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754 lines
20 KiB
C
754 lines
20 KiB
C
/*
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* Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers
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* Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved.
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*
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* THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED
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* OR IMPLIED. ANY USE IS AT YOUR OWN RISK.
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*
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* Permission is hereby granted to use or copy this program
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* for any purpose, provided the above notices are retained on all copies.
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* Permission to modify the code and to distribute modified code is granted,
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* provided the above notices are retained, and a notice that the code was
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* modified is included with the above copyright notice.
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*/
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/* Boehm, February 15, 1996 2:41 pm PST */
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#include <stdio.h>
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#include "gc_priv.h"
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signed_word GC_mem_found = 0;
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/* Number of words of memory reclaimed */
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# ifdef FIND_LEAK
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static void report_leak(p, sz)
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ptr_t p;
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word sz;
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{
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if (GC_debugging_started && GC_has_debug_info(p)) {
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/* only print if object has some debugging info attached. */
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if (HDR(p) -> hb_obj_kind == PTRFREE) {
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GC_err_printf0("Leaked atomic object at:\n");
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} else {
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GC_err_printf0("Leaked composite object at:\n");
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}
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GC_print_obj(p);
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} else {
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#ifdef MACOS
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/* no debug info, so at least try for a type name. */
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/* extern const char* getTypeName(void* ptr);
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GC_err_printf3("0x%08lX <%s> (%ld)\n", p, getTypeName(p),
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(unsigned long)WORDS_TO_BYTES(sz)); */
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#else
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GC_err_printf2("0x%lx (appr. size = %ld)\n",
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(unsigned long)p,
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(unsigned long)WORDS_TO_BYTES(sz));
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#endif
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}
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}
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# define FOUND_FREE(hblk, word_no) \
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if (abort_if_found) { \
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report_leak((ptr_t)hblk + WORDS_TO_BYTES(word_no), \
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HDR(hblk) -> hb_sz); \
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}
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# else
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# define FOUND_FREE(hblk, word_no)
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# endif
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/*
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* reclaim phase
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*
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*/
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/*
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* Test whether a block is completely empty, i.e. contains no marked
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* objects. This does not require the block to be in physical
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* memory.
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*/
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GC_bool GC_block_empty(hhdr)
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register hdr * hhdr;
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{
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register word *p = (word *)(&(hhdr -> hb_marks[0]));
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register word * plim =
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(word *)(&(hhdr -> hb_marks[MARK_BITS_SZ]));
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while (p < plim) {
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if (*p++) return(FALSE);
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}
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return(TRUE);
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}
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# ifdef GATHERSTATS
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# define INCR_WORDS(sz) n_words_found += (sz)
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# else
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# define INCR_WORDS(sz)
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# endif
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/*
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* Restore unmarked small objects in h of size sz to the object
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* free list. Returns the new list.
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* Clears unmarked objects.
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*/
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/*ARGSUSED*/
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ptr_t GC_reclaim_clear(hbp, hhdr, sz, list, abort_if_found)
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register struct hblk *hbp; /* ptr to current heap block */
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register hdr * hhdr;
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GC_bool abort_if_found; /* Abort if a reclaimable object is found */
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register ptr_t list;
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register word sz;
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{
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register int word_no;
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register word *p, *q, *plim;
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# ifdef GATHERSTATS
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register int n_words_found = 0;
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# endif
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p = (word *)(hbp->hb_body);
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word_no = HDR_WORDS;
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plim = (word *)((((word)hbp) + HBLKSIZE)
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- WORDS_TO_BYTES(sz));
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/* go through all words in block */
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while( p <= plim ) {
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if( mark_bit_from_hdr(hhdr, word_no) ) {
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p += sz;
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} else {
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FOUND_FREE(hbp, word_no);
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INCR_WORDS(sz);
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#if !defined(FIND_LEAK) || 1
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if (GC_root_size) {
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/* object is available - put on list */
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obj_link(p) = list;
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list = ((ptr_t)p);
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/* Clear object, advance p to next object in the process */
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q = p + sz;
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p++; /* Skip link field */
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while (p < q) {
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*p++ = 0;
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}
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} else {
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/* roots gone, just advance. */
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p += sz;
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}
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#else
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/* let leaks accumulate. */
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p += sz;
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#endif
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}
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word_no += sz;
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}
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# ifdef GATHERSTATS
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GC_mem_found += n_words_found;
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# endif
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return(list);
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}
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#ifndef SMALL_CONFIG
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/*
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* A special case for 2 word composite objects (e.g. cons cells):
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*/
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/*ARGSUSED*/
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ptr_t GC_reclaim_clear2(hbp, hhdr, list, abort_if_found)
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register struct hblk *hbp; /* ptr to current heap block */
