,    one(0040300),   one(0177700), "Ss$s", m68000up },
3605{"movew", 2,    one(0040300),   one(0177770), "SsDs", mcfisa_a },
3606{"movew", 2,    one(0041300),   one(0177700), "Cs$s", m68010up },
3607{"movew", 2,    one(0041300),   one(0177770), "CsDs", mcfisa_a },
3608{"movew", 2,    one(0042300),   one(0177700), ";wCd", m68000up },
3609{"movew", 2,    one(0042300),   one(0177700), "DsCd", mcfisa_a },
3610{"movew", 4,    one(0042374),   one(0177777), "#wCd", mcfisa_a },
3611{"movew", 2,    one(0043300),   one(0177700), ";wSd", m68000up },
3612{"movew", 2,    one(0043300),   one(0177700), "DsSd", mcfisa_a },
3613{"movew", 4,    one(0043374),   one(0177777), "#wSd", mcfisa_a },
3614
3615{"movel", 2,    one(0070000),   one(0170400), "MsDd", m68000up | mcfisa_a },
3616{"movel", 2,    one(0020000),   one(0170000), "*l%d", m68000up },
3617{"movel", 2,    one(0020000),   one(0170000), "ms%d", mcfisa_a },
3618{"movel", 2,    one(0020000),   one(0170000), "nspd", mcfisa_a },
3619{"movel", 2,    one(0020000),   one(0170000), "olmd", mcfisa_a },
3620{"movel", 2,    one(0020000),   one(0170000), "olnd", mcfisa_b },
3621{"movel", 2,    one(0047140),   one(0177770), "AsUd", m68000up | mcfusp },
3622{"movel", 2,    one(0047150),   one(0177770), "UdAs", m68000up | mcfusp },
3623{"movel", 2,    one(0120600),   one(0177760), "EsRs", mcfmac },
3624{"movel", 2,    one(0120400),   one(0177760), "RsEs", mcfmac },
3625{"movel", 6,    one(0120474),   one(0177777), "#lEs", mcfmac },
3626{"movel", 2,    one(0124600),   one(0177760), "GsRs", mcfmac },
3627{"movel", 2,    one(0124400),   one(0177760), "RsGs", mcfmac },
3628{"movel", 6,    one(0124474),   one(0177777), "#lGs", mcfmac },
3629{"movel", 2,    one(0126600),   one(0177760), "HsRs", mcfmac },
3630{"movel", 2,    one(0126400),   one(0177760), "RsHs", mcfmac },
3631{"movel", 6,    one(0126474),   one(0177777), "#lHs", mcfmac },
3632{"movel", 2,    one(0124700),   one(0177777), "GsCs", mcfmac },
3633
3634{"movel", 2,    one(0xa180),    one(0xf9f0), "eFRs", mcfemac }, /* ACCx,Rx.  */
3635{"movel", 2,    one(0xab80),    one(0xfbf0), "g]Rs", mcfemac }, /* ACCEXTx,Rx.  */
3636{"movel", 2,    one(0xa980),    one(0xfff0), "G-Rs", mcfemac }, /* macsr,Rx.  */
3637{"movel", 2,    one(0xad80),    one(0xfff0), "H-Rs", mcfemac }, /* mask,Rx.  */
3638{"movel", 2,    one(0xa110),    one(0xf9fc), "efeF", mcfemac }, /* ACCy,ACCx.  */
3639{"movel", 2,    one(0xa9c0),    one(0xffff), "G-C-", mcfemac }, /* macsr,ccr.  */
3640{"movel", 2,    one(0xa100),    one(0xf9f0), "RseF", mcfemac }, /* Rx,ACCx.  */
3641{"movel", 6,    one(0xa13c),    one(0xf9ff), "#leF", mcfemac }, /* #,ACCx.  */
3642{"movel", 2,    one(0xab00),    one(0xfbc0), "Rsg]", mcfemac }, /* Rx,ACCEXTx.  */
3643{"movel", 6,    one(0xab3c),    one(0xfbff), "#lg]", mcfemac }, /* #,ACCEXTx.  */
3644{"movel", 2,    one(0xa900),    one(0xffc0), "RsG-", mcfemac }, /* Rx,macsr.  */
3645{"movel", 6,    one(0xa93c),    one(0xffff), "#lG-", mcfemac }, /* #,macsr.  */
3646{"movel", 2,    one(0xad00),    one(0xffc0), "RsH-", mcfemac }, /* Rx,mask.  */
3647{"movel", 6,    one(0xad3c),    one(0xffff), "#lH-", mcfemac }, /* #,mask.  */
3648
3649{"move", 2,     one(0030000),   one(0170000), "*w%d", m68000up },
3650{"move", 2,     one(0030000),   one(0170000), "ms%d", mcfisa_a },
3651{"move", 2,     one(0030000),   one(0170000), "nspd", mcfisa_a },
3652{"move", 2,     one(0030000),   one(0170000), "owmd", mcfisa_a },
3653{"move", 2,     one(0030000),   one(0170000), "ownd", mcfisa_b },
3654{"move", 2,     one(0040300),   one(0177700), "Ss$s", m68000up },
3655{"move", 2,     one(0040300),   one(0177770), "SsDs", mcfisa_a },
3656{"move", 2,     one(0041300),   one(0177700), "Cs$s", m68010up },
3657{"move", 2,     one(0041300),   one(0177770), "CsDs", mcfisa_a },
3658{"move", 2,     one(0042300),   one(0177700), ";wCd", m68000up },
3659{"move", 2,     one(0042300),   one(0177700), "DsCd", mcfisa_a },
3660{"move", 4,     one(0042374),   one(0177777), "#wCd", mcfisa_a },
3661{"move", 2,     one(0043300),   one(0177700), ";wSd", m68000up },
3662{"move", 2,     one(0043300),   one(0177700), "DsSd", mcfisa_a },
3663{"move", 4,     one(0043374),   one(0177777), "#wSd", mcfisa_a },
3664
3665{"move", 2,     one(0047140),   one(0177770), "AsUd", m68000up },
3666{"move", 2,     one(0047150),   one(0177770), "UdAs", m68000up },
3667
3668{"mov3ql", 2,   one(0120500),   one(0170700), "xd%s", mcfisa_b },
3669{"mvsb", 2,     one(0070400),   one(0170700), "*bDd", mcfisa_b },
3670{"mvsw", 2,     one(0070500),   one(0170700), "*wDd", mcfisa_b },
3671{"mvzb", 2,     one(0070600),   one(0170700), "*bDd", mcfisa_b },
3672{"mvzw", 2,     one(0070700),   one(0170700), "*wDd", mcfisa_b },
3673
3674{"movesb", 4,   two(0007000, 0),     two(0177700, 07777), "~sR1", m68010up },
3675{"movesb", 4,   two(0007000, 04000), two(0177700, 07777), "R1~s", m68010up },
3676{"movesw", 4,   two(0007100, 0),     two(0177700, 07777), "~sR1", m68010up },
3677{"movesw", 4,   two(0007100, 04000), two(0177700, 07777), "R1~s", m68010up },
3678{"movesl", 4,   two(0007200, 0),     two(0177700, 07777), "~sR1", m68010up },
3679{"movesl", 4,   two(0007200, 04000), two(0177700, 07777), "R1~s", m68010up },
3680
3681{"move16", 4,   two(0xf620, 0x8000), two(0xfff8, 0x8fff), "+s+1", m68040up },
3682{"move16", 2,   one(0xf600),            one(0xfff8), "+s_L", m68040up },
3683{"move16", 2,   one(0xf608),            one(0xfff8), "_L+s", m68040up },
3684{"move16", 2,   one(0xf610),            one(0xfff8), "as_L", m68040up },
3685{"move16", 2,   one(0xf618),            one(0xfff8), "_Las", m68040up },
3686
3687{"msacw", 4,    two(0xa080, 0x0100), two(0xf180, 0x0910), "uNuoiI4/Rn", mcfmac },
3688{"msacw", 4,    two(0xa080, 0x0300), two(0xf180, 0x0910), "uNuoMh4/Rn", mcfmac },
3689{"msacw", 4,    two(0xa080, 0x0100), two(0xf180, 0x0f10), "uNuo4/Rn", mcfmac },
3690{"msacw", 4,    two(0xa000, 0x0100), two(0xf1b0, 0x0900), "uMumiI", mcfmac },
3691{"msacw", 4,    two(0xa000, 0x0300), two(0xf1b0, 0x0900), "uMumMh", mcfmac },
3692{"msacw", 4,    two(0xa000, 0x0100), two(0xf1b0, 0x0f00), "uMum", mcfmac },
3693
3694{"msacw", 4,    two(0xa000, 0x0100), two(0xf100, 0x0900), "uMumiI4/RneG", mcfemac },/* Ry,Rx,SF,<ea>,accX.  */
3695{"msacw", 4,    two(0xa000, 0x0300), two(0xf100, 0x0900), "uMumMh4/RneG", mcfemac },/* Ry,Rx,+1/-1,<ea>,accX.  */
3696{"msacw", 4,    two(0xa000, 0x0100), two(0xf100, 0x0f00), "uMum4/RneG", mcfemac },/* Ry,Rx,<ea>,accX.  */
3697{"msacw", 4,    two(0xa000, 0x0100), two(0xf130, 0x0900), "uMumiIeH", mcfemac },/* Ry,Rx,SF,accX.  */
3698{"msacw", 4,    two(0xa000, 0x0300), two(0xf130, 0x0900), "uMumMheH", mcfemac },/* Ry,Rx,+1/-1,accX.  */
3699{"msacw", 4,    two(0xa000, 0x0100), two(0xf130, 0x0f00), "uMumeH", mcfemac }, /* Ry,Rx,accX.  */
3700
3701{"msacl", 4,    two(0xa080, 0x0900), two(0xf180, 0x0910), "RNRoiI4/Rn", mcfmac },
3702{"msacl", 4,    two(0xa080, 0x0b00), two(0xf180, 0x0910), "RNRoMh4/Rn", mcfmac },
3703{"msacl", 4,    two(0xa080, 0x0900), two(0xf180, 0x0f10), "RNRo4/Rn", mcfmac },
3704{"msacl", 4,    two(0xa000, 0x0900), two(0xf1b0, 0x0b00), "RMRmiI", mcfmac },
3705{"msacl", 4,    two(0xa000, 0x0b00), two(0xf1b0, 0x0b00), "RMRmMh", mcfmac },
3706{"msacl", 4,    two(0xa000, 0x0900), two(0xf1b0, 0x0800), "RMRm", mcfmac },
3707
3708{"msacl", 4,    two(0xa000, 0x0900), two(0xf100, 0x0900), "R3R1iI4/RneG", mcfemac },
3709{"msacl", 4,    two(0xa000, 0x0b00), two(0xf100, 0x0900), "R3R1Mh4/RneG", mcfemac },
3710{"msacl", 4,    two(0xa000, 0x0900), two(0xf100, 0x0f00), "R3R14/RneG", mcfemac },
3711{"msacl", 4,    two(0xa000, 0x0900), two(0xf130, 0x0900), "RMRmiIeH", mcfemac },
3712{"msacl", 4,    two(0xa000, 0x0b00), two(0xf130, 0x0900), "RMRmMheH", mcfemac },
3713{"msacl", 4,    two(0xa000, 0x0900), two(0xf130, 0x0f00), "RMRmeH", mcfemac },
3714
3715{"mulsw", 2,    one(0140700),           one(0170700), ";wDd", m68000up|mcfisa_a },
3716{"mulsl", 4,    two(0046000,004000), two(0177700,0107770), ";lD1", m68020up|cpu32 },
3717{"mulsl", 4,    two(0046000,004000), two(0177700,0107770), "qsD1", mcfisa_a },
