ack/mach/m68020/as/mach4.c

429 lines
9.2 KiB
C
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1987-01-29 20:15:14 +00:00
/* @(#)mach4.c 1.11 */
/*
* Motorola 68020 syntax rules
*/
operation
: { instrp = instr;
dot_offset = 0;
}
instruction
{ emit_instr();
}
;
instruction
: bcdx DREG ',' DREG
{ T_EMIT2($1 | $2 | $4<<9,0,0,0);}
| bcdx '-' '(' AREG ')' ',' '-' '(' AREG ')'
{ T_EMIT2($1 | $4 | $9<<9 | 010,0,0,0);}
| ADD sizedef ea_ea
{ add($1, $2);}
| AND sizenon ea_ea
{ and($1, $2);}
| SHIFT sizedef ea_ea
{ shift_op($1, $2);}
| SHIFT sizedef ea /* This syntax is also allowed */
{ checksize($2, 2);
T_EMIT2(($1 & 0177700) | mrg_2,0,0,0);
ea_2(SIZE_W, MEM|ALT);
}
| BR expr
{ branch($1, $2);}
| DBR DREG ',' expr
{ T_EMIT2($1 | $2,0,0,0);
$4.val -= (DOTVAL+dot_offset);
fit(fitw($4.val));
T_EMIT2(loww($4.val), $4.typ,
RELPC|RELO2, relonami);
}
| BITOP ea_ea
{ bitop($1);}
| BITFIELD ea off_width
{ bitfield($1, $3);}
| BF_TO_D ea off_width ',' DREG
{ bitfield($1, $3 | $5<<12);}
| BFINS DREG ',' ea off_width
{ bitfield($1, $5 | $2<<12);}
| DIVMUL sizedef ea ',' DREG
{ checksize($2, 2|4);
if ($2 == SIZE_W) {
T_EMIT2((0140300^($1<<8))|mrg_2|$5<<9,
0, 0, 0);
ea_2(SIZE_W, DTA);
}
else { /* 32 bit dividend or product */
T_EMIT2((016000 | ($1 & ~1)) | mrg_2,
0, 0, 0);
T_EMIT2(($1&1)<<11 | $5<<12 | $5,
0, 0, 0);
ea_2(SIZE_L, DTA);
}
}
| DIVMUL sizedef ea ',' DREG ':' DREG
{ /* 64 bit dividend or product */
checksize($2, 4);
T_EMIT2((016000 | ($1 & ~1)) | mrg_2, 0, 0, 0);
T_EMIT2(($1&1)<<11 | $7<<12 | $5 | 02000,0,0,0);
ea_2(SIZE_L, DTA);
}
| DIVL sizedef ea ',' DREG ':' DREG
{ /* 32 bit long division with remainder */
checksize($2, 4);
T_EMIT2(($1 & ~1) | mrg_2, 0, 0, 0);
T_EMIT2(($1 & 1)<<11 | $7<<12 | $5, 0, 0, 0);
ea_2(SIZE_L, DTA);
}
| LEA ea ',' AREG
{ T_EMIT2(040700 | mrg_2 | $4<<9,0,0,0);
ea_2(SIZE_L, CTR);
}
| op_ea ea
{ if (mrg_2==074)
serror("bad adressing category");
T_EMIT2(($1&0177700) | mrg_2,0,0,0);
ea_2($1&0300, $1&017);
}
| OP_NOOP
{ T_EMIT2($1,0,0,0);}
| OP_EXT SIZE DREG
{ checksize($2, ($1 & 0400) ? 4 : (2|4));
T_EMIT2($1 | $2+0100 | $3,0,0,0);
}
| OP_RANGE sizedef ea ',' reg
{ T_EMIT2(0300 | ($2<<3) | mrg_2,0,0,0);
T_EMIT2($1 | ($5<<12),0,0,0);
ea_2($2, CTR);
}
| TRAPCC SIZE imm
{ checksize($2, 2|4);
T_EMIT2($1 | ($2>>6)+1,0,0,0);
ea_2($2, 0);
}
| TRAPCC { T_EMIT2($1 | 4,0,0,0);}
| PACK '-' '(' AREG ')' ',' '-' '(' AREG ')' ',' imm
{ T_EMIT2($1 | 1 | $4 | $9<<9, 0, 0, 0);
ea_2(SIZE_W, 0);
}
| PACK DREG ',' DREG ',' imm
{ T_EMIT2($1 | $2 | $4<<9, 0, 0, 0);
ea_2(SIZE_W, 0);
}
| CMP sizedef ea_ea
{ cmp($2);}
| CHK sizedef ea ',' DREG
{ checksize($2, 2|4);
T_EMIT2(040000 | mrg_2 | $5<<9 |
($2==SIZE_W ? 0600 : 0400),
0, 0, 0);
ea_2($2, DTA);
}
| MOVE sizenon ea_ea
{ move($2);}
| MOVEP sizedef ea_ea
{ movep($2);}
| MOVEM sizedef regs ',' notimmreg
{ movem(0, $2, $3);}
