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Kernel and Embedded Linux

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Embedded Linux, kernel,
Yocto Project, Buildroot, real-time,
graphics, boot time, debugging...

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Elixir Cross Referencer

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/* bfin-parse.y  ADI Blackfin parser
   Copyright (C) 2005-2020 Free Software Foundation, Inc.

   This file is part of GAS, the GNU Assembler.

   GAS is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 3, or (at your option)
   any later version.

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

   You should have received a copy of the GNU General Public License
   along with GAS; see the file COPYING.  If not, write to the Free
   Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA
   02110-1301, USA.  */
%{

#include "as.h"

#include "bfin-aux.h"  /* Opcode generating auxiliaries.  */
#include "elf/common.h"
#include "elf/bfin.h"

#define DSP32ALU(aopcde, HL, dst1, dst0, src0, src1, s, x, aop) \
	bfin_gen_dsp32alu (HL, aopcde, aop, s, x, dst0, dst1, src0, src1)

#define DSP32MAC(op1, MM, mmod, w1, P, h01, h11, h00, h10, dst, op0, src0, src1, w0) \
	bfin_gen_dsp32mac (op1, MM, mmod, w1, P, h01, h11, h00, h10, op0, \
	                   dst, src0, src1, w0)

#define DSP32MULT(op1, MM, mmod, w1, P, h01, h11, h00, h10, dst, op0, src0, src1, w0) \
	bfin_gen_dsp32mult (op1, MM, mmod, w1, P, h01, h11, h00, h10, op0, \
	                    dst, src0, src1, w0)

#define DSP32SHIFT(sopcde, dst0, src0, src1, sop, hls)  \
	bfin_gen_dsp32shift (sopcde, dst0, src0, src1, sop, hls)

#define DSP32SHIFTIMM(sopcde, dst0, immag, src1, sop, hls)  \
	bfin_gen_dsp32shiftimm (sopcde, dst0, immag, src1, sop, hls)

#define LDIMMHALF_R(reg, h, s, z, hword) \
	bfin_gen_ldimmhalf (reg, h, s, z, hword, 1)

#define LDIMMHALF_R5(reg, h, s, z, hword) \
        bfin_gen_ldimmhalf (reg, h, s, z, hword, 2)

#define LDSTIDXI(ptr, reg, w, sz, z, offset)  \
	bfin_gen_ldstidxi (ptr, reg, w, sz, z, offset)

#define LDST(ptr, reg, aop, sz, z, w)  \
	bfin_gen_ldst (ptr, reg, aop, sz, z, w)

#define LDSTII(ptr, reg, offset, w, op)  \
	bfin_gen_ldstii (ptr, reg, offset, w, op)

#define DSPLDST(i, m, reg, aop, w) \
	bfin_gen_dspldst (i, reg, aop, w, m)

#define LDSTPMOD(ptr, reg, idx, aop, w) \
	bfin_gen_ldstpmod (ptr, reg, aop, w, idx)

#define LDSTIIFP(offset, reg, w)  \
	bfin_gen_ldstiifp (reg, offset, w)

#define LOGI2OP(dst, src, opc) \
	bfin_gen_logi2op (opc, src, dst.regno & CODE_MASK)

#define ALU2OP(dst, src, opc)  \
	bfin_gen_alu2op (dst, src, opc)

#define BRCC(t, b, offset) \
	bfin_gen_brcc (t, b, offset)

#define UJUMP(offset) \
	bfin_gen_ujump (offset)

#define PROGCTRL(prgfunc, poprnd) \
	bfin_gen_progctrl (prgfunc, poprnd)

#define PUSHPOPMULTIPLE(dr, pr, d, p, w) \
	bfin_gen_pushpopmultiple (dr, pr, d, p, w)

#define PUSHPOPREG(reg, w) \
	bfin_gen_pushpopreg (reg, w)

#define CALLA(addr, s)  \
	bfin_gen_calla (addr, s)

#define LINKAGE(r, framesize) \
	bfin_gen_linkage (r, framesize)

#define COMPI2OPD(dst, src, op)  \
	bfin_gen_compi2opd (dst, src, op)

#define COMPI2OPP(dst, src, op)  \
	bfin_gen_compi2opp (dst, src, op)

#define DAGMODIK(i, op)  \
	bfin_gen_dagmodik (i, op)

#define DAGMODIM(i, m, op, br)  \
	bfin_gen_dagmodim (i, m, op, br)

#define COMP3OP(dst, src0, src1, opc)   \
	bfin_gen_comp3op (src0, src1, dst, opc)

#define PTR2OP(dst, src, opc)   \
	bfin_gen_ptr2op (dst, src, opc)

#define CCFLAG(x, y, opc, i, g)  \
	bfin_gen_ccflag (x, y, opc, i, g)

#define CCMV(src, dst, t) \
	bfin_gen_ccmv (src, dst, t)

#define CACTRL(reg, a, op) \
	bfin_gen_cactrl (reg, a, op)

#define LOOPSETUP(soffset, c, rop, eoffset, reg) \
	bfin_gen_loopsetup (soffset, c, rop, eoffset, reg)

#define HL2(r1, r0)  (IS_H (r1) << 1 | IS_H (r0))
#define IS_RANGE(bits, expr, sign, mul)    \
	value_match(expr, bits, sign, mul, 1)
#define IS_URANGE(bits, expr, sign, mul)    \
	value_match(expr, bits, sign, mul, 0)
#define IS_CONST(expr) (expr->type == Expr_Node_Constant)
#define IS_RELOC(expr) (expr->type != Expr_Node_Constant)
#define IS_IMM(expr, bits)  value_match (expr, bits, 0, 1, 1)
#define IS_UIMM(expr, bits)  value_match (expr, bits, 0, 1, 0)

#define IS_PCREL4(expr) \
	(value_match (expr, 4, 0, 2, 0))

#define IS_LPPCREL10(expr) \
	(value_match (expr, 10, 0, 2, 0))

#define IS_PCREL10(expr) \
	(value_match (expr, 10, 0, 2, 1))

#define IS_PCREL12(expr) \
	(value_match (expr, 12, 0, 2, 1))

#define IS_PCREL24(expr) \
	(value_match (expr, 24, 0, 2, 1))


static int value_match (Expr_Node *, int, int, int, int);

extern FILE *errorf;
extern INSTR_T insn;

static Expr_Node *binary (Expr_Op_Type, Expr_Node *, Expr_Node *);
static Expr_Node *unary  (Expr_Op_Type, Expr_Node *);

static void notethat (const char *, ...);

extern char *yytext;
int yyerror (const char *);

/* Used to set SRCx fields to all 1s as described in the PRM.  */
static Register reg7 = {REG_R7, 0};

void error (const char *format, ...)
{
    va_list ap;
    static char buffer[2000];

    va_start (ap, format);
    vsprintf (buffer, format, ap);
    va_end (ap);

    as_bad ("%s", buffer);
}

int
yyerror (const char *msg)
{
  if (msg[0] == '\0')
    error ("%s", msg);

  else if (yytext[0] != ';')
    error ("%s. Input text was %s.", msg, yytext);
  else
    error ("%s.", msg);

  return -1;
}

static int
in_range_p (Expr_Node *exp, int from, int to, unsigned int mask)
{
  int val = EXPR_VALUE (exp);
  if (exp->type != Expr_Node_Constant)
    return 0;
  if (val < from || val > to)
    return 0;
  return (val & mask) == 0;
}

extern int yylex (void);

#define imm3(x) EXPR_VALUE (x)
#define imm4(x) EXPR_VALUE (x)
#define uimm4(x) EXPR_VALUE (x)
#define imm5(x) EXPR_VALUE (x)
#define uimm5(x) EXPR_VALUE (x)
#define imm6(x) EXPR_VALUE (x)
#define imm7(x) EXPR_VALUE (x)
#define uimm8(x) EXPR_VALUE (x)
#define imm16(x) EXPR_VALUE (x)
#define uimm16s4(x) ((EXPR_VALUE (x)) >> 2)
#define uimm16(x) EXPR_VALUE (x)

/* Return true if a value is inside a range.  */
#define IN_RANGE(x, low, high) \
  (((EXPR_VALUE(x)) >= (low)) && (EXPR_VALUE(x)) <= ((high)))

/* Auxiliary functions.  */

static int
valid_dreg_pair (Register *reg1, Expr_Node *reg2)
{
  if (!IS_DREG (*reg1))
    {
      yyerror ("Dregs expected");
      return 0;
    }

  if (reg1->regno != 1 && reg1->regno != 3)
    {
      yyerror ("Bad register pair");
      return 0;
    }

  if (imm7 (reg2) != reg1->regno - 1)
    {
      yyerror ("Bad register pair");
      return 0;
    }

  reg1->regno--;
  return 1;
}

static int
check_multiply_halfregs (Macfunc *aa, Macfunc *ab)
{
  if ((!REG_EQUAL (aa->s0, ab->s0) && !REG_EQUAL (aa->s0, ab->s1))
      || (!REG_EQUAL (aa->s1, ab->s1) && !REG_EQUAL (aa->s1, ab->s0)))
    return yyerror ("Source multiplication register mismatch");

  return 0;
}


/* Check mac option.  */

static int
check_macfunc_option (Macfunc *a, Opt_mode *opt)
{
  /* Default option is always valid.  */
  if (opt->mod == 0)
    return 0;

  if ((a->w == 1 && a->P == 1
       && opt->mod != M_FU && opt->mod != M_IS && opt->mod != M_IU
       && opt->mod != M_S2RND && opt->mod != M_ISS2)
      || (a->w == 1 && a->P == 0
	  && opt->mod != M_FU && opt->mod != M_IS && opt->mod != M_IU
	  && opt->mod != M_T && opt->mod != M_TFU && opt->mod != M_S2RND
	  && opt->mod != M_ISS2 && opt->mod != M_IH)
      || (a->w == 0 && a->P == 0
	  && opt->mod != M_FU && opt->mod != M_IS && opt->mod != M_W32))
    return -1;

  return 0;
}

/* Check (vector) mac funcs and ops.  */

static int
check_macfuncs (Macfunc *aa, Opt_mode *opa,
		Macfunc *ab, Opt_mode *opb)
{
  /* Variables for swapping.  */
  Macfunc mtmp;
  Opt_mode otmp;

  /* The option mode should be put at the end of the second instruction
     of the vector except M, which should follow MAC1 instruction.  */
  if (opa->mod != 0)
    return yyerror ("Bad opt mode");

  /* If a0macfunc comes before a1macfunc, swap them.  */

  if (aa->n == 0)
    {
      /*  (M) is not allowed here.  */
      if (opa->MM != 0)
	return yyerror ("(M) not allowed with A0MAC");
      if (ab->n != 1)
	return yyerror ("Vector AxMACs can't be same");

      mtmp = *aa; *aa = *ab; *ab = mtmp;
      otmp = *opa; *opa = *opb; *opb = otmp;
    }
  else
    {
      if (opb->MM != 0)
	return yyerror ("(M) not allowed with A0MAC");
      if (ab->n != 0)
	return yyerror ("Vector AxMACs can't be same");
    }

  /*  If both ops are one of 0, 1, or 2, we have multiply_halfregs in both
  assignment_or_macfuncs.  */
  if ((aa->op == 0 || aa->op == 1 || aa->op == 2)
      && (ab->op == 0 || ab->op == 1 || ab->op == 2))
    {
      if (check_multiply_halfregs (aa, ab) < 0)
	return -1;
    }
  else
    {
      /*  Only one of the assign_macfuncs has a half reg multiply
      Evil trick: Just 'OR' their source register codes:
      We can do that, because we know they were initialized to 0
      in the rules that don't use multiply_halfregs.  */
      aa->s0.regno |= (ab->s0.regno & CODE_MASK);
      aa->s1.regno |= (ab->s1.regno & CODE_MASK);
    }

  if (aa->w == ab->w && aa->P != ab->P)
    return yyerror ("Destination Dreg sizes (full or half) must match");

  if (aa->w && ab->w)
    {
      if (aa->P && (aa->dst.regno - ab->dst.regno) != 1)
	return yyerror ("Destination Dregs (full) must differ by one");
      if (!aa->P && aa->dst.regno != ab->dst.regno)
	return yyerror ("Destination Dregs (half) must match");
    }

  /* Make sure mod flags get ORed, too.  */
  opb->mod |= opa->mod;

  /* Check option.  */
  if (check_macfunc_option (aa, opb) < 0
      && check_macfunc_option (ab, opb) < 0)
    return yyerror ("bad option");

  /* Make sure first macfunc has got both P flags ORed.  */
  aa->P |= ab->P;

  return 0;
}


static int
is_group1 (INSTR_T x)
{
  /* Group1 is dpsLDST, LDSTpmod, LDST, LDSTiiFP, LDSTii.  */
  if ((x->value & 0xc000) == 0x8000 || (x->value == 0x0000))
    return 1;

  return 0;
}

static int
is_group2 (INSTR_T x)
{
  if ((((x->value & 0xfc00) == 0x9c00)  /* dspLDST.  */
       && !((x->value & 0xfde0) == 0x9c60)  /* dagMODim.  */
       && !((x->value & 0xfde0) == 0x9ce0)  /* dagMODim with bit rev.  */
       && !((x->value & 0xfde0) == 0x9d60)) /* pick dagMODik.  */
      || (x->value == 0x0000))
    return 1;
  return 0;
}

static int
is_store (INSTR_T x)
{
  if (!x)
    return 0;

  if ((x->value & 0xf000) == 0x8000)
    {
      int aop = ((x->value >> 9) & 0x3);
      int w = ((x->value >> 11) & 0x1);
      if (!w || aop == 3)
	return 0;
      return 1;
    }

  if (((x->value & 0xFF60) == 0x9E60) ||  /* dagMODim_0 */
      ((x->value & 0xFFF0) == 0x9F60))    /* dagMODik_0 */
    return 0;

  /* decode_dspLDST_0 */
  if ((x->value & 0xFC00) == 0x9C00)
    {
      int w = ((x->value >> 9) & 0x1);
      if (w)
	return 1;
    }

  return 0;
}

static INSTR_T
gen_multi_instr_1 (INSTR_T dsp32, INSTR_T dsp16_grp1, INSTR_T dsp16_grp2)
{
  int mask1 = dsp32 ? insn_regmask (dsp32->value, dsp32->next->value) : 0;
  int mask2 = dsp16_grp1 ? insn_regmask (dsp16_grp1->value, 0) : 0;
  int mask3 = dsp16_grp2 ? insn_regmask (dsp16_grp2->value, 0) : 0;

  if ((mask1 & mask2) || (mask1 & mask3) || (mask2 & mask3))
    yyerror ("resource conflict in multi-issue instruction");

  /* Anomaly 05000074 */
  if (ENABLE_AC_05000074
      && dsp32 != NULL && dsp16_grp1 != NULL
      && (dsp32->value & 0xf780) == 0xc680
      && ((dsp16_grp1->value & 0xfe40) == 0x9240
	  || (dsp16_grp1->value & 0xfe08) == 0xba08
	  || (dsp16_grp1->value & 0xfc00) == 0xbc00))
    yyerror ("anomaly 05000074 - Multi-Issue Instruction with \
dsp32shiftimm in slot1 and P-reg Store in slot2 Not Supported");

  if (is_store (dsp16_grp1) && is_store (dsp16_grp2))
    yyerror ("Only one instruction in multi-issue instruction can be a store");

  return bfin_gen_multi_instr (dsp32, dsp16_grp1, dsp16_grp2);
}

%}

%union {
  INSTR_T instr;
  Expr_Node *expr;
  SYMBOL_T symbol;
  long value;
  Register reg;
  Macfunc macfunc;
  struct { int r0; int s0; int x0; int aop; } modcodes;
  struct { int r0; } r0;
  Opt_mode mod;
}


/* Tokens.  */

/* Vector Specific.  */
%token BYTEOP16P BYTEOP16M
%token BYTEOP1P BYTEOP2P BYTEOP3P
%token BYTEUNPACK BYTEPACK
%token PACK
%token SAA
%token ALIGN8 ALIGN16 ALIGN24
%token VIT_MAX
%token EXTRACT DEPOSIT EXPADJ SEARCH
%token ONES SIGN SIGNBITS

/* Stack.  */
%token LINK UNLINK

/* Registers.  */
%token REG
%token PC
%token CCREG BYTE_DREG
%token REG_A_DOUBLE_ZERO REG_A_DOUBLE_ONE
%token A_ZERO_DOT_L A_ZERO_DOT_H A_ONE_DOT_L A_ONE_DOT_H
%token HALF_REG

/* Progctrl.  */
%token NOP
%token RTI RTS RTX RTN RTE
%token HLT IDLE
%token STI CLI
%token CSYNC SSYNC
%token EMUEXCPT
%token RAISE EXCPT
%token LSETUP
%token LOOP
%token LOOP_BEGIN
%token LOOP_END
%token DISALGNEXCPT
%token JUMP JUMP_DOT_S JUMP_DOT_L
%token CALL

/* Emulator only.  */
%token ABORT

/* Operators.  */
%token NOT TILDA BANG
%token AMPERSAND BAR
%token PERCENT
%token CARET
%token BXOR

%token MINUS PLUS STAR SLASH
%token NEG
%token MIN MAX ABS
%token DOUBLE_BAR
%token _PLUS_BAR_PLUS _PLUS_BAR_MINUS _MINUS_BAR_PLUS _MINUS_BAR_MINUS
%token _MINUS_MINUS _PLUS_PLUS

/* Shift/rotate ops.  */
%token SHIFT LSHIFT ASHIFT BXORSHIFT
%token _GREATER_GREATER_GREATER_THAN_ASSIGN
%token ROT
%token LESS_LESS GREATER_GREATER
%token _GREATER_GREATER_GREATER
%token _LESS_LESS_ASSIGN _GREATER_GREATER_ASSIGN
%token DIVS DIVQ

/* In place operators.  */
%token ASSIGN _STAR_ASSIGN
%token _BAR_ASSIGN _CARET_ASSIGN _AMPERSAND_ASSIGN
%token _MINUS_ASSIGN _PLUS_ASSIGN

/* Assignments, comparisons.  */
%token _ASSIGN_BANG _LESS_THAN_ASSIGN _ASSIGN_ASSIGN
%token GE LT LE GT
%token LESS_THAN

/* Cache.  */
%token FLUSHINV FLUSH
%token IFLUSH PREFETCH

/* Misc.  */
%token PRNT
%token OUTC
%token WHATREG
%token TESTSET

/* Modifiers.  */
%token ASL ASR
%token B W
%token NS S CO SCO
%token TH TL
%token BP
%token BREV
%token X Z
%token M MMOD
%token R RND RNDL RNDH RND12 RND20
%token V
%token LO HI

/* Bit ops.  */
%token BITTGL BITCLR BITSET BITTST BITMUX

/* Debug.  */
%token DBGAL DBGAH DBGHALT DBG DBGA DBGCMPLX

/* Semantic auxiliaries.  */

%token IF COMMA BY
%token COLON SEMICOLON
%token RPAREN LPAREN LBRACK RBRACK
%token STATUS_REG
%token MNOP
%token SYMBOL NUMBER
%token GOT GOT17M4 FUNCDESC_GOT17M4
%token AT PLTPC