3718{"mulsl", 4,    two(0046000,006000), two(0177700,0107770), ";lD3D1",m68020up|cpu32 },
3719
3720{"muluw", 2,    one(0140300),           one(0170700), ";wDd", m68000up|mcfisa_a },
3721{"mulul", 4,    two(0046000,000000), two(0177700,0107770), ";lD1", m68020up|cpu32 },
3722{"mulul", 4,    two(0046000,000000), two(0177700,0107770), "qsD1", mcfisa_a },
3723{"mulul", 4,    two(0046000,002000), two(0177700,0107770), ";lD3D1",m68020up|cpu32 },
3724
3725{"nbcd", 2,     one(0044000),   one(0177700), "$s", m68000up },
3726
3727{"negb", 2,     one(0042000),   one(0177700), "$s", m68000up },
3728{"negw", 2,     one(0042100),   one(0177700), "$s", m68000up },
3729{"negl", 2,     one(0042200),   one(0177700), "$s", m68000up },
3730{"negl", 2,     one(0042200),   one(0177700), "Ds", mcfisa_a},
3731
3732{"negxb", 2,    one(0040000),   one(0177700), "$s", m68000up },
3733{"negxw", 2,    one(0040100),   one(0177700), "$s", m68000up },
3734{"negxl", 2,    one(0040200),   one(0177700), "$s", m68000up },
3735{"negxl", 2,    one(0040200),   one(0177700), "Ds", mcfisa_a},
3736
3737{"nop", 2,      one(0047161),   one(0177777), "", m68000up | mcfisa_a},
3738
3739{"notb", 2,     one(0043000),   one(0177700), "$s", m68000up },
3740{"notw", 2,     one(0043100),   one(0177700), "$s", m68000up },
3741{"notl", 2,     one(0043200),   one(0177700), "$s", m68000up },
3742{"notl", 2,     one(0043200),   one(0177700), "Ds", mcfisa_a},
3743
3744{"orib", 4,     one(0000000),   one(0177700), "#b$s", m68000up },
3745{"orib", 4,     one(0000074),   one(0177777), "#bCs", m68000up },
3746{"oriw", 4,     one(0000100),   one(0177700), "#w$s", m68000up },
3747{"oriw", 4,     one(0000174),   one(0177777), "#wSs", m68000up },
3748{"oril", 6,     one(0000200),   one(0177700), "#l$s", m68000up },
3749{"oril", 6,     one(0000200),   one(0177700), "#lDs", mcfisa_a },
3750{"ori", 4,      one(0000074),   one(0177777), "#bCs", m68000up },
3751{"ori", 4,      one(0000100),   one(0177700), "#w$s", m68000up },
3752{"ori", 4,      one(0000174),   one(0177777), "#wSs", m68000up },
3753
3754/* The or opcode can generate the ori instruction.  */
3755{"orb", 4,      one(0000000),   one(0177700), "#b$s", m68000up },
3756{"orb", 4,      one(0000074),   one(0177777), "#bCs", m68000up },
3757{"orb", 2,      one(0100000),   one(0170700), ";bDd", m68000up },
3758{"orb", 2,      one(0100400),   one(0170700), "Dd~s", m68000up },
3759{"orw", 4,      one(0000100),   one(0177700), "#w$s", m68000up },
3760{"orw", 4,      one(0000174),   one(0177777), "#wSs", m68000up },
3761{"orw", 2,      one(0100100),   one(0170700), ";wDd", m68000up },
3762{"orw", 2,      one(0100500),   one(0170700), "Dd~s", m68000up },
3763{"orl", 6,      one(0000200),   one(0177700), "#l$s", m68000up },
3764{"orl", 6,      one(0000200),   one(0177700), "#lDs", mcfisa_a },
3765{"orl", 2,      one(0100200),   one(0170700), ";lDd", m68000up | mcfisa_a },
3766{"orl", 2,      one(0100600),   one(0170700), "Dd~s", m68000up | mcfisa_a },
3767{"or", 4,       one(0000074),   one(0177777), "#bCs", m68000up },
3768{"or", 4,       one(0000100),   one(0177700), "#w$s", m68000up },
3769{"or", 4,       one(0000174),   one(0177777), "#wSs", m68000up },
3770{"or", 2,       one(0100100),   one(0170700), ";wDd", m68000up },
3771{"or", 2,       one(0100500),   one(0170700), "Dd~s", m68000up },
3772
3773{"pack", 4,     one(0100500),   one(0170770), "DsDd#w", m68020up },
3774{"pack", 4,     one(0100510),   one(0170770), "-s-d#w", m68020up },
3775
3776{"pbac", 2,     one(0xf087),    one(0xffbf), "Bc", m68851 },
3777{"pbacw", 2,    one(0xf087),    one(0xffff), "BW", m68851 },
3778{"pbas", 2,     one(0xf086),    one(0xffbf), "Bc", m68851 },
3779{"pbasw", 2,    one(0xf086),    one(0xffff), "BW", m68851 },
3780{"pbbc", 2,     one(0xf081),    one(0xffbf), "Bc", m68851 },
3781{"pbbcw", 2,    one(0xf081),    one(0xffff), "BW", m68851 },
3782{"pbbs", 2,     one(0xf080),    one(0xffbf), "Bc", m68851 },
3783{"pbbsw", 2,    one(0xf080),    one(0xffff), "BW", m68851 },
3784{"pbcc", 2,     one(0xf08f),    one(0xffbf), "Bc", m68851 },
3785{"pbccw", 2,    one(0xf08f),    one(0xffff), "BW", m68851 },
3786{"pbcs", 2,     one(0xf08e),    one(0xffbf), "Bc", m68851 },
3787{"pbcsw", 2,    one(0xf08e),    one(0xffff), "BW", m68851 },
3788{"pbgc", 2,     one(0xf08d),    one(0xffbf), "Bc", m68851 },
3789{"pbgcw", 2,    one(0xf08d),    one(0xffff), "BW", m68851 },
3790{"pbgs", 2,     one(0xf08c),    one(0xffbf), "Bc", m68851 },
3791{"pbgsw", 2,    one(0xf08c),    one(0xffff), "BW", m68851 },
3792{"pbic", 2,     one(0xf08b),    one(0xffbf), "Bc", m68851 },
3793{"pbicw", 2,    one(0xf08b),    one(0xffff), "BW", m68851 },
3794{"pbis", 2,     one(0xf08a),    one(0xffbf), "Bc", m68851 },
3795{"pbisw", 2,    one(0xf08a),    one(0xffff), "BW", m68851 },
3796{"pblc", 2,     one(0xf083),    one(0xffbf), "Bc", m68851 },
3797{"pblcw", 2,    one(0xf083),    one(0xffff), "BW", m68851 },
3798{"pbls", 2,     one(0xf082),    one(0xffbf), "Bc", m68851 },
3799{"pblsw", 2,    one(0xf082),    one(0xffff), "BW", m68851 },
3800{"pbsc", 2,     one(0xf085),    one(0xffbf), "Bc", m68851 },
3801{"pbscw", 2,    one(0xf085),    one(0xffff), "BW", m68851 },
3802{"pbss", 2,     one(0xf084),    one(0xffbf), "Bc", m68851 },
3803{"pbssw", 2,    one(0xf084),    one(0xffff), "BW", m68851 },
3804{"pbwc", 2,     one(0xf089),    one(0xffbf), "Bc", m68851 },
3805{"pbwcw", 2,    one(0xf089),    one(0xffff), "BW", m68851 },
3806{"pbws", 2,     one(0xf088),    one(0xffbf), "Bc", m68851 },
3807{"pbwsw", 2,    one(0xf088),    one(0xffff), "BW", m68851 },
3808
3809{"pdbac", 4,    two(0xf048, 0x0007),    two(0xfff8, 0xffff), "DsBw", m68851 },
3810{"pdbas", 4,    two(0xf048, 0x0006),    two(0xfff8, 0xffff), "DsBw", m68851 },
3811{"pdbbc", 4,    two(0xf048, 0x0001),    two(0xfff8, 0xffff), "DsBw", m68851 },
3812{"pdbbs", 4,    two(0xf048, 0x0000),    two(0xfff8, 0xffff), "DsBw", m68851 },
3813{"pdbcc", 4,    two(0xf048, 0x000f),    two(0xfff8, 0xffff), "DsBw", m68851 },
3814{"pdbcs", 4,    two(0xf048, 0x000e),    two(0xfff8, 0xffff), "DsBw", m68851 },
3815{"pdbgc", 4,    two(0xf048, 0x000d),    two(0xfff8, 0xffff), "DsBw", m68851 },
3816{"pdbgs", 4,    two(0xf048, 0x000c),    two(0xfff8, 0xffff), "DsBw", m68851 },
3817{"pdbic", 4,    two(0xf048, 0x000b),    two(0xfff8, 0xffff), "DsBw", m68851 },
3818{"pdbis", 4,    two(0xf048, 0x000a),    two(0xfff8, 0xffff), "DsBw", m68851 },
3819{"pdblc", 4,    two(0xf048, 0x0003),    two(0xfff8, 0xffff), "DsBw", m68851 },
3820{"pdbls", 4,    two(0xf048, 0x0002),    two(0xfff8, 0xffff), "DsBw", m68851 },
3821{"pdbsc", 4,    two(0xf048, 0x0005),    two(0xfff8, 0xffff), "DsBw", m68851 },
3822{"pdbss", 4,    two(0xf048, 0x0004),    two(0xfff8, 0xffff), "DsBw", m68851 },
3823{"pdbwc", 4,    two(0xf048, 0x0009),    two(0xfff8, 0xffff), "DsBw", m68851 },
3824{"pdbws", 4,    two(0xf048, 0x0008),    two(0xfff8, 0xffff), "DsBw", m68851 },
3825
3826{"pea", 2,      one(0044100),           one(0177700), "!s", m68000up|mcfisa_a },
3827
3828{"pflusha", 2,  one(0xf518),            one(0xfff8), "", m68040up },
3829{"pflusha", 4,  two(0xf000,0x2400), two(0xffff,0xffff), "", m68030 | m68851 },
3830
3831{"pflush", 4,   two(0xf000,0x3010), two(0xffc0,0xfe10), "T3T9", m68030|m68851 },
3832{"pflush", 4,   two(0xf000,0x3810), two(0xffc0,0xfe10), "T3T9&s", m68030|m68851 },
3833{"pflush", 4,   two(0xf000,0x3008), two(0xffc0,0xfe18), "D3T9", m68030|m68851 },
3834{"pflush", 4,   two(0xf000,0x3808), two(0xffc0,0xfe18), "D3T9&s", m68030|m68851 },
3835{"pflush", 4,   two(0xf000,0x3000), two(0xffc0,0xfe1e), "f3T9", m68030|m68851 },
3836{"pflush", 4,   two(0xf000,0x3800), two(0xffc0,0xfe1e), "f3T9&s", m68030|m68851 },
3837{"pflush", 2,   one(0xf508),            one(0xfff8), "as", m68040up },
3838{"pflush", 2,   one(0xf508),            one(0xfff8), "As", m68040up },
3839
3840{"pflushan", 2, one(0xf510),            one(0xfff8), "", m68040up },
3841{"pflushn", 2,  one(0xf500),            one(0xfff8), "as", m68040up },
3842{"pflushn", 2,  one(0xf500),            one(0xfff8), "As", m68040up },
3843
3844{"pflushr", 4,  two(0xf000, 0xa000), two(0xffc0, 0xffff), "|s", m68851 },
