2.11BSD/src/usr.bin/f77/misc.c
#include "defs"
#include "string_defs"
cpn(n, a, b)
register int n;
register char *a, *b;
{
while(--n >= 0)
*b++ = *a++;
}
eqn(n, a, b)
register int n;
register char *a, *b;
{
while(--n >= 0)
if(*a++ != *b++)
return(NO);
return(YES);
}
cmpstr(a, b, la, lb) /* compare two strings */
register char *a, *b;
ftnint la, lb;
{
register char *aend, *bend;
aend = a + la;
bend = b + lb;
if(la <= lb)
{
while(a < aend)
if(*a != *b)
return( *a - *b );
else
{ ++a; ++b; }
while(b < bend)
if(*b != ' ')
return(' ' - *b);
else
++b;
}
else
{
while(b < bend)
if(*a != *b)
return( *a - *b );
else
{ ++a; ++b; }
while(a < aend)
if(*a != ' ')
return(*a - ' ');
else
++a;
}
return(0);
}
chainp hookup(x,y)
register chainp x, y;
{
register chainp p;
if(x == NULL)
return(y);
for(p = x ; p->nextp ; p = p->nextp)
;
p->nextp = y;
return(x);
}
struct listblock *mklist(p)
chainp p;
{
register struct listblock *q;
q = ALLOC(listblock);
q->tag = TLIST;
q->listp = p;
return(q);
}
chainp mkchain(p,q)
register int p, q;
{
register chainp r;
if(chains)
{
r = chains;
chains = chains->nextp;
}
else
r = ALLOC(chain);
r->datap = p;
r->nextp = q;
return(r);
}
char * varstr(n, s)
register int n;
register char *s;
{
register int i;
static char name[XL+1];
for(i=0; i<n && *s!=' ' && *s!='\0' ; ++i)
name[i] = *s++;
name[i] = '\0';
return( name );
}
char * varunder(n, s)
register int n;
register char *s;
{
register int i;
static char name[XL+1];
for(i=0; i<n && *s!=' ' && *s!='\0' ; ++i)
name[i] = *s++;
#if TARGET != GCOS
name[i++] = '_';
#endif
name[i] = '\0';
return( name );
}
char * nounder(n, s)
register int n;
register char *s;
{
register int i;
static char name[XL+1];
for(i=0; i<n && *s!=' ' && *s!='\0' ; ++s)
if(*s != '_')
name[i++] = *s;
name[i] = '\0';
return( name );
}
char *copyn(n, s)
register int n;
register char *s;
{
register char *p, *q;
p = q = ckalloc(n);
while(--n >= 0)
*q++ = *s++;
return(p);
}
char *copys(s)
char *s;
{
return( copyn( strlen(s)+1 , s) );
}
ftnint convci(n, s)
register int n;
register char *s;
{
ftnint sum;
sum = 0;
while(n-- > 0)
sum = 10*sum + (*s++ - '0');
return(sum);
}
char *convic(n)
ftnint n;
{
static char s[20];
register char *t;
s[19] = '\0';
t = s+19;
do {
*--t = '0' + n%10;
n /= 10;
} while(n > 0);
return(t);
}
double convcd(n, s)
int n;
register char *s;
{
double atof();
char v[100];
register char *t;
if(n > 90)
{
error("too many digits in floating constant",0,0,ERR);
n = 90;
}
for(t = v ; n-- > 0 ; s++)
*t++ = (*s=='d' ? 'e' : *s);
*t = '\0';
return( atof(v) );
}
struct nameblock *mkname(l, s)
int l;
register char *s;
{
struct hashentry *hp;
int hash;
register struct nameblock *q;
register int i;
char n[VL];
hash = 0;
for(i = 0 ; i<l && *s!='\0' ; ++i)
{
hash += *s;
n[i] = *s++;
}
hash %= MAXHASH;
while( i < VL )
n[i++] = ' ';
hp = hashtab + hash;
while(q = hp->varp)
if( hash==hp->hashval && eqn(VL,n,q->varname) )
return(q);
else if(++hp >= lasthash)
hp = hashtab;
if(++nintnames >= MAXHASH-1)
error("hash table full",0,0,FATAL);
hp->varp = q = ALLOC(nameblock);
hp->hashval = hash;
q->tag = TNAME;
cpn(VL, n, q->varname);
return(q);
}
struct labelblock *mklabel(l)
ftnint l;
{
register struct labelblock *lp;
if(l == 0)
return(0);
for(lp = labeltab ; lp < highlabtab ; ++lp)
if(lp->stateno == l)
return(lp);
if(++highlabtab >= labtabend)
error("too many statement numbers",0,0,FATAL);
lp->stateno = l;
lp->labelno = newlabel();
lp->blklevel = 0;
lp->labused = NO;
lp->labdefined = NO;
lp->labinacc = NO;
lp->labtype = LABUNKNOWN;
return(lp);
}
newlabel()
{
return( ++lastlabno );
}
/* find or put a name in the external symbol table */
struct extsym *mkext(s)
char *s;
{
int i;
register char *t;
char n[XL];
struct extsym *p;
i = 0;
t = n;
while(i<XL && *s)
*t++ = *s++;
while(t < n+XL)
*t++ = ' ';
