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BSD 4.3tahoe
#ifndef lint
static char sccsid[] = "%W% (Berkeley/CCI) %G%";
#endif
/*
* C object code improver-- second part
*/
#include "c2.h"
#include <stdio.h>
#include <ctype.h>
int bitsize[] = {0,8,16,32,64,32,64}; /* index by type codes */
#define SWAP(t,a,b) { t x = (a); (a) = (b); (b) = x; }
/*
* Check for 3 addr instr which should be 2 addr
*/
redun3(p)
register struct node *p;
{
if (has3ops(p)) {
if (equstr(regs[RT1],regs[RT3]) &&
(p->op==ADD || p->op==MUL || p->op==AND || p->op==OR ||
p->op==XOR))
SWAP(char *,regs[RT1],regs[RT2]);
if (equstr(regs[RT2],regs[RT3])) {
p->subop=(p->subop&0xF)|(OP2<<4); p->pop=0;
lastrand=regs[RT2]; *regs[RT3]=0;
return (1);
}
}
return (0);
}
#define skipto(cp,c) while (*(cp)++ != (c))
#define scopy(dst,src) while (*(dst)++ = *(src)++)
bmove()
{
register struct node *p, *lastp;
register char *cp1,*cp2;
register int r;
struct node *flops();
refcount();
for (p=lastp= &first; p=p->forw; lastp=p)
;
clearreg(); clearuse();
for (p=lastp; p!= &first; p=p->back) {
if (debug) {
printf("Uses: ");
if (useacc)
printf("acc: %s\n",useacc->code? useacc->code:"");
for (r=NUSE;--r>=0;) if (uses[r])
printf("%d: %s\n",r,uses[r]->code? uses[r]->code:"");
printf("-\n");
}
r=(p->subop>>4)&0xF;
splitrand(p);
if (OP3==r && redun3(p))
newcode(p), redunm++;
/* ops that do nothing */
if (p->op==MOV && equstr(regs[RT1], regs[RT2])) {
if (p->forw->op!=CBR) {
delnode(p), redunm++;
continue;
} else {
p->op=TST; p->pop=0;
skipto(p->code, ',');
redunm++;
}
} else if ((cp1=p->code, *cp1++)=='$' &&
(*cp1=='0' || *cp1=='1' || *cp1++=='-' && *cp1=='1') && cp1[1]==',') {
switch ((p->code[1]<<8)|ord(p->op)) {
case (('0'<<8)|ord(ADD)):
case (('0'<<8)|ord(SUB)):
case (('-'<<8)|ord(AND)):
case (('0'<<8)|ord(OR)):
case (('0'<<8)|ord(XOR)):
case (('1'<<8)|ord(MUL)):
case (('1'<<8)|ord(DIV)):
case (('0'<<8)|ord(SHAL)):
case (('0'<<8)|ord(SHAR)):
case (('0'<<8)|ord(SHL)):
case (('0'<<8)|ord(SHR)):
if (r == OP2) {
if (p->forw->op!=CBR) {
delnode(p), redunm++;
continue;
} else {
p->op=TST; p->subop&=0xF; p->pop=0;
skipto(p->code, ',');
redunm++;
}
} else { /* OP3 or shift */
p->op=MOV; p->subop&=0xF; p->pop=0;
skipto(p->code, ',');
p = p->forw; redunm++;
continue;
}
break;
case (('0'<<8)|ord(MUL)):
case (('0'<<8)|ord(AND)):
p->op=CLR; p->subop&=0xF; p->pop=0;
skipto(p->code, ',');
if (r == OP3)
skipto(p->code, ',');
redunm++;
}
}
switch (p->op) {
case LABEL: case DLABEL:
for (r=NUSE; --r>=0;)
if (lastuse(r))
p->ref=(struct node *) (((int)p->ref)|(1<<r));
if (useacc)
p->ref=(struct node *) (((int)p->ref)|(1<<NUSE));
break;
case CALLS:
case CALLF:
clearuse(); goto std;
case NIL:
clearuse(); break;
case CVT: {
long n;
if ((p->subop&0xF)!=LONG)
goto std;
cp1=p->code;
if (*cp1++!='$')
goto std;
splitrand(p);
n = getnum(®s[RT1][1]);
if (r==BYTE && (n<-128 || n>127))
goto std;
