V7M/src/cmd/mip/allo.c
# include "mfile2"
NODE resc[3];
int busy[REGSZ];
int maxa, mina, maxb, minb;
allo0(){ /* free everything */
register i;
maxa = maxb = -1;
mina = minb = 0;
REGLOOP(i){
busy[i] = 0;
if( rstatus[i] & STAREG ){
if( maxa<0 ) mina = i;
maxa = i;
}
if( rstatus[i] & STBREG ){
if( maxb<0 ) minb = i;
maxb = i;
}
}
}
# define TBUSY 01000
allo( p, q ) NODE *p; struct optab *q; {
register n, i, j;
n = q->needs;
i = 0;
while( n & NACOUNT ){
resc[i].op = REG;
resc[i].rval = freereg( p, n&NAMASK );
resc[i].lval = 0;
resc[i].name[0] = '\0';
n -= NAREG;
++i;
}
while( n & NBCOUNT ){
resc[i].op = REG;
resc[i].rval = freereg( p, n&NBMASK );
resc[i].lval = 0;
resc[i].name[0] = '\0';
n -= NBREG;
++i;
}
if( n & NTMASK ){
resc[i].op = OREG;
resc[i].rval = TMPREG;
if( p->op == STCALL || p->op == STARG || p->op == UNARY STCALL || p->op == STASG ){
resc[i].lval = freetemp( (SZCHAR*p->stsize + (SZINT-1))/SZINT );
}
else {
resc[i].lval = freetemp( (n&NTMASK)/NTEMP );
}
resc[i].name[0] = '\0';
resc[i].lval = BITOOR(resc[i].lval);
++i;
}
/* turn off "temporarily busy" bit */
REGLOOP(j){
busy[j] &= ~TBUSY;
}
for( j=0; j<i; ++j ) if( resc[j].rval < 0 ) return(0);
return(1);
}
freetemp( k ){ /* allocate k integers worth of temp space */
/* we also make the convention that, if the number of words is more than 1,
/* it must be aligned for storing doubles... */
# ifndef BACKTEMP
int t;
if( k>1 ){
SETOFF( tmpoff, ALDOUBLE );
}
t = tmpoff;
tmpoff += k*SZINT;
if( tmpoff > maxoff ) maxoff = tmpoff;
if( tmpoff-baseoff > maxtemp ) maxtemp = tmpoff-baseoff;
return(t);
# else
tmpoff += k*SZINT;
if( k>1 ) {
SETOFF( tmpoff, ALDOUBLE );
}
if( tmpoff > maxoff ) maxoff = tmpoff;
if( tmpoff-baseoff > maxtemp ) maxtemp = tmpoff-baseoff;
return( -tmpoff );
# endif
}
freereg( p, n ) NODE *p; {
/* allocate a register of type n */
/* p gives the type, if floating */
register j;
/* not general; means that only one register (the result) OK for call */
if( callop(p->op) ){
j = callreg(p);
if( usable( p, n, j ) ) return( j );
/* have allocated callreg first */
}
j = p->rall & ~MUSTDO;
if( j!=NOPREF && usable(p,n,j) ){ /* needed and not allocated */
return( j );
}
if( n&NAMASK ){
for( j=mina; j<=maxa; ++j ) if( rstatus[j]&STAREG ){
if( usable(p,n,j) ){
return( j );
}
}
}
else if( n &NBMASK ){
for( j=minb; j<=maxb; ++j ) if( rstatus[j]&STBREG ){
if( usable(p,n,j) ){
return(j);
}
}
}
return( -1 );
}
usable( p, n, r ) NODE *p; {
/* decide if register r is usable in tree p to satisfy need n */
/* checks, for the moment */
if( !istreg(r) ) cerror( "usable asked about nontemp register" );
if( busy[r] > 1 ) return(0);
if( isbreg(r) ){
if( n&NAMASK ) return(0);
}
else {
if( n & NBMASK ) return(0);
}
if( (n&NAMASK) && (szty(p->type) == 2) ){ /* only do the pairing for real regs */
if( r&01 ) return(0);
if( !istreg(r+1) ) return( 0 );
if( busy[r+1] > 1 ) return( 0 );
if( busy[r] == 0 && busy[r+1] == 0 ||
