newlib/include/opcode/metag.h

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* common.h: Fix case of "Meta". * metag.h: New file. * dis-asm.h (print_insn_metag): New declaration. * metag.h: New file. * Makefile.am: Add Meta. * Makefile.in: Regenerate. * configure: Regenerate. * configure.in: Add Meta. * disassemble.c: Add Meta support. * metag-dis.c: New file. * Makefile.am: Add Meta. * Makefile.in: Regenerate. * archures.c (bfd_mach_metag): New. * bfd-in2.h: Regenerate. * config.bfd: Add Meta. * configure: Regenerate. * configure.in: Add Meta. * cpu-metag.c: New file. * elf-bfd.h: Add Meta. * elf32-metag.c: New file. * elf32-metag.h: New file. * libbfd.h: Regenerate. * reloc.c: Add Meta relocations. * targets.c: Add Meta. * Makefile.am: Add Meta. * Makefile.in: Regenerate. * config/tc-metag.c: New file. * config/tc-metag.h: New file. * configure.tgt: Add Meta. * doc/Makefile.am: Add Meta. * doc/Makefile.in: Regenerate. * doc/all.texi: Add Meta. * doc/as.texiinfo: Document Meta options. * doc/c-metag.texi: New file. * gas/metag/labelarithmetic.d: New file. * gas/metag/labelarithmetic.s: New file. * gas/metag/metacore12.d: New file. * gas/metag/metacore12.s: New file. * gas/metag/metacore21-invalid.l: New file. * gas/metag/metacore21-invalid.s: New file. * gas/metag/metacore21.d: New file. * gas/metag/metacore21.s: New file. * gas/metag/metacore21ext.d: New file. * gas/metag/metacore21ext.s: New file. * gas/metag/metadsp21-invalid.l: New file. * gas/metag/metadsp21-invalid.s: New file. * gas/metag/metadsp21.d: New file. * gas/metag/metadsp21.s: New file. * gas/metag/metadsp21ext.d: New file. * gas/metag/metadsp21ext.s: New file. * gas/metag/metafpu21.d: New file. * gas/metag/metafpu21.s: New file. * gas/metag/metafpu21ext.d: New file. * gas/metag/metafpu21ext.s: New file. * gas/metag/metag.exp: New file. * gas/metag/tls.d: New file. * gas/metag/tls.s: New file. * Makefile.am: Add Meta. * Makefile.in: Regenerate. * configure.tgt: Add Meta. * emulparams/elf32metag.sh: New file. * emultempl/metagelf.em: New file. * ld-elf/merge.d: Mark Meta as xfail. * ld-gc/start.d: Skip this test on Meta. * ld-gc/personality.d: Skip this test on Meta. * ld-metag/external.s: New file. * ld-metag/metag.exp: New file. * ld-metag/pcrel.d: New file. * ld-metag/pcrel.s: New file. * ld-metag/shared.d: New file. * ld-metag/shared.r: New file. * ld-metag/shared.s: New file. * ld-metag/stub.d: New file. * ld-metag/stub.s: New file. * ld-metag/stub_pic_app.d: New file. * ld-metag/stub_pic_app.r: New file. * ld-metag/stub_pic_app.s: New file. * ld-metag/stub_pic_shared.d: New file. * ld-metag/stub_pic_shared.s: New file. * ld-metag/stub_shared.d: New file. * ld-metag/stub_shared.r: New file. * ld-metag/stub_shared.s: New file. * binutils/readelf.c: (guess_is_rela): Add EM_METAG. (dump_relocations): Add EM_METAG. (get_machine_name): Correct case for Meta. (is_32bit_abs_reloc): Add support for Meta ADDR32 reloc. (is_none_reloc): Add support for Meta NONE reloc.
2013-01-10 10:49:18 +01:00
/* Imagination Technologies Meta opcode table.
Copyright (C) 2013 Free Software Foundation, Inc.
Contributed by Imagination Technologies Ltd.
This file is part of GDB and GAS.
GDB and GAS are free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 3, or (at
your option) any later version.
GDB and GAS are distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with GDB or GAS; see the file COPYING3. If not, write to the
Free Software Foundation, 51 Franklin Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
enum metag_unit
{
UNIT_CT,
UNIT_D0,
UNIT_D1,
UNIT_A0,
UNIT_A1,
UNIT_PC,
UNIT_RD,
UNIT_TR,
UNIT_TT,
UNIT_FX,
UNIT_DT, /* DSP Template Table */
UNIT_ACC_D0,
UNIT_ACC_D1,
UNIT_RAM_D0,
UNIT_RAM_D1,
};
typedef struct
{
const char * name;
enum metag_unit unit;
unsigned int no;
} metag_reg;
static const metag_reg metag_regtab[] =
{
{ "TXENABLE", UNIT_CT, 0 },
{ "CT.0", UNIT_CT, 0 },
{ "TXMODE", UNIT_CT, 1 },
{ "CT.1", UNIT_CT, 1 },
{ "TXSTATUS", UNIT_CT, 2 },
{ "CT.2", UNIT_CT, 2 },
{ "TXRPT", UNIT_CT, 3 },
{ "CT.3", UNIT_CT, 3 },
{ "TXTIMER", UNIT_CT, 4 },
{ "CT.4", UNIT_CT, 4 },
{ "TXL1START", UNIT_CT, 5 },
{ "CT.5", UNIT_CT, 5 },
{ "TXL1END", UNIT_CT, 6 },
{ "CT.6", UNIT_CT, 6 },
{ "TXL1COUNT", UNIT_CT, 7 },
{ "CT.7", UNIT_CT, 7 },
{ "TXL2START", UNIT_CT, 8 },
{ "CT.8", UNIT_CT, 8 },
{ "TXL2END", UNIT_CT, 9 },
{ "CT.9", UNIT_CT, 9 },
{ "TXL2COUNT", UNIT_CT, 10 },
{ "CT.10", UNIT_CT, 10 },
{ "TXBPOBITS", UNIT_CT, 11 },
{ "CT.11", UNIT_CT, 11 },
{ "TXMRSIZE", UNIT_CT, 12 },
{ "CT.12", UNIT_CT, 12 },
{ "TXTIMERI", UNIT_CT, 13 },
{ "CT.13", UNIT_CT, 13 },
{ "TXDRCTRL", UNIT_CT, 14 },
{ "CT.14", UNIT_CT, 14 },
{ "TXDRSIZE", UNIT_CT, 15 },
{ "CT.15", UNIT_CT, 15 },
{ "TXCATCH0", UNIT_CT, 16 },
{ "CT.16", UNIT_CT, 16 },
{ "TXCATCH1", UNIT_CT, 17 },
{ "CT.17", UNIT_CT, 17 },
{ "TXCATCH2", UNIT_CT, 18 },
{ "CT.18", UNIT_CT, 18 },
{ "TXCATCH3", UNIT_CT, 19 },
{ "CT.19", UNIT_CT, 19 },
{ "TXDEFR", UNIT_CT, 20 },
{ "CT.20", UNIT_CT, 20 },
{ "TXCPRS", UNIT_CT, 21 },
{ "CT.21", UNIT_CT, 21 },
{ "TXCLKCTRL", UNIT_CT, 22 },
{ "CT.22", UNIT_CT, 22 },
{ "TXINTERN0", UNIT_CT, 23 },
{ "TXSTATE", UNIT_CT, 23 },
{ "CT.23", UNIT_CT, 23 },
{ "TXAMAREG0", UNIT_CT, 24 },
{ "CT.24", UNIT_CT, 24 },
{ "TXAMAREG1", UNIT_CT, 25 },
{ "CT.25", UNIT_CT, 25 },
{ "TXAMAREG2", UNIT_CT, 26 },
{ "CT.26", UNIT_CT, 26 },
{ "TXAMAREG3", UNIT_CT, 27 },
{ "CT.27", UNIT_CT, 27 },
{ "TXDIVTIME", UNIT_CT, 28 },
{ "CT.28", UNIT_CT, 28 },
{ "TXPRIVEXT", UNIT_CT, 29 },
{ "CT.29", UNIT_CT, 29 },
{ "TXTACTCYC", UNIT_CT, 30 },
{ "TXACTCYC", UNIT_CT, 30 },
{ "CT.30", UNIT_CT, 30 },
{ "TXIDLECYC", UNIT_CT, 31 },
{ "CT.31", UNIT_CT, 31 },
{ "D0Re0", UNIT_D0, 0 },
{ "D0.0", UNIT_D0, 0 },
{ "D0Ar6", UNIT_D0, 1 },
{ "D0.1", UNIT_D0, 1 },
{ "D0Ar4", UNIT_D0, 2 },
{ "D0.2", UNIT_D0, 2 },
{ "D0Ar2", UNIT_D0, 3 },
{ "D0.3", UNIT_D0, 3 },
{ "D0FrT", UNIT_D0, 4 },
{ "D0.4", UNIT_D0, 4 },
{ "D0.5", UNIT_D0, 5 },
{ "D0.6", UNIT_D0, 6 },
{ "D0.7", UNIT_D0, 7 },
{ "D0.8", UNIT_D0, 8 },