if (r==WORD && (n<-32768 || n>32767))
goto std;
p->op = MOV; p->subop = r; p->pop = 0;
goto std;
}
case SUB:
if ((p->subop&0xF)!=LONG)
goto std;
cp1=p->code;
if (*cp1++!='$')
goto std;
splitrand(p);
#ifdef MOVAFASTER
if (equstr(regs[RT2],"fp") && !indexa(regs[RT1])) {/* addr comp. */
char buf[C2_ASIZE]; cp2=buf; *cp2++='-';
cp1=regs[RT1]+1; scopy(cp2,cp1); --cp2;
cp1="(fp),"; scopy(cp2,cp1); --cp2;
cp1=regs[RT3]; scopy(cp2,cp1);
p->code=copy(buf); p->op = MOVA; p->subop = BYTE; p->pop=0;
} else
#endif MOVAFASTER
if (*cp1++=='-' && 0==(r=getnum(cp1)) && !checkexpr(cp1)) {
p->op=ADD; p->pop=0;
*--cp1='$'; p->code=cp1;
}
goto std;
case ADD:
if ((p->subop&0xF)!=LONG)
goto std;
cp1=p->code;
if (*cp1++!='$')
goto std;
splitrand(p);
if (isstatic(cp1) && tempreg(regs[RT2],r) && lastuse(r) == p->forw) {
/*
* address comp:
* addl2 $_foo,r0 \ movab _foo[r0],bar
* movl r0,bar /
*/
register struct node *pnext = p->forw;
char buf[C2_ASIZE];
if (pnext->op == MOV && pnext->subop == LONG) {
cp1 = ®s[RT1][1]; cp2 = &buf[0];
scopy(cp2,cp1); cp2--;
splitrand(pnext);
if (r == isreg(regs[RT1])) {
delnode(p); p = pnext;
p->op = MOVA; p->subop = BYTE;
p->pop = 0;
cp1 = regs[RT1]; *cp2++ = '[';
scopy(cp2,cp1); cp2--;
*cp2++ = ']'; *cp2++ = ',';
cp1 = regs[RT2];
scopy(cp2,cp1);
p->code = copy(buf);
}
}
}
else
#ifdef MOVAFASTER
if (equstr(regs[RT2],"fp") && !indexa(regs[RT1])) {/* address comp. */
cp2=cp1-1; cp1=regs[RT1]+1; scopy(cp2,cp1); --cp2;
cp1="(fp)"; scopy(cp2,cp1); *--cp2=',';
p->op = MOVA; p->subop = BYTE; p->pop=0;
} else
#endif MOVAFASTER
if (*cp1++=='-' && 0==(r=getnum(cp1)) && !checkexpr(cp1)) {
p->op=SUB; p->pop=0;
*--cp1='$'; p->code=cp1;
}
/* fall thru ... */
case CASE:
default: std:
p=bflow(p);
break;
case MUL:
/*
* Change multiplication
* by constant powers of 2 to shifts.
*/
splitrand(p);
if (regs[RT1][0] != '$' || regs[RT1][1] == '-')
goto std;
if ((r = ispow2(getnum(®s[RT1][1]))) <= 0)
goto std;
/* mull2 $2,x */
if (r == 1 && p->subop == U(LONG, OP2)) {
strcpy(regs[RT1], regs[RT2]);
p->op = ADD; p->pop = 0; newcode(p);
goto std;
}
if (p->subop == U(LONG,OP2))
strcpy(regs[RT3], regs[RT2]);
sprintf(regs[RT1], "$%d", r);
p->op = SHL; p->subop = LONG;
p->pop = 0; newcode(p);
goto std;
case SHAL:
case SHL: {
/*
* bit tests:
* shll A,$1,rC \
* bitl B,rC > jbc A,B,D
* jeql D /
*
* address comp:
* shll $1,bar,r0 \ movl bar,r0
* movab _foo[r0] / movaw _foo[r0]
*
* shll $2,r0,r0 \ moval _foo[r0]
* movab _foo[r0] /
*/
register struct node *pf, *pn;
register int shfrom, shto;
long shcnt;
char *regfrom;
splitrand(p);
if (regs[RT1][0] != '$') {
if (isreg(regs[RT1]) < 0 || regs[RT2][0] != '$' ||
getnum(®s[RT2][1]) != 1 ||
!tempreg(regs[RT3],r))
goto std;
if ((pf = p->forw)->op != BIT && pf->op!=AND)
goto std;
if (lastuse(r) && lastuse(r) != pf)
goto std;
splitrand(pf);
if (r == isreg(regs[RT1]))
cp2 = regs[RT2];
else if (r == isreg(regs[RT2]))
