binutils-gdb/opcodes/rx-decode.opc
Nick Clifton 854eb72b00 Disassemble RX NOP instructions as such.
opcode	* rx.h (enum RX_Opcode_ID): Add more NOP opcodes.

opcodes	* rx-decode.opc (rx_decode_opcode): Decode extra NOP
	instructions.
	* rx-decode.c: Regenerate.

tests	* gas/rx/max.d: Update expecetd disassembly.
	* gas/rx/nod.d: Likewise.
	* gas/rx/nop.sm: Add tests of more NOP instructions.
2015-11-02 14:37:33 +00:00

1046 lines
28 KiB
C

/* -*- c -*- */
/* Copyright (C) 2012-2015 Free Software Foundation, Inc.
Contributed by Red Hat.
Written by DJ Delorie.
This file is part of the GNU opcodes library.
This library 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.
It is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
#include "sysdep.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "ansidecl.h"
#include "opcode/rx.h"
#define RX_OPCODE_BIG_ENDIAN 0
typedef struct
{
RX_Opcode_Decoded * rx;
int (* getbyte)(void *);
void * ptr;
unsigned char * op;
} LocalData;
static int trace = 0;
#define BSIZE 0
#define WSIZE 1
#define LSIZE 2
/* These are for when the upper bits are "don't care" or "undefined". */
static int bwl[] =
{
RX_Byte,
RX_Word,
RX_Long,
RX_Bad_Size /* Bogus instructions can have a size field set to 3. */
};
static int sbwl[] =
{
RX_SByte,
RX_SWord,
RX_Long,
RX_Bad_Size /* Bogus instructions can have a size field set to 3. */
};
static int ubw[] =
{
RX_UByte,
RX_UWord,
RX_Bad_Size,/* Bogus instructions can have a size field set to 2. */
RX_Bad_Size /* Bogus instructions can have a size field set to 3. */
};
static int memex[] =
{
RX_SByte,
RX_SWord,
RX_Long,
RX_UWord
};
#define ID(x) rx->id = RXO_##x
#define OP(n,t,r,a) (rx->op[n].type = t, \
rx->op[n].reg = r, \
rx->op[n].addend = a )
#define OPs(n,t,r,a,s) (OP (n,t,r,a), \
rx->op[n].size = s )
/* This is for the BWL and BW bitfields. */
static int SCALE[] = { 1, 2, 4, 0 };
/* This is for the prefix size enum. */
static int PSCALE[] = { 4, 1, 1, 1, 2, 2, 2, 3, 4 };
static int flagmap[] = {0, 1, 2, 3, 0, 0, 0, 0,
16, 17, 0, 0, 0, 0, 0, 0 };
static int dsp3map[] = { 8, 9, 10, 3, 4, 5, 6, 7 };
/*
*C a constant (immediate) c
*R A register
*I Register indirect, no offset
*Is Register indirect, with offset
*D standard displacement: type (r,[r],dsp8,dsp16 code), register, BWL code
*P standard displacement: type (r,[r]), reg, assumes UByte
*Pm memex displacement: type (r,[r]), reg, memex code
*cc condition code. */
#define DC(c) OP (0, RX_Operand_Immediate, 0, c)
#define DR(r) OP (0, RX_Operand_Register, r, 0)
#define DI(r,a) OP (0, RX_Operand_Indirect, r, a)
#define DIs(r,a,s) OP (0, RX_Operand_Indirect, r, (a) * SCALE[s])
#define DD(t,r,s) rx_disp (0, t, r, bwl[s], ld);
#define DF(r) OP (0, RX_Operand_Flag, flagmap[r], 0)
#define SC(i) OP (1, RX_Operand_Immediate, 0, i)
#define SR(r) OP (1, RX_Operand_Register, r, 0)
#define SRR(r) OP (1, RX_Operand_TwoReg, r, 0)
#define SI(r,a) OP (1, RX_Operand_Indirect, r, a)
#define SIs(r,a,s) OP (1, RX_Operand_Indirect, r, (a) * SCALE[s])
#define SD(t,r,s) rx_disp (1, t, r, bwl[s], ld);
#define SP(t,r) rx_disp (1, t, r, (t!=3) ? RX_UByte : RX_Long, ld); P(t, 1);
#define SPm(t,r,m) rx_disp (1, t, r, memex[m], ld); rx->op[1].size = memex[m];
#define Scc(cc) OP (1, RX_Operand_Condition, cc, 0)
#define S2C(i) OP (2, RX_Operand_Immediate, 0, i)
#define S2R(r) OP (2, RX_Operand_Register, r, 0)