/* Types.  */
%type <instr> asm
%type <value> MMOD
%type <mod> opt_mode

%type <value> NUMBER
%type <r0> aligndir
%type <modcodes> byteop_mod
%type <reg> a_assign
%type <reg> a_plusassign
%type <reg> a_minusassign
%type <macfunc> multiply_halfregs
%type <macfunc> assign_macfunc
%type <macfunc> a_macfunc
%type <expr> expr_1
%type <instr> asm_1
%type <r0> vmod
%type <modcodes> vsmod
%type <modcodes> ccstat
%type <r0> cc_op
%type <reg> CCREG
%type <reg> reg_with_postinc
%type <reg> reg_with_predec

%type <r0> searchmod
%type <expr> symbol
%type <symbol> SYMBOL
%type <expr> eterm
%type <reg> REG
%type <reg> BYTE_DREG
%type <reg> REG_A_DOUBLE_ZERO
%type <reg> REG_A_DOUBLE_ONE
%type <reg> REG_A
%type <reg> STATUS_REG
%type <expr> expr
%type <r0> xpmod
%type <r0> xpmod1
%type <modcodes> smod
%type <modcodes> b3_op
%type <modcodes> rnd_op
%type <modcodes> post_op
%type <reg> HALF_REG
%type <r0> iu_or_nothing
%type <r0> plus_minus
%type <r0> asr_asl
%type <r0> asr_asl_0
%type <modcodes> sco
%type <modcodes> amod0
%type <modcodes> amod1
%type <modcodes> amod2
%type <r0> op_bar_op
%type <r0> w32_or_nothing
%type <r0> c_align
%type <r0> min_max
%type <expr> got
%type <expr> got_or_expr
%type <expr> pltpc
%type <value> any_gotrel GOT GOT17M4 FUNCDESC_GOT17M4

/* Precedence rules.  */
%left BAR
%left CARET
%left AMPERSAND
%left LESS_LESS GREATER_GREATER
%left PLUS MINUS
%left STAR SLASH PERCENT

%right ASSIGN

%right TILDA BANG
%start statement
%%
statement:
	| asm
	{
	  insn = $1;
	  if (insn == (INSTR_T) 0)
	    return NO_INSN_GENERATED;
	  else if (insn == (INSTR_T) - 1)
	    return SEMANTIC_ERROR;
	  else
	    return INSN_GENERATED;
	}
	;

asm: asm_1 SEMICOLON
	/* Parallel instructions.  */
	| asm_1 DOUBLE_BAR asm_1 DOUBLE_BAR asm_1 SEMICOLON
	{
	  if (($1->value & 0xf800) == 0xc000)
	    {
	      if (is_group1 ($3) && is_group2 ($5))
		$$ = gen_multi_instr_1 ($1, $3, $5);
	      else if (is_group2 ($3) && is_group1 ($5))
		$$ = gen_multi_instr_1 ($1, $5, $3);
	      else
		return yyerror ("Wrong 16 bit instructions groups, slot 2 and slot 3 must be 16-bit instruction group");
	    }
	  else if (($3->value & 0xf800) == 0xc000)
	    {
	      if (is_group1 ($1) && is_group2 ($5))
		$$ = gen_multi_instr_1 ($3, $1, $5);
	      else if (is_group2 ($1) && is_group1 ($5))
		$$ = gen_multi_instr_1 ($3, $5, $1);
	      else
		return yyerror ("Wrong 16 bit instructions groups, slot 1 and slot 3 must be 16-bit instruction group");
	    }
	  else if (($5->value & 0xf800) == 0xc000)
	    {
	      if (is_group1 ($1) && is_group2 ($3))
		$$ = gen_multi_instr_1 ($5, $1, $3);
	      else if (is_group2 ($1) && is_group1 ($3))
		$$ = gen_multi_instr_1 ($5, $3, $1);
	      else
		return yyerror ("Wrong 16 bit instructions groups, slot 1 and slot 2 must be 16-bit instruction group");
	    }
	  else
	    error ("\nIllegal Multi Issue Construct, at least any one of the slot must be DSP32 instruction group\n");
	}

	| asm_1 DOUBLE_BAR asm_1 SEMICOLON
	{
	  if (($1->value & 0xf800) == 0xc000)
	    {
	      if (is_group1 ($3))
		$$ = gen_multi_instr_1 ($1, $3, 0);
	      else if (is_group2 ($3))
		$$ = gen_multi_instr_1 ($1, 0, $3);
	      else
		return yyerror ("Wrong 16 bit instructions groups, slot 2 must be the 16-bit instruction group");
	    }
	  else if (($3->value & 0xf800) == 0xc000)
	    {
	      if (is_group1 ($1))
		$$ = gen_multi_instr_1 ($3, $1, 0);
	      else if (is_group2 ($1))
		$$ = gen_multi_instr_1 ($3, 0, $1);
	      else
		return yyerror ("Wrong 16 bit instructions groups, slot 1 must be the 16-bit instruction group");
	    }
	  else if (is_group1 ($1) && is_group2 ($3))
	      $$ = gen_multi_instr_1 (0, $1, $3);
	  else if (is_group2 ($1) && is_group1 ($3))
	    $$ = gen_multi_instr_1 (0, $3, $1);
	  else
	    return yyerror ("Wrong 16 bit instructions groups, slot 1 and slot 2 must be the 16-bit instruction group");
	}
	| error
	{
	$$ = 0;
	yyerror ("");
	yyerrok;
	}
	;

/* DSPMAC.  */

asm_1:
	MNOP
	{
	  $$ = DSP32MAC (3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 3, 0, 0, 0);
	}
	| assign_macfunc opt_mode
	{
	  int op0, op1;
	  int w0 = 0, w1 = 0;
	  int h00, h10, h01, h11;

	  if (check_macfunc_option (&$1, &$2) < 0)
	    return yyerror ("bad option");

	  if ($1.n == 0)
	    {
	      if ($2.MM)
		return yyerror ("(m) not allowed with a0 unit");
	      op1 = 3;
	      op0 = $1.op;
	      w1 = 0;
              w0 = $1.w;
	      h00 = IS_H ($1.s0);
              h10 = IS_H ($1.s1);
	      h01 = h11 = 0;
	    }
	  else
	    {
	      op1 = $1.op;
	      op0 = 3;
	      w1 = $1.w;
              w0 = 0;
	      h00 = h10 = 0;
	      h01 = IS_H ($1.s0);
              h11 = IS_H ($1.s1);
	    }
	  $$ = DSP32MAC (op1, $2.MM, $2.mod, w1, $1.P, h01, h11, h00, h10,
			 &$1.dst, op0, &$1.s0, &$1.s1, w0);
	}


/* VECTOR MACs.  */

	| assign_macfunc opt_mode COMMA assign_macfunc opt_mode
	{
	  Register *dst;

	  if (check_macfuncs (&$1, &$2, &$4, &$5) < 0)
	    return -1;
	  notethat ("assign_macfunc (.), assign_macfunc (.)\n");

	  if ($1.w)
	    dst = &$1.dst;
	  else
	    dst = &$4.dst;

	  $$ = DSP32MAC ($1.op, $2.MM, $5.mod, $1.w, $1.P,
			 IS_H ($1.s0),  IS_H ($1.s1), IS_H ($4.s0), IS_H ($4.s1),
			 dst, $4.op, &$1.s0, &$1.s1, $4.w);
	}

/* DSPALU.  */

	| DISALGNEXCPT
	{
	  notethat ("dsp32alu: DISALGNEXCPT\n");
	  $$ = DSP32ALU (18, 0, 0, 0, 0, 0, 0, 0, 3);
	}
	| REG ASSIGN LPAREN a_plusassign REG_A RPAREN
	{
	  if (IS_DREG ($1) && !IS_A1 ($4) && IS_A1 ($5))
	    {
	      notethat ("dsp32alu: dregs = ( A0 += A1 )\n");
	      $$ = DSP32ALU (11, 0, 0, &$1, &reg7, &reg7, 0, 0, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}
	| HALF_REG ASSIGN LPAREN a_plusassign REG_A RPAREN
	{
	  if (!IS_A1 ($4) && IS_A1 ($5))
	    {
	      notethat ("dsp32alu: dregs_half = ( A0 += A1 )\n");
	      $$ = DSP32ALU (11, IS_H ($1), 0, &$1, &reg7, &reg7, 0, 0, 1);
	    }
	  else
	    return yyerror ("Register mismatch");
	}
	| A_ZERO_DOT_H ASSIGN HALF_REG
	{
	  notethat ("dsp32alu: A_ZERO_DOT_H = dregs_hi\n");
	  $$ = DSP32ALU (9, IS_H ($3), 0, 0, &$3, 0, 0, 0, 0);
	}
	| A_ONE_DOT_H ASSIGN HALF_REG
	{
	  notethat ("dsp32alu: A_ZERO_DOT_H = dregs_hi\n");
	  $$ = DSP32ALU (9, IS_H ($3), 0, 0, &$3, 0, 0, 0, 2);
	}
	| LPAREN REG COMMA REG RPAREN ASSIGN BYTEOP16P LPAREN REG
	  COLON expr COMMA REG COLON expr RPAREN aligndir
	{
	  if (!IS_DREG ($2) || !IS_DREG ($4))
	    return yyerror ("Dregs expected");
	  else if (REG_SAME ($2, $4))
	    return yyerror ("Illegal dest register combination");
	  else if (!valid_dreg_pair (&$9, $11))
	    return yyerror ("Bad dreg pair");
	  else if (!valid_dreg_pair (&$13, $15))
	    return yyerror ("Bad dreg pair");
	  else
	    {
	      notethat ("dsp32alu: (dregs , dregs ) = BYTEOP16P (dregs_pair , dregs_pair ) (aligndir)\n");
	      $$ = DSP32ALU (21, 0, &$2, &$4, &$9, &$13, $17.r0, 0, 0);
	    }
	}

	| LPAREN REG COMMA REG RPAREN ASSIGN BYTEOP16M LPAREN REG COLON expr COMMA
	  REG COLON expr RPAREN aligndir
	{
	  if (!IS_DREG ($2) || !IS_DREG ($4))
	    return yyerror ("Dregs expected");
	  else if (REG_SAME ($2, $4))
	    return yyerror ("Illegal dest register combination");
	  else if (!valid_dreg_pair (&$9, $11))
	    return yyerror ("Bad dreg pair");
	  else if (!valid_dreg_pair (&$13, $15))
	    return yyerror ("Bad dreg pair");
	  else
	    {
	      notethat ("dsp32alu: (dregs , dregs ) = BYTEOP16M (dregs_pair , dregs_pair ) (aligndir)\n");
	      $$ = DSP32ALU (21, 0, &$2, &$4, &$9, &$13, $17.r0, 0, 1);
	    }
	}

	| LPAREN REG COMMA REG RPAREN ASSIGN BYTEUNPACK REG COLON expr aligndir
	{
	  if (!IS_DREG ($2) || !IS_DREG ($4))
	    return yyerror ("Dregs expected");
	  else if (REG_SAME ($2, $4))
	    return yyerror ("Illegal dest register combination");
	  else if (!valid_dreg_pair (&$8, $10))
	    return yyerror ("Bad dreg pair");
	  else
	    {
	      notethat ("dsp32alu: (dregs , dregs ) = BYTEUNPACK dregs_pair (aligndir)\n");
	      $$ = DSP32ALU (24, 0, &$2, &$4, &$8, 0, $11.r0, 0, 1);
	    }
	}
	| LPAREN REG COMMA REG RPAREN ASSIGN SEARCH REG LPAREN searchmod RPAREN
	{
	  if (REG_SAME ($2, $4))
	    return yyerror ("Illegal dest register combination");

	  if (IS_DREG ($2) && IS_DREG ($4) && IS_DREG ($8))
	    {
	      notethat ("dsp32alu: (dregs , dregs ) = SEARCH dregs (searchmod)\n");
	      $$ = DSP32ALU (13, 0, &$2, &$4, &$8, 0, 0, 0, $10.r0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}
	| REG ASSIGN A_ONE_DOT_L PLUS A_ONE_DOT_H COMMA
	  REG ASSIGN A_ZERO_DOT_L PLUS A_ZERO_DOT_H
	{
	  if (REG_SAME ($1, $7))
	    return yyerror ("Illegal dest register combination");

	  if (IS_DREG ($1) && IS_DREG ($7))
	    {
	      notethat ("dsp32alu: dregs = A1.l + A1.h, dregs = A0.l + A0.h  \n");
	      $$ = DSP32ALU (12, 0, &$1, &$7, &reg7, &reg7, 0, 0, 1);
	    }
	  else
	    return yyerror ("Register mismatch");
	}


	| REG ASSIGN REG_A PLUS REG_A COMMA REG ASSIGN REG_A MINUS REG_A amod1
	{
	  if (REG_SAME ($1, $7))
	    return yyerror ("Resource conflict in dest reg");

	  if (IS_DREG ($1) && IS_DREG ($7) && !REG_SAME ($3, $5)
	      && IS_A1 ($9) && !IS_A1 ($11))
	    {
	      notethat ("dsp32alu: dregs = A1 + A0 , dregs = A1 - A0 (amod1)\n");
	      $$ = DSP32ALU (17, 0, &$1, &$7, &reg7, &reg7, $12.s0, $12.x0, 0);

	    }
	  else if (IS_DREG ($1) && IS_DREG ($7) && !REG_SAME ($3, $5)
		   && !IS_A1 ($9) && IS_A1 ($11))
	    {
	      notethat ("dsp32alu: dregs = A0 + A1 , dregs = A0 - A1 (amod1)\n");
	      $$ = DSP32ALU (17, 0, &$1, &$7, &reg7, &reg7, $12.s0, $12.x0, 1);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN REG plus_minus REG COMMA REG ASSIGN REG plus_minus REG amod1
	{
	  if ($4.r0 == $10.r0)
	    return yyerror ("Operators must differ");

	  if (IS_DREG ($1) && IS_DREG ($3) && IS_DREG ($5)
	      && REG_SAME ($3, $9) && REG_SAME ($5, $11))
	    {
	      notethat ("dsp32alu: dregs = dregs + dregs,"
		       "dregs = dregs - dregs (amod1)\n");
	      $$ = DSP32ALU (4, 0, &$1, &$7, &$3, &$5, $12.s0, $12.x0, 2);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

/*  Bar Operations.  */

	| REG ASSIGN REG op_bar_op REG COMMA REG ASSIGN REG op_bar_op REG amod2
	{
	  if (!REG_SAME ($3, $9) || !REG_SAME ($5, $11))
	    return yyerror ("Differing source registers");

	  if (!IS_DREG ($1) || !IS_DREG ($3) || !IS_DREG ($5) || !IS_DREG ($7))
	    return yyerror ("Dregs expected");

	  if (REG_SAME ($1, $7))
	    return yyerror ("Resource conflict in dest reg");

	  if ($4.r0 == 1 && $10.r0 == 2)
	    {
	      notethat ("dsp32alu:  dregs = dregs .|. dregs , dregs = dregs .|. dregs (amod2)\n");
	      $$ = DSP32ALU (1, 1, &$1, &$7, &$3, &$5, $12.s0, $12.x0, $12.r0);
	    }
	  else if ($4.r0 == 0 && $10.r0 == 3)
	    {
	      notethat ("dsp32alu:  dregs = dregs .|. dregs , dregs = dregs .|. dregs (amod2)\n");
	      $$ = DSP32ALU (1, 0, &$1, &$7, &$3, &$5, $12.s0, $12.x0, $12.r0);
	    }
	  else
	    return yyerror ("Bar operand mismatch");
	}

	| REG ASSIGN ABS REG vmod
	{
	  int op;

	  if (IS_DREG ($1) && IS_DREG ($4))
	    {
	      if ($5.r0)
		{
		  notethat ("dsp32alu: dregs = ABS dregs (v)\n");
		  op = 6;
		}
	      else
		{
		  /* Vector version of ABS.  */
		  notethat ("dsp32alu: dregs = ABS dregs\n");
		  op = 7;
		}
	      $$ = DSP32ALU (op, 0, 0, &$1, &$4, 0, 0, 0, 2);
	    }
	  else
	    return yyerror ("Dregs expected");
	}
	| a_assign ABS REG_A
	{
	  notethat ("dsp32alu: Ax = ABS Ax\n");
	  $$ = DSP32ALU (16, IS_A1 ($1), 0, 0, &reg7, &reg7, 0, 0, IS_A1 ($3));
	}
	| A_ZERO_DOT_L ASSIGN HALF_REG
	{
	  if (IS_DREG_L ($3))
	    {
	      notethat ("dsp32alu: A0.l = reg_half\n");
	      $$ = DSP32ALU (9, IS_H ($3), 0, 0, &$3, 0, 0, 0, 0);
	    }
	  else
	    return yyerror ("A0.l = Rx.l expected");
	}
	| A_ONE_DOT_L ASSIGN HALF_REG
	{
	  if (IS_DREG_L ($3))
	    {
	      notethat ("dsp32alu: A1.l = reg_half\n");
	      $$ = DSP32ALU (9, IS_H ($3), 0, 0, &$3, 0, 0, 0, 2);
	    }
	  else
	    return yyerror ("A1.l = Rx.l expected");
	}

	| REG ASSIGN c_align LPAREN REG COMMA REG RPAREN
	{
	  if (IS_DREG ($1) && IS_DREG ($5) && IS_DREG ($7))
	    {
	      notethat ("dsp32shift: dregs = ALIGN8 (dregs , dregs )\n");
	      $$ = DSP32SHIFT (13, &$1, &$7, &$5, $3.r0, 0);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

 	| REG ASSIGN BYTEOP1P LPAREN REG COLON expr COMMA REG COLON expr RPAREN byteop_mod
	{
	  if (!IS_DREG ($1))
	    return yyerror ("Dregs expected");
	  else if (!valid_dreg_pair (&$5, $7))
	    return yyerror ("Bad dreg pair");
	  else if (!valid_dreg_pair (&$9, $11))
	    return yyerror ("Bad dreg pair");
	  else
	    {
	      notethat ("dsp32alu: dregs = BYTEOP1P (dregs_pair , dregs_pair ) (T)\n");
	      $$ = DSP32ALU (20, 0, 0, &$1, &$5, &$9, $13.s0, 0, $13.r0);
	    }
	}
 	| REG ASSIGN BYTEOP1P LPAREN REG COLON expr COMMA REG COLON expr RPAREN
	{
	  if (!IS_DREG ($1))
	    return yyerror ("Dregs expected");
	  else if (!valid_dreg_pair (&$5, $7))
	    return yyerror ("Bad dreg pair");
	  else if (!valid_dreg_pair (&$9, $11))
	    return yyerror ("Bad dreg pair");
	  else
	    {
	      notethat ("dsp32alu: dregs = BYTEOP1P (dregs_pair , dregs_pair ) (T)\n");
	      $$ = DSP32ALU (20, 0, 0, &$1, &$5, &$9, 0, 0, 0);
	    }
	}

	| REG ASSIGN BYTEOP2P LPAREN REG COLON expr COMMA REG COLON expr RPAREN
	  rnd_op
	{
	  if (!IS_DREG ($1))
	    return yyerror ("Dregs expected");
	  else if (!valid_dreg_pair (&$5, $7))
	    return yyerror ("Bad dreg pair");
	  else if (!valid_dreg_pair (&$9, $11))
	    return yyerror ("Bad dreg pair");
	  else
	    {
	      notethat ("dsp32alu: dregs = BYTEOP2P (dregs_pair , dregs_pair ) (rnd_op)\n");
	      $$ = DSP32ALU (22, $13.r0, 0, &$1, &$5, &$9, $13.s0, $13.x0, $13.aop);
	    }
	}

