ack/mach/m68k2/as/mach5.c

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1994-06-24 14:02:31 +00:00
/* $Id$ */
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/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*/
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/* @(#)mach5.c 1.16 */
/*
* Motorola 68000/68010 auxiliary functions
*/
static int
extension_offset()
{
switch(curr_instr) {
case MOVEM:
case FMOVE:
case FMOVEM:
case FDYADIC:
case FMONADIC:
case FSINCOS:
case FSCC:
case FTST:
return 4;
}
return 2;
}
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ea_1(sz, bits)
{
register flag;
if (mrg_1 > 074)
serror("no specials");
if ((flag = eamode[mrg_1>>3]) == 0)
if ((flag = eamode[010 + (mrg_1&07)]) == 0)
flag = eamode[015 + (sz>>6)];
if ((mrg_1 & 070) == 010)
checksize(sz, 2|4);
bits &= ~flag;
if (bits)
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serror("bad addressing category");
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if (flag & FITW)
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Xfit (fitw(exp_1.val) ||
(mrg_1 == 074 && fit16(exp_1.val))
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) ;
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if (flag & FITB) {
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Xfit (fitb(exp_1.val) ||
(mrg_1 == 074 && fit8(exp_1.val))
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);
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if (mrg_1 == 074)
exp_1.val &= 0xFF;
}
#ifdef RELOCATION
RELOMOVE(relonami, rel_1);
if (flag & ~0xFF)
newrelo(exp_1.typ, (flag>>8) | RELBR | RELWR);
#endif
if (flag & PUTL)
emit4(exp_1.val);
if (flag & PUTW)
emit2(loww(exp_1.val));
}
ea_2(sz, bits)
{
mrg_1 = mrg_2;
exp_1 = exp_2;
RELOMOVE(rel_1, rel_2);
ea_1(sz, bits);
}
indexmode(hibyte)
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{
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Xfit(fitb(exp_2.val));
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exp_2.val = hibyte | lowb(exp_2.val);
}
checksize(sz, bits)
{
if ((bits & (1 << (sz>>6))) == 0)
serror("bad size");
}
test68010()
{
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if (model != 1 && pass == PASS_3)
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warning("68010 instruction");
}
badoperand()
{
serror("bad operands");
}
shift_op(opc, sz)
{
if (mrg_1 < 010 && mrg_2 < 010) {
emit2((opc&0170470) | sz | mrg_1<<9 | mrg_2);
return;
}
if (exp_1.typ != S_ABS || mrg_1 != 074) {
badoperand();
return;
}
if (mrg_2 < 010) {
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Xfit(fit3(exp_1.val));
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emit2((opc&0170430) | sz | low3(exp_1.val)<<9 | mrg_2);
return;
}
checksize(sz, 2);
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Xfit(exp_1.val == 1);
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emit2((opc&0177700) | mrg_2);
ea_2(SIZE_W, MEM|ALT);
}
bitop(opc)
{
register bits;
bits = DTA|ALT;
if (opc == 0 && (mrg_1 < 010 || mrg_2 != 074))
bits = DTA;
if (mrg_1 < 010) {
emit2(opc | 0400 | mrg_1<<9 | mrg_2);
ea_2(0, bits);
return;
}
if (mrg_1 == 074) {
emit2(opc | 04000 | mrg_2);
ea_1(SIZE_W, 0);
ea_2(0, bits);
return;
}
badoperand();
}
add(opc, sz)
{
if ((mrg_2 & 070) == 010)
checksize(sz, 2|4);
if (
mrg_1 == 074
&&
small(
exp_1.typ==S_ABS && fit3(exp_1.val),
sz==SIZE_L ? 4 : 2
)
) {
emit2((opc&0400) | 050000 | low3(exp_1.val)<<9 | sz | mrg_2);
ea_2(sz, ALT);
return;
}
if (mrg_1 == 074 && (mrg_2 & 070) != 010) {
emit2((opc&03000) | sz | mrg_2);