cp2 = regs[RT1];
else
goto std;
if (*cp2 == '$' || (pn = pf->forw)->op != CBR ||
(pn->subop != JEQ && pn->subop != JNE))
goto std;
delnode(p); delnode(pf);
pn->subop = (pn->subop == JEQ) ? JBC : JBS;
cp1=p->code; skipto(cp1,','); scopy(cp1,cp2);
pn->code = p->code; pn->pop = NULL;
setuse(r,NULL);
nbj++;
p = pn;
goto std;
}
if ((shcnt = getnum(®s[RT1][1])) < 1 || shcnt > 2)
goto std;
if ((shfrom = isreg(regs[RT2])) >= 0)
regfrom = copy(regs[RT2]);
if (tempreg(regs[RT3],shto)) {
int regnum;
if (lastuse(shto) != (pf = p->forw) ||
(pf->op != MOVA && pf->op != PUSHA) ||
pf->subop != BYTE)
goto ashadd;
splitrand(pf);
if (!indexa(regs[RT1]))
goto std;
cp2 = regs[RT1];
if (!isstatic(cp2))
goto std;
skipto(cp2,'[');
if (*cp2++ != 'r' || !isdigit(*cp2))
goto std;
regnum = *cp2++ - '0';
if (isdigit(*cp2)) {
if (cp2[1] != ']')
goto std;
regnum *= 10; regnum += *cp2 - '0';
}
if (regnum != shto)
goto std;
if (shfrom >= 0) { /* shll $N,r*,r0 */
delnode(p);
p = pf;
if (shfrom != shto) {
setuse(shto,NULL); splitrand(pf);
cp2=regs[RT1]; skipto(cp2,'[');
cp1=regfrom; scopy(cp2,cp1);
cp2[-1] = ']'; *cp2 = 0;
newcode(pf);
}
} else {
p->op = MOV; splitrand(p);
strcpy(regs[RT1], regs[RT2]);
strcpy(regs[RT2], regs[RT3]);
regs[RT3][0] = '\0';
p->pop = 0; newcode(p);
}
switch (shcnt) {
case 1: pf->subop = WORD; break;
case 2: pf->subop = LONG; break;
}
redunm++; nsaddr++;
}
goto std;
ashadd:
/* at this point, RT2 and RT3 are guaranteed to be simple regs*/
if (shcnt == 1) {
/*
* quickie:
* shll $1,A,A > addl2 A,A
* shll $1,A,B > addl3 A,A,B
*/
p->op = ADD;
strcpy(regs[RT1], regs[RT2]);
if (equstr(regs[RT2], regs[RT3])) {
p->subop = U(LONG,OP2);
regs[RT3][0] = '\0';
} else
p->subop = U(LONG,OP3);
p->pop = 0;
newcode(p);
}
goto std;
}
case SHAR:
case SHR: {
/*
* bit tests:
* shrl A,B,rC \
* bitl $1,rC > jbc A,B,D
* jeql D /
*/
register struct node *pf; /* forward node */
register struct node *pn; /* next node (after pf) */
register int extreg; /* reg extracted to */
splitrand(p);
if (isreg(regs[RT1]) < 0 || !tempreg(regs[RT3],extreg) ||
(pf = p->forw)->op != BIT ||
(lastuse(extreg) && lastuse(extreg) != pf))
goto std;
splitrand(pf);
if (regs[RT1][0] != '$' || getnum(®s[RT1][1]) != 1 ||
extreg != isreg(regs[RT2]) ||
(pn = pf->forw)->op !=CBR ||
(pn->subop != JEQ && pn->subop != JNE))
goto std;
delnode(p); delnode(pf);
pn->subop = (pn->subop == JEQ) ? JBC : JBS;
cp1 = p->code; skipto(cp1, ','); skipto(cp1,','); *cp1 = '\0';
pn->code = p->code; pn->pop = NULL;
setuse(extreg,NULL);
nbj++; p = pn;
goto std;
}
case AND: {
/*
* unsigned conversion:
* cvtbl A,B; andl2 $255,B > movzbl A,B
* also byte- and word-size fields:
* shrl $(3-n)*8,A,B; andl2 $255,B > movzbl n+A,B
* shrl $(1-n)*16,A,B; andl2 $65535,B > movzwl n+A,B
*/
char src[C2_ASIZE];
register int f; /* field length */
register struct node *pb = p->back; /* backward node */