for(p = extsymtab ; p<nextext ; ++p)
if(eqn(XL, n, p->extname))
return( p );
if(nextext >= lastext)
error("too many external symbols",0,0,FATAL);
cpn(XL, n, nextext->extname);
nextext->extstg = STGUNKNOWN;
nextext->extsave = NO;
nextext->extp = 0;
nextext->extleng = 0;
nextext->maxleng = 0;
nextext->extinit = NO;
return( nextext++ );
}
struct addrblock *builtin(t, s)
int t;
char *s;
{
register struct extsym *p;
register struct addrblock *q;
p = mkext(s);
if(p->extstg == STGUNKNOWN)
p->extstg = STGEXT;
else if(p->extstg != STGEXT)
{
error("improper use of builtin %s", s,0,ERR1);
return(0);
}
q = ALLOC(addrblock);
q->tag = TADDR;
q->vtype = t;
q->vclass = CLPROC;
q->vstg = STGEXT;
q->memno = p - extsymtab;
return(q);
}
frchain(p)
register chainp *p;
{
register chainp q;
if(p==0 || *p==0)
return;
for(q = *p; q->nextp ; q = q->nextp)
;
q->nextp = chains;
chains = *p;
*p = 0;
}
ptr cpblock(n,p)
register int n;
register char * p;
{
register char *q;
ptr q0;
q = q0 = ckalloc(n);
while(n-- > 0)
*q++ = *p++;
return(q0);
}
max(a,b)
int a,b;
{
return( a>b ? a : b);
}
ftnint lmax(a, b)
ftnint a, b;
{
return( a>b ? a : b);
}
ftnint lmin(a, b)
ftnint a, b;
{
return(a < b ? a : b);
}
maxtype(t1, t2)
int t1, t2;
{
int t;
t = max(t1, t2);
if(t==TYCOMPLEX && (t1==TYDREAL || t2==TYDREAL) )
t = TYDCOMPLEX;
return(t);
}
/* return log base 2 of n if n a power of 2; otherwise -1 */
#if FAMILY == SCJ
log2(n)
ftnint n;
{
int k;
/* trick based on binary representation */
if(n<=0 || (n & (n-1))!=0)
return(-1);
for(k = 0 ; n >>= 1 ; ++k)
;
return(k);
}
#endif
frrpl()
{
struct rplblock *rp;
while(rpllist)
{
rp = rpllist->nextp;
free(rpllist);
rpllist = rp;
}
}
popstack(p)
register chainp *p;
{
register chainp q;
if(p==NULL || *p==NULL)
error("popstack: stack empty",0,0,FATAL);
q = (*p)->nextp;
free(*p);
*p = q;
}
struct exprblock *callk(type, name, args)
int type;
char *name;
chainp args;
{
register struct exprblock *p;
p = mkexpr(OPCALL, builtin(type,name), args);
p->vtype = type;
return(p);
}
struct exprblock *call4(type, name, arg1, arg2, arg3, arg4)
int type;
char *name;
expptr arg1, arg2, arg3, arg4;
{
struct listblock *args;
args = mklist( mkchain(arg1, mkchain(arg2, mkchain(arg3, mkchain(arg4, NULL)) ) ) );
return( callk(type, name, args) );
}
struct exprblock *call3(type, name, arg1, arg2, arg3)
int type;
char *name;
expptr arg1, arg2, arg3;
{
struct listblock *args;
args = mklist( mkchain(arg1, mkchain(arg2, mkchain(arg3, NULL) ) ) );
return( callk(type, name, args) );
}
struct exprblock *call2(type, name, arg1, arg2)
int type;
char *name;
expptr arg1, arg2;
{
struct listblock *args;
args = mklist( mkchain(arg1, mkchain(arg2, NULL) ) );
return( callk(type,name, args) );
}
struct exprblock *call1(type, name, arg)
int type;
char *name;
expptr arg;
{
return( callk(type,name, mklist(mkchain(arg,0)) ));
}
struct exprblock *call0(type, name)
int type;
char *name;
{
return( callk(type, name, NULL) );
}
struct impldoblock *mkiodo(dospec, list)
chainp dospec, list;
{
register struct impldoblock *q;
q = ALLOC(impldoblock);
q->tag = TIMPLDO;
q->varnp = dospec;
q->datalist = list;
return(q);
}
ptr ckalloc(n)
register int n;
{
register ptr p;
ptr calloc();
if( p = calloc(1, (unsigned) n) )
return(p);
error("out of memory",0,0,FATAL);
/* NOTREACHED */
}
isaddr(p)
register expptr p;
{
if(p->tag == TADDR)
return(YES);
if(p->tag == TEXPR)
switch(p->opcode)
{
case OPCOMMA:
return( isaddr(p->rightp) );
case OPASSIGN:
case OPPLUSEQ:
return( isaddr(p->leftp) );
}
return(NO);
}
addressable(p)
register expptr p;
{
switch(p->tag)
{
case TCONST:
return(YES);
case TADDR:
return( addressable(p->memoffset) );
default:
return(NO);
}
}
hextoi(c)
register int c;
{
register char *p;
static char *p0 = "0123456789abcdef";
for(p = p0 ; *p ; ++p)
if(*p == c)
return( p-p0 );
return(16);
}