3845
3846{"pflushs", 4,  two(0xf000, 0x3410), two(0xfff8, 0xfe10), "T3T9", m68851 },
3847{"pflushs", 4,  two(0xf000, 0x3c10), two(0xfff8, 0xfe10), "T3T9&s", m68851 },
3848{"pflushs", 4,  two(0xf000, 0x3408), two(0xfff8, 0xfe18), "D3T9", m68851 },
3849{"pflushs", 4,  two(0xf000, 0x3c08), two(0xfff8, 0xfe18), "D3T9&s", m68851 },
3850{"pflushs", 4,  two(0xf000, 0x3400), two(0xfff8, 0xfe1e), "f3T9", m68851 },
3851{"pflushs", 4,  two(0xf000, 0x3c00), two(0xfff8, 0xfe1e), "f3T9&s", m68851 },
3852
3853{"ploadr", 4,   two(0xf000,0x2210), two(0xffc0,0xfff0), "T3&s", m68030|m68851 },
3854{"ploadr", 4,   two(0xf000,0x2208), two(0xffc0,0xfff8), "D3&s", m68030|m68851 },
3855{"ploadr", 4,   two(0xf000,0x2200), two(0xffc0,0xfffe), "f3&s", m68030|m68851 },
3856{"ploadw", 4,   two(0xf000,0x2010), two(0xffc0,0xfff0), "T3&s", m68030|m68851 },
3857{"ploadw", 4,   two(0xf000,0x2008), two(0xffc0,0xfff8), "D3&s", m68030|m68851 },
3858{"ploadw", 4,   two(0xf000,0x2000), two(0xffc0,0xfffe), "f3&s", m68030|m68851 },
3859
3860{"plpar", 2,    one(0xf5c8),            one(0xfff8), "as", m68060 },
3861{"plpaw", 2,    one(0xf588),            one(0xfff8), "as", m68060 },
3862
3863{"pmove", 4,    two(0xf000,0x4000), two(0xffc0,0xffff), "*l08", m68030|m68851 },
3864{"pmove", 4,    two(0xf000,0x5c00), two(0xffc0,0xffff), "*w18", m68851 },
3865{"pmove", 4,    two(0xf000,0x4000), two(0xffc0,0xe3ff), "*b28", m68851 },
3866{"pmove", 4,    two(0xf000,0x4200), two(0xffc0,0xffff), "08%s", m68030|m68851 },
3867{"pmove", 4,    two(0xf000,0x5e00), two(0xffc0,0xffff), "18%s", m68851 },
3868{"pmove", 4,    two(0xf000,0x4200), two(0xffc0,0xe3ff), "28%s", m68851 },
3869{"pmove", 4,    two(0xf000,0x4000), two(0xffc0,0xe3ff), "|sW8", m68030|m68851 },
3870{"pmove", 4,    two(0xf000,0x4200), two(0xffc0,0xe3ff), "W8~s", m68030|m68851 },
3871{"pmove", 4,    two(0xf000,0x6200), two(0xffc0,0xe3e3), "*wX3", m68851 },
3872{"pmove", 4,    two(0xf000,0x6000), two(0xffc0,0xe3e3), "X3%s", m68851 },
3873{"pmove", 4,    two(0xf000,0x6000), two(0xffc0,0xffff), "*wY8", m68030|m68851 },
3874{"pmove", 4,    two(0xf000,0x6200), two(0xffc0,0xffff), "Y8%s", m68030|m68851 },
3875{"pmove", 4,    two(0xf000,0x6600), two(0xffc0,0xffff), "Z8%s", m68851 },
3876{"pmove", 4,    two(0xf000,0x0800), two(0xffc0,0xfbff), "*l38", m68030 },
3877{"pmove", 4,    two(0xf000,0x0a00), two(0xffc0,0xfbff), "38%s", m68030 },
3878
3879{"pmovefd", 4,  two(0xf000, 0x4100),    two(0xffc0, 0xe3ff), "*l08", m68030 },
3880{"pmovefd", 4,  two(0xf000, 0x4100),    two(0xffc0, 0xe3ff), "|sW8", m68030 },
3881{"pmovefd", 4,  two(0xf000, 0x0900),    two(0xffc0, 0xfbff), "*l38", m68030 },
3882
3883{"prestore", 2, one(0xf140),            one(0xffc0), "<s", m68851 },
3884
3885{"psave", 2,    one(0xf100),            one(0xffc0), ">s", m68851 },
3886
3887{"psac", 4,     two(0xf040, 0x0007),    two(0xffc0, 0xffff), "$s", m68851 },
3888{"psas", 4,     two(0xf040, 0x0006),    two(0xffc0, 0xffff), "$s", m68851 },
3889{"psbc", 4,     two(0xf040, 0x0001),    two(0xffc0, 0xffff), "$s", m68851 },
3890{"psbs", 4,     two(0xf040, 0x0000),    two(0xffc0, 0xffff), "$s", m68851 },
3891{"pscc", 4,     two(0xf040, 0x000f),    two(0xffc0, 0xffff), "$s", m68851 },
3892{"pscs", 4,     two(0xf040, 0x000e),    two(0xffc0, 0xffff), "$s", m68851 },
3893{"psgc", 4,     two(0xf040, 0x000d),    two(0xffc0, 0xffff), "$s", m68851 },
3894{"psgs", 4,     two(0xf040, 0x000c),    two(0xffc0, 0xffff), "$s", m68851 },
3895{"psic", 4,     two(0xf040, 0x000b),    two(0xffc0, 0xffff), "$s", m68851 },
3896{"psis", 4,     two(0xf040, 0x000a),    two(0xffc0, 0xffff), "$s", m68851 },
3897{"pslc", 4,     two(0xf040, 0x0003),    two(0xffc0, 0xffff), "$s", m68851 },
3898{"psls", 4,     two(0xf040, 0x0002),    two(0xffc0, 0xffff), "$s", m68851 },
3899{"pssc", 4,     two(0xf040, 0x0005),    two(0xffc0, 0xffff), "$s", m68851 },
3900{"psss", 4,     two(0xf040, 0x0004),    two(0xffc0, 0xffff), "$s", m68851 },
3901{"pswc", 4,     two(0xf040, 0x0009),    two(0xffc0, 0xffff), "$s", m68851 },
3902{"psws", 4,     two(0xf040, 0x0008),    two(0xffc0, 0xffff), "$s", m68851 },
3903
3904{"ptestr", 4,   two(0xf000,0x8210), two(0xffc0, 0xe3f0), "T3&st8", m68030|m68851 },
3905{"ptestr", 4,   two(0xf000,0x8310), two(0xffc0,0xe310), "T3&st8A9", m68030|m68851 },
3906{"ptestr", 4,   two(0xf000,0x8208), two(0xffc0,0xe3f8), "D3&st8", m68030|m68851 },
3907{"ptestr", 4,   two(0xf000,0x8308), two(0xffc0,0xe318), "D3&st8A9", m68030|m68851 },
3908{"ptestr", 4,   two(0xf000,0x8200), two(0xffc0,0xe3fe), "f3&st8", m68030|m68851 },
3909{"ptestr", 4,   two(0xf000,0x8300), two(0xffc0,0xe31e), "f3&st8A9", m68030|m68851 },
3910{"ptestr", 2,   one(0xf568),            one(0xfff8), "as", m68040 },
3911
3912{"ptestw", 4,   two(0xf000,0x8010), two(0xffc0,0xe3f0), "T3&st8", m68030|m68851 },
3913{"ptestw", 4,   two(0xf000,0x8110), two(0xffc0,0xe310), "T3&st8A9", m68030|m68851 },
3914{"ptestw", 4,   two(0xf000,0x8008), two(0xffc0,0xe3f8), "D3&st8", m68030|m68851 },
3915{"ptestw", 4,   two(0xf000,0x8108), two(0xffc0,0xe318), "D3&st8A9", m68030|m68851 },
3916{"ptestw", 4,   two(0xf000,0x8000), two(0xffc0,0xe3fe), "f3&st8", m68030|m68851 },
3917{"ptestw", 4,   two(0xf000,0x8100), two(0xffc0,0xe31e), "f3&st8A9", m68030|m68851 },
3918{"ptestw", 2,   one(0xf548),            one(0xfff8), "as", m68040 },
3919
3920{"ptrapacw", 6, two(0xf07a, 0x0007),    two(0xffff, 0xffff), "#w", m68851 },
3921{"ptrapacl", 6, two(0xf07b, 0x0007),    two(0xffff, 0xffff), "#l", m68851 },
3922{"ptrapac", 4,  two(0xf07c, 0x0007),    two(0xffff, 0xffff), "",   m68851 },
3923
3924{"ptrapasw", 6, two(0xf07a, 0x0006),    two(0xffff, 0xffff), "#w", m68851 },
3925{"ptrapasl", 6, two(0xf07b, 0x0006),    two(0xffff, 0xffff), "#l", m68851 },
3926{"ptrapas", 4,  two(0xf07c, 0x0006),    two(0xffff, 0xffff), "",   m68851 },
3927
3928{"ptrapbcw", 6, two(0xf07a, 0x0001),    two(0xffff, 0xffff), "#w", m68851 },
3929{"ptrapbcl", 6, two(0xf07b, 0x0001),    two(0xffff, 0xffff), "#l", m68851 },
3930{"ptrapbc", 4,  two(0xf07c, 0x0001),    two(0xffff, 0xffff), "",   m68851 },
3931
3932{"ptrapbsw", 6, two(0xf07a, 0x0000),    two(0xffff, 0xffff), "#w", m68851 },
3933{"ptrapbsl", 6, two(0xf07b, 0x0000),    two(0xffff, 0xffff), "#l", m68851 },
3934{"ptrapbs", 4,  two(0xf07c, 0x0000),    two(0xffff, 0xffff), "",   m68851 },
3935
3936{"ptrapccw", 6, two(0xf07a, 0x000f),    two(0xffff, 0xffff), "#w", m68851 },
3937{"ptrapccl", 6, two(0xf07b, 0x000f),    two(0xffff, 0xffff), "#l", m68851 },
3938{"ptrapcc", 4,  two(0xf07c, 0x000f),    two(0xffff, 0xffff), "",   m68851 },
3939
3940{"ptrapcsw", 6, two(0xf07a, 0x000e),    two(0xffff, 0xffff), "#w", m68851 },
3941{"ptrapcsl", 6, two(0xf07b, 0x000e),    two(0xffff, 0xffff), "#l", m68851 },
3942{"ptrapcs", 4,  two(0xf07c, 0x000e),    two(0xffff, 0xffff), "",   m68851 },
3943
3944{"ptrapgcw", 6, two(0xf07a, 0x000d),    two(0xffff, 0xffff), "#w", m68851 },
3945{"ptrapgcl", 6, two(0xf07b, 0x000d),    two(0xffff, 0xffff), "#l", m68851 },
3946{"ptrapgc", 4,  two(0xf07c, 0x000d),    two(0xffff, 0xffff), "",   m68851 },
3947
3948{"ptrapgsw", 6, two(0xf07a, 0x000c),    two(0xffff, 0xffff), "#w", m68851 },
3949{"ptrapgsl", 6, two(0xf07b, 0x000c),    two(0xffff, 0xffff), "#l", m68851 },
3950{"ptrapgs", 4,  two(0xf07c, 0x000c),    two(0xffff, 0xffff), "",   m68851 },
3951
3952{"ptrapicw", 6, two(0xf07a, 0x000b),    two(0xffff, 0xffff), "#w", m68851 },
3953{"ptrapicl", 6, two(0xf07b, 0x000b),    two(0xffff, 0xffff), "#l", m68851 },
3954{"ptrapic", 4,  two(0xf07c, 0x000b),    two(0xffff, 0xffff), "",   m68851 },
3955
3956{"ptrapisw", 6, two(0xf07a, 0x000a),    two(0xffff, 0xffff), "#w", m68851 },
3957{"ptrapisl", 6, two(0xf07b, 0x000a),    two(0xffff, 0xffff), "#l", m68851 },
3958{"ptrapis", 4,  two(0xf07c, 0x000a),    two(0xffff, 0xffff), "",   m68851 },
3959
3960{"ptraplcw", 6, two(0xf07a, 0x0003),    two(0xffff, 0xffff), "#w", m68851 },
3961{"ptraplcl", 6, two(0xf07b, 0x0003),    two(0xffff, 0xffff), "#l", m68851 },
3962{"ptraplc", 4,  two(0xf07c, 0x0003),    two(0xffff, 0xffff), "",   m68851 },
3963
3964{"ptraplsw", 6, two(0xf07a, 0x0002),    two(0xffff, 0xffff), "#w", m68851 },