	| REG ASSIGN BYTEOP3P LPAREN REG COLON expr COMMA REG COLON expr RPAREN
	  b3_op
	{
	  if (!IS_DREG ($1))
	    return yyerror ("Dregs expected");
	  else if (!valid_dreg_pair (&$5, $7))
	    return yyerror ("Bad dreg pair");
	  else if (!valid_dreg_pair (&$9, $11))
	    return yyerror ("Bad dreg pair");
	  else
	    {
	      notethat ("dsp32alu: dregs = BYTEOP3P (dregs_pair , dregs_pair ) (b3_op)\n");
	      $$ = DSP32ALU (23, $13.x0, 0, &$1, &$5, &$9, $13.s0, 0, 0);
	    }
	}

	| REG ASSIGN BYTEPACK LPAREN REG COMMA REG RPAREN
	{
	  if (IS_DREG ($1) && IS_DREG ($5) && IS_DREG ($7))
	    {
	      notethat ("dsp32alu: dregs = BYTEPACK (dregs , dregs )\n");
	      $$ = DSP32ALU (24, 0, 0, &$1, &$5, &$7, 0, 0, 0);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| HALF_REG ASSIGN HALF_REG ASSIGN SIGN LPAREN HALF_REG RPAREN STAR
	  HALF_REG PLUS SIGN LPAREN HALF_REG RPAREN STAR HALF_REG
	{
	  if (IS_HCOMPL ($1, $3) && IS_HCOMPL ($7, $14) && IS_HCOMPL ($10, $17))
	    {
	      notethat ("dsp32alu:	dregs_hi = dregs_lo ="
		       "SIGN (dregs_hi) * dregs_hi + "
		       "SIGN (dregs_lo) * dregs_lo \n");

		$$ = DSP32ALU (12, 0, 0, &$1, &$7, &$10, 0, 0, 0);
	    }
	  else
	    return yyerror ("Dregs expected");
	}
	| REG ASSIGN REG plus_minus REG amod1
	{
	  if (IS_DREG ($1) && IS_DREG ($3) && IS_DREG ($5))
	    {
	      if ($6.aop == 0)
		{
	          /* No saturation flag specified, generate the 16 bit variant.  */
		  notethat ("COMP3op: dregs = dregs +- dregs\n");
		  $$ = COMP3OP (&$1, &$3, &$5, $4.r0);
		}
	      else
		{
		 /* Saturation flag specified, generate the 32 bit variant.  */
                 notethat ("dsp32alu: dregs = dregs +- dregs (amod1)\n");
                 $$ = DSP32ALU (4, 0, 0, &$1, &$3, &$5, $6.s0, $6.x0, $4.r0);
		}
	    }
	  else
	    if (IS_PREG ($1) && IS_PREG ($3) && IS_PREG ($5) && $4.r0 == 0)
	      {
		notethat ("COMP3op: pregs = pregs + pregs\n");
		$$ = COMP3OP (&$1, &$3, &$5, 5);
	      }
	    else
	      return yyerror ("Dregs expected");
	}
	| REG ASSIGN min_max LPAREN REG COMMA REG RPAREN vmod
	{
	  int op;

	  if (IS_DREG ($1) && IS_DREG ($5) && IS_DREG ($7))
	    {
	      if ($9.r0)
		op = 6;
	      else
		op = 7;

	      notethat ("dsp32alu: dregs = {MIN|MAX} (dregs, dregs)\n");
	      $$ = DSP32ALU (op, 0, 0, &$1, &$5, &$7, 0, 0, $3.r0);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| a_assign MINUS REG_A
	{
	  notethat ("dsp32alu: Ax = - Ax\n");
	  $$ = DSP32ALU (14, IS_A1 ($1), 0, 0, &reg7, &reg7, 0, 0, IS_A1 ($3));
	}
	| HALF_REG ASSIGN HALF_REG plus_minus HALF_REG amod1
	{
	  notethat ("dsp32alu: dregs_lo = dregs_lo +- dregs_lo (amod1)\n");
	  $$ = DSP32ALU (2 | $4.r0, IS_H ($1), 0, &$1, &$3, &$5,
			 $6.s0, $6.x0, HL2 ($3, $5));
	}
	| a_assign a_assign expr
	{
	  if (EXPR_VALUE ($3) == 0 && !REG_SAME ($1, $2))
	    {
	      notethat ("dsp32alu: A1 = A0 = 0\n");
	      $$ = DSP32ALU (8, 0, 0, 0, &reg7, &reg7, 0, 0, 2);
	    }
	  else
	    return yyerror ("Bad value, 0 expected");
	}

	/* Saturating.  */
	| a_assign REG_A LPAREN S RPAREN
	{
	  if (REG_SAME ($1, $2))
	    {
	      notethat ("dsp32alu: Ax = Ax (S)\n");
	      $$ = DSP32ALU (8, 0, 0, 0, &reg7, &reg7, 1, 0, IS_A1 ($1));
	    }
	  else
	    return yyerror ("Registers must be equal");
	}

	| HALF_REG ASSIGN REG LPAREN RND RPAREN
	{
	  if (IS_DREG ($3))
	    {
	      notethat ("dsp32alu: dregs_half = dregs (RND)\n");
	      $$ = DSP32ALU (12, IS_H ($1), 0, &$1, &$3, 0, 0, 0, 3);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| HALF_REG ASSIGN REG plus_minus REG LPAREN RND12 RPAREN
	{
	  if (IS_DREG ($3) && IS_DREG ($5))
	    {
	      notethat ("dsp32alu: dregs_half = dregs (+-) dregs (RND12)\n");
	      $$ = DSP32ALU (5, IS_H ($1), 0, &$1, &$3, &$5, 0, 0, $4.r0);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| HALF_REG ASSIGN REG plus_minus REG LPAREN RND20 RPAREN
	{
	  if (IS_DREG ($3) && IS_DREG ($5))
	    {
	      notethat ("dsp32alu: dregs_half = dregs -+ dregs (RND20)\n");
	      $$ = DSP32ALU (5, IS_H ($1), 0, &$1, &$3, &$5, 0, 1, $4.r0 | 2);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| a_assign REG_A
	{
	  if (!REG_SAME ($1, $2))
	    {
	      notethat ("dsp32alu: An = Am\n");
	      $$ = DSP32ALU (8, 0, 0, 0, &reg7, &reg7, IS_A1 ($1), 0, 3);
	    }
	  else
	    return yyerror ("Accu reg arguments must differ");
	}

	| a_assign REG
	{
	  if (IS_DREG ($2))
	    {
	      notethat ("dsp32alu: An = dregs\n");
	      $$ = DSP32ALU (9, 0, 0, 0, &$2, 0, 1, 0, IS_A1 ($1) << 1);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| REG ASSIGN HALF_REG xpmod
	{
	  if (!IS_H ($3))
	    {
	      if ($1.regno == REG_A0x && IS_DREG ($3))
		{
		  notethat ("dsp32alu: A0.x = dregs_lo\n");
		  $$ = DSP32ALU (9, 0, 0, 0, &$3, 0, 0, 0, 1);
		}
	      else if ($1.regno == REG_A1x && IS_DREG ($3))
		{
		  notethat ("dsp32alu: A1.x = dregs_lo\n");
		  $$ = DSP32ALU (9, 0, 0, 0, &$3, 0, 0, 0, 3);
		}
	      else if (IS_DREG ($1) && IS_DREG ($3))
		{
		  notethat ("ALU2op: dregs = dregs_lo\n");
		  $$ = ALU2OP (&$1, &$3, 10 | ($4.r0 ? 0: 1));
		}
	      else
	        return yyerror ("Register mismatch");
	    }
	  else
	    return yyerror ("Low reg expected");
	}

	| HALF_REG ASSIGN expr
	{
	  notethat ("LDIMMhalf: pregs_half = imm16\n");

	  if (!IS_DREG ($1) && !IS_PREG ($1) && !IS_IREG ($1)
	      && !IS_MREG ($1) && !IS_BREG ($1) && !IS_LREG ($1))
	    return yyerror ("Wrong register for load immediate");

	  if (!IS_IMM ($3, 16) && !IS_UIMM ($3, 16))
	    return yyerror ("Constant out of range");

	  $$ = LDIMMHALF_R (&$1, IS_H ($1), 0, 0, $3);
	}

	| a_assign expr
	{
	  notethat ("dsp32alu: An = 0\n");

	  if (imm7 ($2) != 0)
	    return yyerror ("0 expected");

	  $$ = DSP32ALU (8, 0, 0, 0, 0, 0, 0, 0, IS_A1 ($1));
	}

	| REG ASSIGN expr xpmod1
	{
	  if (!IS_DREG ($1) && !IS_PREG ($1) && !IS_IREG ($1)
	      && !IS_MREG ($1) && !IS_BREG ($1) && !IS_LREG ($1))
	    return yyerror ("Wrong register for load immediate");

	  if ($4.r0 == 0)
	    {
	      /* 7 bit immediate value if possible.
		 We will check for that constant value for efficiency
		 If it goes to reloc, it will be 16 bit.  */
	      if (IS_CONST ($3) && IS_IMM ($3, 7) && IS_DREG ($1))
		{
		  notethat ("COMPI2opD: dregs = imm7 (x) \n");
		  $$ = COMPI2OPD (&$1, imm7 ($3), 0);
		}
	      else if (IS_CONST ($3) && IS_IMM ($3, 7) && IS_PREG ($1))
		{
		  notethat ("COMPI2opP: pregs = imm7 (x)\n");
		  $$ = COMPI2OPP (&$1, imm7 ($3), 0);
		}
	      else
		{
		  if (IS_CONST ($3) && !IS_IMM ($3, 16))
		    return yyerror ("Immediate value out of range");

		  notethat ("LDIMMhalf: regs = luimm16 (x)\n");
		  /* reg, H, S, Z.   */
		  $$ = LDIMMHALF_R5 (&$1, 0, 1, 0, $3);
		}
	    }
	  else
	    {
	      /* (z) There is no 7 bit zero extended instruction.
	      If the expr is a relocation, generate it.   */

	      if (IS_CONST ($3) && !IS_UIMM ($3, 16))
		return yyerror ("Immediate value out of range");

	      notethat ("LDIMMhalf: regs = luimm16 (x)\n");
	      /* reg, H, S, Z.  */
	      $$ = LDIMMHALF_R5 (&$1, 0, 0, 1, $3);
	    }
	}

	| HALF_REG ASSIGN REG
	{
	  if (IS_H ($1))
	    return yyerror ("Low reg expected");

	  if (IS_DREG ($1) && $3.regno == REG_A0x)
	    {
	      notethat ("dsp32alu: dregs_lo = A0.x\n");
	      $$ = DSP32ALU (10, 0, 0, &$1, &reg7, &reg7, 0, 0, 0);
	    }
	  else if (IS_DREG ($1) && $3.regno == REG_A1x)
	    {
	      notethat ("dsp32alu: dregs_lo = A1.x\n");
	      $$ = DSP32ALU (10, 0, 0, &$1, &reg7, &reg7, 0, 0, 1);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN REG op_bar_op REG amod0
	{
	  if (IS_DREG ($1) && IS_DREG ($3) && IS_DREG ($5))
	    {
	      notethat ("dsp32alu: dregs = dregs .|. dregs (amod0)\n");
	      $$ = DSP32ALU (0, 0, 0, &$1, &$3, &$5, $6.s0, $6.x0, $4.r0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN BYTE_DREG xpmod
	{
	  if (IS_DREG ($1) && IS_DREG ($3))
	    {
	      notethat ("ALU2op: dregs = dregs_byte\n");
	      $$ = ALU2OP (&$1, &$3, 12 | ($4.r0 ? 0: 1));
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| a_assign ABS REG_A COMMA a_assign ABS REG_A
	{
	  if (REG_SAME ($1, $3) && REG_SAME ($5, $7) && !REG_SAME ($1, $5))
	    {
	      notethat ("dsp32alu: A1 = ABS A1 , A0 = ABS A0\n");
	      $$ = DSP32ALU (16, 0, 0, 0, &reg7, &reg7, 0, 0, 3);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| a_assign MINUS REG_A COMMA a_assign MINUS REG_A
	{
	  if (REG_SAME ($1, $3) && REG_SAME ($5, $7) && !REG_SAME ($1, $5))
	    {
	      notethat ("dsp32alu: A1 = - A1 , A0 = - A0\n");
	      $$ = DSP32ALU (14, 0, 0, 0, &reg7, &reg7, 0, 0, 3);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| a_minusassign REG_A w32_or_nothing
	{
	  if (!IS_A1 ($1) && IS_A1 ($2))
	    {
	      notethat ("dsp32alu: A0 -= A1\n");
	      $$ = DSP32ALU (11, 0, 0, 0, &reg7, &reg7, $3.r0, 0, 3);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG _MINUS_ASSIGN expr
	{
	  if (IS_IREG ($1) && EXPR_VALUE ($3) == 4)
	    {
	      notethat ("dagMODik: iregs -= 4\n");
	      $$ = DAGMODIK (&$1, 3);
	    }
	  else if (IS_IREG ($1) && EXPR_VALUE ($3) == 2)
	    {
	      notethat ("dagMODik: iregs -= 2\n");
	      $$ = DAGMODIK (&$1, 1);
	    }
	  else
	    return yyerror ("Register or value mismatch");
	}

	| REG _PLUS_ASSIGN REG LPAREN BREV RPAREN
	{
	  if (IS_IREG ($1) && IS_MREG ($3))
	    {
	      notethat ("dagMODim: iregs += mregs (opt_brev)\n");
	      /* i, m, op, br.  */
	      $$ = DAGMODIM (&$1, &$3, 0, 1);
	    }
	  else if (IS_PREG ($1) && IS_PREG ($3))
	    {
	      notethat ("PTR2op: pregs += pregs (BREV )\n");
	      $$ = PTR2OP (&$1, &$3, 5);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG _MINUS_ASSIGN REG
	{
	  if (IS_IREG ($1) && IS_MREG ($3))
	    {
	      notethat ("dagMODim: iregs -= mregs\n");
	      $$ = DAGMODIM (&$1, &$3, 1, 0);
	    }
	  else if (IS_PREG ($1) && IS_PREG ($3))
	    {
	      notethat ("PTR2op: pregs -= pregs\n");
	      $$ = PTR2OP (&$1, &$3, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG_A _PLUS_ASSIGN REG_A w32_or_nothing
	{
	  if (!IS_A1 ($1) && IS_A1 ($3))
	    {
	      notethat ("dsp32alu: A0 += A1 (W32)\n");
	      $$ = DSP32ALU (11, 0, 0, 0, &reg7, &reg7, $4.r0, 0, 2);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG _PLUS_ASSIGN REG
	{
	  if (IS_IREG ($1) && IS_MREG ($3))
	    {
	      notethat ("dagMODim: iregs += mregs\n");
	      $$ = DAGMODIM (&$1, &$3, 0, 0);
	    }
	  else
	    return yyerror ("iregs += mregs expected");
	}

	| REG _PLUS_ASSIGN expr
	{
	  if (IS_IREG ($1))
	    {
	      if (EXPR_VALUE ($3) == 4)
		{
		  notethat ("dagMODik: iregs += 4\n");
		  $$ = DAGMODIK (&$1, 2);
		}
	      else if (EXPR_VALUE ($3) == 2)
		{
		  notethat ("dagMODik: iregs += 2\n");
		  $$ = DAGMODIK (&$1, 0);
		}
	      else
		return yyerror ("iregs += [ 2 | 4 ");
	    }
	  else if (IS_PREG ($1) && IS_IMM ($3, 7))
	    {
	      notethat ("COMPI2opP: pregs += imm7\n");
	      $$ = COMPI2OPP (&$1, imm7 ($3), 1);
	    }
	  else if (IS_DREG ($1) && IS_IMM ($3, 7))
	    {
	      notethat ("COMPI2opD: dregs += imm7\n");
	      $$ = COMPI2OPD (&$1, imm7 ($3), 1);
	    }
	  else if ((IS_DREG ($1) || IS_PREG ($1)) && IS_CONST ($3))
	    return yyerror ("Immediate value out of range");
	  else
	    return yyerror ("Register mismatch");
	}

 	| REG _STAR_ASSIGN REG
	{
	  if (IS_DREG ($1) && IS_DREG ($3))
	    {
	      notethat ("ALU2op: dregs *= dregs\n");
	      $$ = ALU2OP (&$1, &$3, 3);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| SAA LPAREN REG COLON expr COMMA REG COLON expr RPAREN aligndir
	{
	  if (!valid_dreg_pair (&$3, $5))
	    return yyerror ("Bad dreg pair");
	  else if (!valid_dreg_pair (&$7, $9))
	    return yyerror ("Bad dreg pair");
	  else
	    {
	      notethat ("dsp32alu: SAA (dregs_pair , dregs_pair ) (aligndir)\n");
	      $$ = DSP32ALU (18, 0, 0, 0, &$3, &$7, $11.r0, 0, 0);
	    }
	}

	| a_assign REG_A LPAREN S RPAREN COMMA a_assign REG_A LPAREN S RPAREN
	{
	  if (REG_SAME ($1, $2) && REG_SAME ($7, $8) && !REG_SAME ($1, $7))
	    {
	      notethat ("dsp32alu: A1 = A1 (S) , A0 = A0 (S)\n");
	      $$ = DSP32ALU (8, 0, 0, 0, &reg7, &reg7, 1, 0, 2);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN LPAREN REG PLUS REG RPAREN LESS_LESS expr
	{
	  if (IS_DREG ($1) && IS_DREG ($4) && IS_DREG ($6)
	      && REG_SAME ($1, $4))
	    {
	      if (EXPR_VALUE ($9) == 1)
		{
		  notethat ("ALU2op: dregs = (dregs + dregs) << 1\n");
		  $$ = ALU2OP (&$1, &$6, 4);
		}
	      else if (EXPR_VALUE ($9) == 2)
		{
		  notethat ("ALU2op: dregs = (dregs + dregs) << 2\n");
		  $$ = ALU2OP (&$1, &$6, 5);
		}
	      else
		return yyerror ("Bad shift value");
	    }
	  else if (IS_PREG ($1) && IS_PREG ($4) && IS_PREG ($6)
		   && REG_SAME ($1, $4))
	    {
	      if (EXPR_VALUE ($9) == 1)
		{
		  notethat ("PTR2op: pregs = (pregs + pregs) << 1\n");
		  $$ = PTR2OP (&$1, &$6, 6);
		}
	      else if (EXPR_VALUE ($9) == 2)
		{
		  notethat ("PTR2op: pregs = (pregs + pregs) << 2\n");
		  $$ = PTR2OP (&$1, &$6, 7);
		}
	      else
		return yyerror ("Bad shift value");
	    }
	  else
	    return yyerror ("Register mismatch");
	}

