1997-01-12 22:11:37 +03:00
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/* $NetBSD: alloc.c,v 1.2 1997/01/12 19:11:38 tls Exp $
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1996-09-22 03:35:13 +04:00
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/*
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* area-based allocation built on malloc/free
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*/
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#include "sh.h"
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#ifdef MEM_DEBUG
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# undef alloc
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# undef aresize
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# undef afree
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#endif /* MEM_DEBUG */
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#define ICELLS 100 /* number of Cells in small Block */
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typedef union Cell Cell;
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typedef struct Block Block;
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/*
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* The Cells in a Block are organized as a set of objects.
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* Each object (pointed to by dp) begins with a size in (dp-1)->size,
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* followed with "size" data Cells. Free objects are
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* linked together via dp->next.
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*/
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union Cell {
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size_t size;
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Cell *next;
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struct {int _;} junk; /* alignment */
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};
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struct Block {
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Block *next; /* list of Blocks in Area */
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Cell *freelist; /* object free list */
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Cell *last; /* &b.cell[size] */
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Cell cell [1]; /* [size] Cells for allocation */
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};
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static Block aempty = {&aempty, aempty.cell, aempty.cell};
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/* create empty Area */
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Area *
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ainit(ap)
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register Area *ap;
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{
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ap->freelist = &aempty;
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return ap;
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}
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/* free all object in Area */
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void
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afreeall(ap)
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register Area *ap;
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{
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register Block *bp;
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register Block *tmp;
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bp = ap->freelist;
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if (bp != NULL && bp != &aempty) {
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do {
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tmp = bp->next;
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free((void*)bp);
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bp = tmp;
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} while (bp != ap->freelist);
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ap->freelist = &aempty;
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}
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}
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/* allocate object from Area */
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void *
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alloc(size, ap)
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size_t size;
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register Area *ap;
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{
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int cells, split;
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register Block *bp;
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register Cell *dp, *fp, *fpp;
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if (size <= 0) {
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aerror(ap, "allocate bad size");
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return NULL;
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}
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cells = (unsigned)(size - 1) / sizeof(Cell) + 1;
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/* find Cell large enough */
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for (bp = ap->freelist; ; bp = bp->next) {
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for (fpp = NULL, fp = bp->freelist;
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fp != bp->last; fpp = fp, fp = fpp->next)
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if ((fp-1)->size >= cells)
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goto Found;
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/* wrapped around Block list, create new Block */
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if (bp->next == ap->freelist) {
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bp = (Block*) malloc(offsetof(Block, cell[ICELLS])
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+ sizeof(bp->cell[0]) * cells);
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if (bp == NULL) {
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aerror(ap, "cannot allocate");
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return NULL;
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}
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if (ap->freelist == &aempty)
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bp->next = bp;
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else {
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bp->next = ap->freelist->next;
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ap->freelist->next = bp;
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}
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bp->last = bp->cell + ICELLS + cells;
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fp = bp->freelist = bp->cell + 1; /* initial free list */
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(fp-1)->size = ICELLS + cells - 1;
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fp->next = bp->last;
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fpp = NULL;
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break;
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}
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}
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Found:
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ap->freelist = bp;
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dp = fp; /* allocated object */
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split = (dp-1)->size - cells;
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if (split < 0)
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aerror(ap, "allocated object too small");
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if (--split <= 0) { /* allocate all */
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fp = fp->next;
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} else { /* allocate head, free tail */
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(fp-1)->size = cells;
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fp += cells + 1;
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(fp-1)->size = split;
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fp->next = dp->next;
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}
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if (fpp == NULL)
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bp->freelist = fp;
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else
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fpp->next = fp;
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return (void*) dp;
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}
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/* change size of object -- like realloc */
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void *
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aresize(ptr, size, ap)
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register void *ptr;
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size_t size;
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Area *ap;
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{
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int cells;