3965{"ptraplsl", 6, two(0xf07b, 0x0002),    two(0xffff, 0xffff), "#l", m68851 },
3966{"ptrapls", 4,  two(0xf07c, 0x0002),    two(0xffff, 0xffff), "",   m68851 },
3967
3968{"ptrapscw", 6, two(0xf07a, 0x0005),    two(0xffff, 0xffff), "#w", m68851 },
3969{"ptrapscl", 6, two(0xf07b, 0x0005),    two(0xffff, 0xffff), "#l", m68851 },
3970{"ptrapsc", 4,  two(0xf07c, 0x0005),    two(0xffff, 0xffff), "",   m68851 },
3971
3972{"ptrapssw", 6, two(0xf07a, 0x0004),    two(0xffff, 0xffff), "#w", m68851 },
3973{"ptrapssl", 6, two(0xf07b, 0x0004),    two(0xffff, 0xffff), "#l", m68851 },
3974{"ptrapss", 4,  two(0xf07c, 0x0004),    two(0xffff, 0xffff), "",   m68851 },
3975
3976{"ptrapwcw", 6, two(0xf07a, 0x0009),    two(0xffff, 0xffff), "#w", m68851 },
3977{"ptrapwcl", 6, two(0xf07b, 0x0009),    two(0xffff, 0xffff), "#l", m68851 },
3978{"ptrapwc", 4,  two(0xf07c, 0x0009),    two(0xffff, 0xffff), "",   m68851 },
3979
3980{"ptrapwsw", 6, two(0xf07a, 0x0008),    two(0xffff, 0xffff), "#w", m68851 },
3981{"ptrapwsl", 6, two(0xf07b, 0x0008),    two(0xffff, 0xffff), "#l", m68851 },
3982{"ptrapws", 4,  two(0xf07c, 0x0008),    two(0xffff, 0xffff), "",   m68851 },
3983
3984{"pulse", 2,    one(0045314),           one(0177777), "", m68060 | mcfisa_a },
3985
3986{"pvalid", 4,   two(0xf000, 0x2800),    two(0xffc0, 0xffff), "Vs&s", m68851 },
3987{"pvalid", 4,   two(0xf000, 0x2c00),    two(0xffc0, 0xfff8), "A3&s", m68851 },
3988
3989  /* FIXME: don't allow Dw==Dx. */
3990{"remsl", 4,    two(0x4c40, 0x0800),    two(0xffc0, 0x8ff8), "qsD3D1", mcfhwdiv },
3991{"remul", 4,    two(0x4c40, 0x0000),    two(0xffc0, 0x8ff8), "qsD3D1", mcfhwdiv },
3992
3993{"reset", 2,    one(0047160),           one(0177777), "", m68000up },
3994
3995{"rolb", 2,     one(0160430),           one(0170770), "QdDs", m68000up },
3996{"rolb", 2,     one(0160470),           one(0170770), "DdDs", m68000up },
3997{"rolw", 2,     one(0160530),           one(0170770), "QdDs", m68000up },
3998{"rolw", 2,     one(0160570),           one(0170770), "DdDs", m68000up },
3999{"rolw", 2,     one(0163700),           one(0177700), "~s",   m68000up },
4000{"roll", 2,     one(0160630),           one(0170770), "QdDs", m68000up },
4001{"roll", 2,     one(0160670),           one(0170770), "DdDs", m68000up },
4002
4003{"rorb", 2,     one(0160030),           one(0170770), "QdDs", m68000up },
4004{"rorb", 2,     one(0160070),           one(0170770), "DdDs", m68000up },
4005{"rorw", 2,     one(0160130),           one(0170770), "QdDs", m68000up },
4006{"rorw", 2,     one(0160170),           one(0170770), "DdDs", m68000up },
4007{"rorw", 2,     one(0163300),           one(0177700), "~s",   m68000up },
4008{"rorl", 2,     one(0160230),           one(0170770), "QdDs", m68000up },
4009{"rorl", 2,     one(0160270),           one(0170770), "DdDs", m68000up },
4010
4011{"roxlb", 2,    one(0160420),           one(0170770), "QdDs", m68000up },
4012{"roxlb", 2,    one(0160460),           one(0170770), "DdDs", m68000up },
4013{"roxlw", 2,    one(0160520),           one(0170770), "QdDs", m68000up },
4014{"roxlw", 2,    one(0160560),           one(0170770), "DdDs", m68000up },
4015{"roxlw", 2,    one(0162700),           one(0177700), "~s",   m68000up },
4016{"roxll", 2,    one(0160620),           one(0170770), "QdDs", m68000up },
4017{"roxll", 2,    one(0160660),           one(0170770), "DdDs", m68000up },
4018
4019{"roxrb", 2,    one(0160020),           one(0170770), "QdDs", m68000up },
4020{"roxrb", 2,    one(0160060),           one(0170770), "DdDs", m68000up },
4021{"roxrw", 2,    one(0160120),           one(0170770), "QdDs", m68000up },
4022{"roxrw", 2,    one(0160160),           one(0170770), "DdDs", m68000up },
4023{"roxrw", 2,    one(0162300),           one(0177700), "~s",   m68000up },
4024{"roxrl", 2,    one(0160220),           one(0170770), "QdDs", m68000up },
4025{"roxrl", 2,    one(0160260),           one(0170770), "DdDs", m68000up },
4026
4027{"rtd", 4,      one(0047164),           one(0177777), "#w", m68010up },
4028
4029{"rte", 2,      one(0047163),           one(0177777), "",   m68000up | mcfisa_a },
4030
4031{"rtm", 2,      one(0003300),           one(0177760), "Rs", m68020 },
4032
4033{"rtr", 2,      one(0047167),           one(0177777), "",   m68000up },
4034
4035{"rts", 2,      one(0047165),           one(0177777), "",   m68000up | mcfisa_a },
4036
4037{"satsl", 2,    one(0046200),           one(0177770), "Ds", mcfisa_b },
4038
4039{"sbcd", 2,     one(0100400),           one(0170770), "DsDd", m68000up },
4040{"sbcd", 2,     one(0100410),           one(0170770), "-s-d", m68000up },
4041
4042{"scc", 2,      one(0052300),   one(0177700), "$s", m68000up },
4043{"scc", 2,      one(0052300),   one(0177700), "Ds", mcfisa_a },
4044{"scs", 2,      one(0052700),   one(0177700), "$s", m68000up },
4045{"scs", 2,      one(0052700),   one(0177700), "Ds", mcfisa_a },
4046{"seq", 2,      one(0053700),   one(0177700), "$s", m68000up },
4047{"seq", 2,      one(0053700),   one(0177700), "Ds", mcfisa_a },
4048{"sf", 2,       one(0050700),   one(0177700), "$s", m68000up },
4049{"sf", 2,       one(0050700),   one(0177700), "Ds", mcfisa_a },
4050{"sge", 2,      one(0056300),   one(0177700), "$s", m68000up },
4051{"sge", 2,      one(0056300),   one(0177700), "Ds", mcfisa_a },
4052{"sgt", 2,      one(0057300),   one(0177700), "$s", m68000up },
4053{"sgt", 2,      one(0057300),   one(0177700), "Ds", mcfisa_a },
4054{"shi", 2,      one(0051300),   one(0177700), "$s", m68000up },
4055{"shi", 2,      one(0051300),   one(0177700), "Ds", mcfisa_a },
4056{"sle", 2,      one(0057700),   one(0177700), "$s", m68000up },
4057{"sle", 2,      one(0057700),   one(0177700), "Ds", mcfisa_a },
4058{"sls", 2,      one(0051700),   one(0177700), "$s", m68000up },
4059{"sls", 2,      one(0051700),   one(0177700), "Ds", mcfisa_a },
4060{"slt", 2,      one(0056700),   one(0177700), "$s", m68000up },
4061{"slt", 2,      one(0056700),   one(0177700), "Ds", mcfisa_a },
4062{"smi", 2,      one(0055700),   one(0177700), "$s", m68000up },
4063{"smi", 2,      one(0055700),   one(0177700), "Ds", mcfisa_a },
4064{"sne", 2,      one(0053300),   one(0177700), "$s", m68000up },
4065{"sne", 2,      one(0053300),   one(0177700), "Ds", mcfisa_a },
4066{"spl", 2,      one(0055300),   one(0177700), "$s", m68000up },
4067{"spl", 2,      one(0055300),   one(0177700), "Ds", mcfisa_a },
4068{"st", 2,       one(0050300),   one(0177700), "$s", m68000up },
4069{"st", 2,       one(0050300),   one(0177700), "Ds", mcfisa_a },
4070{"svc", 2,      one(0054300),   one(0177700), "$s", m68000up },
4071{"svc", 2,      one(0054300),   one(0177700), "Ds", mcfisa_a },
4072{"svs", 2,      one(0054700),   one(0177700), "$s", m68000up },
4073{"svs", 2,      one(0054700),   one(0177700), "Ds", mcfisa_a },
4074
4075{"stop", 4,     one(0047162),   one(0177777), "#w", m68000up | mcfisa_a },
4076
4077{"strldsr", 4, two(0040347,0043374), two(0177777,0177777), "#w", mcfisa_aa},
4078
4079{"subal", 2,    one(0110700),   one(0170700), "*lAd", m68000up | mcfisa_a },
4080{"subaw", 2,    one(0110300),   one(0170700), "*wAd", m68000up },
4081
4082{"subib", 4,    one(0002000),   one(0177700), "#b$s", m68000up },
4083{"subiw", 4,    one(0002100),   one(0177700), "#w$s", m68000up },
4084{"subil", 6,    one(0002200),   one(0177700), "#l$s", m68000up },
4085{"subil", 6,    one(0002200),   one(0177700), "#lDs", mcfisa_a },
4086
4087{"subqb", 2,    one(0050400),   one(0170700), "Qd%s", m68000up },
4088{"subqw", 2,    one(0050500),   one(0170700), "Qd%s", m68000up },
4089{"subql", 2,    one(0050600),   one(0170700), "Qd%s", m68000up | mcfisa_a },
4090
4091/* The sub opcode can generate the suba, subi, and subq instructions.  */
4092{"subb", 2,     one(0050400),   one(0170700), "Qd%s", m68000up },
4093{"subb", 4,     one(0002000),   one(0177700), "#b$s", m68000up },
4094{"subb", 2,     one(0110000),   one(0170700), ";bDd", m68000up },
4095{"subb", 2,     one(0110400),   one(0170700), "Dd~s", m68000up },
4096{"subw", 2,     one(0050500),   one(0170700), "Qd%s", m68000up },
4097{"subw", 4,     one(0002100),   one(0177700), "#w$s", m68000up },