/*  COMP3 CCFLAG.  */
	| REG ASSIGN REG BAR REG
	{
	  if (IS_DREG ($1) && IS_DREG ($3) && IS_DREG ($5))
	    {
	      notethat ("COMP3op: dregs = dregs | dregs\n");
	      $$ = COMP3OP (&$1, &$3, &$5, 3);
	    }
	  else
	    return yyerror ("Dregs expected");
	}
	| REG ASSIGN REG CARET REG
	{
	  if (IS_DREG ($1) && IS_DREG ($3) && IS_DREG ($5))
	    {
	      notethat ("COMP3op: dregs = dregs ^ dregs\n");
	      $$ = COMP3OP (&$1, &$3, &$5, 4);
	    }
	  else
	    return yyerror ("Dregs expected");
	}
	| REG ASSIGN REG PLUS LPAREN REG LESS_LESS expr RPAREN
	{
	  if (IS_PREG ($1) && IS_PREG ($3) && IS_PREG ($6))
	    {
	      if (EXPR_VALUE ($8) == 1)
		{
		  notethat ("COMP3op: pregs = pregs + (pregs << 1)\n");
		  $$ = COMP3OP (&$1, &$3, &$6, 6);
		}
	      else if (EXPR_VALUE ($8) == 2)
		{
		  notethat ("COMP3op: pregs = pregs + (pregs << 2)\n");
		  $$ = COMP3OP (&$1, &$3, &$6, 7);
		}
	      else
		  return yyerror ("Bad shift value");
	    }
	  else
	    return yyerror ("Dregs expected");
	}
	| CCREG ASSIGN REG_A _ASSIGN_ASSIGN REG_A
	{
	  if ($3.regno == REG_A0 && $5.regno == REG_A1)
	    {
	      notethat ("CCflag: CC = A0 == A1\n");
	      $$ = CCFLAG (0, 0, 5, 0, 0);
	    }
	  else
	    return yyerror ("AREGs are in bad order or same");
	}
	| CCREG ASSIGN REG_A LESS_THAN REG_A
	{
	  if ($3.regno == REG_A0 && $5.regno == REG_A1)
	    {
	      notethat ("CCflag: CC = A0 < A1\n");
	      $$ = CCFLAG (0, 0, 6, 0, 0);
	    }
	  else
	    return yyerror ("AREGs are in bad order or same");
	}
	| CCREG ASSIGN REG LESS_THAN REG iu_or_nothing
	{
	  if ((IS_DREG ($3) && IS_DREG ($5))
	      || (IS_PREG ($3) && IS_PREG ($5)))
	    {
	      notethat ("CCflag: CC = dpregs < dpregs\n");
	      $$ = CCFLAG (&$3, $5.regno & CODE_MASK, $6.r0, 0, IS_PREG ($3) ? 1 : 0);
	    }
	  else
	    return yyerror ("Bad register in comparison");
	}
	| CCREG ASSIGN REG LESS_THAN expr iu_or_nothing
	{
	  if (!IS_DREG ($3) && !IS_PREG ($3))
	    return yyerror ("Bad register in comparison");

	  if (($6.r0 == 1 && IS_IMM ($5, 3))
	      || ($6.r0 == 3 && IS_UIMM ($5, 3)))
	    {
	      notethat ("CCflag: CC = dpregs < (u)imm3\n");
	      $$ = CCFLAG (&$3, imm3 ($5), $6.r0, 1, IS_PREG ($3) ? 1 : 0);
	    }
	  else
	    return yyerror ("Bad constant value");
	}
	| CCREG ASSIGN REG _ASSIGN_ASSIGN REG
	{
	  if ((IS_DREG ($3) && IS_DREG ($5))
	      || (IS_PREG ($3) && IS_PREG ($5)))
	    {
	      notethat ("CCflag: CC = dpregs == dpregs\n");
	      $$ = CCFLAG (&$3, $5.regno & CODE_MASK, 0, 0, IS_PREG ($3) ? 1 : 0);
	    }
	  else
	    return yyerror ("Bad register in comparison");
	}
	| CCREG ASSIGN REG _ASSIGN_ASSIGN expr
	{
	  if (!IS_DREG ($3) && !IS_PREG ($3))
	    return yyerror ("Bad register in comparison");

	  if (IS_IMM ($5, 3))
	    {
	      notethat ("CCflag: CC = dpregs == imm3\n");
	      $$ = CCFLAG (&$3, imm3 ($5), 0, 1, IS_PREG ($3) ? 1 : 0);
	    }
	  else
	    return yyerror ("Bad constant range");
	}
	| CCREG ASSIGN REG_A _LESS_THAN_ASSIGN REG_A
	{
	  if ($3.regno == REG_A0 && $5.regno == REG_A1)
	    {
	      notethat ("CCflag: CC = A0 <= A1\n");
	      $$ = CCFLAG (0, 0, 7, 0, 0);
	    }
	  else
	    return yyerror ("AREGs are in bad order or same");
	}
	| CCREG ASSIGN REG _LESS_THAN_ASSIGN REG iu_or_nothing
	{
	  if ((IS_DREG ($3) && IS_DREG ($5))
	      || (IS_PREG ($3) && IS_PREG ($5)))
	    {
	      notethat ("CCflag: CC = dpregs <= dpregs (..)\n");
	      $$ = CCFLAG (&$3, $5.regno & CODE_MASK,
			   1 + $6.r0, 0, IS_PREG ($3) ? 1 : 0);
	    }
	  else
	    return yyerror ("Bad register in comparison");
	}
	| CCREG ASSIGN REG _LESS_THAN_ASSIGN expr iu_or_nothing
	{
	  if (!IS_DREG ($3) && !IS_PREG ($3))
	    return yyerror ("Bad register in comparison");

	  if (($6.r0 == 1 && IS_IMM ($5, 3))
	      || ($6.r0 == 3 && IS_UIMM ($5, 3)))
	    {
	      notethat ("CCflag: CC = dpregs <= (u)imm3\n");
	      $$ = CCFLAG (&$3, imm3 ($5), 1 + $6.r0, 1, IS_PREG ($3) ? 1 : 0);
	    }
	  else
	    return yyerror ("Bad constant value");
	}

	| REG ASSIGN REG AMPERSAND REG
	{
	  if (IS_DREG ($1) && IS_DREG ($3) && IS_DREG ($5))
	    {
	      notethat ("COMP3op: dregs = dregs & dregs\n");
	      $$ = COMP3OP (&$1, &$3, &$5, 2);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| ccstat
	{
	  notethat ("CC2stat operation\n");
	  $$ = bfin_gen_cc2stat ($1.r0, $1.x0, $1.s0);
	}

	| REG ASSIGN REG
	{
	  if ((IS_GENREG ($1) && IS_GENREG ($3))
	      || (IS_GENREG ($1) && IS_DAGREG ($3))
	      || (IS_DAGREG ($1) && IS_GENREG ($3))
	      || (IS_DAGREG ($1) && IS_DAGREG ($3))
	      || (IS_GENREG ($1) && $3.regno == REG_USP)
	      || ($1.regno == REG_USP && IS_GENREG ($3))
	      || ($1.regno == REG_USP && $3.regno == REG_USP)
	      || (IS_DREG ($1) && IS_SYSREG ($3))
	      || (IS_PREG ($1) && IS_SYSREG ($3))
	      || (IS_SYSREG ($1) && IS_GENREG ($3))
	      || (IS_ALLREG ($1) && IS_EMUDAT ($3))
	      || (IS_EMUDAT ($1) && IS_ALLREG ($3))
	      || (IS_SYSREG ($1) && $3.regno == REG_USP))
	    {
	      $$ = bfin_gen_regmv (&$3, &$1);
	    }
	  else
	    return yyerror ("Unsupported register move");
	}

	| CCREG ASSIGN REG
	{
	  if (IS_DREG ($3))
	    {
	      notethat ("CC2dreg: CC = dregs\n");
	      $$ = bfin_gen_cc2dreg (1, &$3);
	    }
	  else
	    return yyerror ("Only 'CC = Dreg' supported");
	}

	| REG ASSIGN CCREG
	{
	  if (IS_DREG ($1))
	    {
	      notethat ("CC2dreg: dregs = CC\n");
	      $$ = bfin_gen_cc2dreg (0, &$1);
	    }
	  else
	    return yyerror ("Only 'Dreg = CC' supported");
	}

	| CCREG _ASSIGN_BANG CCREG
	{
	  notethat ("CC2dreg: CC =! CC\n");
	  $$ = bfin_gen_cc2dreg (3, 0);
	}

/* DSPMULT.  */

	| HALF_REG ASSIGN multiply_halfregs opt_mode
	{
	  notethat ("dsp32mult: dregs_half = multiply_halfregs (opt_mode)\n");

	  if (!IS_H ($1) && $4.MM)
	    return yyerror ("(M) not allowed with MAC0");

	  if ($4.mod != 0 && $4.mod != M_FU && $4.mod != M_IS
	      && $4.mod != M_IU && $4.mod != M_T && $4.mod != M_TFU
	      && $4.mod != M_S2RND && $4.mod != M_ISS2 && $4.mod != M_IH)
	    return yyerror ("bad option.");

	  if (IS_H ($1))
	    {
	      $$ = DSP32MULT (0, $4.MM, $4.mod, 1, 0,
			      IS_H ($3.s0), IS_H ($3.s1), 0, 0,
			      &$1, 0, &$3.s0, &$3.s1, 0);
	    }
	  else
	    {
	      $$ = DSP32MULT (0, 0, $4.mod, 0, 0,
			      0, 0, IS_H ($3.s0), IS_H ($3.s1),
			      &$1, 0, &$3.s0, &$3.s1, 1);
	    }
	}

	| REG ASSIGN multiply_halfregs opt_mode
	{
	  /* Odd registers can use (M).  */
	  if (!IS_DREG ($1))
	    return yyerror ("Dreg expected");

	  if (IS_EVEN ($1) && $4.MM)
	    return yyerror ("(M) not allowed with MAC0");

	  if ($4.mod != 0 && $4.mod != M_FU && $4.mod != M_IS
	      && $4.mod != M_S2RND && $4.mod != M_ISS2)
	    return yyerror ("bad option");

	  if (!IS_EVEN ($1))
	    {
	      notethat ("dsp32mult: dregs = multiply_halfregs (opt_mode)\n");

	      $$ = DSP32MULT (0, $4.MM, $4.mod, 1, 1,
			      IS_H ($3.s0), IS_H ($3.s1), 0, 0,
			      &$1, 0, &$3.s0, &$3.s1, 0);
	    }
	  else
	    {
	      notethat ("dsp32mult: dregs = multiply_halfregs opt_mode\n");
	      $$ = DSP32MULT (0, 0, $4.mod, 0, 1,
			      0, 0, IS_H ($3.s0), IS_H ($3.s1),
			      &$1,  0, &$3.s0, &$3.s1, 1);
	    }
	}

	| HALF_REG ASSIGN multiply_halfregs opt_mode COMMA
          HALF_REG ASSIGN multiply_halfregs opt_mode
	{
	  if (!IS_DREG ($1) || !IS_DREG ($6))
	    return yyerror ("Dregs expected");

	  if (!IS_HCOMPL($1, $6))
	    return yyerror ("Dest registers mismatch");

	  if (check_multiply_halfregs (&$3, &$8) < 0)
	    return -1;

	  if ((!IS_H ($1) && $4.MM)
	      || (!IS_H ($6) && $9.MM))
	    return yyerror ("(M) not allowed with MAC0");

	  notethat ("dsp32mult: dregs_hi = multiply_halfregs mxd_mod, "
		    "dregs_lo = multiply_halfregs opt_mode\n");

	  if (IS_H ($1))
	    $$ = DSP32MULT (0, $4.MM, $9.mod, 1, 0,
			    IS_H ($3.s0), IS_H ($3.s1), IS_H ($8.s0), IS_H ($8.s1),
			    &$1, 0, &$3.s0, &$3.s1, 1);
	  else
	    $$ = DSP32MULT (0, $9.MM, $9.mod, 1, 0,
			    IS_H ($8.s0), IS_H ($8.s1), IS_H ($3.s0), IS_H ($3.s1),
			    &$1, 0, &$3.s0, &$3.s1, 1);
	}

	| REG ASSIGN multiply_halfregs opt_mode COMMA REG ASSIGN multiply_halfregs opt_mode
	{
	  if (!IS_DREG ($1) || !IS_DREG ($6))
	    return yyerror ("Dregs expected");

	  if ((IS_EVEN ($1) && $6.regno - $1.regno != 1)
	      || (IS_EVEN ($6) && $1.regno - $6.regno != 1))
	    return yyerror ("Dest registers mismatch");

	  if (check_multiply_halfregs (&$3, &$8) < 0)
	    return -1;

	  if ((IS_EVEN ($1) && $4.MM)
	      || (IS_EVEN ($6) && $9.MM))
	    return yyerror ("(M) not allowed with MAC0");

	  notethat ("dsp32mult: dregs = multiply_halfregs mxd_mod, "
		   "dregs = multiply_halfregs opt_mode\n");

	  if (IS_EVEN ($1))
	    $$ = DSP32MULT (0, $9.MM, $9.mod, 1, 1,
			    IS_H ($8.s0), IS_H ($8.s1), IS_H ($3.s0), IS_H ($3.s1),
			    &$1, 0, &$3.s0, &$3.s1, 1);
	  else
	    $$ = DSP32MULT (0, $4.MM, $9.mod, 1, 1,
			    IS_H ($3.s0), IS_H ($3.s1), IS_H ($8.s0), IS_H ($8.s1),
			    &$1, 0, &$3.s0, &$3.s1, 1);
	}


/* SHIFTs.  */
	| a_assign ASHIFT REG_A BY HALF_REG
	{
	  if (!REG_SAME ($1, $3))
	    return yyerror ("Aregs must be same");

	  if (IS_DREG ($5) && !IS_H ($5))
	    {
	      notethat ("dsp32shift: A0 = ASHIFT A0 BY dregs_lo\n");
	      $$ = DSP32SHIFT (3, 0, &$5, 0, 0, IS_A1 ($1));
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| HALF_REG ASSIGN ASHIFT HALF_REG BY HALF_REG smod
	{
	  if (IS_DREG ($6) && !IS_H ($6))
	    {
	      notethat ("dsp32shift: dregs_half = ASHIFT dregs_half BY dregs_lo\n");
	      $$ = DSP32SHIFT (0, &$1, &$6, &$4, $7.s0, HL2 ($1, $4));
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| a_assign REG_A LESS_LESS expr
	{
	  if (!REG_SAME ($1, $2))
	    return yyerror ("Aregs must be same");

	  if (IS_UIMM ($4, 5))
	    {
	      notethat ("dsp32shiftimm: A0 = A0 << uimm5\n");
	      $$ = DSP32SHIFTIMM (3, 0, imm5 ($4), 0, 0, IS_A1 ($1));
	    }
	  else
	    return yyerror ("Bad shift value");
	}

	| REG ASSIGN REG LESS_LESS expr vsmod
	{
	  if (IS_DREG ($1) && IS_DREG ($3) && IS_UIMM ($5, 5))
	    {
	      if ($6.r0)
		{
		  /*  Vector?  */
		  notethat ("dsp32shiftimm: dregs = dregs << expr (V, .)\n");
		  $$ = DSP32SHIFTIMM (1, &$1, imm4 ($5), &$3, $6.s0 ? 1 : 2, 0);
		}
	      else
		{
		  notethat ("dsp32shiftimm: dregs =  dregs << uimm5 (.)\n");
		  $$ = DSP32SHIFTIMM (2, &$1, imm6 ($5), &$3, $6.s0 ? 1 : 2, 0);
		}
	    }
	  else if ($6.s0 == 0 && IS_PREG ($1) && IS_PREG ($3))
	    {
	      if (EXPR_VALUE ($5) == 2)
		{
		  notethat ("PTR2op: pregs = pregs << 2\n");
		  $$ = PTR2OP (&$1, &$3, 1);
		}
	      else if (EXPR_VALUE ($5) == 1)
		{
		  notethat ("COMP3op: pregs = pregs << 1\n");
		  $$ = COMP3OP (&$1, &$3, &$3, 5);
		}
	      else
		return yyerror ("Bad shift value");
	    }
	  else
	    return yyerror ("Bad shift value or register");
	}
	| HALF_REG ASSIGN HALF_REG LESS_LESS expr smod
	{
	  if (IS_UIMM ($5, 4))
	    {
	      if ($6.s0)
		{
		  notethat ("dsp32shiftimm: dregs_half = dregs_half << uimm4 (S)\n");
		  $$ = DSP32SHIFTIMM (0x0, &$1, imm5 ($5), &$3, $6.s0, HL2 ($1, $3));
		}
	      else
		{
		  notethat ("dsp32shiftimm: dregs_half = dregs_half << uimm4\n");
		  $$ = DSP32SHIFTIMM (0x0, &$1, imm5 ($5), &$3, 2, HL2 ($1, $3));
		}
	    }
	  else
	    return yyerror ("Bad shift value");
	}
	| REG ASSIGN ASHIFT REG BY HALF_REG vsmod
	{
	  int op;

	  if (IS_DREG ($1) && IS_DREG ($4) && IS_DREG ($6) && !IS_H ($6))
	    {
	      if ($7.r0)
		{
		  op = 1;
		  notethat ("dsp32shift: dregs = ASHIFT dregs BY "
			   "dregs_lo (V, .)\n");
		}
	      else
		{

		  op = 2;
		  notethat ("dsp32shift: dregs = ASHIFT dregs BY dregs_lo (.)\n");
		}
	      $$ = DSP32SHIFT (op, &$1, &$6, &$4, $7.s0, 0);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

/*  EXPADJ.  */
	| HALF_REG ASSIGN EXPADJ LPAREN REG COMMA HALF_REG RPAREN vmod
	{
	  if (IS_DREG_L ($1) && IS_DREG_L ($5) && IS_DREG_L ($7))
	    {
	      notethat ("dsp32shift: dregs_lo = EXPADJ (dregs , dregs_lo )\n");
	      $$ = DSP32SHIFT (7, &$1, &$7, &$5, $9.r0, 0);
	    }
	  else
	    return yyerror ("Bad shift value or register");
	}


	| HALF_REG ASSIGN EXPADJ LPAREN HALF_REG COMMA HALF_REG RPAREN
	{
	  if (IS_DREG_L ($1) && IS_DREG_L ($5) && IS_DREG_L ($7))
	    {
	      notethat ("dsp32shift: dregs_lo = EXPADJ (dregs_lo, dregs_lo)\n");
	      $$ = DSP32SHIFT (7, &$1, &$7, &$5, 2, 0);
	    }
	  else if (IS_DREG_L ($1) && IS_DREG_H ($5) && IS_DREG_L ($7))
	    {
	      notethat ("dsp32shift: dregs_lo = EXPADJ (dregs_hi, dregs_lo)\n");
	      $$ = DSP32SHIFT (7, &$1, &$7, &$5, 3, 0);
	    }
	  else
	    return yyerror ("Bad shift value or register");
	}

