rmove()
{
register struct node *p;
register int r;
register r1, flt;
for (p=first.forw; p!=0; p = p->forw) {
flt = 0;
switch (p->op) {
case MOVF:
case MOVFO:
case MOVOF:
flt = NREG;
case MOV:
if (p->subop==BYTE)
goto dble;
dualop(p);
if ((r = findrand(regs[RT1], flt)) >= 0) {
if (r == flt+isreg(regs[RT2]) && p->forw->op!=CBR
&& p->forw->op!=SXT
&& p->forw->op!=CFCC) {
p->forw->back = p->back;
p->back->forw = p->forw;
redunm++;
continue;
}
}
if (equstr(regs[RT1], "$0")) {
p->op = CLR;
strcpy(regs[RT1], regs[RT2]);
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
goto sngl;
}
repladdr(p, 0, flt);
r = isreg(regs[RT1]);
r1 = isreg(regs[RT2]);
dest(regs[RT2], flt);
if (r >= 0)
if (r1 >= 0)
savereg(r1+flt, regs[r+flt]);
else
savereg(r+flt, regs[RT2]);
else
if (r1 >= 0)
savereg(r1+flt, regs[RT1]);
else
setcon(regs[RT1], regs[RT2]);
source(regs[RT1]);
setcc(regs[RT2]);
continue;
case ADDF:
case SUBF:
case DIVF:
case MULF:
flt = NREG;
goto dble;
case ADD:
case SUB:
case BIC:
case BIS:
case MUL:
case DIV:
case ASH:
dble:
dualop(p);
if (p->op==BIC && (equstr(regs[RT1], "$-1") || equstr(regs[RT1], "$177777"))) {
p->op = CLR;
strcpy(regs[RT1], regs[RT2]);
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
goto sngl;
}
if ((p->op==BIC || p->op==BIS) && equstr(regs[RT1], "$0")) {
if (p->forw->op!=CBR) {
p->back->forw = p->forw;
p->forw->back = p->back;
continue;
}
}
repladdr(p, 0, flt);
source(regs[RT1]);
dest(regs[RT2], flt);
if (p->op==DIV && (r = isreg(regs[RT2])>=0))
regs[r+1][0] = 0;
ccloc[0] = 0;
continue;
case CLRF:
case NEGF:
flt = NREG;
case CLR:
case COM:
case INC:
case DEC:
case NEG:
case ASR:
case ASL:
case SXT:
singop(p);
sngl:
dest(regs[RT1], flt);
if (p->op==CLR && flt==0)
if ((r = isreg(regs[RT1])) >= 0)
savereg(r, "$0");
else
setcon("$0", regs[RT1]);
ccloc[0] = 0;
continue;
case TSTF:
flt = NREG;
case TST:
singop(p);
repladdr(p, 0, flt);
source(regs[RT1]);
if (equstr(regs[RT1], ccloc)) {
p->back->forw = p->forw;
p->forw->back = p->back;
p = p->back;
nrtst++;
nchange++;
}
continue;
case CMPF:
flt = NREG;
case CMP:
case BIT:
dualop(p);
source(regs[RT1]);
source(regs[RT2]);
if(p->op==BIT) {
if (equstr(regs[RT1], "$-1") || equstr(regs[RT1], "$177777")) {
p->op = TST;
strcpy(regs[RT1], regs[RT2]);
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
nchange++;
nsaddr++;
} else if (equstr(regs[RT2], "$-1") || equstr(regs[RT2], "$177777")) {
p->op = TST;
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
nchange++;
nsaddr++;
}
if (equstr(regs[RT1], "$0")) {
p->op = TST;
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
nchange++;
nsaddr++;
} else if (equstr(regs[RT2], "$0")) {
p->op = TST;
strcpy(regs[RT1], regs[RT2]);
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
nchange++;
nsaddr++;
}
}
repladdr(p, 1, flt);
ccloc[0] = 0;
continue;
case CBR:
if (p->back->op==TST || p->back->op==CMP) {
if (p->back->op==TST) {
singop(p->back);
savereg(RT2, "$0");
} else
dualop(p->back);
r = compare(p->subop, findcon(RT1), findcon(RT2));
if (r==0) {
p->back->back->forw = p->forw;