4098{"subw", 2,     one(0110300),   one(0170700), "*wAd", m68000up },
4099{"subw", 2,     one(0110100),   one(0170700), "*wDd", m68000up },
4100{"subw", 2,     one(0110500),   one(0170700), "Dd~s", m68000up },
4101{"subl", 2,     one(0050600),   one(0170700), "Qd%s", m68000up | mcfisa_a },
4102{"subl", 6,     one(0002200),   one(0177700), "#l$s", m68000up },
4103{"subl", 6,     one(0002200),   one(0177700), "#lDs", mcfisa_a },
4104{"subl", 2,     one(0110700),   one(0170700), "*lAd", m68000up | mcfisa_a },
4105{"subl", 2,     one(0110200),   one(0170700), "*lDd", m68000up | mcfisa_a },
4106{"subl", 2,     one(0110600),   one(0170700), "Dd~s", m68000up | mcfisa_a },
4107
4108{"subxb", 2,    one(0110400),   one(0170770), "DsDd", m68000up },
4109{"subxb", 2,    one(0110410),   one(0170770), "-s-d", m68000up },
4110{"subxw", 2,    one(0110500),   one(0170770), "DsDd", m68000up },
4111{"subxw", 2,    one(0110510),   one(0170770), "-s-d", m68000up },
4112{"subxl", 2,    one(0110600),   one(0170770), "DsDd", m68000up | mcfisa_a },
4113{"subxl", 2,    one(0110610),   one(0170770), "-s-d", m68000up },
4114
4115{"swap", 2,     one(0044100),   one(0177770), "Ds", m68000up | mcfisa_a },
4116
4117/* swbeg and swbegl are magic constants used on sysV68.  The compiler
4118   generates them before a switch table.  They tell the debugger and
4119   disassembler that a switch table follows.  The parameter is the
4120   number of elements in the table.  swbeg means that the entries in
4121   the table are word (2 byte) sized, and swbegl means that the
4122   entries in the table are longword (4 byte) sized.  */
4123{"swbeg", 4,    one(0045374),   one(0177777), "#w",   m68000up | mcfisa_a },
4124{"swbegl", 6,   one(0045375),   one(0177777), "#l",   m68000up | mcfisa_a },
4125
4126{"tas", 2,      one(0045300),   one(0177700), "$s", m68000up | mcfisa_b},
4127
4128#define TBL1(name,insn_size,signed,round,size)                                  \
4129  {name, insn_size, two(0174000, (signed<<11)|(!round<<10)|(size<<6)|0000400),  \
4130     two(0177700,0107777), "!sD1", cpu32 },                             \
4131  {name, insn_size, two(0174000, (signed<<11)|(!round<<10)|(size<<6)),          \
4132     two(0177770,0107770), "DsD3D1", cpu32 }
4133#define TBL(name1, name2, name3, s, r) \
4134  TBL1(name1, 4, s, r, 0), TBL1(name2, 4, s, r, 1), TBL1(name3, 4, s, r, 2)
4135TBL("tblsb", "tblsw", "tblsl", 2, 1),
4136TBL("tblsnb", "tblsnw", "tblsnl", 2, 0),
4137TBL("tblub", "tbluw", "tblul", 0, 1),
4138TBL("tblunb", "tblunw", "tblunl", 0, 0),
4139
4140{"trap", 2,     one(0047100),   one(0177760), "Ts", m68000up | mcfisa_a },
4141
4142{"trapcc", 2,   one(0052374),   one(0177777), "", m68020up | cpu32 },
4143{"trapcs", 2,   one(0052774),   one(0177777), "", m68020up | cpu32 },
4144{"trapeq", 2,   one(0053774),   one(0177777), "", m68020up | cpu32 },
4145{"trapf", 2,    one(0050774),   one(0177777), "", m68020up | cpu32 | mcfisa_a },
4146{"trapge", 2,   one(0056374),   one(0177777), "", m68020up | cpu32 },
4147{"trapgt", 2,   one(0057374),   one(0177777), "", m68020up | cpu32 },
4148{"traphi", 2,   one(0051374),   one(0177777), "", m68020up | cpu32 },
4149{"traple", 2,   one(0057774),   one(0177777), "", m68020up | cpu32 },
4150{"trapls", 2,   one(0051774),   one(0177777), "", m68020up | cpu32 },
4151{"traplt", 2,   one(0056774),   one(0177777), "", m68020up | cpu32 },
4152{"trapmi", 2,   one(0055774),   one(0177777), "", m68020up | cpu32 },
4153{"trapne", 2,   one(0053374),   one(0177777), "", m68020up | cpu32 },
4154{"trappl", 2,   one(0055374),   one(0177777), "", m68020up | cpu32 },
4155{"trapt", 2,    one(0050374),   one(0177777), "", m68020up | cpu32 },
4156{"trapvc", 2,   one(0054374),   one(0177777), "", m68020up | cpu32 },
4157{"trapvs", 2,   one(0054774),   one(0177777), "", m68020up | cpu32 },
4158
4159{"trapccw", 4,  one(0052372),   one(0177777), "#w", m68020up|cpu32 },
4160{"trapcsw", 4,  one(0052772),   one(0177777), "#w", m68020up|cpu32 },
4161{"trapeqw", 4,  one(0053772),   one(0177777), "#w", m68020up|cpu32 },
4162{"trapfw", 4,   one(0050772),   one(0177777), "#w", m68020up|cpu32|mcfisa_a},
4163{"trapgew", 4,  one(0056372),   one(0177777), "#w", m68020up|cpu32 },
4164{"trapgtw", 4,  one(0057372),   one(0177777), "#w", m68020up|cpu32 },
4165{"traphiw", 4,  one(0051372),   one(0177777), "#w", m68020up|cpu32 },
4166{"traplew", 4,  one(0057772),   one(0177777), "#w", m68020up|cpu32 },
4167{"traplsw", 4,  one(0051772),   one(0177777), "#w", m68020up|cpu32 },
4168{"trapltw", 4,  one(0056772),   one(0177777), "#w", m68020up|cpu32 },
4169{"trapmiw", 4,  one(0055772),   one(0177777), "#w", m68020up|cpu32 },
4170{"trapnew", 4,  one(0053372),   one(0177777), "#w", m68020up|cpu32 },
4171{"trapplw", 4,  one(0055372),   one(0177777), "#w", m68020up|cpu32 },
4172{"traptw", 4,   one(0050372),   one(0177777), "#w", m68020up|cpu32 },
4173{"trapvcw", 4,  one(0054372),   one(0177777), "#w", m68020up|cpu32 },
4174{"trapvsw", 4,  one(0054772),   one(0177777), "#w", m68020up|cpu32 },
4175
4176{"trapccl", 6,  one(0052373),   one(0177777), "#l", m68020up|cpu32 },
4177{"trapcsl", 6,  one(0052773),   one(0177777), "#l", m68020up|cpu32 },
4178{"trapeql", 6,  one(0053773),   one(0177777), "#l", m68020up|cpu32 },
4179{"trapfl", 6,   one(0050773),   one(0177777), "#l", m68020up|cpu32|mcfisa_a},
4180{"trapgel", 6,  one(0056373),   one(0177777), "#l", m68020up|cpu32 },
4181{"trapgtl", 6,  one(0057373),   one(0177777), "#l", m68020up|cpu32 },
4182{"traphil", 6,  one(0051373),   one(0177777), "#l", m68020up|cpu32 },
4183{"traplel", 6,  one(0057773),   one(0177777), "#l", m68020up|cpu32 },
4184{"traplsl", 6,  one(0051773),   one(0177777), "#l", m68020up|cpu32 },
4185{"trapltl", 6,  one(0056773),   one(0177777), "#l", m68020up|cpu32 },
4186{"trapmil", 6,  one(0055773),   one(0177777), "#l", m68020up|cpu32 },
4187{"trapnel", 6,  one(0053373),   one(0177777), "#l", m68020up|cpu32 },
4188{"trappll", 6,  one(0055373),   one(0177777), "#l", m68020up|cpu32 },
4189{"traptl", 6,   one(0050373),   one(0177777), "#l", m68020up|cpu32 },
4190{"trapvcl", 6,  one(0054373),   one(0177777), "#l", m68020up|cpu32 },
4191{"trapvsl", 6,  one(0054773),   one(0177777), "#l", m68020up|cpu32 },
4192
4193{"trapv", 2,    one(0047166),   one(0177777), "", m68000up },
4194
4195{"tstb", 2,     one(0045000),   one(0177700), ";b", m68020up|cpu32|mcfisa_a },
4196{"tstb", 2,     one(0045000),   one(0177700), "$b", m68000up },
4197{"tstw", 2,     one(0045100),   one(0177700), "*w", m68020up|cpu32|mcfisa_a },
4198{"tstw", 2,     one(0045100),   one(0177700), "$w", m68000up },
4199{"tstl", 2,     one(0045200),   one(0177700), "*l", m68020up|cpu32|mcfisa_a },
4200{"tstl", 2,     one(0045200),   one(0177700), "$l", m68000up },
4201
4202{"unlk", 2,     one(0047130),   one(0177770), "As", m68000up | mcfisa_a },
4203
4204{"unpk", 4,     one(0100600),   one(0170770), "DsDd#w", m68020up },
4205{"unpk", 4,     one(0100610),   one(0170770), "-s-d#w", m68020up },
4206
4207{"wddatab", 2,  one(0175400),   one(0177700), "~s", mcfisa_a },
4208{"wddataw", 2,  one(0175500),   one(0177700), "~s", mcfisa_a },
4209{"wddatal", 2,  one(0175600),   one(0177700), "~s", mcfisa_a },
4210
4211{"wdebug", 4,   two(0175720, 03),       two(0177770, 0xffff), "as", mcfisa_a },
4212{"wdebug", 4,   two(0175750, 03),       two(0177770, 0xffff), "ds", mcfisa_a },
4213};
4214
4215const int m68k_numopcodes = sizeof m68k_opcodes / sizeof m68k_opcodes[0];
4216
4217/* These aliases used to be in the above table, each one duplicating
4218   all of the entries for its primary exactly.  This table was
4219   constructed by mechanical processing of the opcode table, with a
4220   small number of tweaks done by hand.  There are probably a lot more
4221   aliases above that could be moved down here, except for very minor
4222   differences.  */
4223
4224const struct m68k_opcode_alias m68k_opcode_aliases[] =
4225{
4226  { "add",      "addw", },
4227  { "adda",     "addaw", },
4228  { "addi",     "addiw", },
4229  { "addq",     "addqw", },
4230  { "addx",     "addxw", },