ea_1(sz, 0);
ea_2(sz, DTA|ALT);
return;
}
if ((mrg_2 & 070) == 010) {
emit2((opc&0170300) | (mrg_2&7)<<9 | sz<<1 | mrg_1);
ea_1(sz, 0);
return;
}
if (to_dreg(opc, sz, 0))
return;
if (from_dreg(opc, sz, ALT|MEM))
return;
badoperand();
}
and(opc, sz)
{
if (mrg_1 == 074 && mrg_2 >= 076) { /* ccr or sr */
if (sz != SIZE_NON)
checksize(sz, mrg_2==076 ? 1 : 2);
else
sz = (mrg_2==076 ? SIZE_B : SIZE_W);
emit2((opc&07400) | sz | 074);
ea_1(sz, 0);
return;
}
if (sz == SIZE_NON)
sz = SIZE_DEF;
if (mrg_1 == 074) {
emit2((opc&07400) | sz | mrg_2);
ea_1(sz, 0);
ea_2(sz, DTA|ALT);
return;
}
if ((opc & 010000) == 0 && to_dreg(opc, sz, DTA))
return;
if (from_dreg(opc, sz, (opc & 010000) ? DTA|ALT : ALT|MEM))
return;
badoperand();
}
to_dreg(opc, sz, bits)
{
if ((mrg_2 & 070) != 000)
return(0);
emit2((opc & 0170000) | sz | (mrg_2&7)<<9 | mrg_1);
ea_1(sz, bits);
return(1);
}
from_dreg(opc, sz, bits)
{
if ((mrg_1 & 070) != 000)
return(0);
emit2((opc & 0170000) | sz | (mrg_1&7)<<9 | 0400 | mrg_2);
ea_2(sz, bits);
return(1);
}
cmp(sz)
{
register opc;
if ((mrg_1&070) == 030 && (mrg_2&070) == 030) {
emit2(0130410 | sz | (mrg_1&7) | (mrg_2&7)<<9);
return;
}
if (mrg_1 == 074 && (mrg_2 & 070) != 010) {
if (mrg_2 == 072) {
/* In this case, the ea707172 routine changed the
addressing mode to PC-relative. However, this is
not allowed for this instruction. Change it back
to absolute, but also correct for the optimization
that the ea707172 routine thought it made.
*/
if (pass == PASS_1) {
/* In this case, the user wrote it PC-relative.
Error.
*/
badoperand();
}
mrg_2 = 071;
exp_2.val += DOTVAL+2;
if (pass == PASS_2) {
DOTGAIN -= 2;
}
}
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emit2(06000 | sz | mrg_2);
ea_1(sz, 0);
ea_2(sz, DTA|ALT);
return;
}
if (mrg_2 < 020) {
if (mrg_2 >= 010) {
checksize(sz, 2|4);
opc = 0130300 | sz<<1;
mrg_2 &= 7;
} else
opc = 0130000 | sz;
emit2(opc | mrg_2<<9 | mrg_1);
ea_1(sz, 0);
return;
}
badoperand();
}
move(sz)
{
register opc;
if (mrg_1 > 074 || mrg_2 > 074) {
move_special(sz);
return;
}
if (sz == SIZE_NON)
sz = SIZE_DEF;
if (
mrg_2<010
&&
mrg_1==074
&&
sz==SIZE_L
&&
small(exp_1.typ==S_ABS && fitb(exp_1.val), 4)
) {
emit2(070000 | mrg_2<<9 | lowb(exp_1.val));
return;
}
switch (sz) {
case SIZE_B: opc = 010000; break;
case SIZE_W: opc = 030000; break;
case SIZE_L: opc = 020000; break;
}
emit2(opc | mrg_1 | (mrg_2&7)<<9 | (mrg_2&070)<<3);
ea_1(sz, 0);
ea_2(sz, ALT);
}
move_special(sz)
{
if (mrg_2 >= 076) {
if (sz != SIZE_NON)
checksize(sz, 2);
emit2(042300 | (mrg_2==076?0:01000) | mrg_1);
ea_1(SIZE_W, DTA);
return;
}
if (mrg_1 >= 076) {
if (mrg_1 == 076)
test68010();
if (sz != SIZE_NON)
checksize(sz, 2);
emit2(040300 | (mrg_1==076?01000:0) | mrg_2);
ea_2(SIZE_W, DTA|ALT);
return;
}
if (sz != SIZE_NON)
checksize(sz, 4);
if (mrg_1==075 && (mrg_2&070)==010) {
emit2(047150 | (mrg_2&7));
return;
}
if (mrg_2==075 && (mrg_1&070)==010) {
emit2(047140 | (mrg_1&7));
return;
}
badoperand();
}
int
reverse(regs, max)
register int regs;
{
register int r, i;
r = regs; regs = 0;
for (i = max; i > 0; i--) {
regs <<= 1;
if (r & 1) regs++;
r >>= 1;
}
return regs;
}
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movem(dr, sz, regs)
{
register i;
if ((mrg_2>>3) == 04) {
regs = reverse(regs, 16);
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}
checksize(sz, 2|4);
if ((mrg_2>>3)-3 == dr)
badoperand();
emit2(044200 | dr<<10 | (sz & 0200) >> 1 | mrg_2);
emit2(regs);
i = CTR;
if (dr == 0 && (mrg_2&070) == 040)
i = MEM;
if (dr != 0 && (mrg_2&070) == 030)