p->forw->back = p->back->back;
decref(p->ref);
p = p->back->back;
nchange++;
} else if (r>0) {
p->op = JBR;
p->subop = 0;
p->back->back->forw = p;
p->back = p->back->back;
p = p->back;
nchange++;
}
}
case CFCC:
ccloc[0] = 0;
continue;
case JBR:
redunbr(p);
default:
clearreg();
}
}
}
rmove()
{
register struct node *p;
register char *cp;
register int r;
int r1, flt;
for (p=first.forw; p!=0; p = p->forw) {
if (debug) {
for (r=0; r<2*NREG; r++)
if (regs[r][0])
printf("%d: %s\n", r, regs[r]);
printf("-\n");
}
flt = 0;
switch (p->op) {
case MOVF:
case MOVFO:
case MOVOF:
flt = NREG;
case MOV:
dualop(p);
if ((r = findrand(regs[RT1], flt)) >= 0) {
if (r == flt+isreg(regs[RT2]) && p->forw->op!=CBR) {
p->forw->back = p->back;
p->back->forw = p->forw;
redunm++;
continue;
}
}
repladdr(p, 0, flt);
r = isreg(regs[RT1]);
r1 = isreg(regs[RT2]);
dest(regs[RT2], flt);
if (r >= 0)
if (r1 >= 0)
savereg(r1+flt, regs[r+flt]);
else
savereg(r+flt, regs[RT2]);
else
if (r1 >= 0)
savereg(r1+flt, regs[RT1]);
else
setcon(regs[RT1], regs[RT2]);
source(regs[RT1]);
setcc(regs[RT2]);
continue;
case ADDF:
case SUBF:
case DIVF:
case MULF:
flt = NREG;
case ADD:
case SUB:
case BIC:
case BIS:
case MUL:
case DIV:
case ASH:
dualop(p);
repladdr(p, 0, flt);
source(regs[RT1]);
dest(regs[RT2], flt);
if (p->op==DIV && (r = isreg(regs[RT2])>=0))
regs[r+1][0] = 0;
ccloc[0] = 0;
continue;
case CLRF:
case NEGF:
flt = NREG;
case CLR:
case COM:
case INC:
case DEC:
case NEG:
case ASR:
case ASL:
case SXT:
singop(p);
dest(regs[RT1], flt);
if (p->op==CLR && flt==0)
if ((r = isreg(regs[RT1])) >= 0)
savereg(r, "$0");
else
setcon("$0", regs[RT1]);
setcc(regs[RT1]);
continue;
case TSTF:
flt = NREG;
case TST:
singop(p);
repladdr(p, 0, flt);
source(regs[RT1]);
if (equstr(regs[RT1], ccloc)) {
p->back->forw = p->forw;
p->forw->back = p->back;
p = p->back;
nrtst++;
nchange++;
}
continue;
case CMPF:
flt = NREG;
case CMP:
case BIT:
dualop(p);
source(regs[RT1]);
source(regs[RT2]);
repladdr(p, 1, flt);
ccloc[0] = 0;
continue;
case CBR:
case CFCC:
ccloc[0] = 0;
continue;
case JBR:
redunbr(p);
default:
clearreg();
}
}
}
rmove()
{
register struct node *p;
register int r;
register r1, flt;
for (p=first.forw; p!=0; p = p->forw) {
flt = 0;
switch (p->op) {
case MOVF:
case MOVFO:
case MOVOF:
flt = NREG;
case MOV:
if (p->subop==BYTE)
goto dble;
dualop(p);
if ((r = findrand(regs[RT1], flt)) >= 0) {
if (r == flt+isreg(regs[RT2]) && p->forw->op!=CBR
&& p->forw->op!=SXT
&& p->forw->op!=CFCC) {
p->forw->back = p->back;
p->back->forw = p->forw;
redunm++;
nchange++;
continue;
}
}
if (equstr(regs[RT1], "$0")) {
p->op = CLR;
strcpy(regs[RT1], regs[RT2]);
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
nchange++;
goto sngl;
}
repladdr(p, 0, flt);
r = isreg(regs[RT1]);
r1 = isreg(regs[RT2]);
dest(regs[RT2], flt);
if (r >= 0)
if (r1 >= 0)
savereg(r1+flt, regs[r+flt]);
else
savereg(r+flt, regs[RT2]);
else
if (r1 >= 0)
savereg(r1+flt, regs[RT1]);
else
setcon(regs[RT1], regs[RT2]);
source(regs[RT1]);
setcc(regs[RT2]);
continue;
case ADDF:
case SUBF:
case DIVF:
case MULF:
flt = NREG;