if (p->subop != U(LONG,OP2))
goto std;
splitrand(p); cp1=regs[RT1];
if (*cp1++!='$' || (f=getnum(cp1))!=0xff && f!=0xffff)
goto std;
f = f==0xff ? 8 : 16;
if (pb->op!=CVT && pb->op!=MOVZ && pb->op!=SHAR && pb->op!=SHR)
goto std;
/* save source of ANDL in 'src' */
strcpy(src, regs[RT2]);
splitrand(pb);
if (!equstr(src,lastrand))
goto std;
if (pb->op==CVT || pb->op==MOVZ) {
if (!(bitsize[pb->subop&0xF]==f &&
bitsize[pb->subop>>4]>=f)) /* good CVT */
goto std;
strcpy(src, regs[RT1]);
} else {
register int boff; /* bit offset */
if (regs[RT1][0] != '$' ||
(boff = getnum(®s[RT1][1])) < 0 ||
isreg(regs[RT2])>=0 || !natural(regs[RT2]) ||
(boff & (f-1)) != 0)
goto std;
boff = (32-boff-f) / 8;
if (boff == 0)
strcpy(src, regs[RT2]);
else
sprintf(src, "%d%s%s", boff,
regs[RT2][0]=='(' ? "":"+", regs[RT2]);
}
delnode(pb);
p->op = MOVZ;
p->subop = U((f==8 ? BYTE : WORD), LONG);
sprintf(line,"%s,%s",src,lastrand);
p->pop=0;
p->code = copy(line);
goto std;
}
case CMP: {
/*
* comparison to -63 to -1:
* cmpl r0,$-1 > incl r0
* jeql ...
*
* cmpl r0,$-63 > addl2 $63,r0
* jeql ...
*/
register int num, reg;
register struct node *regp = p->back;
if (p->forw->op != CBR ||
(p->forw->subop != JEQ && p->forw->subop != JNE))
goto std;
splitrand(p);
if (strncmp(regs[RT2], "$-", 2) != 0)
goto std;
reg = r = isreg(regs[RT1]);
if (r < 0 || (r < NUSE && lastuse(r) != 0))
goto std;
if (r >= NUSE && regp->op == MOV && p->subop == regp->subop) {
if (*regp->code != 'r')
goto std;
reg = regp->code[1] - '0';
if (isdigit(regp->code[2]) || reg >= NUSE ||
lastuse(reg) != 0)
goto std;
}
if (r >= NUSE)
goto std;
if (reg != r)
sprintf(regs[RT1], "r%d", reg);
if ((num = getnum(®s[RT2][2])) <= 0 || num > 63)
goto std;
if (num == 1) {
p->op = INC; regs[RT2][0] = '\0';
} else {
register char *t;
SWAP(char *,regs[RT1],regs[RT2]);
p->op = ADD; p->subop = U(p->subop, OP2);
for (t = ®s[RT1][2]; t[-1] = *t; t++)
;
}
p->pop = 0; newcode(p);
goto std;
}
case JBR: case JMP:
clearuse();
if ((p->subop&0xF)==RET) {
switch ((p->subop>>4)&0xF) {
case 2: setuse(1,p); regs[1][0]= -1;
case 1: setuse(0,p); regs[0][0]= -1;
}
break;
}
if (p->ref==0) /* jmp (r0) */
goto std;
/* fall through */
case CBR:
if (p->ref->ref!=0) {
for (r=NUSE;--r>=0;)
if ((1<<r) & (int)p->ref->ref) {
setuse(r,p); regs[r][0]= -1;
}
if ((1<<NUSE) & (int)p->ref->ref)
useacc=p;
}
break;
case LNF: {
/* lnf a; addf b ==> ldf b; subf a */
register struct node *pf = p->forw;
if (pf->op!=ADDF || p->subop!=pf->subop)
break;
p->op = LDF;
p->pop = 0;
pf->op = SUBF;
pf->pop = 0;
cp1 = p->code;
p->code = pf->code;
pf->code = cp1;
p = pf->forw;
break;
}
case LDF: case LDFD: case CVLF: /* destroy acc */
useacc = 0;
goto std;
case STF: {
register struct node *pf;
if ((pf=flops(p)) != p) {
p = pf; /* usually p->forw; */
break;
}
if (ldmov(p)) {
p = p->forw;
break;
}
if (useacc == 0)
useacc = p;
goto std;
}