#define S2I(r,a) OP (2, RX_Operand_Indirect, r, a)
#define S2Is(r,a,s) OP (2, RX_Operand_Indirect, r, (a) * SCALE[s])
#define S2D(t,r,s) rx_disp (2, t, r, bwl[s], ld);
#define S2P(t,r) rx_disp (2, t, r, (t!=3) ? RX_UByte : RX_Long, ld); P(t, 2);
#define S2Pm(t,r,m) rx_disp (2, t, r, memex[m], ld); rx->op[2].size = memex[m];
#define S2cc(cc) OP (2, RX_Operand_Condition, cc, 0)
#define BWL(sz) rx->op[0].size = rx->op[1].size = rx->op[2].size = rx->size = bwl[sz]
#define sBWL(sz) rx->op[0].size = rx->op[1].size = rx->op[2].size = rx->size = sbwl[sz]
#define uBW(sz) rx->op[0].size = rx->op[1].size = rx->op[2].size = rx->size = ubw[sz]
#define P(t, n) rx->op[n].size = (t!=3) ? RX_UByte : RX_Long;
#define F(f) store_flags(rx, f)
#define AU ATTRIBUTE_UNUSED
#define GETBYTE() (ld->op [ld->rx->n_bytes++] = ld->getbyte (ld->ptr))
#define SYNTAX(x) rx->syntax = x
#define UNSUPPORTED() \
rx->syntax = "*unknown*"
#define IMM(sf) immediate (sf, 0, ld)
#define IMMex(sf) immediate (sf, 1, ld)
static int
immediate (int sfield, int ex, LocalData * ld)
{
unsigned long i = 0, j;
switch (sfield)
{
#define B ((unsigned long) GETBYTE())
case 0:
#if RX_OPCODE_BIG_ENDIAN
i = B;
if (ex && (i & 0x80))
i -= 0x100;
i <<= 24;
i |= B << 16;
i |= B << 8;
i |= B;
#else
i = B;
i |= B << 8;
i |= B << 16;
j = B;
if (ex && (j & 0x80))
j -= 0x100;
i |= j << 24;
#endif
break;
case 3:
#if RX_OPCODE_BIG_ENDIAN
i = B << 16;
i |= B << 8;
i |= B;
#else
i = B;
i |= B << 8;
i |= B << 16;
#endif
if (ex && (i & 0x800000))
i -= 0x1000000;
break;
case 2:
#if RX_OPCODE_BIG_ENDIAN
i |= B << 8;
i |= B;
#else
i |= B;
i |= B << 8;
#endif
if (ex && (i & 0x8000))
i -= 0x10000;
break;
case 1:
i |= B;
if (ex && (i & 0x80))
i -= 0x100;
break;
default:
abort();
}
return i;
}
static void
rx_disp (int n, int type, int reg, int size, LocalData * ld)
{
int disp;
ld->rx->op[n].reg = reg;
switch (type)
{
case 3:
ld->rx->op[n].type = RX_Operand_Register;
break;
case 0:
ld->rx->op[n].type = RX_Operand_Zero_Indirect;
ld->rx->op[n].addend = 0;
break;
case 1:
ld->rx->op[n].type = RX_Operand_Indirect;
disp = GETBYTE ();
ld->rx->op[n].addend = disp * PSCALE[size];
break;
case 2:
ld->rx->op[n].type = RX_Operand_Indirect;
disp = GETBYTE ();
#if RX_OPCODE_BIG_ENDIAN
disp = disp * 256 + GETBYTE ();
#else
disp = disp + GETBYTE () * 256;
#endif
ld->rx->op[n].addend = disp * PSCALE[size];
break;
default:
abort ();
}
}
#define xO 8
#define xS 4
#define xZ 2
#define xC 1
#define F_____
#define F___ZC rx->flags_0 = rx->flags_s = xZ|xC;
#define F__SZ_ rx->flags_0 = rx->flags_s = xS|xZ;
#define F__SZC rx->flags_0 = rx->flags_s = xS|xZ|xC;
#define F_0SZC rx->flags_0 = xO|xS|xZ|xC; rx->flags_s = xS|xZ|xC;
#define F_O___ rx->flags_0 = rx->flags_s = xO;
#define F_OS__ rx->flags_0 = rx->flags_s = xO|xS;
#define F_OSZ_ rx->flags_0 = rx->flags_s = xO|xS|xZ;
#define F_OSZC rx->flags_0 = rx->flags_s = xO|xS|xZ|xC;
int
rx_decode_opcode (unsigned long pc AU,
RX_Opcode_Decoded * rx,
int (* getbyte)(void *),
void * ptr)
{
LocalData lds, * ld = &lds;
unsigned char op[20] = {0};
lds.rx = rx;
lds.getbyte = getbyte;
lds.ptr = ptr;
lds.op = op;
memset (rx, 0, sizeof (*rx));
BWL(LSIZE);
/** VARY sz 00 01 10 */
/*----------------------------------------------------------------------*/
/* MOV */
/** 0111 0101 0100 rdst mov%s #%1, %0 */
ID(mov); DR(rdst); SC(IMM (1)); F_____;