goto dble;
case ADD:
case SUB:
case BIC:
case BIS:
case MUL:
case DIV:
case ASH:
dble:
dualop(p);
if (p->op==BIC && (equstr(regs[RT1], "$-1") || equstr(regs[RT1], "$177777"))) {
p->op = CLR;
strcpy(regs[RT1], regs[RT2]);
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
nchange++;
goto sngl;
}
if ((p->op==BIC || p->op==BIS) && equstr(regs[RT1], "$0")) {
if (p->forw->op!=CBR) {
p->back->forw = p->forw;
p->forw->back = p->back;
nchange++;
continue;
}
}
/*
* the next block of code looks for the sequences (which extract the
* high byte of a word or the low byte respectively):
* ash $-10,r
* bic $-400,r
* or
* mov natural,r
* bic $-400,r
* and transforms them into:
* clrb r
* swab r
* or
* clr r
* bisb natural,r
* These constructs occur often enough in the kernel (dealing with major/minor
* device numbers, etc) it's worth a little extra work at compile time.
*/
if (p->op == BIC && (equstr(regs[RT1],"$-400") ||
equstr(regs[RT1],"$-177400"))) {
if (p->back->op == ASH) {
r = isreg(regs[RT2]);
dualop(p->back);
if ((equstr(regs[RT1], "$-10") ||
equstr(regs[RT1], "$177770")) &&
r == isreg(regs[RT2])) {
strcpy(regs[RT1], regs[RT2]);
regs[RT2][0] = 0;
p->back->op = CLR;
p->back->subop = BYTE;
p->back->code = copy(1, regs[RT1]);
p->op = SWAB;
p->code = copy(1, regs[RT1]);
nchange++;
goto sngl;
}
}
else if (p->back->op == MOV && p->forw->op != CBR) {
char temp[50];
r = isreg(regs[RT2]);
if (r < 0 && !xnatural(regs[RT2]))
goto out;
strcpy(temp, regs[RT2]);
dualop(p->back);
if (isreg(regs[RT2]) == r && natural(regs[RT1])) {
if (r < 0 && (!xnatural(regs[RT2]) || !equstr(temp, regs[RT2])))
goto out;
/*
* XXX - the sequence "movb rN,rN; bic $-400,rN" can not be transformed
* because the 'clr' would lose all information about 'rN'. The best that can
* be done is to remove the 'movb' instruction and leave the 'bic'.
*/
if (isreg(regs[RT1]) == r && r >= 0) {
p = p->back;
p->forw->back = p->back;
p->back->forw = p->forw;
nchange++;
continue;
}
dest(regs[RT1], flt);
p->back->op = CLR;
p->back->subop = 0;
p->back->code = copy(1, regs[RT2]);
p->op = BIS;
p->subop = BYTE;
strcat(regs[RT1], ",");
p->code = copy(2, regs[RT1], regs[RT2]);
nchange++;
}
}
out: dualop(p); /* restore banged up parsed operands */
}
repladdr(p, 0, flt);
source(regs[RT1]);
dest(regs[RT2], flt);
if (p->op==DIV && (r = isreg(regs[RT2]))>=0)
regs[r|1][0] = 0;
switch (p->op)
{
case ADD:
case SUB:
case BIC:
case BIS:
case ASH:
setcc(regs[RT2]);
break;
default:
ccloc[0] = 0;
}
continue;
case SXT:
singop(p);
if (p->forw->op == CLR && p->forw->subop != BYTE &&
xnatural(regs[RT1]) && !strcmp(p->code, p->forw->code)){
p->forw->back = p->back;
p->back->forw = p->forw;
nchange++;
continue;
}
goto sngl;
case CLRF:
case NEGF:
flt = NREG;
case CLR:
case COM:
case INC:
case DEC:
case NEG:
case ASR:
case ASL:
case SWAB:
singop(p);
sngl:
dest(regs[RT1], flt);
if (p->op==CLR && flt==0)
{
if ((r = isreg(regs[RT1])) >= 0)
savereg(r, "$0");
else
setcon("$0", regs[RT1]);
ccloc[0] = 0;
}
else
setcc(regs[RT1]);
continue;
case TSTF:
flt = NREG;
case TST:
singop(p);