{ "D0.9", UNIT_D0, 9 },
{ "D0.10", UNIT_D0, 10 },
{ "D0.11", UNIT_D0, 11 },
{ "D0.12", UNIT_D0, 12 },
{ "D0.13", UNIT_D0, 13 },
{ "D0.14", UNIT_D0, 14 },
{ "D0.15", UNIT_D0, 15 },
{ "D0.16", UNIT_D0, 16 },
{ "D0.17", UNIT_D0, 17 },
{ "D0.18", UNIT_D0, 18 },
{ "D0.19", UNIT_D0, 19 },
{ "D0.20", UNIT_D0, 20 },
{ "D0.21", UNIT_D0, 21 },
{ "D0.22", UNIT_D0, 22 },
{ "D0.23", UNIT_D0, 23 },
{ "D0.24", UNIT_D0, 24 },
{ "D0.25", UNIT_D0, 25 },
{ "D0.26", UNIT_D0, 26 },
{ "D0.27", UNIT_D0, 27 },
{ "D0.28", UNIT_D0, 28 },
{ "D0.29", UNIT_D0, 29 },
{ "D0.30", UNIT_D0, 30 },
{ "D0.31", UNIT_D0, 31 },
{ "D1Re0", UNIT_D1, 0 },
{ "D1.0", UNIT_D1, 0 },
{ "D1Ar5", UNIT_D1, 1 },
{ "D1.1", UNIT_D1, 1 },
{ "D1Ar3", UNIT_D1, 2 },
{ "D1.2", UNIT_D1, 2 },
{ "D1Ar1", UNIT_D1, 3 },
{ "D1.3", UNIT_D1, 3 },
{ "D1RtP", UNIT_D1, 4 },
{ "D1.4", UNIT_D1, 4 },
{ "D1.5", UNIT_D1, 5 },
{ "D1.6", UNIT_D1, 6 },
{ "D1.7", UNIT_D1, 7 },
{ "D1.8", UNIT_D1, 8 },
{ "D1.9", UNIT_D1, 9 },
{ "D1.10", UNIT_D1, 10 },
{ "D1.11", UNIT_D1, 11 },
{ "D1.12", UNIT_D1, 12 },
{ "D1.13", UNIT_D1, 13 },
{ "D1.14", UNIT_D1, 14 },
{ "D1.15", UNIT_D1, 15 },
{ "D1.16", UNIT_D1, 16 },
{ "D1.17", UNIT_D1, 17 },
{ "D1.18", UNIT_D1, 18 },
{ "D1.19", UNIT_D1, 19 },
{ "D1.20", UNIT_D1, 20 },
{ "D1.21", UNIT_D1, 21 },
{ "D1.22", UNIT_D1, 22 },
{ "D1.23", UNIT_D1, 23 },
{ "D1.24", UNIT_D1, 24 },
{ "D1.25", UNIT_D1, 25 },
{ "D1.26", UNIT_D1, 26 },
{ "D1.27", UNIT_D1, 27 },
{ "D1.28", UNIT_D1, 28 },
{ "D1.29", UNIT_D1, 29 },
{ "D1.30", UNIT_D1, 30 },
{ "D1.31", UNIT_D1, 31 },
{ "A0StP", UNIT_A0, 0 },
{ "A0.0", UNIT_A0, 0 },
{ "A0FrP", UNIT_A0, 1 },
{ "A0.1", UNIT_A0, 1 },
{ "A0.2", UNIT_A0, 2 },
{ "A0.3", UNIT_A0, 3 },
{ "A0.4", UNIT_A0, 4 },
{ "A0.5", UNIT_A0, 5 },
{ "A0.6", UNIT_A0, 6 },
{ "A0.7", UNIT_A0, 7 },
{ "A0.8", UNIT_A0, 8 },
{ "A0.9", UNIT_A0, 9 },
{ "A0.10", UNIT_A0, 10 },
{ "A0.11", UNIT_A0, 11 },
{ "A0.12", UNIT_A0, 12 },
{ "A0.13", UNIT_A0, 13 },
{ "A0.14", UNIT_A0, 14 },
{ "A0.15", UNIT_A0, 15 },
{ "CPC0", UNIT_A0, 16 },
{ "A1GbP", UNIT_A1, 0 },
{ "A1.0", UNIT_A1, 0 },
{ "A1LbP", UNIT_A1, 1 },
{ "A1.1", UNIT_A1, 1 },
{ "A1.2", UNIT_A1, 2 },
{ "A1.3", UNIT_A1, 3 },
{ "A1.4", UNIT_A1, 4 },
{ "A1.5", UNIT_A1, 5 },
{ "A1.6", UNIT_A1, 6 },
{ "A1.7", UNIT_A1, 7 },
{ "A1.8", UNIT_A1, 8 },
{ "A1.9", UNIT_A1, 9 },
{ "A1.10", UNIT_A1, 10 },
{ "A1.11", UNIT_A1, 11 },
{ "A1.12", UNIT_A1, 12 },
{ "A1.13", UNIT_A1, 13 },
{ "A1.14", UNIT_A1, 14 },
{ "A1.15", UNIT_A1, 15 },
{ "CPC1", UNIT_A1, 16 },
{ "PC", UNIT_PC, 0 },
{ "PCX", UNIT_PC, 1 },
{ "RD", UNIT_RD, 0 },
{ "RA", UNIT_RD, 16 },
{ "RD", UNIT_RD, 16 },
{ "RAPF", UNIT_RD, 17 },
{ "RAM8X32", UNIT_RD, 22 },
{ "RAM8X", UNIT_RD, 23 },
{ "RABZ", UNIT_RD, 24 },
{ "RAWZ", UNIT_RD, 25 },
{ "RADZ", UNIT_RD, 26 },
{ "RABX", UNIT_RD, 28 },
{ "RAWX", UNIT_RD, 29 },
{ "RADX", UNIT_RD, 30 },
{ "RAMX", UNIT_RD, 31 },
{ "RAM16X", UNIT_RD, 31 },
{ "TXSTAT", UNIT_TR, 0 },
{ "TR.0", UNIT_TR, 0 },
{ "TXMASK", UNIT_TR, 1 },
{ "TR.1", UNIT_TR, 1 },
{ "TXSTATI", UNIT_TR, 2 },
{ "TR.2", UNIT_TR, 2 },
{ "TXMASKI", UNIT_TR, 3 },
{ "TR.3", UNIT_TR, 3 },
{ "TXPOLL", UNIT_TR, 4 },
{ "TR.4", UNIT_TR, 4 },
{ "TXGPIOI", UNIT_TR, 5 },
{ "TR.5", UNIT_TR, 5 },
{ "TXPOLLI", UNIT_TR, 6 },
{ "TR.6", UNIT_TR, 6 },
{ "TXGPIOO", UNIT_TR, 7 },
{ "TR.7", UNIT_TR, 7 },
{ "TTEXEC", UNIT_TT, 0 },
{ "TT.0", UNIT_TT, 0 },
{ "TTCTRL", UNIT_TT, 1 },
{ "TT.1", UNIT_TT, 1 },
{ "TTMARK", UNIT_TT, 2 },
{ "TT.2", UNIT_TT, 2 },
{ "TTREC", UNIT_TT, 3 },
{ "TT.3", UNIT_TT, 3 },
{ "GTEXEC", UNIT_TT, 4 },
{ "TT.4", UNIT_TT, 4 },
{ "FX.0", UNIT_FX, 0 },
{ "FX.1", UNIT_FX, 1 },
{ "FX.2", UNIT_FX, 2 },
{ "FX.3", UNIT_FX, 3 },
{ "FX.4", UNIT_FX, 4 },
{ "FX.5", UNIT_FX, 5 },
{ "FX.6", UNIT_FX, 6 },
{ "FX.7", UNIT_FX, 7 },
{ "FX.8", UNIT_FX, 8 },
{ "FX.9", UNIT_FX, 9 },
{ "FX.10", UNIT_FX, 10 },
{ "FX.11", UNIT_FX, 11 },
{ "FX.12", UNIT_FX, 12 },
{ "FX.13", UNIT_FX, 13 },
{ "FX.14", UNIT_FX, 14 },
{ "FX.15", UNIT_FX, 15 },
};
static const metag_reg metag_dsp_regtab[] =
{
{ "D0AR.0", UNIT_RAM_D0, 0 },
{ "D0AR.1", UNIT_RAM_D0, 1 },
{ "D0AW.0", UNIT_RAM_D0, 2 },
{ "D0AW.1", UNIT_RAM_D0, 3 },
{ "D0BR.0", UNIT_RAM_D0, 4 },
{ "D0BR.1", UNIT_RAM_D0, 5 },
{ "D0BW.0", UNIT_RAM_D0, 6 },
{ "D0BW.1", UNIT_RAM_D0, 7 },
{ "D0ARI.0", UNIT_RAM_D0, 8 },
{ "D0ARI.1", UNIT_RAM_D0, 9 },
{ "D0AWI.0", UNIT_RAM_D0, 10 },
{ "D0AWI.1", UNIT_RAM_D0, 11 },
{ "D0BRI.0", UNIT_RAM_D0, 12 },
{ "D0BRI.1", UNIT_RAM_D0, 13 },
{ "D0BWI.0", UNIT_RAM_D0, 14 },
{ "D0BWI.1", UNIT_RAM_D0, 15 },
{ "AC0.0", UNIT_ACC_D0, 16 },
{ "AC0.1", UNIT_ACC_D0, 17 },
{ "AC0.2", UNIT_ACC_D0, 18 },
{ "AC0.3", UNIT_ACC_D0, 19 },
{ "D1AR.0", UNIT_RAM_D1, 0 },
{ "D1AR.1", UNIT_RAM_D1, 1 },
{ "D1AW.0", UNIT_RAM_D1, 2 },
{ "D1AW.1", UNIT_RAM_D1, 3 },
{ "D1BR.0", UNIT_RAM_D1, 4 },
{ "D1BR.1", UNIT_RAM_D1, 5 },
{ "D1BW.0", UNIT_RAM_D1, 6 },
{ "D1BW.1", UNIT_RAM_D1, 7 },
{ "D1ARI.0", UNIT_RAM_D1, 8 },
{ "D1ARI.1", UNIT_RAM_D1, 9 },
{ "D1AWI.0", UNIT_RAM_D1, 10 },
{ "D1AWI.1", UNIT_RAM_D1, 11 },
{ "D1BRI.0", UNIT_RAM_D1, 12 },
{ "D1BRI.1", UNIT_RAM_D1, 13 },
{ "D1BWI.0", UNIT_RAM_D1, 14 },
{ "D1BWI.1", UNIT_RAM_D1, 15 },
{ "AC1.0", UNIT_ACC_D1, 16 },
{ "AC1.1", UNIT_ACC_D1, 17 },
{ "AC1.2", UNIT_ACC_D1, 18 },
{ "AC1.3", UNIT_ACC_D1, 19 },
{ "T0", UNIT_DT, 0 },
{ "T1", UNIT_DT, 1 },
{ "T2", UNIT_DT, 2 },
{ "T3", UNIT_DT, 3 },
{ "T4", UNIT_DT, 4 },
{ "T5", UNIT_DT, 5 },
{ "T6", UNIT_DT, 6 },
{ "T7", UNIT_DT, 7 },
{ "T8", UNIT_DT, 8 },
{ "T9", UNIT_DT, 9 },
{ "TA", UNIT_DT, 10 },
{ "TB", UNIT_DT, 11 },
{ "TC", UNIT_DT, 12 },
{ "TD", UNIT_DT, 13 },
{ "TE", UNIT_DT, 14 },
{ "TF", UNIT_DT, 15 },
};
/* This table differs from 'metag_dsp_regtab' in that the number
fields in this table are suitable for insertion into DSPRAM
template definition instruction encodings.
The table is indexed by "load". The main benefit of this is that we
can implicitly check that the correct DSPRAM register has been used
when parsing, e.g. the read pointer only appears in the load table
and the write pointer only exists in the store table.