case ADDF: case MULF: { /* commutatives - create clients for flops */
/* stf a; ldf b; addf a => stf a; ldf a; addf b */
register struct node *pb = p->back;
register struct node *pbb = pb->back;
if (pb->op==LDF && pb->subop==p->subop &&
pbb && pbb->op==STF && pbb->subop==p->subop &&
equstr(pbb->code, p->code)) {
cp1 = p->code;
p->code = pb->code;
pb->code = cp1;
}
}
/* use acc and regs */
case CMPF: case CVFL: case SUBF: case DIVF:
if (useacc == 0)
useacc = p;
goto std;
case TSTF:
break;
case PUSHD:
if (ldmov(p)) {
p = p->forw;
break;
}
case CVDF: case NEGF: /* use only acc */
case SINF: case COSF: case ATANF: case LOGF: case SQRTF: case EXPF:
if (useacc == 0)
useacc = p;
case EROU: case JSW:
case TEXT: case DATA: case BSS: case ALIGN: case WGEN: case END: ;
}
}
for (p= &first; p!=0; p=p->forw)
if (p->op==LABEL || p->op==DLABEL)
p->ref=0; /* erase our tracks */
}
/*
* Return pointer to register which is
* "beyond last read/modify operand"
*/
char *
byondrd(p)
register struct node *p;
{
if (has2ops(p))
return (regs[RT3]);
switch (p->op) {
case MFPR:
case PUSHA:
case TST: case INC: case DEC: case PUSH:
case LDF: case LNF: case CVLF: case LDFD:
case ADDF: case SUBF: case MULF: case DIVF:
case CMPF:
return (regs[RT2]);
case MTPR:
#ifndef EMOD
case EDIV:
#endif EMOD
case CBR: /* must be JBC/JBS */
case BIT: case CMP: case CALLS: case CALLF:
case CMPF2:
return (regs[RT3]);
case EMUL:
case PROBE:
case MOVBLK:
case CASE:
return (regs[RT4]);
}
return (lastrand);
}
struct node *
bflow(p)
register struct node *p;
{
register char *cp1,*cp2,**preg;
register int r, fr, dblflg=0;
int flow= -1;
struct node *olduse=0, *olduse1=0;
if (p->subop==QUAD || p->subop==DOUBLE || (p->subop&0xF0)==DOUBLE<<4)
dblflg |= 1; /* double dest */
if ((p->subop&0xF)==DOUBLE || p->subop==QUAD)
dblflg |= 2; /* double src */
splitrand(p);
if (p->op!=PUSH &&
#ifndef EMOD
p->op!=EDIV &&
#endif EMOD
p->op!=EMUL &&
p->subop && tempreg(lastrand,r) && lastuse(r) == p->forw) {
if (equtype(p->subop,regs[r][0]) ||
((p->op==CVT || p->op==MOVZ || p->op==CVFL) &&
(regs[r][0]&0xf) && compat((p->subop>>4)&0xf,regs[r][0])) ||
p->op==MOVA && compat(LONG, regs[r][0])) {
register int r2;
if (regs[r][1]!=0) { /* send directly to destination */
if (p->op==INC || p->op==DEC) {
p->op = (p->op==DEC) ? SUB : ADD;
/* use 2 now, convert to 3 later */
p->subop=(OP2<<4)+(p->subop&0xF);
p->pop=0;
cp1=lastrand; cp2=regs[RT2];
scopy(cp2,cp1); /* copy reg */
cp1=lastrand; *cp1++='$'; *cp1++='1'; *cp1=0;
}
cp1=regs[r]+1; cp2=lastrand;
if (has2ops(p)) {
/* use 3 operand form of instruction */
p->pop=0;
p->subop += (OP3-OP2)<<4;
lastrand = cp2 = regs[RT3];
}
scopy(cp2,cp1);
if (p->op==MOVA && p->forw->op==PUSH) {
p->op=PUSHA;
*regs[RT2]=0; p->pop=0;
} else if ((p->op==MOV || p->op==CVT) &&
p->forw->op==PUSH) {
p->op=PUSH; p->subop &= 0xF;
*regs[RT2]=0; p->pop=0;
}
delnode(p->forw);
if (tempreg(lastrand,r2)) {