repladdr(p, 0, flt);
source(regs[RT1]);
if (p->back->op == TST && !flt && not_sp(regs[RT1])) {
char rt1[MAXCPS + 2];
strcpy(rt1, regs[RT1]);
singop(p->back);
if (!strcmp("(sp)+", regs[RT1])) {
p->back->subop = p->subop;
p->back->forw = p->forw;
p->forw->back = p->back;
p = p->back;
p->op = MOV;
p->code = copy(2, rt1, ",(sp)+");
nrtst++;
nchange++;
continue;
}
singop(p);
}
if (p->back->op == MOV && p->back->subop == BYTE) {
dualop(p->back);
setcc(regs[RT2]);
singop(p);
}
if (equstr(regs[RT1], ccloc) && p->subop == p->back->subop) {
p->back->forw = p->forw;
p->forw->back = p->back;
p = p->back;
nrtst++;
nchange++;
}
else
setcc(regs[RT1]); /* XXX - double TST in a row */
continue;
case CMPF:
flt = NREG;
case CMP:
case BIT:
dualop(p);
source(regs[RT1]);
source(regs[RT2]);
if(p->op==BIT) {
if (equstr(regs[RT1], "$-1") || equstr(regs[RT1], "$177777")) {
p->op = TST;
strcpy(regs[RT1], regs[RT2]);
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
nchange++;
nsaddr++;
} else if (equstr(regs[RT2], "$-1") || equstr(regs[RT2], "$177777")) {
p->op = TST;
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
nchange++;
nsaddr++;
}
if (equstr(regs[RT1], "$0")) {
p->op = TST;
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
nchange++;
nsaddr++;
} else if (equstr(regs[RT2], "$0")) {
p->op = TST;
strcpy(regs[RT1], regs[RT2]);
regs[RT2][0] = 0;
p->code = copy(1, regs[RT1]);
nchange++;
nsaddr++;
}
}
repladdr(p, 1, flt);
ccloc[0] = 0;
continue;
case CBR:
r = -1;
if (p->back->op==TST || p->back->op==CMP) {
if (p->back->op==TST) {
singop(p->back);
savereg(RT2, "$0");
} else
dualop(p->back);
if (equstr(regs[RT1], regs[RT2])
&& natural(regs[RT1]) && natural(regs[RT2]))
r = compare(p->subop, "$1", "$1");
else
r = compare(p->subop, findcon(RT1), findcon(RT2));
if (r==0) {
if (p->forw->op==CBR
|| p->forw->op==SXT
|| p->forw->op==CFCC) {
p->back->forw = p->forw;
p->forw->back = p->back;
} else {
p->back->back->forw = p->forw;
p->forw->back = p->back->back;
}
decref(p->ref);
p = p->back->back;
nchange++;
} else if (r>0) {
p->op = JBR;
p->subop = 0;
p->back->back->forw = p;
p->back = p->back->back;
p = p->back;
nchange++;
}
/*
* If the instruction prior to the conditional branch was a 'tst' then
* save the condition code status. The C construct:
* if (x)
* if (x > 0)
* generates "tst _x; jeq ...; tst _x; jmi ...;jeq ...". The code below removes
* the second "tst _x", leaving "tst _x; jeq ...;jmi ...; jeq ...".
*/
if (p->back->op == TST) {
singop(p->back);
setcc(regs[RT1]);
break;
}
}
/*
* If the previous instruction was also a conditional branch then
* attempt to merge the two into a single branch.
*/
if (p->back->op == CBR)
fixupbr(p);
case CFCC:
ccloc[0] = 0;
continue;
/*
* Unrecognized (unparsed) instructions, assignments (~foo=r2), and
* data arrive here. In order to prevent throwing away information
* about register contents just because a local assignment is done
* we check for the first character being a tilde.
*/
case 0:
if (p->code[0] != '~')
clearreg();
continue;
case JBR:
redunbr(p);
default:
clearreg();
}
}
}