The ordering of the table entries might look a bit weird but it is
based on matching the longest register string. */
static const metag_reg metag_dsp_tmpl_regtab[2][56] =
{
{
{ "D0AW.0+D0AWI.0++", UNIT_RAM_D0, 18 },
{ "D0AW.0+D0AWI.0", UNIT_RAM_D0, 18 },
{ "D0AW.0+D0AWI.1++", UNIT_RAM_D0, 19 },
{ "D0AW.0+D0AWI.1", UNIT_RAM_D0, 19 },
{ "D0AW.0++", UNIT_RAM_D0, 17 },
{ "D0AW.0", UNIT_RAM_D0, 16 },
{ "D0AWI.0", UNIT_RAM_D0, 18 },
{ "D0AWI.1", UNIT_RAM_D0, 19 },
{ "D0AW.1+D0AWI.0++", UNIT_RAM_D0, 22 },
{ "D0AW.1+D0AWI.0", UNIT_RAM_D0, 22 },
{ "D0AW.1+D0AWI.1++", UNIT_RAM_D0, 23 },
{ "D0AW.1+D0AWI.1", UNIT_RAM_D0, 23 },
{ "D0AW.1++", UNIT_RAM_D0, 21 },
{ "D0AW.1", UNIT_RAM_D0, 20 },
{ "D0BW.0+D0BWI.0++", UNIT_RAM_D0, 26 },
{ "D0BW.0+D0BWI.0", UNIT_RAM_D0, 26 },
{ "D0BW.0+D0BWI.1++", UNIT_RAM_D0, 27 },
{ "D0BW.0+D0BWI.1", UNIT_RAM_D0, 27 },
{ "D0BW.0++", UNIT_RAM_D0, 25 },
{ "D0BW.0", UNIT_RAM_D0, 24 },
{ "D0BWI.0", UNIT_RAM_D0, 18 },
{ "D0BWI.1", UNIT_RAM_D0, 19 },
{ "D0BW.1+D0BWI.0++", UNIT_RAM_D0, 30 },
{ "D0BW.1+D0BWI.0", UNIT_RAM_D0, 30 },
{ "D0BW.1+D0BWI.1++", UNIT_RAM_D0, 31 },
{ "D0BW.1+D0BWI.1", UNIT_RAM_D0, 31 },
{ "D0BW.1++", UNIT_RAM_D0, 29 },
{ "D0BW.1", UNIT_RAM_D0, 28 },
{ "D1AW.0+D1AWI.0++", UNIT_RAM_D1, 18 },
{ "D1AW.0+D1AWI.0", UNIT_RAM_D1, 18 },
{ "D1AW.0+D1AWI.1++", UNIT_RAM_D1, 19 },
{ "D1AW.0+D1AWI.1", UNIT_RAM_D1, 19 },
{ "D1AW.0++", UNIT_RAM_D1, 17 },
{ "D1AW.0", UNIT_RAM_D1, 16 },
{ "D1AWI.0", UNIT_RAM_D1, 18 },
{ "D1AWI.1", UNIT_RAM_D1, 19 },
{ "D1AW.1+D1AWI.0++", UNIT_RAM_D1, 22 },
{ "D1AW.1+D1AWI.0", UNIT_RAM_D1, 22 },
{ "D1AW.1+D1AWI.1++", UNIT_RAM_D1, 23 },
{ "D1AW.1+D1AWI.1", UNIT_RAM_D1, 23 },
{ "D1AW.1++", UNIT_RAM_D1, 21 },
{ "D1AW.1", UNIT_RAM_D1, 20 },
{ "D1BW.0+D1BWI.0++", UNIT_RAM_D1, 26 },
{ "D1BW.0+D1BWI.0", UNIT_RAM_D1, 26 },
{ "D1BW.0+D1BWI.1++", UNIT_RAM_D1, 27 },
{ "D1BW.0+D1BWI.1", UNIT_RAM_D1, 27 },
{ "D1BW.0++", UNIT_RAM_D1, 25 },
{ "D1BW.0", UNIT_RAM_D1, 24 },
{ "D1BWI.0", UNIT_RAM_D1, 18 },
{ "D1BWI.1", UNIT_RAM_D1, 19 },
{ "D1BW.1+D1BWI.0++", UNIT_RAM_D1, 30 },
{ "D1BW.1+D1BWI.0", UNIT_RAM_D1, 30 },
{ "D1BW.1+D1BWI.1++", UNIT_RAM_D1, 31 },
{ "D1BW.1+D1BWI.1", UNIT_RAM_D1, 31 },
{ "D1BW.1++", UNIT_RAM_D1, 29 },
{ "D1BW.1", UNIT_RAM_D1, 28 },
},
{
{ "D0AR.0+D0ARI.0++", UNIT_RAM_D0, 18 },
{ "D0AR.0+D0ARI.0", UNIT_RAM_D0, 18 },
{ "D0AR.0+D0ARI.1++", UNIT_RAM_D0, 19 },
{ "D0AR.0+D0ARI.1", UNIT_RAM_D0, 19 },
{ "D0AR.0++", UNIT_RAM_D0, 17 },
{ "D0AR.0", UNIT_RAM_D0, 16 },
{ "D0ARI.0", UNIT_RAM_D0, 18 },
{ "D0ARI.1", UNIT_RAM_D0, 19 },
{ "D0AR.1+D0ARI.0++", UNIT_RAM_D0, 22 },
{ "D0AR.1+D0ARI.0", UNIT_RAM_D0, 22 },
{ "D0AR.1+D0ARI.1++", UNIT_RAM_D0, 23 },
{ "D0AR.1+D0ARI.1", UNIT_RAM_D0, 23 },
{ "D0AR.1++", UNIT_RAM_D0, 21 },
{ "D0AR.1", UNIT_RAM_D0, 20 },
{ "D0BR.0+D0BRI.0++", UNIT_RAM_D0, 26 },
{ "D0BR.0+D0BRI.0", UNIT_RAM_D0, 26 },
{ "D0BR.0+D0BRI.1++", UNIT_RAM_D0, 27 },
{ "D0BR.0+D0BRI.1", UNIT_RAM_D0, 27 },
{ "D0BR.0++", UNIT_RAM_D0, 25 },
{ "D0BR.0", UNIT_RAM_D0, 24 },
{ "D0BRI.0", UNIT_RAM_D0, 18 },
{ "D0BRI.1", UNIT_RAM_D0, 19 },
{ "D0BR.1+D0BRI.0++", UNIT_RAM_D0, 30 },
{ "D0BR.1+D0BRI.0", UNIT_RAM_D0, 30 },
{ "D0BR.1+D0BRI.1++", UNIT_RAM_D0, 31 },
{ "D0BR.1+D0BRI.1", UNIT_RAM_D0, 31 },
{ "D0BR.1++", UNIT_RAM_D0, 29 },
{ "D0BR.1", UNIT_RAM_D0, 28 },
{ "D1AR.0+D1ARI.0++", UNIT_RAM_D1, 18 },
{ "D1AR.0+D1ARI.0", UNIT_RAM_D1, 18 },
{ "D1AR.0+D1ARI.1++", UNIT_RAM_D1, 19 },
{ "D1AR.0+D1ARI.1", UNIT_RAM_D1, 19 },
{ "D1AR.0++", UNIT_RAM_D1, 17 },
{ "D1AR.0", UNIT_RAM_D1, 16 },
{ "D1ARI.0", UNIT_RAM_D1, 18 },
{ "D1ARI.1", UNIT_RAM_D1, 19 },
{ "D1AR.1+D1ARI.0++", UNIT_RAM_D1, 22 },
{ "D1AR.1+D1ARI.0", UNIT_RAM_D1, 22 },
{ "D1AR.1+D1ARI.1++", UNIT_RAM_D1, 23 },
{ "D1AR.1+D1ARI.1", UNIT_RAM_D1, 23 },
{ "D1AR.1++", UNIT_RAM_D1, 21 },
{ "D1AR.1", UNIT_RAM_D1, 20 },
{ "D1BR.0+D1BRI.0++", UNIT_RAM_D1, 26 },
{ "D1BR.0+D1BRI.0", UNIT_RAM_D1, 26 },
{ "D1BR.0+D1BRI.1++", UNIT_RAM_D1, 27 },
{ "D1BR.0+D1BRI.1", UNIT_RAM_D1, 27 },
{ "D1BR.0++", UNIT_RAM_D1, 25 },
{ "D1BR.0", UNIT_RAM_D1, 24 },
{ "D1BR.1+D1BRI.0++", UNIT_RAM_D1, 30 },
{ "D1BR.1+D1BRI.0", UNIT_RAM_D1, 30 },
{ "D1BR.1+D1BRI.1++", UNIT_RAM_D1, 31 },
{ "D1BR.1+D1BRI.1", UNIT_RAM_D1, 31 },
{ "D1BR.1++", UNIT_RAM_D1, 29 },
{ "D1BR.1", UNIT_RAM_D1, 28 },
{ "D1BRI.0", UNIT_RAM_D1, 18 },
{ "D1BRI.1", UNIT_RAM_D1, 19 },
},
};
typedef struct
{
const char * name;
unsigned int part;
} metag_acf;
static const metag_acf metag_acftab[] =
{
{ "ACF.0", 0},
{ "ACF.1", 1},
{ "ACF.2", 2},
{ "ACF.3", 3},
};
enum insn_encoding
{
ENC_NONE,
ENC_MOV_U2U,
ENC_MOV_PORT,
ENC_MMOV,
ENC_MDRD,
ENC_MOVL_TTREC,
ENC_GET_SET,
ENC_GET_SET_EXT,
ENC_MGET_MSET,
ENC_COND_SET,
ENC_XFR,
ENC_MOV_CT,
ENC_SWAP,
ENC_JUMP,
ENC_CALLR,
ENC_ALU,
ENC_SHIFT,
ENC_MIN_MAX,
ENC_BITOP,
ENC_CMP,
ENC_BRANCH,
ENC_KICK,
ENC_SWITCH,
ENC_CACHER,
ENC_CACHEW,
ENC_ICACHE,
ENC_LNKGET,
ENC_FMOV,
ENC_FMMOV,
ENC_FMOV_DATA,
ENC_FMOV_I,
ENC_FPACK,
ENC_FSWAP,
ENC_FCMP,
ENC_FMINMAX,
ENC_FCONV,
ENC_FCONVX,
ENC_FBARITH,
ENC_FEARITH,
ENC_FREC,
ENC_FSIMD,
ENC_FGET_SET_ACF,
ENC_DGET_SET,
ENC_DTEMPLATE,
ENC_DALU,
ENC_MAX,
};
enum insn_type
{
INSN_GP,
INSN_FPU,
INSN_DSP,
INSN_DSP_FPU,
};
typedef struct
{
const char *name;
unsigned int core_flags;
#define CoreMeta11 0x1 /* The earliest Meta core we support */
#define CoreMeta12 0x2
#define CoreMeta21 0x4
#define FpuMeta21 0x21
#define DspMeta21 0x100
unsigned int meta_opcode;
unsigned int meta_mask;
enum insn_type insn_type;
enum insn_encoding encoding;
#define DSP_ARGS_1 0x0000001 /* De.r,Dx.r,De.r (3 register operands) */
#define DSP_ARGS_ACC2 0x0000002 /* Accumulator source operand 2 */
#define DSP_ARGS_QR 0x0000004 /* QUICKRoT */
#define DSP_ARGS_XACC 0x0000008 /* Cross-unit accumulator op */
#define DSP_ARGS_DACC 0x0000010 /* Target accumulator as destination */
#define DSP_ARGS_SRD 0x0000020 /* Source the RD port */
#define DSP_ARGS_2 0x0000040 /* De.r,Dx.r (2 register operands) */
#define DSP_ARGS_DSP_SRC1 0x0000080 /* Source a DSP register */
#define DSP_ARGS_DSP_SRC2 0x0000100 /* Source a DSP register */
#define DSP_ARGS_IMM 0x0000200 /* Immediate value for src 2 */
#define DSP_ARGS_SPLIT8 0x0000400 /* Data unit split 8 operations */
#define DSP_ARGS_12 0x0000800 /* De.r,Dx.r */
#define DSP_ARGS_13 0x0001000 /* Dx.r,Rx.r */
#define DSP_ARGS_14 0x0002000 /* DSPe.r,Dx.r */
#define DSP_ARGS_15 0x0004000 /* DSPx.r,#I16 */
#define DSP_ARGS_16 0x0008000 /* De.r,DSPx.r */
#define DSP_ARGS_17 0x0010000 /* De.r|ACe.r,Dx.r,Rx.r|RD */
#define DSP_ARGS_18 0x0020000 /* De.r,Dx.r|ACx.r */
#define DSP_ARGS_20 0x0080000 /* De.r,Dx.r|ACx.r,De.r */
#define DSP_ARGS_21 0x0100000 /* De.r,Dx.r|ACx.r,#I5 */
#define DSP_ARGS_22 0x0200000 /* De.r,Dx.r|ACx.r,De.r|#I5 */
#define DSP_ARGS_23 0x0400000 /* Ux.r,Dx.r|ACx.r,De.r|#I5 */
#define GP_ARGS_QR 0x0000001 /* QUICKRoT */
unsigned int arg_type;
} insn_template;
enum major_opcode
{
OPC_ADD,
OPC_SUB,
OPC_AND,
OPC_OR,
OPC_XOR,
OPC_SHIFT,
OPC_MUL,
OPC_CMP,
OPC_ADDR,
OPC_9,
OPC_MISC,
OPC_SET,
OPC_GET,
OPC_XFR,
OPC_CPR,
OPC_FPU,
};
#define GET_EXT_MINOR 0x7
#define MOV_EXT_MINOR 0x6
#define MOVL_MINOR 0x2
#define MAJOR_OPCODE(opcode) (((opcode) >> 28) & 0xf)
#define MINOR_OPCODE(opcode) (((opcode) >> 24) & 0xf)
enum cond_code
{
COND_A,
COND_EQ,
COND_NE,
COND_CS,
COND_CC,
COND_MI,
COND_PL,
COND_VS,
COND_VC,
COND_HI,
COND_LS,
COND_GE,
COND_LT,
COND_GT,
COND_LE,
COND_NV,
};
enum scond_code
{
SCOND_A,
SCOND_LEQ,
SCOND_LNE,
SCOND_LLO,
SCOND_LHS,
SCOND_HEQ,
SCOND_HNE,
SCOND_HLO,
SCOND_HHS,
SCOND_LGR,
SCOND_LLE,
SCOND_HGR,
SCOND_HLE,
SCOND_EEQ,
SCOND_ELO,
SCOND_NV,
};
typedef struct
{
const char *name;
enum scond_code code;
} split_condition;
static const split_condition metag_scondtab[] =
{
{ "LEQ", SCOND_LEQ },
{ "LEZ", SCOND_LEQ },
{ "LNE", SCOND_LNE },
{ "LNZ", SCOND_LNE },
{ "LLO", SCOND_LLO },
{ "LCS", SCOND_LLO },
{ "LHS", SCOND_LHS },
{ "LCC", SCOND_LHS },
{ "HEQ", SCOND_HEQ },
{ "HEZ", SCOND_HEQ },
{ "HNE", SCOND_HNE },
{ "HNZ", SCOND_HNE },
{ "HLO", SCOND_HLO },
{ "HCS", SCOND_HLO },
{ "HHS", SCOND_HHS },
{ "HCC", SCOND_HHS },
{ "LGR", SCOND_LGR },
{ "LHI", SCOND_LGR },
{ "LLE", SCOND_LLE },
{ "LLS", SCOND_LLE },
{ "HGR", SCOND_HGR },
{ "HHI", SCOND_HGR },
{ "HLE", SCOND_HLE },
{ "HLS", SCOND_HLE },
{ "EEQ", SCOND_EEQ },
{ "EEZ", SCOND_EEQ },
{ "ELO", SCOND_ELO },
{ "ECS", SCOND_ELO },
};
static const split_condition metag_dsp_scondtab[] =
{
{ "LEQ", SCOND_LEQ },
{ "LEZ", SCOND_LEQ },
{ "LNE", SCOND_LNE },
{ "LNZ", SCOND_LNE },
{ "LCS", SCOND_LLO },
{ "LLO", SCOND_LLO },
{ "LCC", SCOND_LHS },
{ "LHS", SCOND_LHS },
{ "HEQ", SCOND_HEQ },
{ "HEZ", SCOND_HEQ },
{ "HNE", SCOND_HNE },
{ "HNZ", SCOND_HNE },
{ "HCS", SCOND_HLO },
{ "HLO", SCOND_HLO },
{ "HCC", SCOND_HHS },
{ "HHS", SCOND_HHS },
{ "LHI", SCOND_LGR },
{ "LGR", SCOND_LGR },
{ "LLS", SCOND_LLE },
{ "LLE", SCOND_LLE },
{ "HHI", SCOND_HGR },
{ "HGR", SCOND_HGR },
{ "HLS", SCOND_HLE },
{ "HLE", SCOND_HLE },
{ "EEQ", SCOND_EEQ },
{ "EEZ", SCOND_EEQ },
{ "ECS", SCOND_ELO },
{ "ELO", SCOND_ELO },
};
static const split_condition metag_fpu_scondtab[] =
{
{ "LEQ", SCOND_LEQ },
{ "LEZ", SCOND_LEQ },
{ "LNE", SCOND_LNE },
{ "LNZ", SCOND_LNE },
{ "LLO", SCOND_LLO },
{ "LCS", SCOND_LLO },
{ "LHS", SCOND_LHS },
{ "LCC", SCOND_LHS },
{ "HEQ", SCOND_HEQ },
{ "HEZ", SCOND_HEQ },
{ "HNE", SCOND_HNE },
{ "HNZ", SCOND_HNE },
{ "HLO", SCOND_HLO },
{ "HCS", SCOND_HLO },
{ "HHS", SCOND_HHS },
{ "HCC", SCOND_HHS },
{ "LGR", SCOND_LGR },
{ "LHI", SCOND_LGR },
{ "LLE", SCOND_LLE },
{ "LLS", SCOND_LLE },
{ "HGR", SCOND_HGR },
{ "HHI", SCOND_HGR },
{ "HLE", SCOND_HLE },
{ "HLS", SCOND_HLE },
{ "EEQ", SCOND_EEQ },
{ "EEZ", SCOND_EEQ },
{ "ELO", SCOND_ELO },
{ "ECS", SCOND_ELO },
};
enum fcond_code
{
FCOND_A,
FCOND_FEQ,
FCOND_UNE,
FCOND_FLT,
FCOND_UGE,
FCOND_UVS = 7,
FCOND_FVC,
FCOND_UGT,
FCOND_FLE,
FCOND_FGE,
FCOND_ULT,
FCOND_FGT,
FCOND_ULE,
FCOND_NV,
};
#define COND_INSN(mnemonic, suffix, field_shift, flags, meta_opcode, \
meta_mask, insn_type, encoding, args) \
{ mnemonic suffix, flags, meta_opcode, meta_mask, \
insn_type, encoding, args }, \
{ mnemonic "A" suffix, flags, meta_opcode, meta_mask, \
insn_type, encoding, args }, \
{ mnemonic "EQ" suffix, flags, meta_opcode | (COND_EQ << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "Z" suffix, flags, meta_opcode | (COND_EQ << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "NE" suffix, flags, meta_opcode | (COND_NE << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "NZ" suffix, flags, meta_opcode | (COND_NE << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "CS" suffix, flags, meta_opcode | (COND_CS << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "LO" suffix, flags, meta_opcode | (COND_CS << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "CC" suffix, flags, meta_opcode | (COND_CC << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "HS" suffix, flags, meta_opcode | (COND_CC << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "MI" suffix, flags, meta_opcode | (COND_MI << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "N" suffix, flags, meta_opcode | (COND_MI << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "PL" suffix, flags, meta_opcode | (COND_PL << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "NC" suffix, flags, meta_opcode | (COND_PL << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "VS" suffix, flags, meta_opcode | (COND_VS << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "VC" suffix, flags, meta_opcode | (COND_VC << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "HI" suffix, flags, meta_opcode | (COND_HI << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "LS" suffix, flags, meta_opcode | (COND_LS << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "GE" suffix, flags, meta_opcode | (COND_GE << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "LT" suffix, flags, meta_opcode | (COND_LT << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "GT" suffix, flags, meta_opcode | (COND_GT << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "LE" suffix, flags, meta_opcode | (COND_LE << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "NV" suffix, flags, meta_opcode | (COND_NV << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "FEQ" suffix, flags, meta_opcode | \
(FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FZ" suffix, flags, meta_opcode | \
(FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UNE" suffix, flags, meta_opcode | \
(FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UNZ" suffix, flags, meta_opcode | \
(FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FLT" suffix, flags, meta_opcode | \
(FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FLO" suffix, flags, meta_opcode | \
(FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UGE" suffix, flags, meta_opcode | \
(FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UHS" suffix, flags, meta_opcode | \
(FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UVS" suffix, flags, meta_opcode | \
(FCOND_UVS << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FVC" suffix, flags, meta_opcode | \
(FCOND_FVC << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UGT" suffix, flags, meta_opcode | \
(FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UHI" suffix, flags, meta_opcode | \
(FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FLE" suffix, flags, meta_opcode | \
(FCOND_FLE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FGE" suffix, flags, meta_opcode | \
(FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FHS" suffix, flags, meta_opcode | \
(FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "ULT" suffix, flags, meta_opcode | \
(FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "ULO" suffix, flags, meta_opcode | \
(FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FGT" suffix, flags, meta_opcode | \
(FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FHI" suffix, flags, meta_opcode | \
(FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "ULE" suffix, flags, meta_opcode | \
(FCOND_ULE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "NV" suffix, flags, meta_opcode | \
(FCOND_NV << field_shift), meta_mask, INSN_FPU, encoding, args }
#define FCOND_INSN(mnemonic, suffix, field_shift, flags, meta_opcode, \
meta_mask, insn_type, encoding, args) \
{ mnemonic suffix, flags, meta_opcode, meta_mask, \
insn_type, encoding, args }, \
{ mnemonic "A" suffix, flags, meta_opcode, meta_mask, \
insn_type, encoding, args }, \
{ mnemonic "FEQ" suffix, flags, meta_opcode | \
(FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FZ" suffix, flags, meta_opcode | \
(FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UNE" suffix, flags, meta_opcode | \
(FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UNZ" suffix, flags, meta_opcode | \
(FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FLO" suffix, flags, meta_opcode | \
(FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FLT" suffix, flags, meta_opcode | \
(FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UHS" suffix, flags, meta_opcode | \
(FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UGE" suffix, flags, meta_opcode | \
(FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UVS" suffix, flags, meta_opcode | \
(FCOND_UVS << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FVC" suffix, flags, meta_opcode | \
(FCOND_FVC << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UHI" suffix, flags, meta_opcode | \
(FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "UGT" suffix, flags, meta_opcode | \
(FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FLE" suffix, flags, meta_opcode | \
(FCOND_FLE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FGE" suffix, flags, meta_opcode | \
(FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FHS" suffix, flags, meta_opcode | \
(FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "ULT" suffix, flags, meta_opcode | \
(FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "ULO" suffix, flags, meta_opcode | \
(FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FGT" suffix, flags, meta_opcode | \
(FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "FHI" suffix, flags, meta_opcode | \
(FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "ULE" suffix, flags, meta_opcode | \
(FCOND_ULE << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "NV" suffix, flags, meta_opcode | \
(FCOND_NV << field_shift), meta_mask, INSN_FPU, encoding, args }, \
{ mnemonic "EQ" suffix, flags, meta_opcode | (COND_EQ << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "Z" suffix, flags, meta_opcode | (COND_EQ << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "NE" suffix, flags, meta_opcode | (COND_NE << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "NZ" suffix, flags, meta_opcode | (COND_NE << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "CS" suffix, flags, meta_opcode | (COND_CS << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "LO" suffix, flags, meta_opcode | (COND_CS << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "CC" suffix, flags, meta_opcode | (COND_CC << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "HS" suffix, flags, meta_opcode | (COND_CC << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "MI" suffix, flags, meta_opcode | (COND_MI << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "N" suffix, flags, meta_opcode | (COND_MI << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "PL" suffix, flags, meta_opcode | (COND_PL << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "NC" suffix, flags, meta_opcode | (COND_PL << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "VS" suffix, flags, meta_opcode | (COND_VS << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "VC" suffix, flags, meta_opcode | (COND_VC << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "HI" suffix, flags, meta_opcode | (COND_HI << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "LS" suffix, flags, meta_opcode | (COND_LS << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "GE" suffix, flags, meta_opcode | (COND_GE << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "LT" suffix, flags, meta_opcode | (COND_LT << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "GT" suffix, flags, meta_opcode | (COND_GT << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "LE" suffix, flags, meta_opcode | (COND_LE << field_shift), \
meta_mask, insn_type, encoding, args }, \
{ mnemonic "NV" suffix, flags, meta_opcode | (COND_NV << field_shift), \
meta_mask, insn_type, encoding, args }
#define TEMPLATE_INSN(flags, meta_opcode, meta_mask, insn_type) \
{ "T0", flags, meta_opcode | 0x0, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "T1", flags, meta_opcode | 0x1, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "T2", flags, meta_opcode | 0x2, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "T3", flags, meta_opcode | 0x3, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "T4", flags, meta_opcode | 0x4, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "T5", flags, meta_opcode | 0x5, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "T6", flags, meta_opcode | 0x6, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "T7", flags, meta_opcode | 0x7, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "T8", flags, meta_opcode | 0x8, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "T9", flags, meta_opcode | 0x9, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "TA", flags, meta_opcode | 0xa, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "TB", flags, meta_opcode | 0xb, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "TC", flags, meta_opcode | 0xc, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "TD", flags, meta_opcode | 0xd, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "TE", flags, meta_opcode | 0xe, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \
{ "TF", flags, meta_opcode | 0xf, meta_mask, insn_type, ENC_DTEMPLATE, 0 }
/* Unimplemented GP instructions:
CPR - coprocessor read
CPW - coprocessor write
MORT - morton order operation
VPACK, VADD, VSUB - vector instructions
The order of the entries in this table is extremely important. DO
NOT modify it unless you know what you're doing. If you do modify
it, be sure to run the entire testsuite to make sure you haven't
caused a regression. */
static const insn_template metag_optab[] =
{
/* Port-to-unit MOV */
COND_INSN ("MOVB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa1800000, 0xfff83e1f, INSN_GP, ENC_MOV_PORT, 0),
COND_INSN ("MOVW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa1800001, 0xfff83e1f, INSN_GP, ENC_MOV_PORT, 0),
COND_INSN ("MOVD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa1800200, 0xfff83e1f, INSN_GP, ENC_MOV_PORT, 0),
COND_INSN ("MOVL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa2800000, 0xfff8019f, INSN_GP, ENC_MOV_PORT, 0),
/* Read pipeline prime/drain */
{ "MMOVD", CoreMeta11|CoreMeta12|CoreMeta21,
0xca000000, 0xff00001f, INSN_GP, ENC_MMOV, 0 },
{ "MMOVL", CoreMeta11|CoreMeta12|CoreMeta21,
0xcb000000, 0xff00001f, INSN_GP, ENC_MMOV, 0 },
{ "MMOVD", CoreMeta11|CoreMeta12|CoreMeta21,
0xcc000000, 0xff07c067, INSN_GP, ENC_MMOV, 0 },
{ "MMOVL", CoreMeta11|CoreMeta12|CoreMeta21,
0xcd000000, 0xff07c067, INSN_GP, ENC_MMOV, 0 },
/* Read pipeline flush */
{ "MDRD", CoreMeta11|CoreMeta12|CoreMeta21,
0xcc000002, 0xffffc07f, INSN_GP, ENC_MDRD, 0 },
/* Unit-to-TTREC MOVL */
COND_INSN ("MOVL", "", 1, CoreMeta12|CoreMeta21,
0xa2002001, 0xff003e7f, INSN_GP, ENC_MOVL_TTREC, 0),
/* MOV to RA (extended) */
{ "MOVB", CoreMeta11|CoreMeta12|CoreMeta21,
0xa6000000, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 },
{ "MOVW", CoreMeta11|CoreMeta12|CoreMeta21,
0xa6000002, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 },
{ "MOVD", CoreMeta11|CoreMeta12|CoreMeta21,
0xa6000004, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 },
{ "MOVL", CoreMeta11|CoreMeta12|CoreMeta21,
0xa6000006, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 },
/* Extended GET */
{ "GETB", CoreMeta11|CoreMeta12|CoreMeta21,
0xa7000000, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 },
{ "GETW", CoreMeta11|CoreMeta12|CoreMeta21,
0xa7000002, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 },
{ "GETD", CoreMeta11|CoreMeta12|CoreMeta21,
0xa7000004, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 },
{ "GETL", CoreMeta11|CoreMeta12|CoreMeta21,
0xa7000006, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 },
/* Extended SET */
{ "SETB", CoreMeta11|CoreMeta12|CoreMeta21,
0xa5000000, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 },
{ "SETW", CoreMeta11|CoreMeta12|CoreMeta21,
0xa5000002, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 },