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register Cell *dp = (Cell*) ptr;
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if (size <= 0) {
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aerror(ap, "allocate bad size");
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return NULL;
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}
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cells = (unsigned)(size - 1) / sizeof(Cell) + 1;
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if (dp == NULL || (dp-1)->size < cells) { /* enlarge object */
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/* XXX check for available adjacent free block */
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ptr = alloc(size, ap);
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if (dp != NULL) {
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memcpy(ptr, dp, (dp-1)->size * sizeof(Cell));
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afree((void *) dp, ap);
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}
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} else { /* shrink object */
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int split;
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split = (dp-1)->size - cells;
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if (--split <= 0) /* cannot split */
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;
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else { /* shrink head, free tail */
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(dp-1)->size = cells;
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dp += cells + 1;
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(dp-1)->size = split;
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afree((void*)dp, ap);
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}
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}
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return (void*) ptr;
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}
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void
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afree(ptr, ap)
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void *ptr;
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register Area *ap;
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{
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register Block *bp;
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register Cell *fp, *fpp;
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register Cell *dp = (Cell*)ptr;
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/* find Block containing Cell */
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for (bp = ap->freelist; ; bp = bp->next) {
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if (bp->cell <= dp && dp < bp->last)
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break;
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if (bp->next == ap->freelist) {
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aerror(ap, "freeing with invalid area");
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return;
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}
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}
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/* find position in free list */
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for (fpp = NULL, fp = bp->freelist; fp < dp; fpp = fp, fp = fpp->next)
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;
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if (fp == dp) {
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aerror(ap, "freeing free object");
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return;
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}
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/* join object with next */
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if (dp + (dp-1)->size == fp-1) { /* adjacent */
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(dp-1)->size += (fp-1)->size + 1;
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dp->next = fp->next;
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} else /* non-adjacent */
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dp->next = fp;
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/* join previous with object */
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if (fpp == NULL)
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bp->freelist = dp;
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else if (fpp + (fpp-1)->size == dp-1) { /* adjacent */
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(fpp-1)->size += (dp-1)->size + 1;
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fpp->next = dp->next;
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} else /* non-adjacent */
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fpp->next = dp;
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}
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#if DEBUG_ALLOC
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void
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aprint(ap, ptr, size)
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register Area *ap;
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void *ptr;
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size_t size;
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{
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Block *bp;
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if (!ap)
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shellf("aprint: null area pointer\n");
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else if (!(bp = ap->freelist))
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shellf("aprint: null area freelist\n");
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else if (bp == &aempty)
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shellf("aprint: area is empty\n");
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else {
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int i;
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Cell *fp;
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for (i = 0; !i || bp != ap->freelist; bp = bp->next, i++) {
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if (ptr) {
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void *eptr = (void *) (((char *) ptr) + size);
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/* print block only if it overlaps ptr/size */
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if (!((ptr >= (void *) bp
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&& ptr <= (void *) bp->last)
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|| (eptr >= (void *) bp
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&& eptr <= (void *) bp->last)))
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continue;
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shellf("aprint: overlap of 0x%p .. 0x%p\n",
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ptr, eptr);
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}
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shellf("aprint: block %2d: 0x%p .. 0x%p (%d)\n", i,
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bp->cell, bp->last,
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(char *) bp->last - (char *) bp->cell);
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for (fp = bp->freelist; fp != bp->last; fp = fp->next)
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shellf(
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"aprint: 0x%p .. 0x%p (%d) free\n",
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(fp-1), (fp-1) + (fp-1)->size,
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(fp-1)->size * sizeof(Cell));
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}
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}
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}
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#endif /* DEBUG_ALLOC */
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#ifdef TEST_ALLOC
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Area a;
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main(int argc, char **argv) {
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int i;
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char *p [9];
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ainit(&a);
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for (i = 0; i < 9; i++) {
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p[i] = alloc(124, &a);
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printf("alloc: %x\n", p[i]);
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}
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for (i = 1; i < argc; i++)
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afree(p[atoi(argv[i])], &a);
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afreeall(&a);
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return 0;
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}
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void aerror(Area *ap, const char *msg) {
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abort();
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}
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#endif
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