4231  { "asl",      "aslw", },
4232  { "asr",      "asrw", },
4233  { "bhi",      "bhiw", },
4234  { "bls",      "blsw", },
4235  { "bcc",      "bccw", },
4236  { "bcs",      "bcsw", },
4237  { "bne",      "bnew", },
4238  { "beq",      "beqw", },
4239  { "bvc",      "bvcw", },
4240  { "bvs",      "bvsw", },
4241  { "bpl",      "bplw", },
4242  { "bmi",      "bmiw", },
4243  { "bge",      "bgew", },
4244  { "blt",      "bltw", },
4245  { "bgt",      "bgtw", },
4246  { "ble",      "blew", },
4247  { "bra",      "braw", },
4248  { "bsr",      "bsrw", },
4249  { "bhib",     "bhis", },
4250  { "blsb",     "blss", },
4251  { "bccb",     "bccs", },
4252  { "bcsb",     "bcss", },
4253  { "bneb",     "bnes", },
4254  { "beqb",     "beqs", },
4255  { "bvcb",     "bvcs", },
4256  { "bvsb",     "bvss", },
4257  { "bplb",     "bpls", },
4258  { "bmib",     "bmis", },
4259  { "bgeb",     "bges", },
4260  { "bltb",     "blts", },
4261  { "bgtb",     "bgts", },
4262  { "bleb",     "bles", },
4263  { "brab",     "bras", },
4264  { "bsrb",     "bsrs", },
4265  { "bhs",      "bccw" },
4266  { "bhss",     "bccs" },
4267  { "bhsb",     "bccs" },
4268  { "bhsw",     "bccw" },
4269  { "bhsl",     "bccl" },
4270  { "blo",      "bcsw" },
4271  { "blos",     "bcss" },
4272  { "blob",     "bcss" },
4273  { "blow",     "bcsw" },
4274  { "blol",     "bcsl" },
4275  { "br",       "braw", },
4276  { "brs",      "bras", },
4277  { "brb",      "bras", },
4278  { "brw",      "braw", },
4279  { "brl",      "bral", },
4280  { "jfnlt",    "bcc", },       /* Apparently a sun alias.  */
4281  { "jfngt",    "ble", },       /* Apparently a sun alias.  */
4282  { "jfeq",     "beqs", },      /* Apparently a sun alias.  */
4283  { "bchgb",    "bchg", },
4284  { "bchgl",    "bchg", },
4285  { "bclrb",    "bclr", },
4286  { "bclrl",    "bclr", },
4287  { "bsetb",    "bset", },
4288  { "bsetl",    "bset", },
4289  { "btstb",    "btst", },
4290  { "btstl",    "btst", },
4291  { "cas2",     "cas2w", },
4292  { "cas",      "casw", },
4293  { "chk2",     "chk2w", },
4294  { "chk",      "chkw", },
4295  { "clr",      "clrw", },
4296  { "cmp2",     "cmp2w", },
4297  { "cmpa",     "cmpaw", },
4298  { "cmpi",     "cmpiw", },
4299  { "cmpm",     "cmpmw", },
4300  { "cmp",      "cmpw", },
4301  { "dbccw",    "dbcc", },
4302  { "dbcsw",    "dbcs", },
4303  { "dbeqw",    "dbeq", },
4304  { "dbfw",     "dbf", },
4305  { "dbgew",    "dbge", },
4306  { "dbgtw",    "dbgt", },
4307  { "dbhiw",    "dbhi", },
4308  { "dblew",    "dble", },
4309  { "dblsw",    "dbls", },
4310  { "dbltw",    "dblt", },
4311  { "dbmiw",    "dbmi", },
4312  { "dbnew",    "dbne", },
4313  { "dbplw",    "dbpl", },
4314  { "dbtw",     "dbt", },
4315  { "dbvcw",    "dbvc", },
4316  { "dbvsw",    "dbvs", },
4317  { "dbhs",     "dbcc", },
4318  { "dbhsw",    "dbcc", },
4319  { "dbra",     "dbf", },
4320  { "dbraw",    "dbf", },
4321  { "tdivsl",   "divsl", },
4322  { "divs",     "divsw", },
4323  { "divu",     "divuw", },
4324  { "ext",      "extw", },
4325  { "extbw",    "extw", },
4326  { "extwl",    "extl", },
4327  { "fbneq",    "fbne", },
4328  { "fbsneq",   "fbsne", },
4329  { "fdbneq",   "fdbne", },
4330  { "fdbsneq",  "fdbsne", },
4331  { "fmovecr",  "fmovecrx", },
4332  { "fmovm",    "fmovem", },
4333  { "fsneq",    "fsne", },
4334  { "fssneq",   "fssne", },
4335  { "ftrapneq", "ftrapne", },
4336  { "ftrapsneq", "ftrapsne", },
4337  { "fjneq",    "fjne", },
4338  { "fjsneq",   "fjsne", },
4339  { "jmpl",     "jmp", },
4340  { "jmps",     "jmp", },
4341  { "jsrl",     "jsr", },
4342  { "jsrs",     "jsr", },
4343  { "leal",     "lea", },
4344  { "lsl",      "lslw", },
4345  { "lsr",      "lsrw", },
4346  { "mac",      "macw" },
4347  { "movea",    "moveaw", },
4348  { "movem",    "movemw", },
4349  { "movml",    "moveml", },
4350  { "movmw",    "movemw", },
4351  { "movm",     "movemw", },
4352  { "movep",    "movepw", },
4353  { "movpw",    "movepw", },
4354  { "moves",    "movesw" },
4355  { "muls",     "mulsw", },
4356  { "mulu",     "muluw", },
4357  { "msac",     "msacw" },
4358  { "nbcdb",    "nbcd" },
4359  { "neg",      "negw", },
4360  { "negx",     "negxw", },
4361  { "not",      "notw", },
4362  { "peal",     "pea", },
4363  { "rol",      "rolw", },
4364  { "ror",      "rorw", },
4365  { "roxl",     "roxlw", },
4366  { "roxr",     "roxrw", },
4367  { "sats",     "satsl", },
4368  { "sbcdb",    "sbcd", },
4369  { "sccb",     "scc", },
4370  { "scsb",     "scs", },
4371  { "seqb",     "seq", },
4372  { "sfb",      "sf", },
4373  { "sgeb",     "sge", },
4374  { "sgtb",     "sgt", },
4375  { "shib",     "shi", },
4376  { "sleb",     "sle", },
4377  { "slsb",     "sls", },
4378  { "sltb",     "slt", },
4379  { "smib",     "smi", },
4380  { "sneb",     "sne", },
4381  { "splb",     "spl", },
4382  { "stb",      "st", },
4383  { "svcb",     "svc", },
4384  { "svsb",     "svs", },
4385  { "sfge",     "sge", },
4386  { "sfgt",     "sgt", },
4387  { "sfle",     "sle", },
4388  { "sflt",     "slt", },
4389  { "sfneq",    "sne", },
4390  { "suba",     "subaw", },
4391  { "subi",     "subiw", },
4392  { "subq",     "subqw", },
4393  { "sub",      "subw", },
4394  { "subx",     "subxw", },
4395  { "swapw",    "swap", },
4396  { "tasb",     "tas", },
4397  { "tpcc",     "trapcc", },
4398  { "tcc",      "trapcc", },
4399  { "tst",      "tstw", },
4400  { "jbra",     "jra", },
4401  { "jbhi",     "jhi", },
4402  { "jbls",     "jls", },
4403  { "jbcc",     "jcc", },
4404  { "jbcs",     "jcs", },
4405  { "jbne",     "jne", },
4406  { "jbeq",     "jeq", },
4407  { "jbvc",     "jvc", },
4408  { "jbvs",     "jvs", },
4409  { "jbpl",     "jpl", },
4410  { "jbmi",     "jmi", },
4411  { "jbge",     "jge", },
4412  { "jblt",     "jlt", },
4413  { "jbgt",     "jgt", },
4414  { "jble",     "jle", },
4415  { "movql",    "moveq", },
4416  { "moveql",   "moveq", },
4417  { "movl",     "movel", },
4418  { "movq",     "moveq", },
4419  { "moval",    "moveal", },
4420  { "movaw",    "moveaw", },
4421  { "movb",     "moveb", },
4422  { "movc",     "movec", },
4423  { "movecl",   "movec", },
4424  { "movpl",    "movepl", },
4425  { "movw",     "movew", },
4426  { "movsb",    "movesb", },
4427  { "movsl",    "movesl", },
4428  { "movsw",    "movesw", },
4429  { "mov3q",    "mov3ql", },
4430
4431  { "tdivul",   "divul", },     /* For m68k-svr4.  */
4432  { "fmovb",    "fmoveb", },
4433  { "fsmovb",   "fsmoveb", },
4434  { "fdmovb",   "fdmoveb", },
4435  { "fmovd",    "fmoved", },
4436  { "fsmovd",   "fsmoved", },
4437  { "fmovl",    "fmovel", },
4438  { "fsmovl",   "fsmovel", },
4439  { "fdmovl",   "fdmovel", },
4440  { "fmovp",    "fmovep", },
4441  { "fsmovp",   "fsmovep", },
4442  { "fdmovp",   "fdmovep", },
4443  { "fmovs",    "fmoves", },
4444  { "fsmovs",   "fsmoves", },
4445  { "fdmovs",   "fdmoves", },
4446  { "fmovw",    "fmovew", },
4447  { "fsmovw",   "fsmovew", },
4448  { "fdmovw",   "fdmovew", },
4449  { "fmovx",    "fmovex", },
4450  { "fsmovx",   "fsmovex", },
4451  { "fdmovx",   "fdmovex", },
4452  { "fmovcr",   "fmovecr", },
4453  { "fmovcrx",  "fmovecrx", },
4454  { "ftestb",   "ftstb", },
4455  { "ftestd",   "ftstd", },
4456  { "ftestl",   "ftstl", },
4457  { "ftestp",   "ftstp", },
4458  { "ftests",   "ftsts", },
4459  { "ftestw",   "ftstw", },
4460  { "ftestx",   "ftstx", },
4461
4462  { "bitrevl",  "bitrev", },
4463  { "byterevl", "byterev", },
4464  { "ff1l",     "ff1", },
4465
4466};
4467
4468const int m68k_numaliases =
4469  sizeof m68k_opcode_aliases / sizeof m68k_opcode_aliases[0];
4470/* **** End of m68k-opc.c */
4471/* **** floatformat.c from sourceware.org CVS 2005-08-14.  */
4472/* IEEE floating point support routines, for GDB, the GNU Debugger.
4473   Copyright (C) 1991, 1994, 1999, 2000, 2003 Free Software Foundation, Inc.
4474
4475This file is part of GDB.
4476
4477This program is free software; you can redistribute it and/or modify
4478it under the terms of the GNU General Public License as published by
4479the Free Software Foundation; either version 2 of the License, or
4480(at your option) any later version.