setuse(r2, lastuse(r));
setuse(r,NULL);
}
redun3(p);
newcode(p); redunm++; flow=r;
} else if (p->op==MOV) { /* superfluous fetch */
int nmatch;
char src[C2_ASIZE];
movit:
cp2=src; cp1=regs[RT1]; scopy(cp2,cp1);
splitrand(p->forw);
if (p->forw->op != INC && p->forw->op != DEC)
lastrand=byondrd(p->forw);
nmatch=0;
for (preg=regs+RT1;*preg!=lastrand;preg++)
if (r==isreg(*preg)) {
cp2= *preg; cp1=src;
scopy(cp2,cp1);
++nmatch;
}
if (nmatch==1) {
if (has2ops(p->forw) && equstr(src,regs[RT2])) {
p->forw->pop=0;
p->forw->subop += (OP3-OP2)<<4;
cp1=regs[RT3];
*cp1++ = 'r'; *cp1++ = r+'0'; *cp1=0;
}
delnode(p);
p=p->forw;
if (tempreg(src,r2)) {
setuse(r2,lastuse(r));
setuse(r,NULL);
}
redun3(p);
newcode(p); redunm++; flow=r;
} else
splitrand(p);
}
} else if (p->op==MOV && (p->forw->op==CVT || p->forw->op==MOVZ) &&
p->forw->subop&0xf && /* if base or index, then forget it */
compat(p->subop,p->forw->subop) && !indexa(cp1=regs[RT1]))
goto movit;
}
/* adjust 'lastrand' past any 'read' or 'modify' operands. */
lastrand=byondrd(p);
/* a 'write' clobbers the register. */
if (tempreg(lastrand,r) ||
(has2ops(p) && tempreg(regs[RT2],r) && lastuse(r)==0)) {
/*
* Writing a dead register is useless,
* but watch side effects
*/
switch (p->op) {
#ifndef EMOD
case EDIV:
#endif EMOD
case EMUL:
case AOBLEQ: case AOBLSS:
break;
default:
/*
* If no direct uses, check for
* use of condition codes
*/
if (lastuse(r)==0 &&
((dblflg&1)==0 || lastuse(r+1)==0)) {
register struct node *q = p;
while ((q = nonlab(q->forw))->op==JBR &&
q->subop==0)
q=q->ref; /* cc unused, unchanged */
if (q->op!=CBR && q->op!=ADDA && q->op!=SUBA) {
/* ... and destroyed */
preg=regs+RT1;
while (cp1 = *preg++) {
if (cp1==lastrand &&
p->op != CLR &&
p->op != CVFL) {
redunm++;
delnode(p);
return (p->forw);
}
if (equstr(cp1,lastrand))
break;
}
}
}
flow=r;
}
}
if ((r=flow) >= 0) {
olduse = lastuse(r); setuse(r,NULL);
*(short *)(regs[r])=0;
/* if r0 destroyed, dont keep r1 */
if (dblflg&1) {
olduse1 = lastuse(++r); setuse(r,NULL);
*(short *)(regs[r])=0;
}
}
/* now look for 'read' or 'modify' (read & write) uses */
preg=regs+RT1;
while (*(cp1= *preg++)) {
/* check for r */
if (lastrand!=cp1 && tempreg(cp1,r) && lastuse(r)==0) {
setuse(r,p);
cp2=regs[r]; *cp2++=p->subop;
if ((p->op==SHAL || p->op==SHAR ||
p->op==SHL || p->op==SHR) &&
cp1==regs[RT1])
cp2[-1] = BYTE;
if (p->op==CBR && (p->subop==JBC || p->subop==JBS))
cp2[-1] = LONG;
if (p->op==MOVA && cp1==regs[RT2])
cp2[-1]=LONG;
/* ediv/emod's 2nd operand is quad */
if (((p->op==EDIV
#ifdef EMOD
|| p->op==EMOD
#endif EMOD
) && cp1==regs[RT2] || (dblflg&2)) &&
++r<NUSE && lastuse(r)==0) {
*cp2=0;
setuse(r,p);
cp2=regs[r]; *cp2++=p->subop;
}
if (p->op==MOV || p->op==PUSH || p->op==CVT ||
p->op==MOVZ || p->op==COM || p->op==NEG ||
p->op==STF) {
if (p->op!=PUSH) {
cp1=regs[RT2];
if (tempreg(cp1,r)) {
/*
* reincarnation!!