| MOVEM sizedef notimmreg ',' regs
{ movem(1, $2, $5);}
| MOVES sizedef ea_ea
{ if (mrg_1 <= 017) {
T_EMIT2(007000 | $2 | mrg_2,0,0,0);
T_EMIT2(mrg_1 << 12 | 04000,0,0,0);
ea_2($2,ALT|MEM);
} else if (mrg_2 <= 017) {
T_EMIT2(007000 | $2 | mrg_1,0,0,0);
T_EMIT2(mrg_2 << 12,0,0,0);
ea_1($2,ALT|MEM);
} else
badoperand();
}
| MOVEC creg ',' reg
{ T_EMIT2(047172,0,0,0);
T_EMIT2($2 | $4<<12,0,0,0);
}
| MOVEC reg ',' creg
{ T_EMIT2(047173,0,0,0);
T_EMIT2($4 | $2<<12,0,0,0);
}
| EXG reg ',' reg
{ if (($2 & 010) == 0)
T_EMIT2(
(0140500|$4|$2<<9)
+
(($4&010)<<3)
,0,0,0);
else
T_EMIT2(
(0140600|$2|($4&07)<<9)
-
(($4&010)<<3)
,0,0,0);
}
| SWAP DREG
{ T_EMIT2(044100 | $2,0,0,0);}
| STOP imm
{ T_EMIT2(047162, 0, 0, 0);
ea_2(SIZE_W, 0);
}
| LINK sizenon AREG ',' imm
{ link($2, $3);}
| UNLK AREG
{ T_EMIT2(047130 | $2,0,0,0);}
| TRAP '#' absexp
{ fit(fit4($3));
T_EMIT2(047100|low4($3),0,0,0);
}
| RTD imm
{ T_EMIT2(047164,0,0,0);
ea_2(SIZE_W, 0);
}
| BKPT '#' absexp
{ fit(($3 & ~07) == 0);
T_EMIT2(044110 | low3($3),0,0,0);
}
| CALLM '#' absexp ',' ea
{ fit(fitb($3));
T_EMIT2(03300 | mrg_2,0,0,0);
T_EMIT2($3,0,0,0);
ea_2(SIZE_L, CTR);
}
| RTM reg
{ T_EMIT2(03300 | $2, 0, 0, 0);}
| CAS sizedef DREG ',' DREG ',' ea
{ T_EMIT2(04300 | (($2+0100)<<3) | mrg_2,0,0,0);
T_EMIT2($5 | ($3<<6),0,0,0);
ea_2($2, MEM|ALT);
}
| CAS2 sizedef DREG ':' DREG ',' DREG ':' DREG ','
'(' reg ')' ':' '(' reg ')'
{ checksize($2 , 2|4);
T_EMIT2(04374 | (($2+0100)<<3),0,0,0);
T_EMIT2($3 | ($7<<6) | ($12<<12),0,0,0);
T_EMIT2($5 | ($9<<6) | ($16<<12),0,0,0);
}
| /* Coprocessor instructions; syntax may be changed (please).
* No coprocessor defined extension words are emitted.
*/
CP CPBCC cp_cond expr
{ cpbcc($2 | $1 | $3, $4);
}
| CP CPDBCC cp_cond DREG ',' expr
{ T_EMIT2($2 | $1 | $4,0,0,0);
$6.val -= (DOTVAL+dot_offset);
fit(fitw($6.val));
T_EMIT2(loww($6.val), $6.typ,
RELPC|RELO2, relonami);
}
| CP CPGEN
{ T_EMIT2($2 | $1,0,0,0);
/* NO COMMAND WORD IS EMITTED;
* THIS INSTRUCTIONS IS (STILL) ONE BIG RIDDLE.
* NO EFFECTIVE ADDRESS IS CALCULATED (SYNTAX ?)
*/
}
| CP CPRESTORE ea
{ T_EMIT2($2 | $1 | mrg_2,0,0,0);
ea_2(SIZE_W, (mrg_2 & 070)==030 ? 0 : CTR);
}
| CP CPSAVE ea
{ T_EMIT2($2 | $1 | mrg_2,0,0,0);
ea_2(SIZE_W,(mrg_2 & 070)==020 ? 0 : CTR|ALT);
}
| CP CPSCC cp_cond ea
{ T_EMIT2($2 | $1 | mrg_2,0,0,0);
T_EMIT2($3,0,0,0);
ea_2(SIZE_B,DTA|ALT);
}
| CP CPTRAPCC cp_cond SIZE imm
{ checksize($4,2|4);
T_EMIT2($2 | $1 | ($4>>6)+1,0,0,0);
T_EMIT2($3,0,0,0);
ea_2($4, 0);
}
| CP TRAPCC cp_cond
{ T_EMIT2($2 | $1 | 4,0,0,0);
T_EMIT2($3,0,0,0);
}
;
cp_cond : '.' absexp
{ fit(fit6($2));
$$ = low6($2);
}
;
bcdx : ABCD
| ADDX sizedef
{ $$ = $1 | $2;}
;
creg : CREG
| SPEC { if ($1 != 075)
badoperand();
$$ = 04000;
}
;
off_width /* note: these should be curly brackets, but that would
* leave us without brackets for expressions.