4481
4482This program is distributed in the hope that it will be useful,
4483but WITHOUT ANY WARRANTY; without even the implied warranty of
4484MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
4485GNU General Public License for more details.
4486
4487You should have received a copy of the GNU General Public License
4488along with this program; if not, see <http://www.gnu.org/licenses/>.  */
4489
4490/* This is needed to pick up the NAN macro on some systems.  */
4491//#define _GNU_SOURCE
4492
4493#ifndef INFINITY
4494#ifdef HUGE_VAL
4495#define INFINITY HUGE_VAL
4496#else
4497#define INFINITY (1.0 / 0.0)
4498#endif
4499#endif
4500
4501#ifndef NAN
4502#define NAN (0.0 / 0.0)
4503#endif
4504
4505static unsigned long get_field (const unsigned char *,
4506                                enum floatformat_byteorders,
4507                                unsigned int,
4508                                unsigned int,
4509                                unsigned int);
4510static int floatformat_always_valid (const struct floatformat *fmt,
4511                                     const char *from);
4512
4513static int
4514floatformat_always_valid (const struct floatformat *fmt ATTRIBUTE_UNUSED,
4515                          const char *from ATTRIBUTE_UNUSED)
4516{
4517  return 1;
4518}
4519
4520/* The odds that CHAR_BIT will be anything but 8 are low enough that I'm not
4521   going to bother with trying to muck around with whether it is defined in
4522   a system header, what we do if not, etc.  */
4523#define FLOATFORMAT_CHAR_BIT 8
4524
4525/* floatformats for IEEE single and double, big and little endian.  */
4526const struct floatformat floatformat_ieee_single_big =
4527{
4528  floatformat_big, 32, 0, 1, 8, 127, 255, 9, 23,
4529  floatformat_intbit_no,
4530  "floatformat_ieee_single_big",
4531  floatformat_always_valid
4532};
4533const struct floatformat floatformat_ieee_single_little =
4534{
4535  floatformat_little, 32, 0, 1, 8, 127, 255, 9, 23,
4536  floatformat_intbit_no,
4537  "floatformat_ieee_single_little",
4538  floatformat_always_valid
4539};
4540const struct floatformat floatformat_ieee_double_big =
4541{
4542  floatformat_big, 64, 0, 1, 11, 1023, 2047, 12, 52,
4543  floatformat_intbit_no,
4544  "floatformat_ieee_double_big",
4545  floatformat_always_valid
4546};
4547const struct floatformat floatformat_ieee_double_little =
4548{
4549  floatformat_little, 64, 0, 1, 11, 1023, 2047, 12, 52,
4550  floatformat_intbit_no,
4551  "floatformat_ieee_double_little",
4552  floatformat_always_valid
4553};
4554
4555/* floatformat for IEEE double, little endian byte order, with big endian word
4556   ordering, as on the ARM.  */
4557
4558const struct floatformat floatformat_ieee_double_littlebyte_bigword =
4559{
4560  floatformat_littlebyte_bigword, 64, 0, 1, 11, 1023, 2047, 12, 52,
4561  floatformat_intbit_no,
4562  "floatformat_ieee_double_littlebyte_bigword",
4563  floatformat_always_valid
4564};
4565
4566static int floatformat_i387_ext_is_valid (const struct floatformat *fmt, const char *from);
4567
4568static int
4569floatformat_i387_ext_is_valid (const struct floatformat *fmt, const char *from)
4570{
4571  /* In the i387 double-extended format, if the exponent is all ones,
4572     then the integer bit must be set.  If the exponent is neither 0
4573     nor ~0, the intbit must also be set.  Only if the exponent is
4574     zero can it be zero, and then it must be zero.  */
4575  unsigned long exponent, int_bit;
4576  const unsigned char *ufrom = (const unsigned char *) from;
4577
4578  exponent = get_field (ufrom, fmt->byteorder, fmt->totalsize,
4579                        fmt->exp_start, fmt->exp_len);
4580  int_bit = get_field (ufrom, fmt->byteorder, fmt->totalsize,
4581                       fmt->man_start, 1);
4582
4583  if ((exponent == 0) != (int_bit == 0))
4584    return 0;
4585  else
4586    return 1;
4587}
4588
4589const struct floatformat floatformat_i387_ext =
4590{
4591  floatformat_little, 80, 0, 1, 15, 0x3fff, 0x7fff, 16, 64,
4592  floatformat_intbit_yes,
4593  "floatformat_i387_ext",
4594  floatformat_i387_ext_is_valid
4595};
4596const struct floatformat floatformat_m68881_ext =
4597{
4598  /* Note that the bits from 16 to 31 are unused.  */
4599  floatformat_big, 96, 0, 1, 15, 0x3fff, 0x7fff, 32, 64,
4600  floatformat_intbit_yes,
4601  "floatformat_m68881_ext",
4602  floatformat_always_valid
4603};
4604const struct floatformat floatformat_i960_ext =
4605{
4606  /* Note that the bits from 0 to 15 are unused.  */
4607  floatformat_little, 96, 16, 17, 15, 0x3fff, 0x7fff, 32, 64,
4608  floatformat_intbit_yes,
4609  "floatformat_i960_ext",
4610  floatformat_always_valid
4611};
4612const struct floatformat floatformat_m88110_ext =
4613{
4614  floatformat_big, 80, 0, 1, 15, 0x3fff, 0x7fff, 16, 64,
4615  floatformat_intbit_yes,
4616  "floatformat_m88110_ext",
4617  floatformat_always_valid
4618};
4619const struct floatformat floatformat_m88110_harris_ext =
4620{
4621  /* Harris uses raw format 128 bytes long, but the number is just an ieee
4622     double, and the last 64 bits are wasted. */
4623  floatformat_big,128, 0, 1, 11,  0x3ff,  0x7ff, 12, 52,
4624  floatformat_intbit_no,
4625  "floatformat_m88110_ext_harris",
4626  floatformat_always_valid
4627};
4628const struct floatformat floatformat_arm_ext_big =
4629{
4630  /* Bits 1 to 16 are unused.  */
4631  floatformat_big, 96, 0, 17, 15, 0x3fff, 0x7fff, 32, 64,
4632  floatformat_intbit_yes,
4633  "floatformat_arm_ext_big",
4634  floatformat_always_valid
4635};
4636const struct floatformat floatformat_arm_ext_littlebyte_bigword =
4637{
4638  /* Bits 1 to 16 are unused.  */
4639  floatformat_littlebyte_bigword, 96, 0, 17, 15, 0x3fff, 0x7fff, 32, 64,
4640  floatformat_intbit_yes,
4641  "floatformat_arm_ext_littlebyte_bigword",
4642  floatformat_always_valid
4643};
4644const struct floatformat floatformat_ia64_spill_big =
4645{
4646  floatformat_big, 128, 0, 1, 17, 65535, 0x1ffff, 18, 64,
4647  floatformat_intbit_yes,
4648  "floatformat_ia64_spill_big",
4649  floatformat_always_valid
4650};
4651const struct floatformat floatformat_ia64_spill_little =
4652{
4653  floatformat_little, 128, 0, 1, 17, 65535, 0x1ffff, 18, 64,
4654  floatformat_intbit_yes,
4655  "floatformat_ia64_spill_little",
4656  floatformat_always_valid
4657};
4658const struct floatformat floatformat_ia64_quad_big =
4659{
4660  floatformat_big, 128, 0, 1, 15, 16383, 0x7fff, 16, 112,
4661  floatformat_intbit_no,
4662  "floatformat_ia64_quad_big",
4663  floatformat_always_valid
4664};
4665const struct floatformat floatformat_ia64_quad_little =
4666{
4667  floatformat_little, 128, 0, 1, 15, 16383, 0x7fff, 16, 112,
4668  floatformat_intbit_no,
4669  "floatformat_ia64_quad_little",
4670  floatformat_always_valid
4671};
4672
4673/* Extract a field which starts at START and is LEN bits long.  DATA and
4674   TOTAL_LEN are the thing we are extracting it from, in byteorder ORDER.  */
4675static unsigned long
4676get_field (const unsigned char *data, enum floatformat_byteorders order,
4677           unsigned int total_len, unsigned int start, unsigned int len)
4678{
4679  unsigned long result;
4680  unsigned int cur_byte;
4681  int cur_bitshift;
4682
4683  /* Start at the least significant part of the field.  */
4684  cur_byte = (start + len) / FLOATFORMAT_CHAR_BIT;
4685  if (order == floatformat_little)
4686    cur_byte = (total_len / FLOATFORMAT_CHAR_BIT) - cur_byte - 1;
4687  cur_bitshift =
4688    ((start + len) % FLOATFORMAT_CHAR_BIT) - FLOATFORMAT_CHAR_BIT;
4689  result = *(data + cur_byte) >> (-cur_bitshift);
4690  cur_bitshift += FLOATFORMAT_CHAR_BIT;
4691  if (order == floatformat_little)
4692    ++cur_byte;
4693  else
4694    --cur_byte;
4695
4696  /* Move towards the most significant part of the field.  */
4697  while ((unsigned int) cur_bitshift < len)
4698    {
4699      if (len - cur_bitshift < FLOATFORMAT_CHAR_BIT)
4700        /* This is the last byte; zero out the bits which are not part of
4701           this field.  */
4702        result |=
4703          (unsigned long)(*(data + cur_byte)
4704                          & ((1 << (len - cur_bitshift)) - 1))
4705            << cur_bitshift;
4706      else
4707        result |= (unsigned long)*(data + cur_byte) << cur_bitshift;
4708      cur_bitshift += FLOATFORMAT_CHAR_BIT;
4709      if (order == floatformat_little)
4710        ++cur_byte;
4711      else
4712        --cur_byte;
4713    }
4714  return result;
4715}
4716
4717/* Convert from FMT to a double.