/** 1111 10sd rdst im sz mov%s #%1, %0 */
ID(mov); DD(sd, rdst, sz);
if ((im == 1 && sz == 0)
|| (im == 2 && sz == 1)
|| (im == 0 && sz == 2))
{
BWL (sz);
SC(IMM(im));
}
else
{
sBWL (sz);
SC(IMMex(im));
}
F_____;
/** 0110 0110 immm rdst mov%s #%1, %0 */
ID(mov); DR(rdst); SC(immm); F_____;
/** 0011 11sz d dst sppp mov%s #%1, %0 */
ID(mov); sBWL (sz); DIs(dst, d*16+sppp, sz); SC(IMM(1)); F_____;
/** 11sz sd ss rsrc rdst mov%s %1, %0 */
if (sd == 3 && ss == 3 && sz == 2 && rsrc == 0 && rdst == 0)
{
ID(nop2);
SYNTAX ("nop\t; mov.l\tr0, r0");
}
else
{
ID(mov); sBWL(sz); F_____;
if ((ss == 3) && (sd != 3))
{
SD(ss, rdst, sz); DD(sd, rsrc, sz);
}
else
{
SD(ss, rsrc, sz); DD(sd, rdst, sz);
}
}
/** 10sz 1dsp a src b dst mov%s %1, %0 */
ID(mov); sBWL(sz); DR(dst); SIs(src, dsp*4+a*2+b, sz); F_____;
/** 10sz 0dsp a dst b src mov%s %1, %0 */
ID(mov); sBWL(sz); DIs(dst, dsp*4+a*2+b, sz); SR(src); F_____;
/** 1111 1110 01sz isrc bsrc rdst mov%s [%1, %2], %0 */
ID(movbi); sBWL(sz); DR(rdst); SRR(isrc); S2R(bsrc); F_____;
/** 1111 1110 00sz isrc bsrc rdst mov%s %0, [%1, %2] */
ID(movbir); sBWL(sz); DR(rdst); SRR(isrc); S2R(bsrc); F_____;
/** 1111 1110 11sz isrc bsrc rdst movu%s [%1, %2], %0 */
ID(movbi); uBW(sz); DR(rdst); SRR(isrc); S2R(bsrc); F_____;
/** 1111 1101 0010 0p sz rdst rsrc mov%s %1, %0 */
ID(mov); sBWL (sz); SR(rsrc); F_____;
OP(0, p ? RX_Operand_Predec : RX_Operand_Postinc, rdst, 0);
/** 1111 1101 0010 1p sz rsrc rdst mov%s %1, %0 */
ID(mov); sBWL (sz); DR(rdst); F_____;
OP(1, p ? RX_Operand_Predec : RX_Operand_Postinc, rsrc, 0);
/** 1011 w dsp a src b dst movu%s %1, %0 */
ID(mov); uBW(w); DR(dst); SIs(src, dsp*4+a*2+b, w); F_____;
/** 0101 1 s ss rsrc rdst movu%s %1, %0 */
ID(mov); uBW(s); SD(ss, rsrc, s); DR(rdst); F_____;
/** 1111 1101 0011 1p sz rsrc rdst movu%s %1, %0 */
ID(mov); uBW (sz); DR(rdst); F_____;
OP(1, p ? RX_Operand_Predec : RX_Operand_Postinc, rsrc, 0);
/*----------------------------------------------------------------------*/
/* PUSH/POP */
/** 0110 1111 dsta dstb popm %1-%2 */
ID(popm); SR(dsta); S2R(dstb); F_____;
/** 0110 1110 dsta dstb pushm %1-%2 */
ID(pushm); SR(dsta); S2R(dstb); F_____;
/** 0111 1110 1011 rdst pop %0 */
ID(mov); OP(1, RX_Operand_Postinc, 0, 0); DR(rdst); F_____;
/** 0111 1110 10sz rsrc push%s %1 */
ID(mov); BWL(sz); OP(0, RX_Operand_Predec, 0, 0); SR(rsrc); F_____;
/** 1111 01ss rsrc 10sz push%s %1 */
ID(mov); BWL(sz); OP(0, RX_Operand_Predec, 0, 0); SD(ss, rsrc, sz); F_____;
/*----------------------------------------------------------------------*/
/* XCHG */
/** 1111 1100 0100 00ss rsrc rdst xchg %1%S1, %0 */
ID(xchg); DR(rdst); SP(ss, rsrc);
/** 0000 0110 mx10 00ss 0001 0000 rsrc rdst xchg %1%S1, %0 */
ID(xchg); DR(rdst); SPm(ss, rsrc, mx);
/*----------------------------------------------------------------------*/
/* STZ/STNZ */
/** 1111 1101 0111 im00 1110rdst stz #%1, %0 */
ID(stcc); SC(IMMex(im)); DR(rdst); S2cc(RXC_z);
/** 1111 1101 0111 im00 1111rdst stnz #%1, %0 */
ID(stcc); SC(IMMex(im)); DR(rdst); S2cc(RXC_nz);
/*----------------------------------------------------------------------*/
/* RTSD */
/** 0110 0111 rtsd #%1 */
ID(rtsd); SC(IMM(1) * 4);
/** 0011 1111 rega regb rtsd #%1, %2-%0 */
ID(rtsd); SC(IMM(1) * 4); S2R(rega); DR(regb);
/*----------------------------------------------------------------------*/
/* AND */
/** 0110 0100 immm rdst and #%1, %0 */