{ "SETD", CoreMeta11|CoreMeta12|CoreMeta21,
0xa5000004, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 },
{ "SETL", CoreMeta11|CoreMeta12|CoreMeta21,
0xa5000006, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 },
/* MOV to RA */
{ "MOVB", CoreMeta11|CoreMeta12|CoreMeta21,
0xc000000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 },
{ "MOVW", CoreMeta11|CoreMeta12|CoreMeta21,
0xc100000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 },
{ "MOVD", CoreMeta11|CoreMeta12|CoreMeta21,
0xc400000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 },
{ "MOVL", CoreMeta11|CoreMeta12|CoreMeta21,
0xc500000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 },
/* Standard GET */
{ "GETB", CoreMeta11|CoreMeta12|CoreMeta21,
0xc0000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 },
{ "GETW", CoreMeta11|CoreMeta12|CoreMeta21,
0xc1000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 },
{ "GETD", CoreMeta11|CoreMeta12|CoreMeta21,
0xc4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 },
/* GET is a synonym for GETD. */
{ "GET", CoreMeta11|CoreMeta12|CoreMeta21,
0xc4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 },
{ "GETL", CoreMeta11|CoreMeta12|CoreMeta21,
0xc5000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 },
/* Standard SET */
{ "SETB", CoreMeta11|CoreMeta12|CoreMeta21,
0xb0000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 },
{ "SETW", CoreMeta11|CoreMeta12|CoreMeta21,
0xb1000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 },
{ "SETD", CoreMeta11|CoreMeta12|CoreMeta21,
0xb4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 },
/* SET is a synonym for SETD. */
{ "SET", CoreMeta11|CoreMeta12|CoreMeta21,
0xb4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 },
{ "SETL", CoreMeta11|CoreMeta12|CoreMeta21,
0xb5000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 },
/* Multiple GET */
{ "MGETD", CoreMeta11|CoreMeta12|CoreMeta21,
0xc8000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 },
{ "MGETL", CoreMeta11|CoreMeta12|CoreMeta21,
0xc9000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 },
/* Multiple SET */
{ "MSETD", CoreMeta11|CoreMeta12|CoreMeta21,
0xb8000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 },
{ "MSETL", CoreMeta11|CoreMeta12|CoreMeta21,
0xb9000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 },
/* Conditional SET */
COND_INSN ("SETB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa4000000, 0xff00039f, INSN_GP, ENC_COND_SET, 0),
COND_INSN ("SETW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa4000001, 0xff00039f, INSN_GP, ENC_COND_SET, 0),
COND_INSN ("SETD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa4000200, 0xff00039f, INSN_GP, ENC_COND_SET, 0),
COND_INSN ("SETL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa4000201, 0xff00039f, INSN_GP, ENC_COND_SET, 0),
{ "XFRD", CoreMeta11|CoreMeta12|CoreMeta21,
0xd0000000, 0xf2000000, INSN_GP, ENC_XFR, 0 },
{ "XFRL", CoreMeta11|CoreMeta12|CoreMeta21,
0xd2000000, 0xf2000000, INSN_GP, ENC_XFR, 0 },
/* Fast control register setup */
{ "MOV", CoreMeta11|CoreMeta12|CoreMeta21,
0xa9000000, 0xff000005, INSN_GP, ENC_MOV_CT, 0 },
{ "MOVT", CoreMeta11|CoreMeta12|CoreMeta21,
0xa9000001, 0xff000005, INSN_GP, ENC_MOV_CT, 0 },
{ "MOV", CoreMeta11|CoreMeta12|CoreMeta21,
0xa9000004, 0xff000005, INSN_GP, ENC_MOV_CT, 0 },
{ "MOVT", CoreMeta11|CoreMeta12|CoreMeta21,
0xa9000005, 0xff000005, INSN_GP, ENC_MOV_CT, 0 },
/* Internal transfer operations */
{ "JUMP", CoreMeta11|CoreMeta12|CoreMeta21,
0xac000000, 0xff000004, INSN_GP, ENC_JUMP, 0 },
{ "CALL", CoreMeta11|CoreMeta12|CoreMeta21,
0xac000004, 0xff000004, INSN_GP, ENC_JUMP, 0 },
{ "CALLR", CoreMeta11|CoreMeta12|CoreMeta21,
0xab000000, 0xff000000, INSN_GP, ENC_CALLR, 0 },
/* Address unit ALU operations */
{ "MOV", CoreMeta11|CoreMeta12|CoreMeta21,
0x80000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "MOV", CoreMeta11|CoreMeta12|CoreMeta21,
0x82000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "MOVT", CoreMeta11|CoreMeta12|CoreMeta21,
0x82000005, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ADD", CoreMeta11|CoreMeta12|CoreMeta21,
0x80000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "ADD", CoreMeta11|CoreMeta12|CoreMeta21,
0x82000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ADDT", CoreMeta11|CoreMeta12|CoreMeta21,
0x82000001, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ADD", CoreMeta11|CoreMeta12|CoreMeta21,
0x86000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x84000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x86000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
{ "NEG", CoreMeta11|CoreMeta12|CoreMeta21,
0x88000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "NEG", CoreMeta11|CoreMeta12|CoreMeta21,
0x8a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "NEGT", CoreMeta11|CoreMeta12|CoreMeta21,
0x8a000005, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "SUB", CoreMeta11|CoreMeta12|CoreMeta21,
0x88000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "SUB", CoreMeta11|CoreMeta12|CoreMeta21,
0x8a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "SUBT", CoreMeta11|CoreMeta12|CoreMeta21,
0x8a000001, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "SUB", CoreMeta11|CoreMeta12|CoreMeta21,
0x8e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x8c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x8e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
/* Data unit ALU operations */
{ "MOV", CoreMeta11|CoreMeta12|CoreMeta21,
0x00000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "MOVS", CoreMeta11|CoreMeta12|CoreMeta21,
0x08000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "MOV", CoreMeta11|CoreMeta12|CoreMeta21,
0x02000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "MOVS", CoreMeta11|CoreMeta12|CoreMeta21,
0x0a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "MOVT", CoreMeta11|CoreMeta12|CoreMeta21,
0x02000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "MOVST", CoreMeta11|CoreMeta12|CoreMeta21,
0x0a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "ADD", DspMeta21,
0x00000100, 0xfe000104, INSN_DSP, ENC_DALU,
DSP_ARGS_1|DSP_ARGS_ACC2|DSP_ARGS_XACC|DSP_ARGS_IMM },
{ "ADD", DspMeta21,
0x02000003, 0xfe000003, INSN_DSP, ENC_DALU,
DSP_ARGS_1|DSP_ARGS_IMM },
COND_INSN ("ADD", "", 1, DspMeta21,
0x040001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1),
{ "ADD", CoreMeta11|CoreMeta12|CoreMeta21,
0x00000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "ADDS", DspMeta21,
0x08000100, 0xfe000104, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_ACC2 },
{ "ADDS", DspMeta21,
0x0a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM },
{ "ADDS", CoreMeta11|CoreMeta12|CoreMeta21,
0x08000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "ADD", CoreMeta11|CoreMeta12|CoreMeta21,
0x02000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ADDS", CoreMeta11|CoreMeta12|CoreMeta21,
0x0a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ADDT", CoreMeta11|CoreMeta12|CoreMeta21,
0x02000001, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ADDST", CoreMeta11|CoreMeta12|CoreMeta21,
0x0a000001, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ADD", CoreMeta11|CoreMeta12|CoreMeta21,
0x06000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
COND_INSN ("ADDS", "", 1, DspMeta21,
0x0c0001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1),
{ "ADDS", CoreMeta11|CoreMeta12|CoreMeta21,
0x0e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x04000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
COND_INSN ("ADDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x0c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x06000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
COND_INSN ("ADDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x0e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
{ "NEG", CoreMeta11|CoreMeta12|CoreMeta21,
0x10000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "NEGS", CoreMeta11|CoreMeta12|CoreMeta21,
0x18000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "NEG", CoreMeta11|CoreMeta12|CoreMeta21,
0x12000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "NEGS", CoreMeta11|CoreMeta12|CoreMeta21,
0x1a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "NEGT", CoreMeta11|CoreMeta12|CoreMeta21,
0x12000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "NEGST", CoreMeta11|CoreMeta12|CoreMeta21,
0x1a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "SUB", DspMeta21,
0x10000100, 0xfe000104, INSN_DSP, ENC_DALU,
DSP_ARGS_1|DSP_ARGS_ACC2|DSP_ARGS_XACC },
{ "SUB", DspMeta21,
0x12000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM },
{ "SUB", CoreMeta11|CoreMeta12|CoreMeta21,
0x10000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "SUBS", CoreMeta11|CoreMeta12|CoreMeta21,
0x18000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 },
{ "SUB", CoreMeta11|CoreMeta12|CoreMeta21,
0x12000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "SUBS", CoreMeta11|CoreMeta12|CoreMeta21,
0x1a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "SUBT", CoreMeta11|CoreMeta12|CoreMeta21,
0x12000001, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "SUBS", DspMeta21,
0x18000100, 0xfe000104, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_ACC2 },
{ "SUBS", DspMeta21,
0x1a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM },
{ "SUBST", CoreMeta11|CoreMeta12|CoreMeta21,
0x1a000001, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "SUB", CoreMeta11|CoreMeta12|CoreMeta21,
0x16000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
{ "SUBS", CoreMeta11|CoreMeta12|CoreMeta21,
0x1e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
COND_INSN ("SUBS", "", 1, DspMeta21,
0x1c0001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1),
COND_INSN ("SUB", "", 1, DspMeta21,
0x140001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1),
COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x14000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
COND_INSN ("SUBS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x1c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x16000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
COND_INSN ("SUBS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x1e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
{ "AND", CoreMeta11|CoreMeta12|CoreMeta21,
0x20000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 },
{ "ANDS", CoreMeta11|CoreMeta12|CoreMeta21,
0x28000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 },
{ "ANDQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x20000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "ANDSQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x28000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "AND", CoreMeta11|CoreMeta12|CoreMeta21,
0x22000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ANDMB", CoreMeta11|CoreMeta12|CoreMeta21,
0x22000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ANDS", CoreMeta11|CoreMeta12|CoreMeta21,
0x2a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ANDSMB", CoreMeta11|CoreMeta12|CoreMeta21,
0x2a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ANDT", CoreMeta11|CoreMeta12|CoreMeta21,
0x22000001, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "ANDMT", CoreMeta11|CoreMeta12|CoreMeta21,