* (as in addl2 r0,r1;
* movl r1,r0; ret)
*/
if (lastuse(r)==0)
setuse(r,olduse);
if ((dblflg&1) &&
lastuse(r+1)==0)
setuse(r+1,olduse1);
}
if (p->op!=MOV)
cp1=0;
} else
cp1="-(sp)";
if (cp1)
scopy(cp2,cp1);
else
*cp2=0;
} else
*cp2=0;
continue;
}
/* check for (r),[r] */
do {
if (*cp1=='(' || *cp1=='[') { /* get register number */
char t;
for (cp2= ++cp1; *++cp1!=')' && *cp1!=']';)
;
t= *cp1; *cp1=0;
if (tempreg(cp2,r) &&
(lastuse(r)==0 || lastuse(r)==p)) {
if (lastuse(r))
setuse(r,p);
regs[r][0] =
(*--cp2=='[' ? OPX<<4 : OPB<<4);
}
*cp1=t;
}
} while (*++cp1);
}
#ifdef MOVAFASTER
/* pushax or movax possibility? */
cp1=regs[RT1];
if (*cp1++=='$' && isstatic(cp1)) {
if (p->op==MOV && p->subop==LONG) {
if (regs[RT1][1]=='L' &&
0!=(p->labno=getnum(regs[RT1]+2))) {
cp1=p->code;
skipto(cp1,',');
p->code= --cp1;
}
p->op = MOVA; p->subop = BYTE; ++p->code; p->pop=0;
} else if (p->op==PUSH && p->subop==LONG) {
p->op = PUSHA; p->subop = BYTE; ++p->code; p->pop=0;
} else if (p->op==ADD && p->subop==U(LONG,OP3) &&
0<=(r=isreg(regs[RT2]))) {
cp1=cp2=p->code; ++cp1;
do *cp2++= *cp1; skipto(cp1,','); cp2[-1]='[';
do *cp2++= *cp1; skipt(cp1,','); cp2[-1]=']';
if (!equstr(regs[RT3],"-(sp)")) {
p->op = MOVA; p->subop = BYTE;
} else {
p->op = PUSHA; p->subop = BYTE; *cp2=0;
}
if (lastuse(r)==0) {
setuse(r,p); regs[r][0]=OPX<<4;
}
p->pop=0;
}
}
#endif MOVAFASTER
return (p);
}
/* try to eliminate STF's */
struct node *
flops(q)
register struct node *q;
{
register struct node *p;
register int r;
if (q->op!=STF || !tempreg(q->code,r))
return (q);
if (lastuse(r)) {
/* see if anyone destroys acc between us */
for (p=q->forw; p!=lastuse(r); p=p->forw)
switch (p->op) {
case LABEL:
case LDF: case LNF: case CVLF: case LDFD:
case CVDF: case NEGF: case ADDF: case SUBF:
case MULF: case DIVF: case SINF: case COSF:
case ATANF: case LOGF: case SQRTF: case EXPF:
return (q);
}
if (q->subop == p->subop)
switch (p->op) { /* do it in the accumulator */
case LDF: /* redundant load */
delnode(p); nld++;
p = p->forw;
break;
case LNF: /* stf r; lnf r ==> negf */
p->op = NEGF;
p->pop = 0;
p->code = 0;
break;
case CMPF2: { /* stf r; cmpf2 r,x ==> cmpf x */
register char *s;
register struct node *p1=p->forw;
for (s=p->code; *s!=','; s++);
*s = 0;
if (isreg(p->code) == r)
p->code = s+1;
else {
if (p1->op != CBR || isreg(s+1) != r) {
*s = ',';
return (q);
}
if (p1->subop > JNE) {
p1->subop ^= 1;
p1->pop = 0;
nrevbr++;
}
}
p->op = CMPF;
p->pop = 0;
break;
}
default:
return (q);
}
else if (p->subop==LONG) {
switch (p->op) {
case TST: /* stf r; tstl r ==> tstf */
p->op = TSTF;
p->code = 0;
break;
/* send directly to destination */
case MOV: /* stf r; movl r,x ==> stf x */
case PUSH: /* stf r; pushl r ==> stf -(sp)/pushd */
if (q->subop == DOUBLE) {
register struct node *b = p->back;
/* assume b's 2nd arg is ok */
if (!(b==lastuse(r+1) && b->op==p->op &&
b->subop==LONG))
