V7/usr/src/libI77/dballoc.c
#define debug YES
#ifndef debug
#define ASSERT(p)
#endif
#ifdef debug
#define ASSERT(p) if(!(p))botch("p");else
botch(s)
char *s;
{
printf("assertion botched: %s\n",s);
abort();
}
#endif
/* C storage allocator
* circular first-fit strategy
* works with noncontiguous, but monotonically linked, arena
* each block is preceded by a ptr to the (pointer of)
* the next following block
* blocks are exact number of words long; BUSY
* bit in ptr is 1 for busy, 0 for idle
* gaps in arena are merely noted as busy blocks
* last block of arena (pointed to by alloct) is empty and
* has a pointer to first
* idle blocks are coalesced during space search
*/
/* all these defines must be powers of 2 */
#define WORD sizeof(struct store)
#define BLOCK 1024
#define BUSY 1
#define NULL 0
#define testbusy(p) ((int)(p)&BUSY)
#define setbusy(p) (struct store *)((int)(p)+BUSY)
#define clearbusy(p) (struct store *)((int)(p)&~BUSY)
struct store { struct store *ptr; };
struct store allocs[] = { /*initial arena*/
setbusy(&allocs[1].ptr),
setbusy(&allocs[0].ptr)
};
struct store *allocp = &allocs[1]; /*search ptr*/
struct store *alloct = &allocs[1]; /*arena top*/
struct store *allocx = 0; /*for benefit of realloc*/
struct store *sbrk();
struct store *
malloc(nbytes)
unsigned nbytes;
{
struct store *p, *q;
register nw;
static temp; /*coroutines assume no auto*/
#ifdef verbose
printf("malloc(%d) ",nbytes);
#endif
nw = (nbytes+2*WORD-1)/WORD;
ASSERT(allocp>allocs && allocp<=alloct);
for(p=allocp; ; ) {
for(temp=0; ; ) {
if(!testbusy(p->ptr)) {
while(!testbusy((q=p->ptr)->ptr)) {
ASSERT(q>p&&q<alloct);
p->ptr = q->ptr;
}
if(q>=p+nw && p+nw>=p)
goto found;
}
q = p;
p = clearbusy(p->ptr);
if(p>q)
ASSERT(p<=alloct);
else if(q!=alloct || p!=allocs) {
write(2,"corrupt arena\n",14);
#ifdef debug
abort();
#endif
exit(0175);
} else if(++temp>1)
break;
}
temp = (nw+BLOCK/WORD)&~(BLOCK/WORD-1);
q = sbrk(temp*WORD); /*SYSDEP*/
if((int)q == -1)
return(NULL);
ASSERT(q>alloct);
alloct->ptr = q;
if(q!=alloct+1)
alloct->ptr = setbusy(alloct->ptr);
alloct = q->ptr = q+temp-1;
alloct->ptr = setbusy(allocs);
}
found:
allocp = p + nw;
ASSERT(allocp<=alloct);
if(q>allocp) {
allocx = allocp->ptr;
allocp->ptr = p->ptr;
}
p->ptr = setbusy(allocp);
#ifdef verbose
printf("= %o\n",p+1);
#endif
return(p+1);
}
/* freeing strategy tuned for LIFO allocation
*/
free(p)
struct store *p;
{
struct store *savep=p;
#ifdef verbose
printf("free(%o)\n",p);
#endif
ASSERT(p>clearbusy(allocs[1].ptr)&&p<=alloct);
allocp = --p;
ASSERT(testbusy(p->ptr));
p->ptr = clearbusy(p->ptr);
ASSERT(p->ptr > allocp && p->ptr <= alloct);
}
char *calloc(nbytes,count)
{ char *c;
c=(char *)malloc(nbytes*count);
return(c);
}
/*
ahist(s) char *s;
{ char **ap;
printf("%s allocp %o alloct %o\n",s,allocp,alloct);
for(ap= allocs;ap<alloct;ap= *ap&~BUSY)
if(*ap&BUSY) printf("%o ",ap);
printf("\n");
}
*/
struct store *
realloc(p, nbytes)
register struct store *p;
unsigned nbytes;
{
register struct store *q;
struct store *s, *t;
register unsigned nw;
unsigned onw;
onw = p[-1].ptr - p;
q = malloc(nbytes);
if(q==NULL || q==p)
return(q);
s = p;
t = q;
nw = (nbytes+WORD-1)/WORD;
if(nw<onw)
onw = nw;
while(onw--!=0)
(t++)->ptr = (s++)->ptr;
if(q<p && q+nw>=p)
(q+(q+nw-p))->ptr = allocx;
return(q);
}