0x22000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "ANDST", CoreMeta11|CoreMeta12|CoreMeta21,
0x2a000001, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "ANDSMT", CoreMeta11|CoreMeta12|CoreMeta21,
0x2a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "AND", DspMeta21,
0x20000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 },
{ "AND", CoreMeta11|CoreMeta12|CoreMeta21,
0x26000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
{ "ANDS", CoreMeta11|CoreMeta12|CoreMeta21,
0x2e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
{ "ANDQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x26000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "ANDSQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x2e000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "ANDQ", DspMeta21,
0x20000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR },
COND_INSN ("ANDQ", "", 1, DspMeta21,
0x240001c0, 0xfe0001de, INSN_DSP, ENC_DALU,
DSP_ARGS_1|DSP_ARGS_QR),
COND_INSN ("AND", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x24000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
{ "ANDSQ", DspMeta21,
0x28000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR },
COND_INSN ("ANDSQ", "", 1, DspMeta21,
0x2c0001c0, 0xfe0001de, INSN_DSP, ENC_DALU,
DSP_ARGS_1|DSP_ARGS_QR),
COND_INSN ("ANDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x2c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
COND_INSN ("AND", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x26000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
COND_INSN ("ANDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x2e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
COND_INSN ("ANDQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x26000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR),
COND_INSN ("ANDSQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x2e000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR),
{ "OR", CoreMeta11|CoreMeta12|CoreMeta21,
0x30000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 },
{ "ORS", CoreMeta11|CoreMeta12|CoreMeta21,
0x38000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 },
{ "ORQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x30000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "ORSQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x38000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "OR", CoreMeta11|CoreMeta12|CoreMeta21,
0x32000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ORMB", CoreMeta11|CoreMeta12|CoreMeta21,
0x32000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ORS", CoreMeta11|CoreMeta12|CoreMeta21,
0x3a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ORSMB", CoreMeta11|CoreMeta12|CoreMeta21,
0x3a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "ORT", CoreMeta11|CoreMeta12|CoreMeta21,
0x32000001, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "ORMT", CoreMeta11|CoreMeta12|CoreMeta21,
0x32000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "ORST", CoreMeta11|CoreMeta12|CoreMeta21,
0x3a000001, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "ORSMT", CoreMeta11|CoreMeta12|CoreMeta21,
0x3a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "OR", CoreMeta11|CoreMeta12|CoreMeta21,
0x36000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
{ "ORS", CoreMeta11|CoreMeta12|CoreMeta21,
0x3e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
{ "ORQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x36000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "ORSQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x3e000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "ORQ", DspMeta21,
0x30000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR },
COND_INSN ("ORQ", "", 1, DspMeta21,
0x340001c0, 0xfe0001de, INSN_DSP, ENC_DALU,
DSP_ARGS_1|DSP_ARGS_QR),
COND_INSN ("OR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x34000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
{ "ORSQ", DspMeta21,
0x38000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR },
COND_INSN ("ORSQ", "", 1, DspMeta21,
0x3c0001c0, 0xfe0001de, INSN_DSP, ENC_DALU,
DSP_ARGS_1|DSP_ARGS_QR),
COND_INSN ("ORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x3c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
COND_INSN ("OR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x36000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
COND_INSN ("ORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x3e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
COND_INSN ("ORQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x36000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR),
COND_INSN ("ORSQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x3e000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR),
{ "XOR", CoreMeta11|CoreMeta12|CoreMeta21,
0x40000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 },
{ "XORS", CoreMeta11|CoreMeta12|CoreMeta21,
0x48000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 },
{ "XORQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x40000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "XORSQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x48000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "XOR", CoreMeta11|CoreMeta12|CoreMeta21,
0x42000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "XORMB", CoreMeta11|CoreMeta12|CoreMeta21,
0x42000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "XORS", CoreMeta11|CoreMeta12|CoreMeta21,
0x4a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "XORSMB", CoreMeta11|CoreMeta12|CoreMeta21,
0x4a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "XORT", CoreMeta11|CoreMeta12|CoreMeta21,
0x42000001, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "XORMT", CoreMeta11|CoreMeta12|CoreMeta21,
0x42000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "XORST", CoreMeta11|CoreMeta12|CoreMeta21,
0x4a000001, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "XORSMT", CoreMeta11|CoreMeta12|CoreMeta21,
0x4a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "XOR", CoreMeta11|CoreMeta12|CoreMeta21,
0x46000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
{ "XORS", CoreMeta11|CoreMeta12|CoreMeta21,
0x4e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
{ "XORQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x46000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "XORSQ", CoreMeta11|CoreMeta12|CoreMeta21,
0x4e000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR },
{ "XORQ", DspMeta21,
0x40000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR },
COND_INSN ("XORQ", "", 1, DspMeta21,
0x440001c0, 0xfe0001de, INSN_DSP, ENC_DALU,
DSP_ARGS_1|DSP_ARGS_QR),
COND_INSN ("XOR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x44000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
{ "XORSQ", DspMeta21,
0x48000140, 0xfe000140, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR },
COND_INSN ("XORSQ", "", 1, DspMeta21,
0x4c0001c0, 0xfe0001de, INSN_DSP, ENC_DALU,
DSP_ARGS_1|DSP_ARGS_QR),
COND_INSN ("XORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x4c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0),
COND_INSN ("XOR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x46000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
COND_INSN ("XORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x4e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
COND_INSN ("XORQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x46000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR),
COND_INSN ("XORSQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x4e000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR),
{ "LSL", CoreMeta11|CoreMeta12|CoreMeta21,
0x50000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 },
{ "LSL", CoreMeta11|CoreMeta12|CoreMeta21,
0x54000020, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 },
COND_INSN ("LSL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x54000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0),
{ "LSLS", CoreMeta11|CoreMeta12|CoreMeta21,
0x58000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 },
{ "LSLS", CoreMeta11|CoreMeta12|CoreMeta21,
0x5c000020, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 },
COND_INSN ("LSLS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x5c000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0),
{ "LSR", CoreMeta11|CoreMeta12|CoreMeta21,
0x50000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 },
{ "LSR", CoreMeta11|CoreMeta12|CoreMeta21,
0x54000060, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 },
COND_INSN ("LSR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x54000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0),
{ "LSRS", CoreMeta11|CoreMeta12|CoreMeta21,
0x58000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 },
{ "LSRS", CoreMeta11|CoreMeta12|CoreMeta21,
0x5c000060, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 },
COND_INSN ("LSRS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x5c000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0),
{ "ASL", CoreMeta11|CoreMeta12|CoreMeta21,
0x50000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 },
{ "ASL", CoreMeta11|CoreMeta12|CoreMeta21,
0x540000a0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 },
COND_INSN ("ASL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x54000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0),
{ "ASLS", CoreMeta11|CoreMeta12|CoreMeta21,
0x58000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 },
{ "ASLS", CoreMeta11|CoreMeta12|CoreMeta21,
0x5c0000a0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 },
COND_INSN ("ASLS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x5c000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0),
{ "ASR", CoreMeta11|CoreMeta12|CoreMeta21,
0x500000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 },
{ "ASR", CoreMeta11|CoreMeta12|CoreMeta21,
0x540000e0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 },
COND_INSN ("ASR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x540000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0),
{ "ASRS", CoreMeta11|CoreMeta12|CoreMeta21,
0x580000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 },
{ "ASRS", CoreMeta11|CoreMeta12|CoreMeta21,
0x5c0000e0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 },
COND_INSN ("ASRS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x5c0000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0),
{ "MULW", CoreMeta11|CoreMeta12|CoreMeta21,
0x60000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 },
{ "MULD", CoreMeta11|CoreMeta12|CoreMeta21,
0x60000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0 },
/* MUL is a synonym from MULD. */
{ "MUL", CoreMeta11|CoreMeta12|CoreMeta21,
0x60000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0 },
{ "MULW", CoreMeta11|CoreMeta12|CoreMeta21,
0x62000000, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "MULD", CoreMeta11|CoreMeta12|CoreMeta21,
0x62000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "MUL", CoreMeta11|CoreMeta12|CoreMeta21,
0x62000004, 0xfe000005, INSN_GP, ENC_ALU, 0 },
{ "MULWT", CoreMeta11|CoreMeta12|CoreMeta21,
0x62000001, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "MULDT", CoreMeta11|CoreMeta12|CoreMeta21,