/* DEPOSIT.  */

	| REG ASSIGN DEPOSIT LPAREN REG COMMA REG RPAREN
	{
	  if (IS_DREG ($1) && IS_DREG ($5) && IS_DREG ($7))
	    {
	      notethat ("dsp32shift: dregs = DEPOSIT (dregs , dregs )\n");
	      $$ = DSP32SHIFT (10, &$1, &$7, &$5, 2, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN DEPOSIT LPAREN REG COMMA REG RPAREN LPAREN X RPAREN
	{
	  if (IS_DREG ($1) && IS_DREG ($5) && IS_DREG ($7))
	    {
	      notethat ("dsp32shift: dregs = DEPOSIT (dregs , dregs ) (X)\n");
	      $$ = DSP32SHIFT (10, &$1, &$7, &$5, 3, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN EXTRACT LPAREN REG COMMA HALF_REG RPAREN xpmod
	{
	  if (IS_DREG ($1) && IS_DREG ($5) && IS_DREG_L ($7))
	    {
	      notethat ("dsp32shift: dregs = EXTRACT (dregs, dregs_lo ) (.)\n");
	      $$ = DSP32SHIFT (10, &$1, &$7, &$5, $9.r0, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| a_assign REG_A _GREATER_GREATER_GREATER expr
	{
	  if (!REG_SAME ($1, $2))
	    return yyerror ("Aregs must be same");

	  if (IS_UIMM ($4, 5))
	    {
	      notethat ("dsp32shiftimm: Ax = Ax >>> uimm5\n");
	      $$ = DSP32SHIFTIMM (3, 0, -imm6 ($4), 0, 0, IS_A1 ($1));
	    }
	  else
	    return yyerror ("Shift value range error");
	}
	| a_assign LSHIFT REG_A BY HALF_REG
	{
	  if (REG_SAME ($1, $3) && IS_DREG_L ($5))
	    {
	      notethat ("dsp32shift: Ax = LSHIFT Ax BY dregs_lo\n");
	      $$ = DSP32SHIFT (3, 0, &$5, 0, 1, IS_A1 ($1));
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| HALF_REG ASSIGN LSHIFT HALF_REG BY HALF_REG
	{
	  if (IS_DREG ($1) && IS_DREG ($4) && IS_DREG_L ($6))
	    {
	      notethat ("dsp32shift: dregs_lo = LSHIFT dregs_hi BY dregs_lo\n");
	      $$ = DSP32SHIFT (0, &$1, &$6, &$4, 2, HL2 ($1, $4));
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN LSHIFT REG BY HALF_REG vmod
	{
	  if (IS_DREG ($1) && IS_DREG ($4) && IS_DREG_L ($6))
	    {
	      notethat ("dsp32shift: dregs = LSHIFT dregs BY dregs_lo (V )\n");
	      $$ = DSP32SHIFT ($7.r0 ? 1: 2, &$1, &$6, &$4, 2, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN SHIFT REG BY HALF_REG
	{
	  if (IS_DREG ($1) && IS_DREG ($4) && IS_DREG_L ($6))
	    {
	      notethat ("dsp32shift: dregs = SHIFT dregs BY dregs_lo\n");
	      $$ = DSP32SHIFT (2, &$1, &$6, &$4, 2, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| a_assign REG_A GREATER_GREATER expr
	{
	  if (REG_SAME ($1, $2) && IS_IMM ($4, 6) >= 0)
	    {
	      notethat ("dsp32shiftimm: Ax = Ax >> imm6\n");
	      $$ = DSP32SHIFTIMM (3, 0, -imm6 ($4), 0, 1, IS_A1 ($1));
	    }
	  else
	    return yyerror ("Accu register expected");
	}

	| REG ASSIGN REG GREATER_GREATER expr vmod
	{
	  if ($6.r0 == 1)
	    {
	      if (IS_DREG ($1) && IS_DREG ($3) && IS_UIMM ($5, 5))
		{
		  notethat ("dsp32shiftimm: dregs = dregs >> uimm5 (V)\n");
		  $$ = DSP32SHIFTIMM (1, &$1, -uimm5 ($5), &$3, 2, 0);
		}
	      else
	        return yyerror ("Register mismatch");
	    }
	  else
	    {
	      if (IS_DREG ($1) && IS_DREG ($3) && IS_UIMM ($5, 5))
		{
		  notethat ("dsp32shiftimm: dregs = dregs >> uimm5\n");
		  $$ = DSP32SHIFTIMM (2, &$1, -imm6 ($5), &$3, 2, 0);
		}
	      else if (IS_PREG ($1) && IS_PREG ($3) && EXPR_VALUE ($5) == 2)
		{
		  notethat ("PTR2op: pregs = pregs >> 2\n");
		  $$ = PTR2OP (&$1, &$3, 3);
		}
	      else if (IS_PREG ($1) && IS_PREG ($3) && EXPR_VALUE ($5) == 1)
		{
		  notethat ("PTR2op: pregs = pregs >> 1\n");
		  $$ = PTR2OP (&$1, &$3, 4);
		}
	      else
	        return yyerror ("Register mismatch");
	    }
	}
	| HALF_REG ASSIGN HALF_REG GREATER_GREATER expr
	{
	  if (IS_UIMM ($5, 5))
	    {
	      notethat ("dsp32shiftimm:  dregs_half =  dregs_half >> uimm5\n");
	      $$ = DSP32SHIFTIMM (0, &$1, -uimm5 ($5), &$3, 2, HL2 ($1, $3));
	    }
	  else
	    return yyerror ("Register mismatch");
	}
	| HALF_REG ASSIGN HALF_REG _GREATER_GREATER_GREATER expr smod
	{
	  if (IS_UIMM ($5, 5))
	    {
	      notethat ("dsp32shiftimm: dregs_half = dregs_half >>> uimm5\n");
	      $$ = DSP32SHIFTIMM (0, &$1, -uimm5 ($5), &$3,
				  $6.s0, HL2 ($1, $3));
	    }
	  else
	    return yyerror ("Register or modifier mismatch");
	}


	| REG ASSIGN REG _GREATER_GREATER_GREATER expr vsmod
	{
	  if (IS_DREG ($1) && IS_DREG ($3) && IS_UIMM ($5, 5))
	    {
	      if ($6.r0)
		{
		  /* Vector?  */
		  notethat ("dsp32shiftimm: dregs  =  dregs >>> uimm5 (V, .)\n");
		  $$ = DSP32SHIFTIMM (1, &$1, -uimm5 ($5), &$3, $6.s0, 0);
		}
	      else
		{
		  notethat ("dsp32shiftimm: dregs  =  dregs >>> uimm5 (.)\n");
		  $$ = DSP32SHIFTIMM (2, &$1, -uimm5 ($5), &$3, $6.s0, 0);
		}
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| HALF_REG ASSIGN ONES REG
	{
	  if (IS_DREG_L ($1) && IS_DREG ($4))
	    {
	      notethat ("dsp32shift: dregs_lo = ONES dregs\n");
	      $$ = DSP32SHIFT (6, &$1, 0, &$4, 3, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN PACK LPAREN HALF_REG COMMA HALF_REG RPAREN
	{
	  if (IS_DREG ($1) && IS_DREG ($5) && IS_DREG ($7))
	    {
	      notethat ("dsp32shift: dregs = PACK (dregs_hi , dregs_hi )\n");
	      $$ = DSP32SHIFT (4, &$1, &$7, &$5, HL2 ($5, $7), 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| HALF_REG ASSIGN CCREG ASSIGN BXORSHIFT LPAREN REG_A COMMA REG RPAREN
	{
	  if (IS_DREG ($1)
	      && $7.regno == REG_A0
	      && IS_DREG ($9) && !IS_H ($1) && !IS_A1 ($7))
	    {
	      notethat ("dsp32shift: dregs_lo = CC = BXORSHIFT (A0 , dregs )\n");
	      $$ = DSP32SHIFT (11, &$1, &$9, 0, 0, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| HALF_REG ASSIGN CCREG ASSIGN BXOR LPAREN REG_A COMMA REG RPAREN
	{
	  if (IS_DREG ($1)
	      && $7.regno == REG_A0
	      && IS_DREG ($9) && !IS_H ($1) && !IS_A1 ($7))
	    {
	      notethat ("dsp32shift: dregs_lo = CC = BXOR (A0 , dregs)\n");
	      $$ = DSP32SHIFT (11, &$1, &$9, 0, 1, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| HALF_REG ASSIGN CCREG ASSIGN BXOR LPAREN REG_A COMMA REG_A COMMA CCREG RPAREN
	{
	  if (IS_DREG ($1) && !IS_H ($1) && !REG_SAME ($7, $9))
	    {
	      notethat ("dsp32shift: dregs_lo = CC = BXOR (A0 , A1 , CC)\n");
	      $$ = DSP32SHIFT (12, &$1, 0, 0, 1, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| a_assign ROT REG_A BY HALF_REG
	{
	  if (REG_SAME ($1, $3) && IS_DREG_L ($5))
	    {
	      notethat ("dsp32shift: Ax = ROT Ax BY dregs_lo\n");
	      $$ = DSP32SHIFT (3, 0, &$5, 0, 2, IS_A1 ($1));
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN ROT REG BY HALF_REG
	{
	  if (IS_DREG ($1) && IS_DREG ($4) && IS_DREG_L ($6))
	    {
	      notethat ("dsp32shift: dregs = ROT dregs BY dregs_lo\n");
	      $$ = DSP32SHIFT (2, &$1, &$6, &$4, 3, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| a_assign ROT REG_A BY expr
	{
	  if (IS_IMM ($5, 6))
	    {
	      notethat ("dsp32shiftimm: An = ROT An BY imm6\n");
	      $$ = DSP32SHIFTIMM (3, 0, imm6 ($5), 0, 2, IS_A1 ($1));
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN ROT REG BY expr
	{
	  if (IS_DREG ($1) && IS_DREG ($4) && IS_IMM ($6, 6))
	    {
	      $$ = DSP32SHIFTIMM (2, &$1, imm6 ($6), &$4, 3, IS_A1 ($1));
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| HALF_REG ASSIGN SIGNBITS REG_A
	{
	  if (IS_DREG_L ($1))
	    {
	      notethat ("dsp32shift: dregs_lo = SIGNBITS An\n");
	      $$ = DSP32SHIFT (6, &$1, 0, 0, IS_A1 ($4), 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| HALF_REG ASSIGN SIGNBITS REG
	{
	  if (IS_DREG_L ($1) && IS_DREG ($4))
	    {
	      notethat ("dsp32shift: dregs_lo = SIGNBITS dregs\n");
	      $$ = DSP32SHIFT (5, &$1, 0, &$4, 0, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| HALF_REG ASSIGN SIGNBITS HALF_REG
	{
	  if (IS_DREG_L ($1))
	    {
	      notethat ("dsp32shift: dregs_lo = SIGNBITS dregs_lo\n");
	      $$ = DSP32SHIFT (5, &$1, 0, &$4, 1 + IS_H ($4), 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	/* The ASR bit is just inverted here. */
	| HALF_REG ASSIGN VIT_MAX LPAREN REG RPAREN asr_asl
	{
	  if (IS_DREG_L ($1) && IS_DREG ($5))
	    {
	      notethat ("dsp32shift: dregs_lo = VIT_MAX (dregs) (..)\n");
	      $$ = DSP32SHIFT (9, &$1, 0, &$5, ($7.r0 ? 0 : 1), 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| REG ASSIGN VIT_MAX LPAREN REG COMMA REG RPAREN asr_asl
	{
	  if (IS_DREG ($1) && IS_DREG ($5) && IS_DREG ($7))
	    {
	      notethat ("dsp32shift: dregs = VIT_MAX (dregs, dregs) (ASR)\n");
	      $$ = DSP32SHIFT (9, &$1, &$7, &$5, 2 | ($9.r0 ? 0 : 1), 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| BITMUX LPAREN REG COMMA REG COMMA REG_A RPAREN asr_asl
	{
	  if (REG_SAME ($3, $5))
	    return yyerror ("Illegal source register combination");

	  if (IS_DREG ($3) && IS_DREG ($5) && !IS_A1 ($7))
	    {
	      notethat ("dsp32shift: BITMUX (dregs , dregs , A0) (ASR)\n");
	      $$ = DSP32SHIFT (8, 0, &$3, &$5, $9.r0, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| a_assign BXORSHIFT LPAREN REG_A COMMA REG_A COMMA CCREG RPAREN
	{
	  if (!IS_A1 ($1) && !IS_A1 ($4) && IS_A1 ($6))
	    {
	      notethat ("dsp32shift: A0 = BXORSHIFT (A0 , A1 , CC )\n");
	      $$ = DSP32SHIFT (12, 0, 0, 0, 0, 0);
	    }
	  else
	    return yyerror ("Dregs expected");
	}


/* LOGI2op:	BITCLR (dregs, uimm5).  */
	| BITCLR LPAREN REG COMMA expr RPAREN
	{
	  if (IS_DREG ($3) && IS_UIMM ($5, 5))
	    {
	      notethat ("LOGI2op: BITCLR (dregs , uimm5 )\n");
	      $$ = LOGI2OP ($3, uimm5 ($5), 4);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

/* LOGI2op:	BITSET (dregs, uimm5).  */
	| BITSET LPAREN REG COMMA expr RPAREN
	{
	  if (IS_DREG ($3) && IS_UIMM ($5, 5))
	    {
	      notethat ("LOGI2op: BITCLR (dregs , uimm5 )\n");
	      $$ = LOGI2OP ($3, uimm5 ($5), 2);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

/* LOGI2op:	BITTGL (dregs, uimm5).  */
	| BITTGL LPAREN REG COMMA expr RPAREN
	{
	  if (IS_DREG ($3) && IS_UIMM ($5, 5))
	    {
	      notethat ("LOGI2op: BITCLR (dregs , uimm5 )\n");
	      $$ = LOGI2OP ($3, uimm5 ($5), 3);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| CCREG _ASSIGN_BANG BITTST LPAREN REG COMMA expr RPAREN
	{
	  if (IS_DREG ($5) && IS_UIMM ($7, 5))
	    {
	      notethat ("LOGI2op: CC =! BITTST (dregs , uimm5 )\n");
	      $$ = LOGI2OP ($5, uimm5 ($7), 0);
	    }
	  else
	    return yyerror ("Register mismatch or value error");
	}

	| CCREG ASSIGN BITTST LPAREN REG COMMA expr RPAREN
	{
	  if (IS_DREG ($5) && IS_UIMM ($7, 5))
	    {
	      notethat ("LOGI2op: CC = BITTST (dregs , uimm5 )\n");
	      $$ = LOGI2OP ($5, uimm5 ($7), 1);
	    }
	  else
	    return yyerror ("Register mismatch or value error");
	}

	| IF BANG CCREG REG ASSIGN REG
	{
	  if ((IS_DREG ($4) || IS_PREG ($4))
	      && (IS_DREG ($6) || IS_PREG ($6)))
	    {
	      notethat ("ccMV: IF ! CC gregs = gregs\n");
	      $$ = CCMV (&$6, &$4, 0);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| IF CCREG REG ASSIGN REG
	{
	  if ((IS_DREG ($5) || IS_PREG ($5))
	      && (IS_DREG ($3) || IS_PREG ($3)))
	    {
	      notethat ("ccMV: IF CC gregs = gregs\n");
	      $$ = CCMV (&$5, &$3, 1);
	    }
	  else
	    return yyerror ("Register mismatch");
	}

	| IF BANG CCREG JUMP expr
	{
	  if (IS_PCREL10 ($5))
	    {
	      notethat ("BRCC: IF !CC JUMP  pcrel11m2\n");
	      $$ = BRCC (0, 0, $5);
	    }
	  else
	    return yyerror ("Bad jump offset");
	}

	| IF BANG CCREG JUMP expr LPAREN BP RPAREN
	{
	  if (IS_PCREL10 ($5))
	    {
	      notethat ("BRCC: IF !CC JUMP  pcrel11m2\n");
	      $$ = BRCC (0, 1, $5);
	    }
	  else
	    return yyerror ("Bad jump offset");
	}

	| IF CCREG JUMP expr
	{
	  if (IS_PCREL10 ($4))
	    {
	      notethat ("BRCC: IF CC JUMP  pcrel11m2\n");
	      $$ = BRCC (1, 0, $4);
	    }
	  else
	    return yyerror ("Bad jump offset");
	}

	| IF CCREG JUMP expr LPAREN BP RPAREN
	{
	  if (IS_PCREL10 ($4))
	    {
	      notethat ("BRCC: IF !CC JUMP  pcrel11m2\n");
	      $$ = BRCC (1, 1, $4);
	    }
	  else
	    return yyerror ("Bad jump offset");
	}
	| NOP
	{
	  notethat ("ProgCtrl: NOP\n");
	  $$ = PROGCTRL (0, 0);
	}

	| RTS
	{
	  notethat ("ProgCtrl: RTS\n");
	  $$ = PROGCTRL (1, 0);
	}

	| RTI
	{
	  notethat ("ProgCtrl: RTI\n");
	  $$ = PROGCTRL (1, 1);
	}

	| RTX
	{
	  notethat ("ProgCtrl: RTX\n");
	  $$ = PROGCTRL (1, 2);
	}

	| RTN
	{
	  notethat ("ProgCtrl: RTN\n");
	  $$ = PROGCTRL (1, 3);
	}

	| RTE
	{
	  notethat ("ProgCtrl: RTE\n");
	  $$ = PROGCTRL (1, 4);
	}

	| IDLE
	{
	  notethat ("ProgCtrl: IDLE\n");
	  $$ = PROGCTRL (2, 0);
	}

	| CSYNC
	{
	  notethat ("ProgCtrl: CSYNC\n");
	  $$ = PROGCTRL (2, 3);
	}

	| SSYNC
	{
	  notethat ("ProgCtrl: SSYNC\n");
	  $$ = PROGCTRL (2, 4);
	}

	| EMUEXCPT
	{
	  notethat ("ProgCtrl: EMUEXCPT\n");
	  $$ = PROGCTRL (2, 5);
	}

	| CLI REG
	{
	  if (IS_DREG ($2))
	    {
	      notethat ("ProgCtrl: CLI dregs\n");
	      $$ = PROGCTRL (3, $2.regno & CODE_MASK);
	    }
	  else
	    return yyerror ("Dreg expected for CLI");
	}

	| STI REG
	{
	  if (IS_DREG ($2))
	    {
	      notethat ("ProgCtrl: STI dregs\n");
	      $$ = PROGCTRL (4, $2.regno & CODE_MASK);
	    }
	  else
	    return yyerror ("Dreg expected for STI");
	}

	| JUMP LPAREN REG RPAREN
	{
	  if (IS_PREG ($3))
	    {
	      notethat ("ProgCtrl: JUMP (pregs )\n");
	      $$ = PROGCTRL (5, $3.regno & CODE_MASK);
	    }
	  else
	    return yyerror ("Bad register for indirect jump");
	}

	| CALL LPAREN REG RPAREN
	{
	  if (IS_PREG ($3))
	    {
	      notethat ("ProgCtrl: CALL (pregs )\n");
	      $$ = PROGCTRL (6, $3.regno & CODE_MASK);
	    }
	  else
	    return yyerror ("Bad register for indirect call");
	}

	| CALL LPAREN PC PLUS REG RPAREN
	{
	  if (IS_PREG ($5))
	    {
	      notethat ("ProgCtrl: CALL (PC + pregs )\n");
	      $$ = PROGCTRL (7, $5.regno & CODE_MASK);
	    }
	  else
	    return yyerror ("Bad register for indirect call");
	}

	| JUMP LPAREN PC PLUS REG RPAREN
	{
	  if (IS_PREG ($5))
	    {
	      notethat ("ProgCtrl: JUMP (PC + pregs )\n");
	      $$ = PROGCTRL (8, $5.regno & CODE_MASK);
	    }
	  else
	    return yyerror ("Bad register for indirect jump");
	}

	| RAISE expr
	{
	  if (IS_UIMM ($2, 4))
	    {
	      notethat ("ProgCtrl: RAISE uimm4\n");
	      $$ = PROGCTRL (9, uimm4 ($2));
	    }
	  else
	    return yyerror ("Bad value for RAISE");
	}

	| EXCPT expr
	{
		notethat ("ProgCtrl: EMUEXCPT\n");
		$$ = PROGCTRL (10, uimm4 ($2));
	}

	| TESTSET LPAREN REG RPAREN
	{
	  if (IS_PREG ($3))
	    {
	      if ($3.regno == REG_SP || $3.regno == REG_FP)
		return yyerror ("Bad register for TESTSET");

	      notethat ("ProgCtrl: TESTSET (pregs )\n");
	      $$ = PROGCTRL (11, $3.regno & CODE_MASK);
	    }
	  else
	    return yyerror ("Preg expected");
	}

	| JUMP expr
	{
	  if (IS_PCREL12 ($2))
	    {
	      notethat ("UJUMP: JUMP pcrel12\n");
	      $$ = UJUMP ($2);
	    }
	  else
	    return yyerror ("Bad value for relative jump");
	}

	| JUMP_DOT_S expr
	{
	  if (IS_PCREL12 ($2))
	    {
	      notethat ("UJUMP: JUMP_DOT_S pcrel12\n");
	      $$ = UJUMP($2);
	    }
	  else
	    return yyerror ("Bad value for relative jump");
	}

	| JUMP_DOT_L expr
	{
	  if (IS_PCREL24 ($2))
	    {
	      notethat ("CALLa: jump.l pcrel24\n");
	      $$ = CALLA ($2, 0);
	    }
	  else
	    return yyerror ("Bad value for long jump");
	}

	| JUMP_DOT_L pltpc
	{
	  if (IS_PCREL24 ($2))
	    {
	      notethat ("CALLa: jump.l pcrel24\n");
	      $$ = CALLA ($2, 2);
	    }
	  else
	    return yyerror ("Bad value for long jump");
	}

	| CALL expr
	{
	  if (IS_PCREL24 ($2))
	    {
	      notethat ("CALLa: CALL pcrel25m2\n");
	      $$ = CALLA ($2, 1);
	    }
	  else
	    return yyerror ("Bad call address");
	}
	| CALL pltpc
	{
	  if (IS_PCREL24 ($2))
	    {
	      notethat ("CALLa: CALL pcrel25m2\n");
	      $$ = CALLA ($2, 2);
	    }
	  else
	    return yyerror ("Bad call address");
	}