4718   FROM is the address of the extended float.
4719   Store the double in *TO.  */
4720
4721void
4722floatformat_to_double (const struct floatformat *fmt,
4723                       const char *from, double *to)
4724{
4725  const unsigned char *ufrom = (const unsigned char *)from;
4726  double dto;
4727  long exponent;
4728  unsigned long mant;
4729  unsigned int mant_bits, mant_off;
4730  int mant_bits_left;
4731  int special_exponent;         /* It's a NaN, denorm or zero */
4732
4733  exponent = get_field (ufrom, fmt->byteorder, fmt->totalsize,
4734                        fmt->exp_start, fmt->exp_len);
4735
4736  /* If the exponent indicates a NaN, we don't have information to
4737     decide what to do.  So we handle it like IEEE, except that we
4738     don't try to preserve the type of NaN.  FIXME.  */
4739  if ((unsigned long) exponent == fmt->exp_nan)
4740    {
4741      int nan;
4742
4743      mant_off = fmt->man_start;
4744      mant_bits_left = fmt->man_len;
4745      nan = 0;
4746      while (mant_bits_left > 0)
4747        {
4748          mant_bits = MIN(mant_bits_left, 32);
4749
4750          if (get_field (ufrom, fmt->byteorder, fmt->totalsize,
4751                         mant_off, mant_bits) != 0)
4752            {
4753              /* This is a NaN.  */
4754              nan = 1;
4755              break;
4756            }
4757
4758          mant_off += mant_bits;
4759          mant_bits_left -= mant_bits;
4760        }
4761
4762      /* On certain systems (such as GNU/Linux), the use of the
4763         INFINITY macro below may generate a warning that can not be
4764         silenced due to a bug in GCC (PR preprocessor/11931).  The
4765         preprocessor fails to recognise the __extension__ keyword in
4766         conjunction with the GNU/C99 extension for hexadecimal
4767         floating point constants and will issue a warning when
4768         compiling with -pedantic.  */
4769      if (nan)
4770        dto = NAN;
4771      else
4772        dto = INFINITY;
4773
4774      if (get_field (ufrom, fmt->byteorder, fmt->totalsize, fmt->sign_start, 1))
4775        dto = -dto;
4776
4777      *to = dto;
4778
4779      return;
4780    }
4781
4782  mant_bits_left = fmt->man_len;
4783  mant_off = fmt->man_start;
4784  dto = 0.0;
4785
4786  special_exponent = exponent == 0 || (unsigned long) exponent == fmt->exp_nan;
4787
4788  /* Don't bias zero's, denorms or NaNs.  */
4789  if (!special_exponent)
4790    exponent -= fmt->exp_bias;
4791
4792  /* Build the result algebraically.  Might go infinite, underflow, etc;
4793     who cares. */
4794
4795  /* If this format uses a hidden bit, explicitly add it in now.  Otherwise,
4796     increment the exponent by one to account for the integer bit.  */
4797
4798  if (!special_exponent)
4799    {
4800      if (fmt->intbit == floatformat_intbit_no)
4801        dto = ldexp (1.0, exponent);
4802      else
4803        exponent++;
4804    }
4805
4806  while (mant_bits_left > 0)
4807    {
4808      mant_bits = MIN(mant_bits_left, 32);
4809
4810      mant = get_field (ufrom, fmt->byteorder, fmt->totalsize,
4811                         mant_off, mant_bits);
4812
4813      /* Handle denormalized numbers.  FIXME: What should we do for
4814         non-IEEE formats?  */
4815      if (exponent == 0 && mant != 0)
4816        dto += ldexp ((double)mant,
4817                      (- fmt->exp_bias
4818                       - mant_bits
4819                       - (mant_off - fmt->man_start)
4820                       + 1));
4821      else
4822        dto += ldexp ((double)mant, exponent - mant_bits);
4823      if (exponent != 0)
4824        exponent -= mant_bits;
4825      mant_off += mant_bits;
4826      mant_bits_left -= mant_bits;
4827    }
4828
4829  /* Negate it if negative.  */
4830  if (get_field (ufrom, fmt->byteorder, fmt->totalsize, fmt->sign_start, 1))
4831    dto = -dto;
4832  *to = dto;
4833}
4834
4835static void put_field (unsigned char *, enum floatformat_byteorders,
4836                       unsigned int,
4837                       unsigned int,
4838                       unsigned int,
4839                       unsigned long);
4840
4841/* Set a field which starts at START and is LEN bits long.  DATA and
4842   TOTAL_LEN are the thing we are extracting it from, in byteorder ORDER.  */
4843static void
4844put_field (unsigned char *data, enum floatformat_byteorders order,
4845           unsigned int total_len, unsigned int start, unsigned int len,
4846           unsigned long stuff_to_put)
4847{
4848  unsigned int cur_byte;
4849  int cur_bitshift;
4850
4851  /* Start at the least significant part of the field.  */
4852  cur_byte = (start + len) / FLOATFORMAT_CHAR_BIT;
4853  if (order == floatformat_little)
4854    cur_byte = (total_len / FLOATFORMAT_CHAR_BIT) - cur_byte - 1;
4855  cur_bitshift =
4856    ((start + len) % FLOATFORMAT_CHAR_BIT) - FLOATFORMAT_CHAR_BIT;
4857  *(data + cur_byte) &=
4858    ~(((1 << ((start + len) % FLOATFORMAT_CHAR_BIT)) - 1) << (-cur_bitshift));
4859  *(data + cur_byte) |=
4860    (stuff_to_put & ((1 << FLOATFORMAT_CHAR_BIT) - 1)) << (-cur_bitshift);
4861  cur_bitshift += FLOATFORMAT_CHAR_BIT;
4862  if (order == floatformat_little)
4863    ++cur_byte;
4864  else
4865    --cur_byte;
4866
4867  /* Move towards the most significant part of the field.  */
4868  while ((unsigned int) cur_bitshift < len)
4869    {
4870      if (len - cur_bitshift < FLOATFORMAT_CHAR_BIT)
4871        {
4872          /* This is the last byte.  */
4873          *(data + cur_byte) &=
4874            ~((1 << (len - cur_bitshift)) - 1);
4875          *(data + cur_byte) |= (stuff_to_put >> cur_bitshift);
4876        }
4877      else
4878        *(data + cur_byte) = ((stuff_to_put >> cur_bitshift)
4879                              & ((1 << FLOATFORMAT_CHAR_BIT) - 1));
4880      cur_bitshift += FLOATFORMAT_CHAR_BIT;
4881      if (order == floatformat_little)
4882        ++cur_byte;
4883      else
4884        --cur_byte;
4885    }
4886}
4887
4888/* The converse: convert the double *FROM to an extended float
4889   and store where TO points.  Neither FROM nor TO have any alignment
4890   restrictions.  */
4891
4892void
4893floatformat_from_double (const struct floatformat *fmt,
4894                         const double *from, char *to)
4895{
4896  double dfrom;
4897  int exponent;
4898  double mant;
4899  unsigned int mant_bits, mant_off;
4900  int mant_bits_left;
4901  unsigned char *uto = (unsigned char *)to;
4902
4903  dfrom = *from;
4904  memset (uto, 0, fmt->totalsize / FLOATFORMAT_CHAR_BIT);
4905
4906  /* If negative, set the sign bit.  */
4907  if (dfrom < 0)
4908    {
4909      put_field (uto, fmt->byteorder, fmt->totalsize, fmt->sign_start, 1, 1);
4910      dfrom = -dfrom;
4911    }
4912
4913  if (dfrom == 0)
4914    {
4915      /* 0.0.  */
4916      return;
4917    }
4918
4919  if (dfrom != dfrom)
4920    {
4921      /* NaN.  */
4922      put_field (uto, fmt->byteorder, fmt->totalsize, fmt->exp_start,
4923                 fmt->exp_len, fmt->exp_nan);
4924      /* Be sure it's not infinity, but NaN value is irrelevant.  */
4925      put_field (uto, fmt->byteorder, fmt->totalsize, fmt->man_start,
4926                 32, 1);
4927      return;
4928    }
4929
4930  if (dfrom + dfrom == dfrom)
4931    {
4932      /* This can only happen for an infinite value (or zero, which we
4933         already handled above).  */
4934      put_field (uto, fmt->byteorder, fmt->totalsize, fmt->exp_start,
4935                 fmt->exp_len, fmt->exp_nan);
4936      return;
4937    }
4938
4939  mant = frexp (dfrom, &exponent);
4940  if (exponent + fmt->exp_bias - 1 > 0)
4941    put_field (uto, fmt->byteorder, fmt->totalsize, fmt->exp_start,
4942               fmt->exp_len, exponent + fmt->exp_bias - 1);
4943  else
4944    {
4945      /* Handle a denormalized number.  FIXME: What should we do for
4946         non-IEEE formats?  */
4947      put_field (uto, fmt->byteorder, fmt->totalsize, fmt->exp_start,
4948                 fmt->exp_len, 0);
4949      mant = ldexp (mant, exponent + fmt->exp_bias - 1);
4950    }
4951
4952  mant_bits_left = fmt->man_len;
4953  mant_off = fmt->man_start;
4954  while (mant_bits_left > 0)
4955    {
4956      unsigned long mant_long;
4957      mant_bits = mant_bits_left < 32 ? mant_bits_left : 32;
4958
4959      mant *= 4294967296.0;
4960      mant_long = (unsigned long)mant;
4961      mant -= mant_long;
4962
4963      /* If the integer bit is implicit, and we are not creating a
4964         denormalized number, then we need to discard it.  */
4965      if ((unsigned int) mant_bits_left == fmt->man_len
4966          && fmt->intbit == floatformat_intbit_no
4967          && exponent + fmt->exp_bias - 1 > 0)
4968        {
4969          mant_long &= 0x7fffffff;
4970          mant_bits -= 1;
4971        }
4972      else if (mant_bits < 32)
4973        {
4974          /* The bits we want are in the most significant MANT_BITS bits of
4975             mant_long.  Move them to the least significant.  */
4976          mant_long >>= 32 - mant_bits;
4977        }
4978
4979      put_field (uto, fmt->byteorder, fmt->totalsize,
4980                 mant_off, mant_bits, mant_long);
4981      mant_off += mant_bits;
4982      mant_bits_left -= mant_bits;
4983    }
4984}
4985
4986/* Return non-zero iff the data at FROM is a valid number in format FMT.  */
4987
4988int
4989floatformat_is_valid (const struct floatformat *fmt, const char *from)
4990{
4991  return fmt->is_valid (fmt, from);
4992}
4993
4994
4995#ifdef IEEE_DEBUG
4996
4997/* This is to be run on a host which uses IEEE floating point.  */
4998
4999void
5000ieee_test (double n)
5001{
5002  double result;
5003
5004  floatformat_to_double (&floatformat_ieee_double_little, (char *) &n,
5005                         &result);
5006  if ((n != result && (! isnan (n) || ! isnan (result)))
5007      || (n < 0 && result >= 0)
5008      || (n >= 0 && result < 0))
5009    printf ("Differ(to): %.20g -> %.20g\n", n, result);
5010
5011  floatformat_from_double (&floatformat_ieee_double_little, &n,
5012                           (char *) &result);
5013  if ((n != result && (! isnan (n) || ! isnan (result)))
5014      || (n < 0 && result >= 0)
5015      || (n >= 0 && result < 0))
5016    printf ("Differ(from): %.20g -> %.20g\n", n, result);
5017
5018#if 0
5019  {
5020    char exten[16];
5021
5022    floatformat_from_double (&floatformat_m68881_ext, &n, exten);
5023    floatformat_to_double (&floatformat_m68881_ext, exten, &result);
5024    if (n != result)
5025      printf ("Differ(to+from): %.20g -> %.20g\n", n, result);
5026  }
5027#endif
5028
5029#if IEEE_DEBUG > 1
5030  /* This is to be run on a host which uses 68881 format.  */
5031  {
5032    long double ex = *(long double *)exten;
5033    if (ex != n)
5034      printf ("Differ(from vs. extended): %.20g\n", n);
5035  }
5036#endif
5037}
5038
5039int
5040main (void)
5041{
5042  ieee_test (0.0);
5043  ieee_test (0.5);
5044  ieee_test (256.0);
5045  ieee_test (0.12345);
5046  ieee_test (234235.78907234);
5047  ieee_test (-512.0);
5048  ieee_test (-0.004321);
5049  ieee_test (1.2E-70);
5050  ieee_test (1.2E-316);
5051  ieee_test (4.9406564584124654E-324);
5052  ieee_test (- 4.9406564584124654E-324);
5053  ieee_test (- 0.0);
5054  ieee_test (- INFINITY);
5055  ieee_test (- NAN);
5056  ieee_test (INFINITY);
5057  ieee_test (NAN);
5058  return 0;
5059}
5060#endif
5061/* **** End of floatformat.c  */
5062