0x62000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "MULT", CoreMeta11|CoreMeta12|CoreMeta21,
0x62000005, 0xfe000007, INSN_GP, ENC_ALU, 0 },
{ "MULW", CoreMeta11|CoreMeta12|CoreMeta21,
0x64000020, 0xfe0001e0, INSN_GP, ENC_ALU, 0 },
{ "MULD", CoreMeta11|CoreMeta12|CoreMeta21,
0x64000060, 0xfe0001e0, INSN_GP, ENC_ALU, 0 },
{ "MUL", CoreMeta11|CoreMeta12|CoreMeta21,
0x64000060, 0xfe0001e0, INSN_GP, ENC_ALU, 0 },
{ "MULW", CoreMeta11|CoreMeta12|CoreMeta21,
0x66000020, 0xfe000021, INSN_GP, ENC_ALU, 0 },
{ "MULD", CoreMeta11|CoreMeta12|CoreMeta21,
0x66000021, 0xfe000021, INSN_GP, ENC_ALU, 0 },
{ "MUL", CoreMeta11|CoreMeta12|CoreMeta21,
0x66000021, 0xfe000021, INSN_GP, ENC_ALU, 0 },
COND_INSN ("MULW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x64000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0),
COND_INSN ("MULD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x64000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0),
COND_INSN ("MUL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x64000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0),
COND_INSN ("MULW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x66000000, 0xfe00003f, INSN_GP, ENC_ALU, 0),
COND_INSN ("MULD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x66000001, 0xfe00003f, INSN_GP, ENC_ALU, 0),
COND_INSN ("MUL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x66000001, 0xfe00003f, INSN_GP, ENC_ALU, 0),
{ "MIN", CoreMeta11|CoreMeta12|CoreMeta21,
0x70000020, 0xfe0001ff, INSN_GP, ENC_MIN_MAX, 0 },
{ "MAX", CoreMeta11|CoreMeta12|CoreMeta21,
0x70000024, 0xfe0001ff, INSN_GP, ENC_MIN_MAX, 0 },
{ "FFB", CoreMeta11|CoreMeta12|CoreMeta21,
0x70000004, 0xfe003fff, INSN_GP, ENC_BITOP, 0 },
{ "NORM", CoreMeta11|CoreMeta12|CoreMeta21,
0x70000008, 0xfe003fff, INSN_GP, ENC_BITOP, 0 },
{ "ABS", CoreMeta11|CoreMeta12|CoreMeta21,
0x70000028, 0xfe003fff, INSN_GP, ENC_BITOP, 0 },
{ "XSDB", CoreMeta11|CoreMeta12|CoreMeta21,
0xaa000000, 0xff003ffe, INSN_GP, ENC_BITOP, 0 },
{ "XSDSB", CoreMeta11|CoreMeta12|CoreMeta21,
0xaa000008, 0xff003ffe, INSN_GP, ENC_BITOP, 0 },
{ "XSDW", CoreMeta11|CoreMeta12|CoreMeta21,
0xaa000002, 0xff003ffe, INSN_GP, ENC_BITOP, 0 },
{ "XSDSW", CoreMeta11|CoreMeta12|CoreMeta21,
0xaa00000a, 0xff003ffe, INSN_GP, ENC_BITOP, 0 },
{ "RTDW", CoreMeta11|CoreMeta12|CoreMeta21,
0xaa000006, 0xff003ffe, INSN_GP, ENC_BITOP, 0 },
{ "RTDSW", CoreMeta11|CoreMeta12|CoreMeta21,
0xaa00000e, 0xff003ffe, INSN_GP, ENC_BITOP, 0 },
{ "NMIN", CoreMeta11|CoreMeta12|CoreMeta21,
0x7000002c, 0xfe0001ff, INSN_GP, ENC_MIN_MAX, 0 },
/* Condition setting operations */
{ "CMP", CoreMeta11|CoreMeta12|CoreMeta21,
0x70000000, 0xfef801fe, INSN_GP, ENC_CMP, 0 },
{ "TST", CoreMeta11|CoreMeta12|CoreMeta21,
0x78000000, 0xfef801fe, INSN_GP, ENC_CMP, 0 },
{ "CMP", CoreMeta11|CoreMeta12|CoreMeta21,
0x72000000, 0xfe000005, INSN_GP, ENC_CMP, 0 },
{ "CMPMB", CoreMeta11|CoreMeta12|CoreMeta21,
0x72000004, 0xfe000005, INSN_GP, ENC_CMP, 0 },
{ "TST", CoreMeta11|CoreMeta12|CoreMeta21,
0x7a000000, 0xfe000005, INSN_GP, ENC_CMP, 0 },
{ "TSTMB", CoreMeta11|CoreMeta12|CoreMeta21,
0x7a000004, 0xfe000005, INSN_GP, ENC_CMP, 0 },
{ "CMPT", CoreMeta11|CoreMeta12|CoreMeta21,
0x72000001, 0xfe000007, INSN_GP, ENC_CMP, 0 },
{ "CMPMT", CoreMeta11|CoreMeta12|CoreMeta21,
0x72000005, 0xfe000007, INSN_GP, ENC_CMP, 0 },
{ "TSTT", CoreMeta11|CoreMeta12|CoreMeta21,
0x7a000001, 0xfe000007, INSN_GP, ENC_CMP, 0 },
{ "TSTMT", CoreMeta11|CoreMeta12|CoreMeta21,
0x7a000005, 0xfe000007, INSN_GP, ENC_CMP, 0 },
COND_INSN ("CMP", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x74000000, 0xfef801fe, INSN_GP, ENC_CMP, 0),
COND_INSN ("TST", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x7c000000, 0xfef801fe, INSN_GP, ENC_CMP, 0),
COND_INSN ("CMP", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x76000000, 0xfef8003e, INSN_GP, ENC_CMP, 0),
COND_INSN ("TST", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0x7e000000, 0xfef8003e, INSN_GP, ENC_CMP, 0),
/* No-op (BNV) */
{ "NOP", CoreMeta11|CoreMeta12|CoreMeta21,
0xa0fffffe, 0xffffffff, INSN_GP, ENC_NONE, 0 },
/* Branch */
COND_INSN ("B", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa0000000, 0xff00001f, INSN_GP, ENC_BRANCH, 0),
COND_INSN ("B", "R", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa0000001, 0xff00001f, INSN_GP, ENC_BRANCH, 0),
/* System operations */
{ "LOCK0", CoreMeta11|CoreMeta12|CoreMeta21,
0xa8000000, 0xffffffff, INSN_GP, ENC_NONE, 0 },
{ "LOCK1", CoreMeta11|CoreMeta12|CoreMeta21,
0xa8000001, 0xffffffff, INSN_GP, ENC_NONE, 0 },
{ "LOCK2", CoreMeta11|CoreMeta12|CoreMeta21,
0xa8000003, 0xffffffff, INSN_GP, ENC_NONE, 0 },
{ "RTI", CoreMeta11|CoreMeta12|CoreMeta21,
0xa3ffffff, 0xffffffff, INSN_GP, ENC_NONE, 0 },
{ "RTH", CoreMeta11|CoreMeta12|CoreMeta21,
0xa37fffff, 0xffffffff, INSN_GP, ENC_NONE, 0 },
COND_INSN ("KICK", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa3000001, 0xff003e1f, INSN_GP, ENC_KICK, 0),
{ "SWITCH", CoreMeta11|CoreMeta12|CoreMeta21,
0xaf000000, 0xff000000, INSN_GP, ENC_SWITCH, 0 },
{ "DCACHE", CoreMeta11|CoreMeta12|CoreMeta21,
0xad000000, 0xff000087, INSN_GP, ENC_CACHEW, 0 },
{ "ICACHEEXIT", CoreMeta12|CoreMeta21,
0xae000000, 0xffffffff, INSN_GP, ENC_NONE, 0 },
{ "ICACHEEXITR", CoreMeta12|CoreMeta21,
0xae000001, 0xffffffff, INSN_GP, ENC_NONE, 0 },
{ "ICACHE", CoreMeta12|CoreMeta21,
0xae000000, 0xff0001e1, INSN_GP, ENC_ICACHE, 0 },
{ "ICACHER", CoreMeta12|CoreMeta21,
0xae000001, 0xff0001e1, INSN_GP, ENC_ICACHE, 0 },
/* Meta 2 instructions */
{ "CACHERD", CoreMeta21,
0xad000081, 0xff000087, INSN_GP, ENC_CACHER, 0 },
{ "CACHERL", CoreMeta21,
0xad000083, 0xff000087, INSN_GP, ENC_CACHER, 0 },
{ "CACHEWD", CoreMeta21,
0xad000001, 0xff000087, INSN_GP, ENC_CACHEW, 0 },
{ "CACHEWL", CoreMeta21,
0xad000003, 0xff000087, INSN_GP, ENC_CACHEW, 0 },
COND_INSN ("DEFR", "", 1, CoreMeta21,
0xa3002001, 0xff003e1f, INSN_GP, ENC_KICK, 0),
{ "BEXD", CoreMeta21,
0xaa000004, 0xff003ffe, INSN_GP, ENC_BITOP, 0 },
{ "BEXSD", CoreMeta21,
0xaa00000c, 0xff003ffe, INSN_GP, ENC_BITOP, 0 },
{ "BEXL", CoreMeta21,
0xaa000014, 0xff003ffe, INSN_GP, ENC_BITOP, 0 },
{ "BEXSL", CoreMeta21,
0xaa00001c, 0xff003ffe, INSN_GP, ENC_BITOP, 0 },
{ "LNKGETB", CoreMeta21,
0xad000080, 0xff000087, INSN_GP, ENC_LNKGET, 0 },
{ "LNKGETW", CoreMeta21,
0xad000082, 0xff000087, INSN_GP, ENC_LNKGET, 0 },
{ "LNKGETD", CoreMeta21,
0xad000084, 0xff000087, INSN_GP, ENC_LNKGET, 0 },
{ "LNKGETL", CoreMeta21,
0xad000086, 0xff000087, INSN_GP, ENC_LNKGET, 0 },
COND_INSN ("LNKSETB", "", 1, CoreMeta21,
0xa4000080, 0xff00039f, INSN_GP, ENC_COND_SET, 0),
COND_INSN ("LNKSETW", "", 1, CoreMeta21,
0xa4000081, 0xff00039f, INSN_GP, ENC_COND_SET, 0),
COND_INSN ("LNKSETD", "", 1, CoreMeta21,
0xa4000280, 0xff00039f, INSN_GP, ENC_COND_SET, 0),
COND_INSN ("LNKSETL", "", 1, CoreMeta21,
0xa4000281, 0xff00039f, INSN_GP, ENC_COND_SET, 0),
/* Meta 2 FPU instructions */
/* Port-to-unit MOV */
COND_INSN ("MOVL", "", 1, FpuMeta21,
0xa1800201, 0xfff83e1f, INSN_FPU, ENC_MOV_PORT, 0),
/* Read pipeline drain */
{ "MMOVD", FpuMeta21,
0xce000006, 0xfffc007f, INSN_FPU, ENC_MMOV, 0 },
{ "MMOVL", FpuMeta21,
0xcf000006, 0xfffc007f, INSN_FPU, ENC_MMOV, 0 },
/* FP data movement instructions */
FCOND_INSN ("ABS", "", 1, FpuMeta21,
0xf0000080, 0xff843f9f, INSN_FPU, ENC_FMOV, 0),
{ "MMOVD", FpuMeta21,
0xbe000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 },
{ "MMOVL", FpuMeta21,
0xbf000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 },
{ "MMOVD", FpuMeta21,
0xce000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 },
{ "MMOVL", FpuMeta21,
0xcf000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 },
{ "MOVD", FpuMeta21,
0x08000144, 0xfe03e1ff, INSN_FPU, ENC_FMOV_DATA, 0 },
{ "MOVD", FpuMeta21,
0x080001c4, 0xfe83c1ff, INSN_FPU, ENC_FMOV_DATA, 0 },
{ "MOVL", FpuMeta21,
0x08000154, 0xfe03e1ff, INSN_FPU, ENC_FMOV_DATA, 0 },
{ "MOVL", FpuMeta21,
0x080001d4, 0xfe83c1ff, INSN_FPU, ENC_FMOV_DATA, 0 },
FCOND_INSN ("MOV", "", 1, FpuMeta21,
0xf0000000, 0xff843f9f, INSN_FPU, ENC_FMOV, 0),
{ "MOV", FpuMeta21,
0xf0000001, 0xff800001, INSN_FPU, ENC_FMOV_I, 0 },
FCOND_INSN ("NEG", "", 1, FpuMeta21,
0xf0000100, 0xff843f9f, INSN_FPU, ENC_FMOV, 0),
{ "PACK", FpuMeta21,
0xf0000180, 0xff8c21ff, INSN_FPU, ENC_FPACK, 0 },
{ "SWAP", FpuMeta21,
0xf00001c0, 0xff8c7fff, INSN_FPU, ENC_FSWAP, 0 },
/* FP comparison instructions */
FCOND_INSN ("CMP", "", 1, FpuMeta21,
0xf3000000, 0xfff4201f, INSN_FPU, ENC_FCMP, 0),
FCOND_INSN ("MAX", "", 1, FpuMeta21,
0xf3000081, 0xff84219f, INSN_FPU, ENC_FMINMAX, 0),
FCOND_INSN ("MIN", "", 1, FpuMeta21,
0xf3000001, 0xff84219f, INSN_FPU, ENC_FMINMAX, 0),
/* FP data conversion instructions */
FCOND_INSN ("DTOF", "", 1, FpuMeta21,
0xf2000121, 0xff843fff, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("FTOD", "", 1, FpuMeta21,
0xf2000101, 0xff843fff, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("DTOH", "", 1, FpuMeta21,
0xf2000320, 0xff843fff, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("FTOH", "", 1, FpuMeta21,
0xf2000300, 0xff843fbf, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("DTOI", "", 1, FpuMeta21,
0xf2002120, 0xff842fff, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("FTOI", "", 1, FpuMeta21,
0xf2002100, 0xff842fbf, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("DTOL", "", 1, FpuMeta21,
0xf2002320, 0xff8c6fff, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("DTOX", "", 1, FpuMeta21,
0xf2000020, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0),
FCOND_INSN ("FTOX", "", 1, FpuMeta21,
0xf2000000, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0),
FCOND_INSN ("DTOXL", "", 1, FpuMeta21,
0xf20000a0, 0xff8c40ff, INSN_FPU, ENC_FCONVX, 0),
FCOND_INSN ("HTOD", "", 1, FpuMeta21,
0xf2000321, 0xff843fff, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("HTOF", "", 1, FpuMeta21,
0xf2000301, 0xff843fbf, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("ITOD", "", 1, FpuMeta21,
0xf2002121, 0xff843fff, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("ITOF", "", 1, FpuMeta21,
0xf2002101, 0xff843fbf, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("LTOD", "", 1, FpuMeta21,
0xf2002321, 0xff8c7fff, INSN_FPU, ENC_FCONV, 0),
FCOND_INSN ("XTOD", "", 1, FpuMeta21,
0xf2000021, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0),
FCOND_INSN ("XTOF", "", 1, FpuMeta21,
0xf2000001, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0),
FCOND_INSN ("XLTOD", "", 1, FpuMeta21,
0xf20000a1, 0xff8c40ff, INSN_FPU, ENC_FCONVX, 0),
/* FP basic arithmetic instructions */
FCOND_INSN ("ADD", "", 1, FpuMeta21,
0xf1000001, 0xff84211f, INSN_FPU, ENC_FBARITH, 0),
FCOND_INSN ("MUL", "", 1, FpuMeta21,
0xf1000100, 0xff84211f, INSN_FPU, ENC_FBARITH, 0),
FCOND_INSN ("SUB", "", 1, FpuMeta21,
0xf1000101, 0xff84211f, INSN_FPU, ENC_FBARITH, 0),
/* FP extended arithmetic instructions */
{ "MAC", FpuMeta21,
0xf6000000, 0xfffc219f, INSN_FPU, ENC_FEARITH, 0 },
{ "MACS", FpuMeta21,
0xf6000100, 0xfffc219f, INSN_FPU, ENC_FEARITH, 0 },
{ "MAR", FpuMeta21,
0xf6000004, 0xff84211f, INSN_FPU, ENC_FEARITH, 0 },
{ "MARS", FpuMeta21,
0xf6000104, 0xff84211f, INSN_FPU, ENC_FEARITH, 0 },
{ "MAW", FpuMeta21,
0xf6000008, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 },
{ "MAWS", FpuMeta21,
0xf6000108, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 },