ID(and); SC(immm); DR(rdst); F__SZ_;
/** 0111 01im 0010 rdst and #%1, %0 */
ID(and); SC(IMMex(im)); DR(rdst); F__SZ_;
/** 0101 00ss rsrc rdst and %1%S1, %0 */
ID(and); SP(ss, rsrc); DR(rdst); F__SZ_;
/** 0000 0110 mx01 00ss rsrc rdst and %1%S1, %0 */
ID(and); SPm(ss, rsrc, mx); DR(rdst); F__SZ_;
/** 1111 1111 0100 rdst srca srcb and %2, %1, %0 */
ID(and); DR(rdst); SR(srcb); S2R(srca); F__SZ_;
/*----------------------------------------------------------------------*/
/* OR */
/** 0110 0101 immm rdst or #%1, %0 */
ID(or); SC(immm); DR(rdst); F__SZ_;
/** 0111 01im 0011 rdst or #%1, %0 */
ID(or); SC(IMMex(im)); DR(rdst); F__SZ_;
/** 0101 01ss rsrc rdst or %1%S1, %0 */
ID(or); SP(ss, rsrc); DR(rdst); F__SZ_;
/** 0000 0110 mx01 01ss rsrc rdst or %1%S1, %0 */
ID(or); SPm(ss, rsrc, mx); DR(rdst); F__SZ_;
/** 1111 1111 0101 rdst srca srcb or %2, %1, %0 */
ID(or); DR(rdst); SR(srcb); S2R(srca); F__SZ_;
/*----------------------------------------------------------------------*/
/* XOR */
/** 1111 1101 0111 im00 1101rdst xor #%1, %0 */
ID(xor); SC(IMMex(im)); DR(rdst); F__SZ_;
/** 1111 1100 0011 01ss rsrc rdst xor %1%S1, %0 */
ID(xor); SP(ss, rsrc); DR(rdst); F__SZ_;
/** 0000 0110 mx10 00ss 0000 1101 rsrc rdst xor %1%S1, %0 */
ID(xor); SPm(ss, rsrc, mx); DR(rdst); F__SZ_;
/*----------------------------------------------------------------------*/
/* NOT */
/** 0111 1110 0000 rdst not %0 */
ID(xor); DR(rdst); SR(rdst); S2C(~0); F__SZ_;
/** 1111 1100 0011 1011 rsrc rdst not %1, %0 */
ID(xor); DR(rdst); SR(rsrc); S2C(~0); F__SZ_;
/*----------------------------------------------------------------------*/
/* TST */
/** 1111 1101 0111 im00 1100rdst tst #%1, %2 */
ID(and); SC(IMMex(im)); S2R(rdst); F__SZ_;
/** 1111 1100 0011 00ss rsrc rdst tst %1%S1, %2 */
ID(and); SP(ss, rsrc); S2R(rdst); F__SZ_;
/** 0000 0110 mx10 00ss 0000 1100 rsrc rdst tst %1%S1, %2 */
ID(and); SPm(ss, rsrc, mx); S2R(rdst); F__SZ_;
/*----------------------------------------------------------------------*/
/* NEG */
/** 0111 1110 0001 rdst neg %0 */
ID(sub); DR(rdst); SC(0); S2R(rdst); F_OSZC;
/** 1111 1100 0000 0111 rsrc rdst neg %2, %0 */
ID(sub); DR(rdst); SC(0); S2R(rsrc); F_OSZC;
/*----------------------------------------------------------------------*/
/* ADC */
/** 1111 1101 0111 im00 0010rdst adc #%1, %0 */
ID(adc); SC(IMMex(im)); DR(rdst); F_OSZC;
/** 1111 1100 0000 1011 rsrc rdst adc %1, %0 */
ID(adc); SR(rsrc); DR(rdst); F_OSZC;
/** 0000 0110 1010 00ss 0000 0010 rsrc rdst adc %1%S1, %0 */
ID(adc); SPm(ss, rsrc, 2); DR(rdst); F_OSZC;
/*----------------------------------------------------------------------*/
/* ADD */
/** 0110 0010 immm rdst add #%1, %0 */
ID(add); SC(immm); DR(rdst); F_OSZC;
/** 0100 10ss rsrc rdst add %1%S1, %0 */
ID(add); SP(ss, rsrc); DR(rdst); F_OSZC;
/** 0000 0110 mx00 10ss rsrc rdst add %1%S1, %0 */
ID(add); SPm(ss, rsrc, mx); DR(rdst); F_OSZC;
/** 0111 00im rsrc rdst add #%1, %2, %0 */
ID(add); SC(IMMex(im)); S2R(rsrc); DR(rdst); F_OSZC;
/** 1111 1111 0010 rdst srca srcb add %2, %1, %0 */
ID(add); DR(rdst); SR(srcb); S2R(srca); F_OSZC;
/*----------------------------------------------------------------------*/
/* CMP */
/** 0110 0001 immm rdst cmp #%2, %1 */
ID(sub); S2C(immm); SR(rdst); F_OSZC;
/** 0111 01im 0000 rsrc cmp #%2, %1%S1 */
ID(sub); SR(rsrc); S2C(IMMex(im)); F_OSZC;