return (q);
delnode(b); redunm++;
}
if (p->op==PUSH) {
if (q->subop == DOUBLE) {
p->op = PUSHD;
p->code = 0;
} else {
p->op = q->op;
p->code = copy("-(sp)");
}
} else {
p->op = q->op;
skipto(p->code,',');
}
break;
default:
return (q);
}
p->pop = 0;
p->subop = q->subop;
} else
return (q);
setuse(r,0);
if (q->subop == DOUBLE)
setuse(r+1,0);
{ /* undo any effect on uses in the area between p and q,
* as we are going over it again */
register struct node *b;
for (b=p; b!=q; b=b->back) {
for (r=0; r<NUSE; r++) {
if (lastuse(r) == b)
setuse(r,0);
if (useacc == b)
useacc = 0;
}
}
}
return (p->forw); /* make p the next for bflow */
}
/* it's a store to reg which isnt used elsewhere */
if ((p=q->forw)->op == CBR) {
q->op = TSTF;
q->pop = 0;
q->code = 0;
} else {
delnode(q); nst++;
if (p->op ==STF || p->op==TSTF || p->op==PUSHD) {
if (useacc == p)
useacc = 0;
return (p->forw); /* so ldmov can be used on p */
}
}
return (p);
}
/*
* Try to change load/store sequences to movl
*/
ldmov(q)
register struct node *q;
{
register struct node *p;
register char *s, *pcod, *cp;
char *dlsw();
p = q->back;
if (!(useacc==0 && (q->op==STF || q->op==TSTF || q->op==PUSHD) &&
((p->op==LDF && p->subop==q->subop) ||
(p->op==LDFD && q->subop==DOUBLE))))
return (0);
pcod = p->code;
cp = p->code;
/* prepare args for movl/pushl */
if (q->op!=TSTF && q->subop==DOUBLE) {
if (p->op == LDF) {
if ((s = dlsw(p->code)) == NULL)
return (0);
strcpy(line, s);
if (q->op == STF) {
strcat(line, ",");
if ((s = dlsw(q->code)) == NULL)
return (0);
strcat(line, s);
p->op = MOV;
} else
p->op = PUSH;
} else { /* LDFD */
if (q->op == STF) {
if ((s = dlsw(q->code)) == NULL)
return (0);
} else
s = "-(sp)";
strcpy(line, s);
p->op = CLR;
}
p->pop = 0;
p->subop = LONG;
p->code = copy(line);
} else {
if ((p->op == LDF) && (p->subop == DOUBLE) && (indexa(cp)))
return (0);
delnode(p);
}
strcpy(line, pcod);
if (q->op == STF) { /* ldf x; stf y ==> movl x,y */
strcat(line, ",");
strcat(line, q->code);
q->op = MOV;
nst++;
} else if (q->op == TSTF) /* ldf x; tstf ==> tstl x */
q->op = TST;
else /* ldd x; pushd ==> pushl x+4; pushl x */
q->op = PUSH;
q->pop = 0;
q->subop = LONG;
q->code = copy(line);
nld++;
return (1);
}
/*
* Reconstruct the address of
* l.s.w. of a double operand
*/
char *
dlsw(d)
register char *d;
{
register char *s, *t, *c;
register int r;
static char lsw[C2_ASIZE];
if (d[0] == '*' || d[0] == '$')
return (NULL);
if (strncmp(d, "(r", 2) == 0 && isdigit(d[2]))
return (NULL);
t = lsw;
if ((r=isreg(d)) >= 0)
sprintf(t, "r%d", r+1);
else {
for (s=d; *s && *s!='('; *t++ = *s++)
if (*s == '[')
return (NULL);
if (s!=d)
*t++ = '+';
*t++ = '4';
while (*t++ = *s)
if (*s++ == '[' )
return (NULL);
}
return (lsw);
}
checkexpr(p)
register char *p;
{
while (*p && *p != ',') {
if (*p == '+' || *p == '-')
return (1);
*p++;
}
return (0);
}
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