/* ALU2ops.  */
/* ALU2op:	DIVQ (dregs, dregs).  */
	| DIVQ LPAREN REG COMMA REG RPAREN
	{
	  if (IS_DREG ($3) && IS_DREG ($5))
	    $$ = ALU2OP (&$3, &$5, 8);
	  else
	    return yyerror ("Bad registers for DIVQ");
	}

	| DIVS LPAREN REG COMMA REG RPAREN
	{
	  if (IS_DREG ($3) && IS_DREG ($5))
	    $$ = ALU2OP (&$3, &$5, 9);
	  else
	    return yyerror ("Bad registers for DIVS");
	}

	| REG ASSIGN MINUS REG vsmod
	{
	  if (IS_DREG ($1) && IS_DREG ($4))
	    {
	      if ($5.r0 == 0 && $5.s0 == 0 && $5.aop == 0)
		{
		  notethat ("ALU2op: dregs = - dregs\n");
		  $$ = ALU2OP (&$1, &$4, 14);
		}
	      else if ($5.r0 == 1 && $5.s0 == 0 && $5.aop == 3)
		{
		  notethat ("dsp32alu: dregs = - dregs (.)\n");
		  $$ = DSP32ALU (15, 0, 0, &$1, &$4, 0, $5.s0, 0, 3);
		}
	      else
		{
		  notethat ("dsp32alu: dregs = - dregs (.)\n");
		  $$ = DSP32ALU (7, 0, 0, &$1, &$4, 0, $5.s0, 0, 3);
		}
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| REG ASSIGN TILDA REG
	{
	  if (IS_DREG ($1) && IS_DREG ($4))
	    {
	      notethat ("ALU2op: dregs = ~dregs\n");
	      $$ = ALU2OP (&$1, &$4, 15);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| REG _GREATER_GREATER_ASSIGN REG
	{
	  if (IS_DREG ($1) && IS_DREG ($3))
	    {
	      notethat ("ALU2op: dregs >>= dregs\n");
	      $$ = ALU2OP (&$1, &$3, 1);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| REG _GREATER_GREATER_ASSIGN expr
	{
	  if (IS_DREG ($1) && IS_UIMM ($3, 5))
	    {
	      notethat ("LOGI2op: dregs >>= uimm5\n");
	      $$ = LOGI2OP ($1, uimm5 ($3), 6);
	    }
	  else
	    return yyerror ("Dregs expected or value error");
	}

	| REG _GREATER_GREATER_GREATER_THAN_ASSIGN REG
	{
	  if (IS_DREG ($1) && IS_DREG ($3))
	    {
	      notethat ("ALU2op: dregs >>>= dregs\n");
	      $$ = ALU2OP (&$1, &$3, 0);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| REG _LESS_LESS_ASSIGN REG
	{
	  if (IS_DREG ($1) && IS_DREG ($3))
	    {
	      notethat ("ALU2op: dregs <<= dregs\n");
	      $$ = ALU2OP (&$1, &$3, 2);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

	| REG _LESS_LESS_ASSIGN expr
	{
	  if (IS_DREG ($1) && IS_UIMM ($3, 5))
	    {
	      notethat ("LOGI2op: dregs <<= uimm5\n");
	      $$ = LOGI2OP ($1, uimm5 ($3), 7);
	    }
	  else
	    return yyerror ("Dregs expected or const value error");
	}


	| REG _GREATER_GREATER_GREATER_THAN_ASSIGN expr
	{
	  if (IS_DREG ($1) && IS_UIMM ($3, 5))
	    {
	      notethat ("LOGI2op: dregs >>>= uimm5\n");
	      $$ = LOGI2OP ($1, uimm5 ($3), 5);
	    }
	  else
	    return yyerror ("Dregs expected");
	}

/* Cache Control.  */

	| FLUSH LBRACK REG RBRACK
	{
	  notethat ("CaCTRL: FLUSH [ pregs ]\n");
	  if (IS_PREG ($3))
	    $$ = CACTRL (&$3, 0, 2);
	  else
	    return yyerror ("Bad register(s) for FLUSH");
	}

	| FLUSH reg_with_postinc
	{
	  if (IS_PREG ($2))
	    {
	      notethat ("CaCTRL: FLUSH [ pregs ++ ]\n");
	      $$ = CACTRL (&$2, 1, 2);
	    }
	  else
	    return yyerror ("Bad register(s) for FLUSH");
	}

	| FLUSHINV LBRACK REG RBRACK
	{
	  if (IS_PREG ($3))
	    {
	      notethat ("CaCTRL: FLUSHINV [ pregs ]\n");
	      $$ = CACTRL (&$3, 0, 1);
	    }
	  else
	    return yyerror ("Bad register(s) for FLUSH");
	}

	| FLUSHINV reg_with_postinc
	{
	  if (IS_PREG ($2))
	    {
	      notethat ("CaCTRL: FLUSHINV [ pregs ++ ]\n");
	      $$ = CACTRL (&$2, 1, 1);
	    }
	  else
	    return yyerror ("Bad register(s) for FLUSH");
	}

/* CaCTRL:	IFLUSH [pregs].  */
	| IFLUSH LBRACK REG RBRACK
	{
	  if (IS_PREG ($3))
	    {
	      notethat ("CaCTRL: IFLUSH [ pregs ]\n");
	      $$ = CACTRL (&$3, 0, 3);
	    }
	  else
	    return yyerror ("Bad register(s) for FLUSH");
	}

	| IFLUSH reg_with_postinc
	{
	  if (IS_PREG ($2))
	    {
	      notethat ("CaCTRL: IFLUSH [ pregs ++ ]\n");
	      $$ = CACTRL (&$2, 1, 3);
	    }
	  else
	    return yyerror ("Bad register(s) for FLUSH");
	}

	| PREFETCH LBRACK REG RBRACK
	{
	  if (IS_PREG ($3))
	    {
	      notethat ("CaCTRL: PREFETCH [ pregs ]\n");
	      $$ = CACTRL (&$3, 0, 0);
	    }
	  else
	    return yyerror ("Bad register(s) for PREFETCH");
	}

	| PREFETCH reg_with_postinc
	{
	  if (IS_PREG ($2))
	    {
	      notethat ("CaCTRL: PREFETCH [ pregs ++ ]\n");
	      $$ = CACTRL (&$2, 1, 0);
	    }
	  else
	    return yyerror ("Bad register(s) for PREFETCH");
	}

/* LOAD/STORE.  */
/* LDST:	B [ pregs <post_op> ] = dregs.  */

	| B LBRACK REG post_op RBRACK ASSIGN REG
	{
	  if (!IS_DREG ($7))
	    return yyerror ("Dreg expected for source operand");
	  if (!IS_PREG ($3))
	    return yyerror ("Preg expected in address");

	  notethat ("LDST: B [ pregs <post_op> ] = dregs\n");
	  $$ = LDST (&$3, &$7, $4.x0, 2, 0, 1);
	}

/* LDSTidxI:	B [ pregs + imm16 ] = dregs.  */
	| B LBRACK REG plus_minus expr RBRACK ASSIGN REG
	{
	  Expr_Node *tmp = $5;

	  if (!IS_DREG ($8))
	    return yyerror ("Dreg expected for source operand");
	  if (!IS_PREG ($3))
	    return yyerror ("Preg expected in address");

	  if (IS_RELOC ($5))
	    return yyerror ("Plain symbol used as offset");

	  if ($4.r0)
	    tmp = unary (Expr_Op_Type_NEG, tmp);

	  if (in_range_p (tmp, -32768, 32767, 0))
	    {
	      notethat ("LDST: B [ pregs + imm16 ] = dregs\n");
	      $$ = LDSTIDXI (&$3, &$8, 1, 2, 0, $5);
	    }
	  else
	    return yyerror ("Displacement out of range");
	}


/* LDSTii:	W [ pregs + uimm4s2 ] = dregs.  */
	| W LBRACK REG plus_minus expr RBRACK ASSIGN REG
	{
	  Expr_Node *tmp = $5;

	  if (!IS_DREG ($8))
	    return yyerror ("Dreg expected for source operand");
	  if (!IS_PREG ($3))
	    return yyerror ("Preg expected in address");

	  if ($4.r0)
	    tmp = unary (Expr_Op_Type_NEG, tmp);

	  if (IS_RELOC ($5))
	    return yyerror ("Plain symbol used as offset");

	  if (in_range_p (tmp, 0, 30, 1))
	    {
	      notethat ("LDSTii: W [ pregs +- uimm5m2 ] = dregs\n");
	      $$ = LDSTII (&$3, &$8, tmp, 1, 1);
	    }
	  else if (in_range_p (tmp, -65536, 65535, 1))
	    {
	      notethat ("LDSTidxI: W [ pregs + imm17m2 ] = dregs\n");
	      $$ = LDSTIDXI (&$3, &$8, 1, 1, 0, tmp);
	    }
	  else
	    return yyerror ("Displacement out of range");
	}

/* LDST:	W [ pregs <post_op> ] = dregs.  */
	| W LBRACK REG post_op RBRACK ASSIGN REG
	{
	  if (!IS_DREG ($7))
	    return yyerror ("Dreg expected for source operand");
	  if (!IS_PREG ($3))
	    return yyerror ("Preg expected in address");

	  notethat ("LDST: W [ pregs <post_op> ] = dregs\n");
	  $$ = LDST (&$3, &$7, $4.x0, 1, 0, 1);
	}

	| W LBRACK REG post_op RBRACK ASSIGN HALF_REG
	{
	  if (!IS_DREG ($7))
	    return yyerror ("Dreg expected for source operand");
	  if ($4.x0 == 2)
	    {
	      if (!IS_IREG ($3) && !IS_PREG ($3))
		return yyerror ("Ireg or Preg expected in address");
	    }
	  else if (!IS_IREG ($3))
	    return yyerror ("Ireg expected in address");

	  if (IS_IREG ($3))
	    {
	      notethat ("dspLDST: W [ iregs <post_op> ] = dregs_half\n");
	      $$ = DSPLDST (&$3, 1 + IS_H ($7), &$7, $4.x0, 1);
	    }
	  else
	    {
	      notethat ("LDSTpmod: W [ pregs ] = dregs_half\n");
	      $$ = LDSTPMOD (&$3, &$7, &$3, 1 + IS_H ($7), 1);
	    }
	}

/* LDSTiiFP:	[ FP - const ] = dpregs.  */
	| LBRACK REG plus_minus expr RBRACK ASSIGN REG
	{
	  Expr_Node *tmp = $4;
	  int ispreg = IS_PREG ($7);

	  if (!IS_PREG ($2))
	    return yyerror ("Preg expected in address");

	  if (!IS_DREG ($7) && !ispreg)
	    return yyerror ("Preg expected for source operand");

	  if ($3.r0)
	    tmp = unary (Expr_Op_Type_NEG, tmp);

	  if (IS_RELOC ($4))
	    return yyerror ("Plain symbol used as offset");

	  if (in_range_p (tmp, 0, 63, 3))
	    {
	      notethat ("LDSTii: dpregs = [ pregs + uimm6m4 ]\n");
	      $$ = LDSTII (&$2, &$7, tmp, 1, ispreg ? 3 : 0);
	    }
	  else if ($2.regno == REG_FP && in_range_p (tmp, -128, 0, 3))
	    {
	      notethat ("LDSTiiFP: dpregs = [ FP - uimm7m4 ]\n");
	      tmp = unary (Expr_Op_Type_NEG, tmp);
	      $$ = LDSTIIFP (tmp, &$7, 1);
	    }
	  else if (in_range_p (tmp, -131072, 131071, 3))
	    {
	      notethat ("LDSTidxI: [ pregs + imm18m4 ] = dpregs\n");
	      $$ = LDSTIDXI (&$2, &$7, 1, 0, ispreg ? 1 : 0, tmp);
	    }
	  else
	    return yyerror ("Displacement out of range");
	}

	| REG ASSIGN W LBRACK REG plus_minus expr RBRACK xpmod
	{
	  Expr_Node *tmp = $7;
	  if (!IS_DREG ($1))
	    return yyerror ("Dreg expected for destination operand");
	  if (!IS_PREG ($5))
	    return yyerror ("Preg expected in address");

	  if ($6.r0)
	    tmp = unary (Expr_Op_Type_NEG, tmp);

	  if (IS_RELOC ($7))
	    return yyerror ("Plain symbol used as offset");

	  if (in_range_p (tmp, 0, 30, 1))
	    {
	      notethat ("LDSTii: dregs = W [ pregs + uimm5m2 ] (.)\n");
	      $$ = LDSTII (&$5, &$1, tmp, 0, 1 << $9.r0);
	    }
	  else if (in_range_p (tmp, -65536, 65535, 1))
	    {
	      notethat ("LDSTidxI: dregs = W [ pregs + imm17m2 ] (.)\n");
	      $$ = LDSTIDXI (&$5, &$1, 0, 1, $9.r0, tmp);
	    }
	  else
	    return yyerror ("Displacement out of range");
	}

	| HALF_REG ASSIGN W LBRACK REG post_op RBRACK
	{
	  if (!IS_DREG ($1))
	    return yyerror ("Dreg expected for source operand");
	  if ($6.x0 == 2)
	    {
	      if (!IS_IREG ($5) && !IS_PREG ($5))
		return yyerror ("Ireg or Preg expected in address");
	    }
	  else if (!IS_IREG ($5))
	    return yyerror ("Ireg expected in address");

	  if (IS_IREG ($5))
	    {
	      notethat ("dspLDST: dregs_half = W [ iregs <post_op> ]\n");
	      $$ = DSPLDST(&$5, 1 + IS_H ($1), &$1, $6.x0, 0);
	    }
	  else
	    {
	      notethat ("LDSTpmod: dregs_half = W [ pregs <post_op> ]\n");
	      $$ = LDSTPMOD (&$5, &$1, &$5, 1 + IS_H ($1), 0);
	    }
	}


	| REG ASSIGN W LBRACK REG post_op RBRACK xpmod
	{
	  if (!IS_DREG ($1))
	    return yyerror ("Dreg expected for destination operand");
	  if (!IS_PREG ($5))
	    return yyerror ("Preg expected in address");

	  notethat ("LDST: dregs = W [ pregs <post_op> ] (.)\n");
	  $$ = LDST (&$5, &$1, $6.x0, 1, $8.r0, 0);
	}

	| REG ASSIGN W LBRACK REG _PLUS_PLUS REG RBRACK xpmod
	{
	  if (!IS_DREG ($1))
	    return yyerror ("Dreg expected for destination operand");
	  if (!IS_PREG ($5) || !IS_PREG ($7))
	    return yyerror ("Preg expected in address");

	  notethat ("LDSTpmod: dregs = W [ pregs ++ pregs ] (.)\n");
	  $$ = LDSTPMOD (&$5, &$1, &$7, 3, $9.r0);
	}

	| HALF_REG ASSIGN W LBRACK REG _PLUS_PLUS REG RBRACK
	{
	  if (!IS_DREG ($1))
	    return yyerror ("Dreg expected for destination operand");
	  if (!IS_PREG ($5) || !IS_PREG ($7))
	    return yyerror ("Preg expected in address");

	  notethat ("LDSTpmod: dregs_half = W [ pregs ++ pregs ]\n");
	  $$ = LDSTPMOD (&$5, &$1, &$7, 1 + IS_H ($1), 0);
	}

	| LBRACK REG post_op RBRACK ASSIGN REG
	{
	  if (!IS_IREG ($2) && !IS_PREG ($2))
	    return yyerror ("Ireg or Preg expected in address");
	  else if (IS_IREG ($2) && !IS_DREG ($6))
	    return yyerror ("Dreg expected for source operand");
	  else if (IS_PREG ($2) && !IS_DREG ($6) && !IS_PREG ($6))
	    return yyerror ("Dreg or Preg expected for source operand");

	  if (IS_IREG ($2))
	    {
	      notethat ("dspLDST: [ iregs <post_op> ] = dregs\n");
	      $$ = DSPLDST(&$2, 0, &$6, $3.x0, 1);
	    }
	  else if (IS_DREG ($6))
	    {
	      notethat ("LDST: [ pregs <post_op> ] = dregs\n");
	      $$ = LDST (&$2, &$6, $3.x0, 0, 0, 1);
	    }
	  else
	    {
	      notethat ("LDST: [ pregs <post_op> ] = pregs\n");
	      $$ = LDST (&$2, &$6, $3.x0, 0, 1, 1);
	    }
	}

	| LBRACK REG _PLUS_PLUS REG RBRACK ASSIGN REG
	{
	  if (!IS_DREG ($7))
	    return yyerror ("Dreg expected for source operand");

	  if (IS_IREG ($2) && IS_MREG ($4))
	    {
	      notethat ("dspLDST: [ iregs ++ mregs ] = dregs\n");
	      $$ = DSPLDST(&$2, $4.regno & CODE_MASK, &$7, 3, 1);
	    }
	  else if (IS_PREG ($2) && IS_PREG ($4))
	    {
	      notethat ("LDSTpmod: [ pregs ++ pregs ] = dregs\n");
	      $$ = LDSTPMOD (&$2, &$7, &$4, 0, 1);
	    }
	  else
	    return yyerror ("Preg ++ Preg or Ireg ++ Mreg expected in address");
	}

	| W LBRACK REG _PLUS_PLUS REG RBRACK ASSIGN HALF_REG
	{
	  if (!IS_DREG ($8))
	    return yyerror ("Dreg expected for source operand");

	  if (IS_PREG ($3) && IS_PREG ($5))
	    {
	      notethat ("LDSTpmod: W [ pregs ++ pregs ] = dregs_half\n");
	      $$ = LDSTPMOD (&$3, &$8, &$5, 1 + IS_H ($8), 1);
	    }
	  else
	    return yyerror ("Preg ++ Preg expected in address");
	}