/** 0111 0101 0101 rsrc cmp #%2, %1 */
ID(sub); SR(rsrc); S2C(IMM(1)); F_OSZC;
/** 0100 01ss rsrc rdst cmp %2%S2, %1 */
ID(sub); S2P(ss, rsrc); SR(rdst); F_OSZC;
/** 0000 0110 mx00 01ss rsrc rdst cmp %2%S2, %1 */
ID(sub); S2Pm(ss, rsrc, mx); SR(rdst); F_OSZC;
/*----------------------------------------------------------------------*/
/* SUB */
/** 0110 0000 immm rdst sub #%2, %0 */
ID(sub); S2C(immm); SR(rdst); DR(rdst); F_OSZC;
/** 0100 00ss rsrc rdst sub %2%S2, %1 */
ID(sub); S2P(ss, rsrc); SR(rdst); DR(rdst); F_OSZC;
/** 0000 0110 mx00 00ss rsrc rdst sub %2%S2, %1 */
ID(sub); S2Pm(ss, rsrc, mx); SR(rdst); DR(rdst); F_OSZC;
/** 1111 1111 0000 rdst srca srcb sub %2, %1, %0 */
ID(sub); DR(rdst); SR(srcb); S2R(srca); F_OSZC;
/*----------------------------------------------------------------------*/
/* SBB */
/** 1111 1100 0000 0011 rsrc rdst sbb %1, %0 */
ID(sbb); SR (rsrc); DR(rdst); F_OSZC;
/* FIXME: only supports .L */
/** 0000 0110 mx10 00sp 0000 0000 rsrc rdst sbb %1%S1, %0 */
ID(sbb); SPm(sp, rsrc, mx); DR(rdst); F_OSZC;
/*----------------------------------------------------------------------*/
/* ABS */
/** 0111 1110 0010 rdst abs %0 */
ID(abs); DR(rdst); SR(rdst); F_OSZ_;
/** 1111 1100 0000 1111 rsrc rdst abs %1, %0 */
ID(abs); DR(rdst); SR(rsrc); F_OSZ_;
/*----------------------------------------------------------------------*/
/* MAX */
/** 1111 1101 0111 im00 0100rdst max #%1, %0 */
int val = IMMex (im);
if (im == 0 && (unsigned) val == 0x80000000 && rdst == 0)
{
ID (nop7);
SYNTAX("nop\t; max\t#0x80000000, r0");
}
else
{
ID(max);
}
DR(rdst); SC(val);
/** 1111 1100 0001 00ss rsrc rdst max %1%S1, %0 */
if (ss == 3 && rsrc == 0 && rdst == 0)
{
ID(nop3);
SYNTAX("nop\t; max\tr0, r0");
}
else
{
ID(max); SP(ss, rsrc); DR(rdst);
}
/** 0000 0110 mx10 00ss 0000 0100 rsrc rdst max %1%S1, %0 */
ID(max); SPm(ss, rsrc, mx); DR(rdst);
/*----------------------------------------------------------------------*/
/* MIN */
/** 1111 1101 0111 im00 0101rdst min #%1, %0 */
ID(min); DR(rdst); SC(IMMex(im));
/** 1111 1100 0001 01ss rsrc rdst min %1%S1, %0 */
ID(min); SP(ss, rsrc); DR(rdst);
/** 0000 0110 mx10 00ss 0000 0101 rsrc rdst min %1%S1, %0 */
ID(min); SPm(ss, rsrc, mx); DR(rdst);
/*----------------------------------------------------------------------*/
/* MUL */
/** 0110 0011 immm rdst mul #%1, %0 */
if (immm == 1 && rdst == 0)
{
ID(nop2);
SYNTAX ("nop\t; mul\t#1, r0");
}
else
{
ID(mul);
}
DR(rdst); SC(immm); F_____;
/** 0111 01im 0001rdst mul #%1, %0 */
int val = IMMex(im);
if (val == 1 && rdst == 0)
{
SYNTAX("nop\t; mul\t#1, r0");
switch (im)
{
case 2: ID(nop4); break;
case 3: ID(nop5); break;
case 0: ID(nop6); break;
default:
ID(mul);
SYNTAX("mul #%1, %0");
break;
}
}
else
{
ID(mul);
}
DR(rdst); SC(val); F_____;
/** 0100 11ss rsrc rdst mul %1%S1, %0 */
ID(mul); SP(ss, rsrc); DR(rdst); F_____;
/** 0000 0110 mx00 11ss rsrc rdst mul %1%S1, %0 */
ID(mul); SPm(ss, rsrc, mx); DR(rdst); F_____;
/** 1111 1111 0011 rdst srca srcb mul %2, %1, %0 */
ID(mul); DR(rdst); SR(srcb); S2R(srca); F_____;
/*----------------------------------------------------------------------*/
/* EMUL */
/** 1111 1101 0111 im00 0110rdst emul #%1, %0 */
ID(emul); DR(rdst); SC(IMMex(im));
/** 1111 1100 0001 10ss rsrc rdst emul %1%S1, %0 */
ID(emul); SP(ss, rsrc); DR(rdst);
/** 0000 0110 mx10 00ss 0000 0110 rsrc rdst emul %1%S1, %0 */
