/* char id_dballoc[] = "@(#)dballoc.c 1.1"; * * 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 */ #include #include "f_errno.h" /* 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) /* #define debug YES */ #ifndef debug #define ASSERT(p) #endif #ifdef debug #define ASSERT(p) if(!(p))botch("p");else botch(s) char *s; { fatal(F_ERSYS,s); } #endif 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&&qptr = 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) { fatal(F_ERSYS,"dballoc"); } 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); } 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(nwptr = (s++)->ptr; if(q

=p) (q+(q+nw-p))->ptr = allocx; return(q); }