busy[r+1] == 0 && shareit( p, r, n ) ||
busy[r] == 0 && shareit( p, r+1, n ) ){
busy[r] |= TBUSY;
busy[r+1] |= TBUSY;
return(1);
}
else return(0);
}
if( busy[r] == 0 ) {
busy[r] |= TBUSY;
return(1);
}
/* busy[r] is 1: is there chance for sharing */
return( shareit( p, r, n ) );
}
shareit( p, r, n ) NODE *p; {
/* can we make register r available by sharing from p
given that the need is n */
if( (n&(NASL|NBSL)) && ushare( p, 'L', r ) ) return(1);
if( (n&(NASR|NBSR)) && ushare( p, 'R', r ) ) return(1);
return(0);
}
ushare( p, f, r ) NODE *p; {
/* can we find a register r to share on the left or right
(as f=='L' or 'R', respectively) of p */
p = getlr( p, f );
if( p->op == UNARY MUL ) p = p->left;
if( p->op == OREG ){
if( R2TEST(p->rval) ){
return( r==R2UPK1(p->rval) || r==R2UPK2(p->rval) );
}
else return( r == p->rval );
}
if( p->op == REG ){
return( r == p->rval || ( szty(p->type) == 2 && r==p->rval+1 ) );
}
return(0);
}
recl2( p ) register NODE *p; {
register r = p->rval;
if( p->op == REG ) rfree( r, p->type );
else if( p->op == OREG ) {
if( R2TEST( r ) ) {
rfree( R2UPK1( r ), PTR+INT );
rfree( R2UPK2( r ), INT );
}
else {
rfree( r, PTR+INT );
}
}
}
int rdebug = 0;
rfree( r, t ) TWORD t; {
/* mark register r free, if it is legal to do so */
/* t is the type */
if( rdebug ){
printf( "rfree( %s ), size %d\n", rnames[r], szty(t) );
}
if( istreg(r) ){
if( --busy[r] < 0 ) cerror( "register overfreed");
if( szty(t) == 2 ){
if( (r&01) || (istreg(r)^istreg(r+1)) ) cerror( "illegal free" );
if( --busy[r+1] < 0 ) cerror( "register overfreed" );
}
}
}
rbusy(r,t) TWORD t; {
/* mark register r busy */
/* t is the type */
if( rdebug ){
printf( "rbusy( %s ), size %d\n", rnames[r], szty(t) );
}
if( istreg(r) ) ++busy[r];
if( szty(t) == 2 ){
if( istreg(r+1) ) ++busy[r+1];
if( (r&01) || (istreg(r)^istreg(r+1)) ) cerror( "illegal register pair freed" );
}
}
rwprint( rw ){ /* print rewriting rule */
register i, flag;
static char * rwnames[] = {
"RLEFT",
"RRIGHT",
"RESC1",
"RESC2",
"RESC3",
0,
};
if( rw == RNULL ){
printf( "RNULL" );
return;
}
if( rw == RNOP ){
printf( "RNOP" );
return;
}
flag = 0;
for( i=0; rwnames[i]; ++i ){
if( rw & (1<<i) ){
if( flag ) printf( "|" );
++flag;
printf( rwnames[i] );
}
}
}
reclaim( p, rw, cookie ) NODE *p; {
register NODE **qq;
register NODE *q;
register i;
NODE *recres[5];
struct respref *r;
/* get back stuff */
if( rdebug ){
printf( "reclaim( %o, ", p );
rwprint( rw );
printf( ", " );
prcook( cookie );
printf( " )\n" );
}
if( rw == RNOP || ( p->op==FREE && rw==RNULL ) ) return; /* do nothing */
walkf( p, recl2 );
if( callop(p->op) ){
/* check that all scratch regs are free */
callchk(p); /* ordinarily, this is the same as allchk() */
}
if( rw == RNULL || (cookie&FOREFF) ){ /* totally clobber, leaving nothing */
tfree(p);
return;
}
/* handle condition codes specially */
if( (cookie & FORCC) && (rw&RESCC)) {
/* result is CC register */
tfree(p);