{ "MAW1", FpuMeta21,
0xf6000009, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 },
{ "MAWS1", FpuMeta21,
0xf6000109, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 },
FCOND_INSN ("MXA", "", 1, FpuMeta21,
0xf5000000, 0xff84211f, INSN_FPU, ENC_FEARITH, 0),
FCOND_INSN ("MXAS", "", 1, FpuMeta21,
0xf5000100, 0xff84211f, INSN_FPU, ENC_FEARITH, 0),
FCOND_INSN ("MXA1", "", 1, FpuMeta21,
0xf5000001, 0xff84211f, INSN_FPU, ENC_FEARITH, 0),
FCOND_INSN ("MXAS1", "", 1, FpuMeta21,
0xf5000101, 0xff84211f, INSN_FPU, ENC_FEARITH, 0),
{ "MUZ", FpuMeta21,
0xf6000010, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 },
{ "MUZS", FpuMeta21,
0xf6000110, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 },
{ "MUZ1", FpuMeta21,
0xf6000011, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 },
{ "MUZS1", FpuMeta21,
0xf6000111, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 },
{ "RCP", FpuMeta21,
0xf7000000, 0xff84391f, INSN_FPU, ENC_FREC, 0 },
{ "RSQ", FpuMeta21,
0xf7000100, 0xff84391f, INSN_FPU, ENC_FREC, 0 },
/* FP SIMD arithmetic instructions */
{ "ADDRE", FpuMeta21,
0xf4000000, 0xff8c637f, INSN_FPU, ENC_FSIMD, 0 },
{ "MULRE", FpuMeta21,
0xf4000001, 0xff8c637f, INSN_FPU, ENC_FSIMD, 0 },
{ "SUBRE", FpuMeta21,
0xf4000100, 0xff8c637f, INSN_FPU, ENC_FSIMD, 0 },
/* FP memory instructions */
{ "MGETD", FpuMeta21,
0xce000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 },
{ "MGET", FpuMeta21,
0xce000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 },
{ "MGETL", FpuMeta21,
0xcf000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 },
{ "MSETD", FpuMeta21,
0xbe000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 },
{ "MSET", FpuMeta21,
0xbe000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 },
{ "MSETL", FpuMeta21,
0xbf000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 },
/* FP accumulator memory instructions */
{ "GETL", FpuMeta21,
0xcf000004, 0xffe03f9f, INSN_FPU, ENC_FGET_SET_ACF, 0 },
{ "SETL", FpuMeta21,
0xbf000004, 0xffe03f9f, INSN_FPU, ENC_FGET_SET_ACF, 0 },
/* DSP FPU data movement */
{ "MOV", DspMeta21|FpuMeta21,
0x08000146, 0xfe0001ee, INSN_DSP_FPU, ENC_DALU,
DSP_ARGS_2|DSP_ARGS_DSP_SRC1 },
{ "MOV", DspMeta21|FpuMeta21,
0x080001c6, 0xfe0001ee, INSN_DSP_FPU, ENC_DALU,
DSP_ARGS_2|DSP_ARGS_DSP_SRC2 },
/* Unit-to-unit MOV */
COND_INSN ("MOV", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa3000000, 0xff00021f, INSN_GP, ENC_MOV_U2U, 0),
COND_INSN ("TTMOV", "", 1, CoreMeta12|CoreMeta21,
0xa3000201, 0xff00021f, INSN_GP, ENC_MOV_U2U, 0),
COND_INSN ("SWAP", "", 1, CoreMeta11|CoreMeta12|CoreMeta21,
0xa3000200, 0xff00021f, INSN_GP, ENC_SWAP, 0),
/* DSP memory instructions */
{ "GETD", DspMeta21,
0x94000100, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 },
{ "SETD", DspMeta21,
0x94000000, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 },
{ "GETL", DspMeta21,
0x94000104, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 },
{ "SETL", DspMeta21,
0x94000004, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 },
/* DSP read pipeline prime/drain */
{ "MMOVD", DspMeta21,
0xca000001, 0xff00001f, INSN_DSP, ENC_MMOV, 0 },
{ "MMOVL", DspMeta21,
0xcb000001, 0xff00001f, INSN_DSP, ENC_MMOV, 0 },
{ "MMOVD", DspMeta21,
0xcc000001, 0xff07c067, INSN_DSP, ENC_MMOV, 0 },
{ "MMOVL", DspMeta21,
0xcd000001, 0xff07c067, INSN_DSP, ENC_MMOV, 0 },
/* DSP Template instantiation */
TEMPLATE_INSN (DspMeta21, 0x90000000, 0xff00000f, INSN_DSP),
TEMPLATE_INSN (DspMeta21, 0x93000000, 0xff0001ff, INSN_DSP),
TEMPLATE_INSN (DspMeta21, 0x95000000, 0xff00000f, INSN_DSP),
{ "AND", DspMeta21,
0x22000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM },
{ "ANDS", DspMeta21,
0x28000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 },
{ "ANDS", DspMeta21,
0x2a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM },
{ "MAX", DspMeta21,
0x70000124, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_1 },
{ "MIN", DspMeta21,
0x70000120, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_1 },
{ "NMIN", DspMeta21,
0x7000012c, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_1 },
{ "OR", DspMeta21,
0x30000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 },
{ "OR", DspMeta21,
0x32000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM },
{ "ORS", DspMeta21,
0x38000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 },
{ "ORS", DspMeta21,
0x3a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM },
{ "XOR", DspMeta21,
0x40000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 },
{ "XOR", DspMeta21,
0x42000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM },
{ "XORS", DspMeta21,
0x48000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 },
{ "XORS", DspMeta21,
0x4a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM },
{ "ADDB8", DspMeta21,
0x20000108, 0xfe00010c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "ADDT8", DspMeta21,
0x2000010c, 0xfe00010c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "ADDSB8", DspMeta21,
0x28000108, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "ADDST8", DspMeta21,
0x2800010c, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "MULB8", DspMeta21,
0x40000108, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "MULT8", DspMeta21,
0x4000010c, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "MULSB8", DspMeta21,
0x48000108, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "MULST8", DspMeta21,
0x4800010c, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "SUBB8", DspMeta21,
0x30000108, 0xfe00010c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "SUBT8", DspMeta21,
0x3000010c, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "SUBSB8", DspMeta21,
0x38000108, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "SUBST8", DspMeta21,
0x3800010c, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 },
{ "MUL", DspMeta21,
0x60000100, 0xfe000100, INSN_DSP, ENC_DALU,
DSP_ARGS_1|DSP_ARGS_DACC },
{ "MUL", DspMeta21,
0x62000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM },
{ "ABS", DspMeta21,
0x70000128, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2 },
{ "FFB", DspMeta21,
0x70000104, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2 },
{ "NORM", DspMeta21,
0x70000108, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2 },
{ "CMP", DspMeta21,
0x70000000, 0xfe0000ec, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM },
{ "CMP", DspMeta21,
0x72000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM },
{ "TST", DspMeta21,
0x78000100, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM },
{ "TST", DspMeta21,
0x7a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM },
{ "MOV", DspMeta21,
0x00000104, 0xfe078146, INSN_DSP, ENC_DALU,
DSP_ARGS_2|DSP_ARGS_DSP_SRC1|DSP_ARGS_DSP_SRC2|DSP_ARGS_IMM },
{ "MOVS", DspMeta21,
0x08000104, 0xfe000146, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 },
{ "MOV", DspMeta21,
0x91000000, 0xff000000, INSN_DSP, ENC_DALU,
DSP_ARGS_2|DSP_ARGS_DSP_SRC1|DSP_ARGS_IMM },
{ "MOV", DspMeta21,
0x92000000, 0xff000000, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 },
{ "NEG", DspMeta21,
0x10000104, 0xfe000146, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 },
{ "NEGS", DspMeta21,
0x18000104, 0xfe000146, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 },
{ "XSDB", DspMeta21,
0xaa000100, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 },
{ "XSD", DspMeta21,
0xaa000100, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 },
{ "XSDW", DspMeta21,
0xaa000102, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 },
{ "XSDSB", DspMeta21,
0xaa000108, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 },
{ "XSDS", DspMeta21,
0xaa000108, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 },
{ "XSDSW", DspMeta21,
0xaa00010a, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 },
{ "LSL", DspMeta21,
0x50000100, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 },
{ "LSR", DspMeta21,
0x50000140, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 },
{ "ASL", DspMeta21,
0x50000180, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 },
{ "ASR", DspMeta21,
0x500001c0, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 },
{ "LSL", DspMeta21,
0x54000120, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM },
{ "LSR", DspMeta21,
0x54000160, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM },
{ "ASL", DspMeta21,
0x540001a0, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM },
{ "ASR", DspMeta21,
0x540001e0, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM },
COND_INSN ("LSL", "", 1, DspMeta21,
0x54000100, 0xfc0001fe, INSN_DSP, ENC_DALU, 0),
COND_INSN ("LSR", "", 1, DspMeta21,
0x54000140, 0xfc0001fe, INSN_DSP, ENC_DALU, 0),
COND_INSN ("ASL", "", 1, DspMeta21,
0x54000180, 0xfc0001fe, INSN_DSP, ENC_DALU, 0),
COND_INSN ("ASR", "", 1, DspMeta21,
0x540001c0, 0xfc0001fe, INSN_DSP, ENC_DALU, 0),
{ "LSLS", DspMeta21,
0x58000100, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 },
{ "LSRS", DspMeta21,
0x58000140, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 },
{ "ASLS", DspMeta21,
0x58000180, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 },
{ "ASRS", DspMeta21,
0x580001c0, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 },
COND_INSN ("LSLS", "", 1, DspMeta21,
0x5c000100, 0xfc0001fe, INSN_DSP, ENC_DALU, 0),
COND_INSN ("LSRS", "", 1, DspMeta21,
0x5c000140, 0xfc0001fe, INSN_DSP, ENC_DALU, 0),
COND_INSN ("ASLS", "", 1, DspMeta21,
0x5c000180, 0xfc0001fe, INSN_DSP, ENC_DALU, 0),
COND_INSN ("ASRS", "", 1, DspMeta21,
0x5c0001c0, 0xfc0001fe, INSN_DSP, ENC_DALU, 0),
{ "LSLS", DspMeta21,
0x5c000120, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 },
{ "LSRS", DspMeta21,
0x5c000160, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 },
{ "ASLS", DspMeta21,
0x5c0001a0, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 },
{ "ASRS", DspMeta21,
0x5c0001e0, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 },
{ "RTDW", DspMeta21,
0xaa000106, 0xff00010e, INSN_DSP, ENC_DALU, DSP_ARGS_2 },
{ "RTDSW", DspMeta21,
0xaa00010e, 0xff00010e, INSN_DSP, ENC_DALU, DSP_ARGS_2 },
};
#define UNIT_MASK 0xf
#define SHORT_UNIT_MASK 0x3
#define EXT_BASE_REG_MASK 0x1
#define REG_MASK 0x1f
#define CC_MASK 0xf
#define RMASK_MASK 0x7f
#define GET_SET_IMM_MASK 0x3f
#define GET_SET_IMM_BITS 6
#define GET_SET_EXT_IMM_MASK 0xfff
#define GET_SET_EXT_IMM_BITS 12
#define DGET_SET_IMM_MASK 0x3
#define DGET_SET_IMM_BITS 2
#define MGET_MSET_MAX_REGS 8
#define MMOV_MAX_REGS 8
#define IMM16_MASK 0xffff
#define IMM16_BITS 16
#define IMM19_MASK 0x7ffff
#define IMM19_BITS 19
#define IMM8_MASK 0xff
#define IMM8_BITS 8
#define IMM24_MASK 0xffffff
#define IMM24_BITS 24
#define IMM5_MASK 0x1f
#define IMM5_BITS 5
#define IMM6_MASK 0x3f
#define IMM6_BITS 6
#define IMM15_MASK 0x7fff
#define IMM15_BITS 15
#define IMM4_MASK 0x1f
#define IMM4_BITS 4
#define CALLR_REG_MASK 0x7
#define CPC_REG_MASK 0xf
#define O2R_REG_MASK 0x7
#define ACF_PART_MASK 0x3
#define DSP_REG_MASK 0xf
#define DSP_PART_MASK 0x17
#define TEMPLATE_NUM_REGS 4
#define TEMPLATE_REGS_MASK 0xf
#define IS_TEMPLATE_DEF(insn) (insn->dsp_daoppame_flags & DSP_DAOPPAME_TEMP)
unsigned int metag_get_set_size_bytes (unsigned int opcode);
unsigned int metag_get_set_ext_size_bytes (unsigned int opcode);
unsigned int metag_cond_set_size_bytes (unsigned int opcode);