i = MEM;
if (dr == 0)
i |= ALT;
ea_2(sz, i);
}
movep(sz)
{
checksize(sz, 2|4);
if (mrg_1<010 && (mrg_2&070)==050) {
emit2(0610 | (sz & 0200)>>1 | mrg_1<<9 | (mrg_2&7));
ea_2(sz, 0);
return;
}
if (mrg_2<010 && (mrg_1&070)==050) {
emit2(0410 | (sz & 0200)>>1 | mrg_2<<9 | (mrg_1&7));
ea_1(sz, 0);
return;
}
badoperand();
}
branch(opc, exp)
expr_t exp;
{
register sm;
exp.val -= (DOTVAL + 2);
if ((pass == PASS_2)
&&
(exp.val > 0)
&&
((exp.typ & S_DOT) == 0)
)
exp.val -= DOTGAIN;
sm = fitb(exp.val);
if ((exp.typ & ~S_DOT) != DOTTYP)
sm = 0;
if (small(sm,2)) {
if (exp.val == 0)
emit2(047161); /* NOP */
else
emit2(opc | lowb(exp.val));
} else {
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Xfit(fitw(exp.val));
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emit2(opc);
#ifdef RELOCATION
newrelo(exp.typ, RELPC|RELO2|RELBR|RELWR);
#endif
emit2(loww(exp.val));
}
}
ea5x73(rg, sz)
{
if ((exp_2.typ & ~S_DOT) == DOTTYP) {
/* pc relative with index */
if (sz == SIZE_NON)
sz = SIZE_DEF;
exp_2.val -= (DOTVAL + extension_offset());
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mrg_2 = 073;
checksize(sz, 2|4);
indexmode(rg<<12 | (sz&0200)<<4);
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return;
}
/* displacement */
mrg_2 = 050 | rg;
if (pass == PASS_1) /* tricky, maybe 073 in next passes */
return;
if ((rg & 010) == 0 || sz != SIZE_NON)
badoperand();
}
ea707172(sz)
{
register sm;
mrg_2 = 071;
switch (sz) {
case SIZE_B:
badoperand();
case SIZE_W:
mrg_2 = 070;
case SIZE_L:
return;
case SIZE_NON:
break;
}
if (pass == PASS_1) {
/*
* reserve a bit in the bittable
* in the following passes one call to small()
* will be done, but we don't know which one
* since exp_2.typ cannot be trusted
*/
small(0, 2);
return;
}
if ((exp_2.typ & ~S_DOT) == DOTTYP) {
int off = extension_offset();
sm = fitw(exp_2.val-(DOTVAL+off));
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sm = small(sm, 2);
if (sm) { /* pc relative */
exp_2.val -= (DOTVAL+off);
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mrg_2 = 072;
}
} else {
sm = fitw(exp_2.val);
#ifdef ASLD
if (exp_2.typ & S_VAR)
sm = 0;
#else
if (exp_2.typ != S_ABS)
sm = 0;
#endif /* ASLD */
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sm = small(sm, 2);
if (sm)
mrg_2 = 070;
}
}
ea6x(rg, ir, sz)
{
mrg_2 = 060 | rg;
checksize(sz, 2|4);
indexmode(ir<<12 | (sz&0200)<<4);
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}
ea72()
{
mrg_2 = 072;
exp_2.val -= (DOTVAL + extension_offset());
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}
ea73(ri, sz)
{
mrg_2 = 073;
exp_2.val -= (DOTVAL + extension_offset());
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checksize(sz, 2|4);
indexmode(ri<<12 | (sz&0200)<<4);
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}
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Xnofit()
{
if (pass == PASS_3) serror("too big");
}
fbranch(opc, exp)
expr_t exp;
{
register sm;
exp.val -= (DOTVAL + 2);
if ((pass == PASS_2)
&&
(exp.val > 0)
&&
((exp.typ & S_DOT) == 0)
)
exp.val -= DOTGAIN;
sm = fitw(exp.val);
if ((exp.typ & ~S_DOT) != DOTTYP)
sm = 0;
if (small(sm,2)) {
emit2(0170200|co_id|opc);
emit2(loww(exp.val));
return;
}
emit2(0170300|co_id|opc); /* 4 byte offset */
#ifdef RELOCATION
newrelo(exp.typ, RELPC|RELO4|RELBR|RELWR);
#endif
emit4(exp.val);
}
ch_sz_dreg(size, mode)
{
if (mode == 0 &&
(size == FSIZE_X || size == FSIZE_P || size == FSIZE_D))
serror("illegal size for data register");
}
check_fsize(sz, size)
{
if (sz != size) serror("bad size");
}