p->op = CCODES;
p->lval = 0;
p->rval = 0;
return;
}
/* locate results */
qq = recres;
if( rw&RLEFT) *qq++ = getlr(p,'L');
if( rw&RRIGHT ) *qq++ = getlr(p,'R');
if( rw&RESC1 ) *qq++ = &resc[0];
if( rw&RESC2 ) *qq++ = &resc[1];
if( rw&RESC3 ) *qq++ = &resc[2];
if( qq == recres ){
cerror( "illegal reclaim");
}
*qq = NIL;
/* now, select the best result, based on the cookie */
for( r=respref; r->cform; ++r ){
if( cookie & r->cform ){
for( qq=recres; (q= *qq) != NIL; ++qq ){
if( tshape( q, r->mform ) ) goto gotit;
}
}
}
/* we can't do it; die */
cerror( "cannot reclaim");
gotit:
if( p->op == STARG ) p = p->left; /* STARGs are still STARGS */
q->type = p->type; /* to make multi-register allocations work */
/* maybe there is a better way! */
q = tcopy(q);
tfree(p);
p->op = q->op;
p->lval = q->lval;
p->rval = q->rval;
for( i=0; i<NCHNAM; ++i )
p->name[i] = q->name[i];
q->op = FREE;
/* if the thing is in a register, adjust the type */
switch( p->op ){
case REG:
if( !rtyflg ){
/* the C language requires intermediate results to change type */
/* this is inefficient or impossible on some machines */
/* the "T" command in match supresses this type changing */
if( p->type == CHAR || p->type == SHORT ) p->type = INT;
else if( p->type == UCHAR || p->type == USHORT ) p->type = UNSIGNED;
else if( p->type == FLOAT ) p->type = DOUBLE;
}
if( ! (p->rall & MUSTDO ) ) return; /* unless necessary, ignore it */
i = p->rall & ~MUSTDO;
if( i & NOPREF ) return;
if( i != p->rval ){
if( busy[i] || ( szty(p->type)==2 && busy[i+1] ) ){
cerror( "faulty register move" );
}
rbusy( i, p->type );
rfree( p->rval, p->type );
rmove( i, p->rval, p->type );
p->rval = i;
}
case OREG:
if( R2TEST(p->rval) ){
int r1, r2;
r1 = R2UPK1(p->rval);
r2 = R2UPK2(p->rval);
if( (busy[r1]>1 && istreg(r1)) || (busy[r2]>1 && istreg(r2)) ){
cerror( "potential register overwrite" );
}
}
else if( (busy[p->rval]>1) && istreg(p->rval) ) cerror( "potential register overwrite");
}
}
ncopy( q, p ) NODE *p, *q; {
/* copy the contents of p into q, without any feeling for
the contents */
/* this code assume that copying rval and lval does the job;
in general, it might be necessary to special case the
operator types */
register i;
q->op = p->op;
q->rall = p->rall;
q->type = p->type;
q->lval = p->lval;
q->rval = p->rval;
for( i=0; i<NCHNAM; ++i ) q->name[i] = p->name[i];
}
NODE *
tcopy( p ) register NODE *p; {
/* make a fresh copy of p */
register NODE *q;
register r;
ncopy( q=talloc(), p );
r = p->rval;
if( p->op == REG ) rbusy( r, p->type );
else if( p->op == OREG ) {
if( R2TEST(r) ){
rbusy( R2UPK1(r), PTR+INT );
rbusy( R2UPK2(r), INT );
}
else {
rbusy( r, PTR+INT );
}
}
switch( optype(q->op) ){
case BITYPE:
q->right = tcopy(p->right);
case UTYPE:
q->left = tcopy(p->left);
}
return(q);
}
allchk(){
/* check to ensure that all register are free */
register i;
REGLOOP(i){
if( istreg(i) && busy[i] ){
cerror( "register allocation error");
}
}
}