ID(emul); SPm(ss, rsrc, mx); DR(rdst);
/*----------------------------------------------------------------------*/
/* EMULU */
/** 1111 1101 0111 im00 0111rdst emulu #%1, %0 */
ID(emulu); DR(rdst); SC(IMMex(im));
/** 1111 1100 0001 11ss rsrc rdst emulu %1%S1, %0 */
ID(emulu); SP(ss, rsrc); DR(rdst);
/** 0000 0110 mx10 00ss 0000 0111 rsrc rdst emulu %1%S1, %0 */
ID(emulu); SPm(ss, rsrc, mx); DR(rdst);
/*----------------------------------------------------------------------*/
/* DIV */
/** 1111 1101 0111 im00 1000rdst div #%1, %0 */
ID(div); DR(rdst); SC(IMMex(im)); F_O___;
/** 1111 1100 0010 00ss rsrc rdst div %1%S1, %0 */
ID(div); SP(ss, rsrc); DR(rdst); F_O___;
/** 0000 0110 mx10 00ss 0000 1000 rsrc rdst div %1%S1, %0 */
ID(div); SPm(ss, rsrc, mx); DR(rdst); F_O___;
/*----------------------------------------------------------------------*/
/* DIVU */
/** 1111 1101 0111 im00 1001rdst divu #%1, %0 */
ID(divu); DR(rdst); SC(IMMex(im)); F_O___;
/** 1111 1100 0010 01ss rsrc rdst divu %1%S1, %0 */
ID(divu); SP(ss, rsrc); DR(rdst); F_O___;
/** 0000 0110 mx10 00ss 0000 1001 rsrc rdst divu %1%S1, %0 */
ID(divu); SPm(ss, rsrc, mx); DR(rdst); F_O___;
/*----------------------------------------------------------------------*/
/* SHIFT */
/** 0110 110i mmmm rdst shll #%2, %0 */
ID(shll); S2C(i*16+mmmm); SR(rdst); DR(rdst); F_OSZC;
/** 1111 1101 0110 0010 rsrc rdst shll %2, %0 */
ID(shll); S2R(rsrc); SR(rdst); DR(rdst); F_OSZC;
/** 1111 1101 110immmm rsrc rdst shll #%2, %1, %0 */
ID(shll); S2C(immmm); SR(rsrc); DR(rdst); F_OSZC;
/** 0110 101i mmmm rdst shar #%2, %0 */
ID(shar); S2C(i*16+mmmm); SR(rdst); DR(rdst); F_0SZC;
/** 1111 1101 0110 0001 rsrc rdst shar %2, %0 */
ID(shar); S2R(rsrc); SR(rdst); DR(rdst); F_0SZC;
/** 1111 1101 101immmm rsrc rdst shar #%2, %1, %0 */
ID(shar); S2C(immmm); SR(rsrc); DR(rdst); F_0SZC;
/** 0110 100i mmmm rdst shlr #%2, %0 */
ID(shlr); S2C(i*16+mmmm); SR(rdst); DR(rdst); F__SZC;
/** 1111 1101 0110 0000 rsrc rdst shlr %2, %0 */
ID(shlr); S2R(rsrc); SR(rdst); DR(rdst); F__SZC;
/** 1111 1101 100immmm rsrc rdst shlr #%2, %1, %0 */
ID(shlr); S2C(immmm); SR(rsrc); DR(rdst); F__SZC;
/*----------------------------------------------------------------------*/
/* ROTATE */
/** 0111 1110 0101 rdst rolc %0 */
ID(rolc); DR(rdst); F__SZC;
/** 0111 1110 0100 rdst rorc %0 */
ID(rorc); DR(rdst); F__SZC;
/** 1111 1101 0110 111i mmmm rdst rotl #%1, %0 */
ID(rotl); SC(i*16+mmmm); DR(rdst); F__SZC;
/** 1111 1101 0110 0110 rsrc rdst rotl %1, %0 */
ID(rotl); SR(rsrc); DR(rdst); F__SZC;
/** 1111 1101 0110 110i mmmm rdst rotr #%1, %0 */
ID(rotr); SC(i*16+mmmm); DR(rdst); F__SZC;
/** 1111 1101 0110 0100 rsrc rdst rotr %1, %0 */
ID(rotr); SR(rsrc); DR(rdst); F__SZC;
/** 1111 1101 0110 0101 rsrc rdst revw %1, %0 */
ID(revw); SR(rsrc); DR(rdst);
/** 1111 1101 0110 0111 rsrc rdst revl %1, %0 */
ID(revl); SR(rsrc); DR(rdst);
/*----------------------------------------------------------------------*/
/* BRANCH */
/** 0001 n dsp b%1.s %a0 */
ID(branch); Scc(n); DC(pc + dsp3map[dsp]);
/** 0010 cond b%1.b %a0 */
ID(branch); Scc(cond); DC(pc + IMMex (1));
/** 0011 101c b%1.w %a0 */
ID(branch); Scc(c); DC(pc + IMMex (2));
/** 0000 1dsp bra.s %a0 */
ID(branch); DC(pc + dsp3map[dsp]);
/** 0010 1110 bra.b %a0 */
ID(branch); DC(pc + IMMex(1));
/** 0011 1000 bra.w %a0 */
ID(branch); DC(pc + IMMex(2));
/** 0000 0100 bra.a %a0 */