	| REG ASSIGN B LBRACK REG plus_minus expr RBRACK xpmod
	{
	  Expr_Node *tmp = $7;
	  if (!IS_DREG ($1))
	    return yyerror ("Dreg expected for destination operand");
	  if (!IS_PREG ($5))
	    return yyerror ("Preg expected in address");

	  if ($6.r0)
	    tmp = unary (Expr_Op_Type_NEG, tmp);

	  if (IS_RELOC ($7))
	    return yyerror ("Plain symbol used as offset");

	  if (in_range_p (tmp, -32768, 32767, 0))
	    {
	      notethat ("LDSTidxI: dregs = B [ pregs + imm16 ] (%c)\n",
		       $9.r0 ? 'X' : 'Z');
	      $$ = LDSTIDXI (&$5, &$1, 0, 2, $9.r0, tmp);
	    }
	  else
	    return yyerror ("Displacement out of range");
	}

	| REG ASSIGN B LBRACK REG post_op RBRACK xpmod
	{
	  if (!IS_DREG ($1))
	    return yyerror ("Dreg expected for destination operand");
	  if (!IS_PREG ($5))
	    return yyerror ("Preg expected in address");

	  notethat ("LDST: dregs = B [ pregs <post_op> ] (%c)\n",
		    $8.r0 ? 'X' : 'Z');
	  $$ = LDST (&$5, &$1, $6.x0, 2, $8.r0, 0);
	}

	| REG ASSIGN LBRACK REG _PLUS_PLUS REG RBRACK
	{
	  if (!IS_DREG ($1))
	    return yyerror ("Dreg expected for destination operand");

	  if (IS_IREG ($4) && IS_MREG ($6))
	    {
	      notethat ("dspLDST: dregs = [ iregs ++ mregs ]\n");
	      $$ = DSPLDST(&$4, $6.regno & CODE_MASK, &$1, 3, 0);
	    }
	  else if (IS_PREG ($4) && IS_PREG ($6))
	    {
	      notethat ("LDSTpmod: dregs = [ pregs ++ pregs ]\n");
	      $$ = LDSTPMOD (&$4, &$1, &$6, 0, 0);
	    }
	  else
	    return yyerror ("Preg ++ Preg or Ireg ++ Mreg expected in address");
	}

	| REG ASSIGN LBRACK REG plus_minus got_or_expr RBRACK
	{
	  Expr_Node *tmp = $6;
	  int ispreg = IS_PREG ($1);
	  int isgot = IS_RELOC($6);

	  if (!IS_PREG ($4))
	    return yyerror ("Preg expected in address");

	  if (!IS_DREG ($1) && !ispreg)
	    return yyerror ("Dreg or Preg expected for destination operand");

	  if (tmp->type == Expr_Node_Reloc
	      && strcmp (tmp->value.s_value,
			 "_current_shared_library_p5_offset_") != 0)
	    return yyerror ("Plain symbol used as offset");

	  if ($5.r0)
	    tmp = unary (Expr_Op_Type_NEG, tmp);

	  if (isgot)
	    {
	      notethat ("LDSTidxI: dpregs = [ pregs + sym@got ]\n");
	      $$ = LDSTIDXI (&$4, &$1, 0, 0, ispreg ? 1 : 0, tmp);
	    }
	  else if (in_range_p (tmp, 0, 63, 3))
	    {
	      notethat ("LDSTii: dpregs = [ pregs + uimm7m4 ]\n");
	      $$ = LDSTII (&$4, &$1, tmp, 0, ispreg ? 3 : 0);
	    }
	  else if ($4.regno == REG_FP && in_range_p (tmp, -128, 0, 3))
	    {
	      notethat ("LDSTiiFP: dpregs = [ FP - uimm7m4 ]\n");
	      tmp = unary (Expr_Op_Type_NEG, tmp);
	      $$ = LDSTIIFP (tmp, &$1, 0);
	    }
	  else if (in_range_p (tmp, -131072, 131071, 3))
	    {
	      notethat ("LDSTidxI: dpregs = [ pregs + imm18m4 ]\n");
	      $$ = LDSTIDXI (&$4, &$1, 0, 0, ispreg ? 1 : 0, tmp);

	    }
	  else
	    return yyerror ("Displacement out of range");
	}

	| REG ASSIGN LBRACK REG post_op RBRACK
	{
	  if (!IS_IREG ($4) && !IS_PREG ($4))
	    return yyerror ("Ireg or Preg expected in address");
	  else if (IS_IREG ($4) && !IS_DREG ($1))
	    return yyerror ("Dreg expected in destination operand");
	  else if (IS_PREG ($4) && !IS_DREG ($1) && !IS_PREG ($1)
		   && ($4.regno != REG_SP || !IS_ALLREG ($1) || $5.x0 != 0))
	    return yyerror ("Dreg or Preg expected in destination operand");

	  if (IS_IREG ($4))
	    {
	      notethat ("dspLDST: dregs = [ iregs <post_op> ]\n");
	      $$ = DSPLDST (&$4, 0, &$1, $5.x0, 0);
	    }
	  else if (IS_DREG ($1))
	    {
	      notethat ("LDST: dregs = [ pregs <post_op> ]\n");
	      $$ = LDST (&$4, &$1, $5.x0, 0, 0, 0);
	    }
	  else if (IS_PREG ($1))
	    {
	      if (REG_SAME ($1, $4) && $5.x0 != 2)
		return yyerror ("Pregs can't be same");

	      notethat ("LDST: pregs = [ pregs <post_op> ]\n");
	      $$ = LDST (&$4, &$1, $5.x0, 0, 1, 0);
	    }
	  else
	    {
	      notethat ("PushPopReg: allregs = [ SP ++ ]\n");
	      $$ = PUSHPOPREG (&$1, 0);
	    }
	}


/*  PushPopMultiple.  */
	| reg_with_predec ASSIGN LPAREN REG COLON expr COMMA REG COLON expr RPAREN
	{
	  if ($1.regno != REG_SP)
	    yyerror ("Stack Pointer expected");
	  if ($4.regno == REG_R7
	      && IN_RANGE ($6, 0, 7)
	      && $8.regno == REG_P5
	      && IN_RANGE ($10, 0, 5))
	    {
	      notethat ("PushPopMultiple: [ -- SP ] = (R7 : reglim , P5 : reglim )\n");
	      $$ = PUSHPOPMULTIPLE (imm5 ($6), imm5 ($10), 1, 1, 1);
	    }
	  else
	    return yyerror ("Bad register for PushPopMultiple");
	}

	| reg_with_predec ASSIGN LPAREN REG COLON expr RPAREN
	{
	  if ($1.regno != REG_SP)
	    yyerror ("Stack Pointer expected");

	  if ($4.regno == REG_R7 && IN_RANGE ($6, 0, 7))
	    {
	      notethat ("PushPopMultiple: [ -- SP ] = (R7 : reglim )\n");
	      $$ = PUSHPOPMULTIPLE (imm5 ($6), 0, 1, 0, 1);
	    }
	  else if ($4.regno == REG_P5 && IN_RANGE ($6, 0, 6))
	    {
	      notethat ("PushPopMultiple: [ -- SP ] = (P5 : reglim )\n");
	      $$ = PUSHPOPMULTIPLE (0, imm5 ($6), 0, 1, 1);
	    }
	  else
	    return yyerror ("Bad register for PushPopMultiple");
	}

	| LPAREN REG COLON expr COMMA REG COLON expr RPAREN ASSIGN reg_with_postinc
	{
	  if ($11.regno != REG_SP)
	    yyerror ("Stack Pointer expected");
	  if ($2.regno == REG_R7 && (IN_RANGE ($4, 0, 7))
	      && $6.regno == REG_P5 && (IN_RANGE ($8, 0, 6)))
	    {
	      notethat ("PushPopMultiple: (R7 : reglim , P5 : reglim ) = [ SP ++ ]\n");
	      $$ = PUSHPOPMULTIPLE (imm5 ($4), imm5 ($8), 1, 1, 0);
	    }
	  else
	    return yyerror ("Bad register range for PushPopMultiple");
	}

	| LPAREN REG COLON expr RPAREN ASSIGN reg_with_postinc
	{
	  if ($7.regno != REG_SP)
	    yyerror ("Stack Pointer expected");

	  if ($2.regno == REG_R7 && IN_RANGE ($4, 0, 7))
	    {
	      notethat ("PushPopMultiple: (R7 : reglim ) = [ SP ++ ]\n");
	      $$ = PUSHPOPMULTIPLE (imm5 ($4), 0, 1, 0, 0);
	    }
	  else if ($2.regno == REG_P5 && IN_RANGE ($4, 0, 6))
	    {
	      notethat ("PushPopMultiple: (P5 : reglim ) = [ SP ++ ]\n");
	      $$ = PUSHPOPMULTIPLE (0, imm5 ($4), 0, 1, 0);
	    }
	  else
	    return yyerror ("Bad register range for PushPopMultiple");
	}

	| reg_with_predec ASSIGN REG
	{
	  if ($1.regno != REG_SP)
	    yyerror ("Stack Pointer expected");

	  if (IS_ALLREG ($3))
	    {
	      notethat ("PushPopReg: [ -- SP ] = allregs\n");
	      $$ = PUSHPOPREG (&$3, 1);
	    }
	  else
	    return yyerror ("Bad register for PushPopReg");
	}

/* Linkage.  */

	| LINK expr
	{
	  if (IS_URANGE (16, $2, 0, 4))
	    $$ = LINKAGE (0, uimm16s4 ($2));
	  else
	    return yyerror ("Bad constant for LINK");
	}

	| UNLINK
	{
		notethat ("linkage: UNLINK\n");
		$$ = LINKAGE (1, 0);
	}


/* LSETUP.  */

	| LSETUP LPAREN expr COMMA expr RPAREN REG
	{
	  if (IS_PCREL4 ($3) && IS_LPPCREL10 ($5) && IS_CREG ($7))
	    {
	      notethat ("LoopSetup: LSETUP (pcrel4 , lppcrel10 ) counters\n");
	      $$ = LOOPSETUP ($3, &$7, 0, $5, 0);
	    }
	  else
	    return yyerror ("Bad register or values for LSETUP");

	}
	| LSETUP LPAREN expr COMMA expr RPAREN REG ASSIGN REG
	{
	  if (IS_PCREL4 ($3) && IS_LPPCREL10 ($5)
	      && IS_PREG ($9) && IS_CREG ($7))
	    {
	      notethat ("LoopSetup: LSETUP (pcrel4 , lppcrel10 ) counters = pregs\n");
	      $$ = LOOPSETUP ($3, &$7, 1, $5, &$9);
	    }
	  else
	    return yyerror ("Bad register or values for LSETUP");
	}

	| LSETUP LPAREN expr COMMA expr RPAREN REG ASSIGN REG GREATER_GREATER expr
	{
	  if (IS_PCREL4 ($3) && IS_LPPCREL10 ($5)
	      && IS_PREG ($9) && IS_CREG ($7)
	      && EXPR_VALUE ($11) == 1)
	    {
	      notethat ("LoopSetup: LSETUP (pcrel4 , lppcrel10 ) counters = pregs >> 1\n");
	      $$ = LOOPSETUP ($3, &$7, 3, $5, &$9);
	    }
	  else
	    return yyerror ("Bad register or values for LSETUP");
	}

/* LOOP.  */
	| LOOP expr REG
	{
	  if (!IS_RELOC ($2))
	    return yyerror ("Invalid expression in loop statement");
	  if (!IS_CREG ($3))
            return yyerror ("Invalid loop counter register");
	$$ = bfin_gen_loop ($2, &$3, 0, 0);
	}
	| LOOP expr REG ASSIGN REG
	{
	  if (IS_RELOC ($2) && IS_PREG ($5) && IS_CREG ($3))
	    {
	      notethat ("Loop: LOOP expr counters = pregs\n");
	      $$ = bfin_gen_loop ($2, &$3, 1, &$5);
	    }
	  else
	    return yyerror ("Bad register or values for LOOP");
	}
	| LOOP expr REG ASSIGN REG GREATER_GREATER expr
	{
	  if (IS_RELOC ($2) && IS_PREG ($5) && IS_CREG ($3) && EXPR_VALUE ($7) == 1)
	    {
	      notethat ("Loop: LOOP expr counters = pregs >> 1\n");
	      $$ = bfin_gen_loop ($2, &$3, 3, &$5);
	    }
	  else
	    return yyerror ("Bad register or values for LOOP");
	}

/* LOOP_BEGIN.  */
	| LOOP_BEGIN NUMBER
	{
	  Expr_Node_Value val;
	  val.i_value = $2;
	  Expr_Node *tmp = Expr_Node_Create (Expr_Node_Constant, val, NULL, NULL);
	  bfin_loop_attempt_create_label (tmp, 1);
	  if (!IS_RELOC (tmp))
	    return yyerror ("Invalid expression in LOOP_BEGIN statement");
	  bfin_loop_beginend (tmp, 1);
	  $$ = 0;
	}
	| LOOP_BEGIN expr
	{
	  if (!IS_RELOC ($2))
	    return yyerror ("Invalid expression in LOOP_BEGIN statement");

	  bfin_loop_beginend ($2, 1);
	  $$ = 0;
	}

/* LOOP_END.  */
	| LOOP_END NUMBER
	{
	  Expr_Node_Value val;
	  val.i_value = $2;
	  Expr_Node *tmp = Expr_Node_Create (Expr_Node_Constant, val, NULL, NULL);
	  bfin_loop_attempt_create_label (tmp, 1);
	  if (!IS_RELOC (tmp))
	    return yyerror ("Invalid expression in LOOP_END statement");
	  bfin_loop_beginend (tmp, 0);
	  $$ = 0;
	}
	| LOOP_END expr
	{
	  if (!IS_RELOC ($2))
	    return yyerror ("Invalid expression in LOOP_END statement");

	  bfin_loop_beginend ($2, 0);
	  $$ = 0;
	}

/* pseudoDEBUG.  */

	| ABORT
	{
	  notethat ("psedoDEBUG: ABORT\n");
	  $$ = bfin_gen_pseudodbg (3, 3, 0);
	}

	| DBG
	{
	  notethat ("pseudoDEBUG: DBG\n");
	  $$ = bfin_gen_pseudodbg (3, 7, 0);
	}
	| DBG REG_A
	{
	  notethat ("pseudoDEBUG: DBG REG_A\n");
	  $$ = bfin_gen_pseudodbg (3, IS_A1 ($2), 0);
	}
	| DBG REG
	{
	  notethat ("pseudoDEBUG: DBG allregs\n");
	  $$ = bfin_gen_pseudodbg (0, $2.regno & CODE_MASK, ($2.regno & CLASS_MASK) >> 4);
	}

	| DBGCMPLX LPAREN REG RPAREN
	{
	  if (!IS_DREG ($3))
	    return yyerror ("Dregs expected");
	  notethat ("pseudoDEBUG: DBGCMPLX (dregs )\n");
	  $$ = bfin_gen_pseudodbg (3, 6, ($3.regno & CODE_MASK) >> 4);
	}

	| DBGHALT
	{
	  notethat ("psedoDEBUG: DBGHALT\n");
	  $$ = bfin_gen_pseudodbg (3, 5, 0);
	}

	| HLT
	{
	  notethat ("psedoDEBUG: HLT\n");
	  $$ = bfin_gen_pseudodbg (3, 4, 0);
	}

	| DBGA LPAREN HALF_REG COMMA expr RPAREN
	{
	  notethat ("pseudodbg_assert: DBGA (regs_lo/hi , uimm16 )\n");
	  $$ = bfin_gen_pseudodbg_assert (IS_H ($3), &$3, uimm16 ($5));
	}

	| DBGAH LPAREN REG COMMA expr RPAREN
	{
	  notethat ("pseudodbg_assert: DBGAH (regs , uimm16 )\n");
	  $$ = bfin_gen_pseudodbg_assert (3, &$3, uimm16 ($5));
	}

	| DBGAL LPAREN REG COMMA expr RPAREN
	{
	  notethat ("psedodbg_assert: DBGAL (regs , uimm16 )\n");
	  $$ = bfin_gen_pseudodbg_assert (2, &$3, uimm16 ($5));
	}

	| OUTC expr
	{
	  if (!IS_UIMM ($2, 8))
	    return yyerror ("Constant out of range");
	  notethat ("psedodbg_assert: OUTC uimm8\n");
	  $$ = bfin_gen_pseudochr (uimm8 ($2));
	}

	| OUTC REG
	{
	  if (!IS_DREG ($2))
	    return yyerror ("Dregs expected");
	  notethat ("psedodbg_assert: OUTC dreg\n");
	  $$ = bfin_gen_pseudodbg (2, $2.regno & CODE_MASK, 0);
	}

;

/*  AUX RULES.  */

/*  Register rules.  */

REG_A:	REG_A_DOUBLE_ZERO
	{
	$$ = $1;
	}
	| REG_A_DOUBLE_ONE
	{
	$$ = $1;
	}
	;