*/
: '[' abs31 ':' abs31 ']'
{ $$ = ($2<<6) | $4;
}
;
abs31 : DREG { $$ = 040 | $1;}
| absexp { fit(fit5($1));
$$ = low5($1);
}
;
op_ea : OP_EA
| SZ_EA sizedef
{ $$ = $1 | $2;}
;
regs : rrange
| regs '/' rrange
{ $$ = $1 | $3;}
;
rrange : reg
{ $$ = 1<<$1;}
| reg '-' reg
{ if ($1 > $3)
badoperand();
for ($$ = 0; $1 <= $3; $1++)
$$ |= (1<<$1);
}
;
ea : DREG
{ mrg_2 = $1;}
| AREG
{ mrg_2 = 010 | $1;}
| SPEC
{ mrg_2 = $1;}
| { mrg_2 = 0; ffew_2 = 0400; /* initialization */}
notimmreg
| imm
;
notimmreg
: '(' AREG ')'
{ mrg_2 = 020 | $2;}
| '(' AREG ')' '+'
{ mrg_2 = 030 | $2;}
| '-' '(' AREG ')'
{ mrg_2 = 040 | $3;}
| '(' expr ')' sizenon
{ bd_2 = $2; ea7071($4);
RELOMOVE(bd_rel2, relonami);
}
| '(' bd_areg_index ')'
{ if ((mrg_2 & INDEX) == 0)
ffew_2 |= 0100; /* suppress index */
if ( !(mrg_2 & PC_MODE) &&
(ffew_2 & 0300) == 0100 &&
bd_2.typ==S_ABS && fitw(bd_2.val)
)
mrg_2 = (loww(bd_2.val)?050:020) | $2;
else {
mrg_2 = (mrg_2&PC_MODE)?073:(060 | $2);
ffew_2 |= 060; /* long displacement */
}
}
| '(' '[' bd_areg_index ']' index_od ')'
{ switch(mrg_2 & INDEX) {
case 0:
ffew_2 |= 0163; /* suppress index */
break;
case DBL_INDEX:
serror("bad indexing");
case PRE_INDEX:
ffew_2 |= 063; break;
case POST_INDEX:
ffew_2 |= 067; break;
}
mrg_2 = (mrg_2 & PC_MODE) ? 073 : (060 | $3);
}
;
imm : '#' expr
{ mrg_2 = 074; bd_2 = $2;
RELOMOVE(bd_rel2, relonami);
}
;
bd_areg_index
: /* empty */
{ $$ = 0; ffew_2 |= 0200;
/* base-reg suppressed */
bd_2.typ = S_ABS; bd_2.val = (valu_t)0;
/* zero displacement */
}
| expr { $$ = 0; ffew_2 |= 0300;
bd_2 = $1;
RELOMOVE(bd_rel2, relonami);
}
| areg_index
{ bd_2.typ = S_ABS; bd_2.val = (valu_t)0;
}
| expr ',' areg_index
{ $$ = $3; bd_2 = $1;
RELOMOVE(bd_rel2, relonami);
}
;
areg_index
: areg
| index { $$ = 0;
ffew_2 |= 0200; /* base-reg suppressed */
mrg_2 |= PRE_INDEX;
}
| areg ',' index
{ mrg_2 |= PRE_INDEX;
}
;
areg : AREG
| PC { mrg_2 |= PC_MODE;}
| ZPC { mrg_2 |= PC_MODE;
ffew_2 |= 0200; /* base-reg suppressed */
}
;
index : reg sizedef scale
{ checksize($2, 2|4);
ffew_2 |= $1<<12 | ($2&0200)<<4 | $3;
}
;
scale : /* empty */
{ $$ = 0;}
| '*' absexp
{ $$ = checkscale($2);}
;
index_od: /* empty */
{ od_2.typ = S_ABS; od_2.val = (valu_t)0;}
| ',' index
{ od_2.typ = S_ABS; od_2.val = (valu_t)0;
mrg_2 |= POST_INDEX;
}
| ',' expr
{ od_2 = $2;
RELOMOVE(od_rel2, relonami);
}
| ',' index ',' expr
{ od_2 = $4;
mrg_2 |= POST_INDEX;
RELOMOVE(od_rel2, relonami);
}
;
reg : DREG
| AREG
{ $$ = $1 | 010;}
;
sizedef : /* empty */
{ $$ = SIZE_DEF;}
| SIZE
;
sizenon : /* empty */
{ $$ = SIZE_NON;}
| SIZE
;
ea_ea : ea ','
{ mrg_1 = mrg_2;
bd_1 = bd_2;
od_1 = od_2;
ffew_1 = ffew_2;
RELOMOVE(bd_rel1, bd_rel2);
RELOMOVE(od_rel1, od_rel2);
}
ea
;