ID(branch); DC(pc + IMMex(3));
/** 0111 1111 0100 rsrc bra.l %0 */
ID(branchrel); DR(rsrc);
/** 0111 1111 0000 rsrc jmp %0 */
ID(branch); DR(rsrc);
/** 0111 1111 0001 rsrc jsr %0 */
ID(jsr); DR(rsrc);
/** 0011 1001 bsr.w %a0 */
ID(jsr); DC(pc + IMMex(2));
/** 0000 0101 bsr.a %a0 */
ID(jsr); DC(pc + IMMex(3));
/** 0111 1111 0101 rsrc bsr.l %0 */
ID(jsrrel); DR(rsrc);
/** 0000 0010 rts */
ID(rts);
/*----------------------------------------------------------------------*/
/* NOP */
/** 0000 0011 nop */
ID(nop);
/*----------------------------------------------------------------------*/
/* STRING FUNCTIONS */
/** 0111 1111 1000 0011 scmpu */
ID(scmpu); F___ZC;
/** 0111 1111 1000 0111 smovu */
ID(smovu);
/** 0111 1111 1000 1011 smovb */
ID(smovb);
/** 0111 1111 1000 00sz suntil%s */
ID(suntil); BWL(sz); F___ZC;
/** 0111 1111 1000 01sz swhile%s */
ID(swhile); BWL(sz); F___ZC;
/** 0111 1111 1000 1111 smovf */
ID(smovf);
/** 0111 1111 1000 10sz sstr%s */
ID(sstr); BWL(sz);
/*----------------------------------------------------------------------*/
/* RMPA */
/** 0111 1111 1000 11sz rmpa%s */
ID(rmpa); BWL(sz); F_OS__;
/*----------------------------------------------------------------------*/
/* HI/LO stuff */
/** 1111 1101 0000 0000 srca srcb mulhi %1, %2 */
ID(mulhi); SR(srca); S2R(srcb); F_____;
/** 1111 1101 0000 0001 srca srcb mullo %1, %2 */
ID(mullo); SR(srca); S2R(srcb); F_____;
/** 1111 1101 0000 0100 srca srcb machi %1, %2 */
ID(machi); SR(srca); S2R(srcb); F_____;
/** 1111 1101 0000 0101 srca srcb maclo %1, %2 */
ID(maclo); SR(srca); S2R(srcb); F_____;
/** 1111 1101 0001 0111 0000 rsrc mvtachi %1 */
ID(mvtachi); SR(rsrc); F_____;
/** 1111 1101 0001 0111 0001 rsrc mvtaclo %1 */
ID(mvtaclo); SR(rsrc); F_____;
/** 1111 1101 0001 1111 0000 rdst mvfachi %0 */
ID(mvfachi); DR(rdst); F_____;
/** 1111 1101 0001 1111 0010 rdst mvfacmi %0 */
ID(mvfacmi); DR(rdst); F_____;
/** 1111 1101 0001 1111 0001 rdst mvfaclo %0 */
ID(mvfaclo); DR(rdst); F_____;
/** 1111 1101 0001 1000 000i 0000 racw #%1 */
ID(racw); SC(i+1); F_____;
/*----------------------------------------------------------------------*/
/* SAT */
/** 0111 1110 0011 rdst sat %0 */
ID(sat); DR (rdst);
/** 0111 1111 1001 0011 satr */
ID(satr);
/*----------------------------------------------------------------------*/
/* FLOAT */
/** 1111 1101 0111 0010 0010 rdst fadd #%1, %0 */
ID(fadd); DR(rdst); SC(IMM(0)); F__SZ_;
/** 1111 1100 1000 10sd rsrc rdst fadd %1%S1, %0 */
ID(fadd); DR(rdst); SD(sd, rsrc, LSIZE); F__SZ_;
/** 1111 1101 0111 0010 0001 rdst fcmp #%1, %0 */
ID(fcmp); DR(rdst); SC(IMM(0)); F_OSZ_;
/** 1111 1100 1000 01sd rsrc rdst fcmp %1%S1, %0 */
ID(fcmp); DR(rdst); SD(sd, rsrc, LSIZE); F_OSZ_;
/** 1111 1101 0111 0010 0000 rdst fsub #%1, %0 */
ID(fsub); DR(rdst); SC(IMM(0)); F__SZ_;
/** 1111 1100 1000 00sd rsrc rdst fsub %1%S1, %0 */
ID(fsub); DR(rdst); SD(sd, rsrc, LSIZE); F__SZ_;
/** 1111 1100 1001 01sd rsrc rdst ftoi %1%S1, %0 */
ID(ftoi); DR(rdst); SD(sd, rsrc, LSIZE); F__SZ_;
/** 1111 1101 0111 0010 0011 rdst fmul #%1, %0 */
ID(fmul); DR(rdst); SC(IMM(0)); F__SZ_;
/** 1111 1100 1000 11sd rsrc rdst fmul %1%S1, %0 */
ID(fmul); DR(rdst); SD(sd, rsrc, LSIZE); F__SZ_;
/** 1111 1101 0111 0010 0100 rdst fdiv #%1, %0 */
ID(fdiv); DR(rdst); SC(IMM(0)); F__SZ_;
/** 1111 1100 1001 00sd rsrc rdst fdiv %1%S1, %0 */