/*  Modifiers. */

opt_mode:
	{
	$$.MM = 0;
	$$.mod = 0;
	}
	| LPAREN M COMMA MMOD RPAREN
	{
	$$.MM = 1;
	$$.mod = $4;
	}
	| LPAREN MMOD COMMA M RPAREN
	{
	$$.MM = 1;
	$$.mod = $2;
	}
	| LPAREN MMOD RPAREN
	{
	$$.MM = 0;
	$$.mod = $2;
	}
	| LPAREN M RPAREN
	{
	$$.MM = 1;
	$$.mod = 0;
	}
	;

asr_asl: LPAREN ASL RPAREN
	{
	$$.r0 = 1;
	}
	| LPAREN ASR RPAREN
	{
	$$.r0 = 0;
	}
	;

sco:
	{
	$$.s0 = 0;
	$$.x0 = 0;
	}
	| S
	{
	$$.s0 = 1;
	$$.x0 = 0;
	}
	| CO
	{
	$$.s0 = 0;
	$$.x0 = 1;
	}
	| SCO
	{
	$$.s0 = 1;
	$$.x0 = 1;
	}
	;

asr_asl_0:
	ASL
	{
	$$.r0 = 1;
	}
	| ASR
	{
	$$.r0 = 0;
	}
	;

amod0:
	{
	$$.s0 = 0;
	$$.x0 = 0;
	}
	| LPAREN sco RPAREN
	{
	$$.s0 = $2.s0;
	$$.x0 = $2.x0;
	}
	;

amod1:
	{
	$$.s0 = 0;
	$$.x0 = 0;
	$$.aop = 0;
	}
	| LPAREN NS RPAREN
	{
	$$.s0 = 0;
	$$.x0 = 0;
	$$.aop = 1;
	}
	| LPAREN S RPAREN
	{
	$$.s0 = 1;
	$$.x0 = 0;
	$$.aop = 1;
	}
	;

amod2:
	{
	$$.r0 = 0;
	$$.s0 = 0;
	$$.x0 = 0;
	}
	| LPAREN asr_asl_0 RPAREN
	{
	$$.r0 = 2 + $2.r0;
	$$.s0 = 0;
	$$.x0 = 0;
	}
	| LPAREN sco RPAREN
	{
	$$.r0 = 0;
	$$.s0 = $2.s0;
	$$.x0 = $2.x0;
	}
	| LPAREN asr_asl_0 COMMA sco RPAREN
	{
	$$.r0 = 2 + $2.r0;
	$$.s0 = $4.s0;
	$$.x0 = $4.x0;
	}
	| LPAREN sco COMMA asr_asl_0 RPAREN
	{
	$$.r0 = 2 + $4.r0;
	$$.s0 = $2.s0;
	$$.x0 = $2.x0;
	}
	;

xpmod:
	{
	$$.r0 = 0;
	}
	| LPAREN Z RPAREN
	{
	$$.r0 = 0;
	}
	| LPAREN X RPAREN
	{
	$$.r0 = 1;
	}
	;

xpmod1:
	{
	$$.r0 = 0;
	}
	| LPAREN X RPAREN
	{
	$$.r0 = 0;
	}
	| LPAREN Z RPAREN
	{
	$$.r0 = 1;
	}
	;

vsmod:
	{
	$$.r0 = 0;
	$$.s0 = 0;
	$$.aop = 0;
	}
	| LPAREN NS RPAREN
	{
	$$.r0 = 0;
	$$.s0 = 0;
	$$.aop = 3;
	}
	| LPAREN S RPAREN
	{
	$$.r0 = 0;
	$$.s0 = 1;
	$$.aop = 3;
	}
	| LPAREN V RPAREN
	{
	$$.r0 = 1;
	$$.s0 = 0;
	$$.aop = 3;
	}
	| LPAREN V COMMA S RPAREN
	{
	$$.r0 = 1;
	$$.s0 = 1;
	}
	| LPAREN S COMMA V RPAREN
	{
	$$.r0 = 1;
	$$.s0 = 1;
	}
	;

vmod:
	{
	$$.r0 = 0;
	}
	| LPAREN V RPAREN
	{
	$$.r0 = 1;
	}
	;

smod:
	{
	$$.s0 = 0;
	}
	| LPAREN S RPAREN
	{
	$$.s0 = 1;
	}
	;

searchmod:
	  GE
	{
	$$.r0 = 1;
	}
	| GT
	{
	$$.r0 = 0;
	}
	| LE
	{
	$$.r0 = 3;
	}
	| LT
	{
	$$.r0 = 2;
	}
	;

aligndir:
	{
	$$.r0 = 0;
	}
	| LPAREN R RPAREN
	{
	$$.r0 = 1;
	}
	;

byteop_mod:
	LPAREN R RPAREN
	{
	$$.r0 = 0;
	$$.s0 = 1;
	}
	| LPAREN MMOD RPAREN
	{
	if ($2 != M_T)
	  return yyerror ("Bad modifier");
	$$.r0 = 1;
	$$.s0 = 0;
	}
	| LPAREN MMOD COMMA R RPAREN
	{
	if ($2 != M_T)
	  return yyerror ("Bad modifier");
	$$.r0 = 1;
	$$.s0 = 1;
	}
	| LPAREN R COMMA MMOD RPAREN
	{
	if ($4 != M_T)
	  return yyerror ("Bad modifier");
	$$.r0 = 1;
	$$.s0 = 1;
	}
	;



c_align:
	ALIGN8
	{
	$$.r0 = 0;
	}
	| ALIGN16
	{
	$$.r0 = 1;
	}
	| ALIGN24
	{
	$$.r0 = 2;
	}
	;

w32_or_nothing:
	{
	$$.r0 = 0;
	}
	| LPAREN MMOD RPAREN
	{
	  if ($2 == M_W32)
	    $$.r0 = 1;
	  else
	    return yyerror ("Only (W32) allowed");
	}
	;

iu_or_nothing:
	{
	$$.r0 = 1;
	}
	| LPAREN MMOD RPAREN
	{
	  if ($2 == M_IU)
	    $$.r0 = 3;
	  else
	    return yyerror ("(IU) expected");
	}
	;

reg_with_predec: LBRACK _MINUS_MINUS REG RBRACK
	{
	$$ = $3;
	}
	;

reg_with_postinc: LBRACK REG _PLUS_PLUS RBRACK
	{
	$$ = $2;
	}
	;

/* Operators.  */

min_max:
	MIN
	{
	$$.r0 = 1;
	}
	| MAX
	{
	$$.r0 = 0;
	}
	;

op_bar_op:
	_PLUS_BAR_PLUS
	{
	$$.r0 = 0;
	}
	| _PLUS_BAR_MINUS
	{
	$$.r0 = 1;
	}
	| _MINUS_BAR_PLUS
	{
	$$.r0 = 2;
	}
	| _MINUS_BAR_MINUS
	{
	$$.r0 = 3;
	}
	;

plus_minus:
	PLUS
	{
	$$.r0 = 0;
	}
	| MINUS
	{
	$$.r0 = 1;
	}
	;

rnd_op:
	LPAREN RNDH RPAREN
	{
	  $$.r0 = 1;	/* HL.  */
	  $$.s0 = 0;	/* s.  */
	  $$.x0 = 0;	/* x.  */
	  $$.aop = 0;	/* aop.  */
	}

	| LPAREN TH RPAREN
	{
	  $$.r0 = 1;	/* HL.  */
	  $$.s0 = 0;	/* s.  */
	  $$.x0 = 0;	/* x.  */
	  $$.aop = 1;	/* aop.  */
	}

	| LPAREN RNDL RPAREN
	{
	  $$.r0 = 0;	/* HL.  */
	  $$.s0 = 0;	/* s.  */
	  $$.x0 = 0;	/* x.  */
	  $$.aop = 0;	/* aop.  */
	}

	| LPAREN TL RPAREN
	{
	  $$.r0 = 0;	/* HL.  */
	  $$.s0 = 0;	/* s.  */
	  $$.x0 = 0;	/* x.  */
	  $$.aop = 1;
	}

	| LPAREN RNDH COMMA R RPAREN
	{
	  $$.r0 = 1;	/* HL.  */
	  $$.s0 = 1;	/* s.  */
	  $$.x0 = 0;	/* x.  */
	  $$.aop = 0;	/* aop.  */
	}
	| LPAREN TH COMMA R RPAREN
	{
	  $$.r0 = 1;	/* HL.  */
	  $$.s0 = 1;	/* s.  */
	  $$.x0 = 0;	/* x.  */
	  $$.aop = 1;	/* aop.  */
	}
	| LPAREN RNDL COMMA R RPAREN
	{
	  $$.r0 = 0;	/* HL.  */
	  $$.s0 = 1;	/* s.  */
	  $$.x0 = 0;	/* x.  */
	  $$.aop = 0;	/* aop.  */
	}

	| LPAREN TL COMMA R RPAREN
	{
	  $$.r0 = 0;	/* HL.  */
	  $$.s0 = 1;	/* s.  */
	  $$.x0 = 0;	/* x.  */
	  $$.aop = 1;	/* aop.  */
	}
	;

b3_op:
	LPAREN LO RPAREN
	{
	  $$.s0 = 0;	/* s.  */
	  $$.x0 = 0;	/* HL.  */
	}
	| LPAREN HI RPAREN
	{
	  $$.s0 = 0;	/* s.  */
	  $$.x0 = 1;	/* HL.  */
	}
	| LPAREN LO COMMA R RPAREN
	{
	  $$.s0 = 1;	/* s.  */
	  $$.x0 = 0;	/* HL.  */
	}
	| LPAREN HI COMMA R RPAREN
	{
	  $$.s0 = 1;	/* s.  */
	  $$.x0 = 1;	/* HL.  */
	}
	;

post_op:
	{
	$$.x0 = 2;
	}
	| _PLUS_PLUS
	{
	$$.x0 = 0;
	}
	| _MINUS_MINUS
	{
	$$.x0 = 1;
	}
	;

/* Assignments, Macfuncs.  */

a_assign:
	REG_A ASSIGN
	{
	$$ = $1;
	}
	;

a_minusassign:
	REG_A _MINUS_ASSIGN
	{
	$$ = $1;
	}
	;

a_plusassign:
	REG_A _PLUS_ASSIGN
	{
	$$ = $1;
	}
	;

assign_macfunc:
	REG ASSIGN REG_A
	{
	  if (IS_A1 ($3) && IS_EVEN ($1))
	    return yyerror ("Cannot move A1 to even register");
	  else if (!IS_A1 ($3) && !IS_EVEN ($1))
	    return yyerror ("Cannot move A0 to odd register");

	  $$.w = 1;
          $$.P = 1;
          $$.n = IS_A1 ($3);
	  $$.op = 3;
          $$.dst = $1;
	  $$.s0.regno = 0;
          $$.s1.regno = 0;
	}
	| a_macfunc
	{
	  $$ = $1;
	  $$.w = 0; $$.P = 0;
	  $$.dst.regno = 0;
	}
	| REG ASSIGN LPAREN a_macfunc RPAREN
	{
	  if ($4.n && IS_EVEN ($1))
	    return yyerror ("Cannot move A1 to even register");
	  else if (!$4.n && !IS_EVEN ($1))
	    return yyerror ("Cannot move A0 to odd register");

	  $$ = $4;
	  $$.w = 1;
          $$.P = 1;
          $$.dst = $1;
	}

	| HALF_REG ASSIGN LPAREN a_macfunc RPAREN
	{
	  if ($4.n && !IS_H ($1))
	    return yyerror ("Cannot move A1 to low half of register");
	  else if (!$4.n && IS_H ($1))
	    return yyerror ("Cannot move A0 to high half of register");

	  $$ = $4;
	  $$.w = 1;
	  $$.P = 0;
          $$.dst = $1;
	}

	| HALF_REG ASSIGN REG_A
	{
	  if (IS_A1 ($3) && !IS_H ($1))
	    return yyerror ("Cannot move A1 to low half of register");
	  else if (!IS_A1 ($3) && IS_H ($1))
	    return yyerror ("Cannot move A0 to high half of register");

	  $$.w = 1;
	  $$.P = 0;
	  $$.n = IS_A1 ($3);
	  $$.op = 3;
          $$.dst = $1;
	  $$.s0.regno = 0;
          $$.s1.regno = 0;
	}
	;

a_macfunc:
	a_assign multiply_halfregs
	{
	  $$.n = IS_A1 ($1);
	  $$.op = 0;
	  $$.s0 = $2.s0;
	  $$.s1 = $2.s1;
	}
	| a_plusassign multiply_halfregs
	{
	  $$.n = IS_A1 ($1);
	  $$.op = 1;
	  $$.s0 = $2.s0;
	  $$.s1 = $2.s1;
	}
	| a_minusassign multiply_halfregs
	{
	  $$.n = IS_A1 ($1);
	  $$.op = 2;
	  $$.s0 = $2.s0;
	  $$.s1 = $2.s1;
	}
	;

multiply_halfregs:
	HALF_REG STAR HALF_REG
	{
	  if (IS_DREG ($1) && IS_DREG ($3))
	    {
	      $$.s0 = $1;
              $$.s1 = $3;
	    }
	  else
	    return yyerror ("Dregs expected");
	}
	;

cc_op:
	ASSIGN
	{
	$$.r0 = 0;
	}
	| _BAR_ASSIGN
	{
	$$.r0 = 1;
	}
	| _AMPERSAND_ASSIGN
	{
	$$.r0 = 2;
	}
	| _CARET_ASSIGN
	{
	$$.r0 = 3;
	}
	;

ccstat:
	CCREG cc_op STATUS_REG
	{
	  $$.r0 = $3.regno;
	  $$.x0 = $2.r0;
	  $$.s0 = 0;
	}
	| CCREG cc_op V
	{
	  $$.r0 = 0x18;
	  $$.x0 = $2.r0;
	  $$.s0 = 0;
	}
	| STATUS_REG cc_op CCREG
	{
	  $$.r0 = $1.regno;
	  $$.x0 = $2.r0;
	  $$.s0 = 1;
	}
	| V cc_op CCREG
	{
	  $$.r0 = 0x18;
	  $$.x0 = $2.r0;
	  $$.s0 = 1;
	}
	;

/* Expressions and Symbols.  */

symbol: SYMBOL
	{
	Expr_Node_Value val;
	val.s_value = S_GET_NAME($1);
	$$ = Expr_Node_Create (Expr_Node_Reloc, val, NULL, NULL);
	}
	;

any_gotrel:
	GOT
	{ $$ = BFD_RELOC_BFIN_GOT; }
	| GOT17M4
	{ $$ = BFD_RELOC_BFIN_GOT17M4; }
	| FUNCDESC_GOT17M4
	{ $$ = BFD_RELOC_BFIN_FUNCDESC_GOT17M4; }
	;

got:	symbol AT any_gotrel
	{
	Expr_Node_Value val;
	val.i_value = $3;
	$$ = Expr_Node_Create (Expr_Node_GOT_Reloc, val, $1, NULL);
	}
	;

got_or_expr:	got
	{
	$$ = $1;
	}
	| expr
	{
	$$ = $1;
	}
	;

pltpc :
	symbol AT PLTPC
	{
	$$ = $1;
	}
	;

eterm: NUMBER
	{
	Expr_Node_Value val;
	val.i_value = $1;
	$$ = Expr_Node_Create (Expr_Node_Constant, val, NULL, NULL);
	}
	| symbol
	{
	$$ = $1;
	}
	| LPAREN expr_1 RPAREN
	{
	$$ = $2;
	}
	| TILDA expr_1
	{
	$$ = unary (Expr_Op_Type_COMP, $2);
	}
	| MINUS expr_1 %prec TILDA
	{
	$$ = unary (Expr_Op_Type_NEG, $2);
	}
	;

expr: expr_1
	{
	$$ = $1;
	}
	;

expr_1: expr_1 STAR expr_1
	{
	$$ = binary (Expr_Op_Type_Mult, $1, $3);
	}
	| expr_1 SLASH expr_1
	{
	$$ = binary (Expr_Op_Type_Div, $1, $3);
	}
	| expr_1 PERCENT expr_1
	{
	$$ = binary (Expr_Op_Type_Mod, $1, $3);
	}
	| expr_1 PLUS expr_1
	{
	$$ = binary (Expr_Op_Type_Add, $1, $3);
	}
	| expr_1 MINUS expr_1
	{
	$$ = binary (Expr_Op_Type_Sub, $1, $3);
	}
	| expr_1 LESS_LESS expr_1
	{
	$$ = binary (Expr_Op_Type_Lshift, $1, $3);
	}
	| expr_1 GREATER_GREATER expr_1
	{
	$$ = binary (Expr_Op_Type_Rshift, $1, $3);
	}
	| expr_1 AMPERSAND expr_1
	{
	$$ = binary (Expr_Op_Type_BAND, $1, $3);
	}
	| expr_1 CARET expr_1
	{
	$$ = binary (Expr_Op_Type_LOR, $1, $3);
	}
	| expr_1 BAR expr_1
	{
	$$ = binary (Expr_Op_Type_BOR, $1, $3);
	}
	| eterm
	{
	$$ = $1;
	}
	;


%%

EXPR_T
mkexpr (int x, SYMBOL_T s)
{
  EXPR_T e = XNEW (struct expression_cell);
  e->value = x;
  EXPR_SYMBOL(e) = s;
  return e;
}

static int
value_match (Expr_Node *exp, int sz, int sign, int mul, int issigned)
{
  int umax = (1 << sz) - 1;
  int min = -(1 << (sz - 1));
  int max = (1 << (sz - 1)) - 1;

  int v = (EXPR_VALUE (exp)) & 0xffffffff;

  if ((v % mul) != 0)
    {
      error ("%s:%d: Value Error -- Must align to %d\n", __FILE__, __LINE__, mul);
      return 0;
    }

  v /= mul;

  if (sign)
    v = -v;

  if (issigned)
    {
      if (v >= min && v <= max) return 1;

#ifdef DEBUG
      fprintf(stderr, "signed value %lx out of range\n", v * mul);
#endif
      return 0;
    }
  if (v <= umax && v >= 0)
    return 1;
#ifdef DEBUG
  fprintf(stderr, "unsigned value %lx out of range\n", v * mul);
#endif
  return 0;
}

/* Return the expression structure that allows symbol operations.
   If the left and right children are constants, do the operation.  */
static Expr_Node *
binary (Expr_Op_Type op, Expr_Node *x, Expr_Node *y)
{
  Expr_Node_Value val;

  if (x->type == Expr_Node_Constant && y->type == Expr_Node_Constant)
    {
      switch (op)
	{
        case Expr_Op_Type_Add:
	  x->value.i_value += y->value.i_value;
	  break;
        case Expr_Op_Type_Sub:
	  x->value.i_value -= y->value.i_value;
	  break;
        case Expr_Op_Type_Mult:
	  x->value.i_value *= y->value.i_value;
	  break;
        case Expr_Op_Type_Div:
	  if (y->value.i_value == 0)
	    error ("Illegal Expression:  Division by zero.");
	  else
	    x->value.i_value /= y->value.i_value;
	  break;
        case Expr_Op_Type_Mod:
	  x->value.i_value %= y->value.i_value;
	  break;
        case Expr_Op_Type_Lshift:
	  x->value.i_value <<= y->value.i_value;
	  break;
        case Expr_Op_Type_Rshift:
	  x->value.i_value >>= y->value.i_value;
	  break;
        case Expr_Op_Type_BAND:
	  x->value.i_value &= y->value.i_value;
	  break;
        case Expr_Op_Type_BOR:
	  x->value.i_value |= y->value.i_value;
	  break;
        case Expr_Op_Type_BXOR:
	  x->value.i_value ^= y->value.i_value;
	  break;
        case Expr_Op_Type_LAND:
	  x->value.i_value = x->value.i_value && y->value.i_value;
	  break;
        case Expr_Op_Type_LOR:
	  x->value.i_value = x->value.i_value || y->value.i_value;
	  break;

	default:
	  error ("%s:%d: Internal assembler error\n", __FILE__, __LINE__);
	}
      return x;
    }
  /* Canonicalize order to EXPR OP CONSTANT.  */
  if (x->type == Expr_Node_Constant)
    {
      Expr_Node *t = x;
      x = y;
      y = t;
    }
  /* Canonicalize subtraction of const to addition of negated const.  */
  if (op == Expr_Op_Type_Sub && y->type == Expr_Node_Constant)
    {
      op = Expr_Op_Type_Add;
      y->value.i_value = -y->value.i_value;
    }
  if (y->type == Expr_Node_Constant && x->type == Expr_Node_Binop
      && x->Right_Child->type == Expr_Node_Constant)
    {
      if (op == x->value.op_value && x->value.op_value == Expr_Op_Type_Add)
	{
	  x->Right_Child->value.i_value += y->value.i_value;
	  return x;
	}
    }

  /* Create a new expression structure.  */
  val.op_value = op;
  return Expr_Node_Create (Expr_Node_Binop, val, x, y);
}

static Expr_Node *
unary (Expr_Op_Type op, Expr_Node *x)
{
  if (x->type == Expr_Node_Constant)
    {
      switch (op)
	{
	case Expr_Op_Type_NEG:
	  x->value.i_value = -x->value.i_value;
	  break;
	case Expr_Op_Type_COMP:
	  x->value.i_value = ~x->value.i_value;
	  break;
	default:
	  error ("%s:%d: Internal assembler error\n", __FILE__, __LINE__);
	}
      return x;
    }
  else
    {
      /* Create a new expression structure.  */
      Expr_Node_Value val;
      val.op_value = op;
      return Expr_Node_Create (Expr_Node_Unop, val, x, NULL);
    }
}

int debug_codeselection = 0;
static void
notethat (const char *format, ...)
{
  va_list ap;
  va_start (ap, format);
  if (debug_codeselection)
    {
      vfprintf (errorf, format, ap);
    }
  va_end (ap);
}

#ifdef TEST
main (int argc, char **argv)
{
  yyparse();
}
#endif