ID(fdiv); DR(rdst); SD(sd, rsrc, LSIZE); F__SZ_;
/** 1111 1100 1001 10sd rsrc rdst round %1%S1, %0 */
ID(round); DR(rdst); SD(sd, rsrc, LSIZE); F__SZ_;
/** 1111 1100 0100 01sd rsrc rdst itof %1%S1, %0 */
ID(itof); DR (rdst); SP(sd, rsrc); F__SZ_;
/** 0000 0110 mx10 00sd 0001 0001 rsrc rdst itof %1%S1, %0 */
ID(itof); DR (rdst); SPm(sd, rsrc, mx); F__SZ_;
/*----------------------------------------------------------------------*/
/* BIT OPS */
/** 1111 00sd rdst 0bit bset #%1, %0%S0 */
ID(bset); BWL(BSIZE); SC(bit); DD(sd, rdst, BSIZE); F_____;
/** 1111 1100 0110 00sd rdst rsrc bset %1, %0%S0 */
ID(bset); BWL(BSIZE); SR(rsrc); DD(sd, rdst, BSIZE); F_____;
if (sd == 3) /* bset reg,reg */
BWL(LSIZE);
/** 0111 100b ittt rdst bset #%1, %0 */
ID(bset); BWL(LSIZE); SC(b*16+ittt); DR(rdst); F_____;
/** 1111 00sd rdst 1bit bclr #%1, %0%S0 */
ID(bclr); BWL(BSIZE); SC(bit); DD(sd, rdst, BSIZE); F_____;
/** 1111 1100 0110 01sd rdst rsrc bclr %1, %0%S0 */
ID(bclr); BWL(BSIZE); SR(rsrc); DD(sd, rdst, BSIZE); F_____;
if (sd == 3) /* bset reg,reg */
BWL(LSIZE);
/** 0111 101b ittt rdst bclr #%1, %0 */
ID(bclr); BWL(LSIZE); SC(b*16+ittt); DR(rdst); F_____;
/** 1111 01sd rdst 0bit btst #%2, %1%S1 */
ID(btst); BWL(BSIZE); S2C(bit); SD(sd, rdst, BSIZE); F___ZC;
/** 1111 1100 0110 10sd rdst rsrc btst %2, %1%S1 */
ID(btst); BWL(BSIZE); S2R(rsrc); SD(sd, rdst, BSIZE); F___ZC;
if (sd == 3) /* bset reg,reg */
BWL(LSIZE);
/** 0111 110b ittt rdst btst #%2, %1 */
ID(btst); BWL(LSIZE); S2C(b*16+ittt); SR(rdst); F___ZC;
/** 1111 1100 111bit sd rdst 1111 bnot #%1, %0%S0 */
ID(bnot); BWL(BSIZE); SC(bit); DD(sd, rdst, BSIZE);
/** 1111 1100 0110 11sd rdst rsrc bnot %1, %0%S0 */
ID(bnot); BWL(BSIZE); SR(rsrc); DD(sd, rdst, BSIZE);
if (sd == 3) /* bset reg,reg */
BWL(LSIZE);
/** 1111 1101 111bittt 1111 rdst bnot #%1, %0 */
ID(bnot); BWL(LSIZE); SC(bittt); DR(rdst);
/** 1111 1100 111bit sd rdst cond bm%2 #%1, %0%S0 */
ID(bmcc); BWL(BSIZE); S2cc(cond); SC(bit); DD(sd, rdst, BSIZE);
/** 1111 1101 111 bittt cond rdst bm%2 #%1, %0%S0 */
ID(bmcc); BWL(LSIZE); S2cc(cond); SC(bittt); DR(rdst);
/*----------------------------------------------------------------------*/
/* CONTROL REGISTERS */
/** 0111 1111 1011 rdst clrpsw %0 */
ID(clrpsw); DF(rdst);
/** 0111 1111 1010 rdst setpsw %0 */
ID(setpsw); DF(rdst);
/** 0111 0101 0111 0000 0000 immm mvtipl #%1 */
ID(mvtipl); SC(immm);
/** 0111 1110 111 crdst popc %0 */
ID(mov); OP(1, RX_Operand_Postinc, 0, 0); DR(crdst + 16);
/** 0111 1110 110 crsrc pushc %1 */
ID(mov); OP(0, RX_Operand_Predec, 0, 0); SR(crsrc + 16);
/** 1111 1101 0111 im11 000crdst mvtc #%1, %0 */
ID(mov); SC(IMMex(im)); DR(crdst + 16);
/** 1111 1101 0110 100c rsrc rdst mvtc %1, %0 */
ID(mov); SR(rsrc); DR(c*16+rdst + 16);
/** 1111 1101 0110 101s rsrc rdst mvfc %1, %0 */
ID(mov); SR((s*16+rsrc) + 16); DR(rdst);
/*----------------------------------------------------------------------*/
/* INTERRUPTS */
/** 0111 1111 1001 0100 rtfi */
ID(rtfi);
/** 0111 1111 1001 0101 rte */
ID(rte);
/** 0000 0000 brk */
ID(brk);
/** 0000 0001 dbt */
ID(dbt);
/** 0111 0101 0110 0000 int #%1 */
ID(int); SC(IMM(1));
/** 0111 1111 1001 0110 wait */
ID(wait);
/*----------------------------------------------------------------------*/
/* SCcnd */
/** 1111 1100 1101 sz sd rdst cond sc%1%s %0 */
ID(sccnd); BWL(sz); DD (sd, rdst, sz); Scc(cond);
/** */
return rx->n_bytes;
}