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hdr * hhdr;
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GC_bool abort_if_found; /* Abort if a reclaimable object is found */
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register ptr_t list;
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{
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register word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]);
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register word *p, *plim;
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# ifdef GATHERSTATS
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register int n_words_found = 0;
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# endif
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register word mark_word;
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register int i;
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# define DO_OBJ(start_displ) \
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if (!(mark_word & ((word)1 << start_displ))) { \
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FOUND_FREE(hbp, p - (word *)hbp + start_displ); \
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if (GC_root_size) { p[start_displ] = (word)list; \
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list = (ptr_t)(p+start_displ); \
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p[start_displ+1] = 0; \
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INCR_WORDS(2); } \
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}
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p = (word *)(hbp->hb_body);
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plim = (word *)(((word)hbp) + HBLKSIZE);
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/* go through all words in block */
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while( p < plim ) {
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mark_word = *mark_word_addr++;
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for (i = 0; i < WORDSZ; i += 8) {
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DO_OBJ(0);
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DO_OBJ(2);
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DO_OBJ(4);
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DO_OBJ(6);
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p += 8;
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mark_word >>= 8;
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}
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}
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# ifdef GATHERSTATS
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GC_mem_found += n_words_found;
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# endif
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return(list);
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# undef DO_OBJ
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}
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/*
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* Another special case for 4 word composite objects:
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*/
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/*ARGSUSED*/
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ptr_t GC_reclaim_clear4(hbp, hhdr, list, abort_if_found)
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register struct hblk *hbp; /* ptr to current heap block */
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hdr * hhdr;
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GC_bool abort_if_found; /* Abort if a reclaimable object is found */
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register ptr_t list;
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{
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register word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]);
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register word *p, *plim;
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# ifdef GATHERSTATS
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register int n_words_found = 0;
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# endif
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register word mark_word;
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# define DO_OBJ(start_displ) \
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if (!(mark_word & ((word)1 << start_displ))) { \
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FOUND_FREE(hbp, p - (word *)hbp + start_displ); \
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if (GC_root_size) { \
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p[start_displ] = (word)list; \
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list = (ptr_t)(p+start_displ); \
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p[start_displ+1] = 0; \
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p[start_displ+2] = 0; \
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p[start_displ+3] = 0; \
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INCR_WORDS(4); \
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} \
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}
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p = (word *)(hbp->hb_body);
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plim = (word *)(((word)hbp) + HBLKSIZE);
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/* go through all words in block */
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while( p < plim ) {
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mark_word = *mark_word_addr++;
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DO_OBJ(0);
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DO_OBJ(4);
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DO_OBJ(8);
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DO_OBJ(12);
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DO_OBJ(16);
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DO_OBJ(20);
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DO_OBJ(24);
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DO_OBJ(28);
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# if CPP_WORDSZ == 64
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DO_OBJ(32);
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DO_OBJ(36);
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DO_OBJ(40);
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DO_OBJ(44);
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DO_OBJ(48);
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DO_OBJ(52);
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DO_OBJ(56);
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DO_OBJ(60);
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# endif
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p += WORDSZ;
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}
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# ifdef GATHERSTATS
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GC_mem_found += n_words_found;
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# endif
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return(list);
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# undef DO_OBJ
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}
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#endif /* !SMALL_CONFIG */
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/* The same thing, but don't clear objects: */
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/*ARGSUSED*/
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ptr_t GC_reclaim_uninit(hbp, hhdr, sz, list, abort_if_found)
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register struct hblk *hbp; /* ptr to current heap block */
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register hdr * hhdr;
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GC_bool abort_if_found; /* Abort if a reclaimable object is found */
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register ptr_t list;
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register word sz;
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{
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register int word_no;
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register word *p, *plim;
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# ifdef GATHERSTATS
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register int n_words_found = 0;
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# endif
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p = (word *)(hbp->hb_body);
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word_no = HDR_WORDS;
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plim = (word *)((((word)hbp) + HBLKSIZE)
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- WORDS_TO_BYTES(sz));
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/* go through all words in block */
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while( p <= plim ) {
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if( !mark_bit_from_hdr(hhdr, word_no) ) {
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FOUND_FREE(hbp, word_no);
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INCR_WORDS(sz);
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if (GC_root_size) {
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/* object is available - put on list */
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obj_link(p) = list;
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list = ((ptr_t)p);
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}
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}
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p += sz;
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word_no += sz;
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}
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# ifdef GATHERSTATS
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GC_mem_found += n_words_found;
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# endif
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return(list);
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}
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#ifndef SMALL_CONFIG
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/*
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* Another special case for 2 word atomic objects:
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*/
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/*ARGSUSED*/
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ptr_t GC_reclaim_uninit2(hbp, hhdr, list, abort_if_found)
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register struct hblk *hbp; /* ptr to current heap block */
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hdr * hhdr;
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GC_bool abort_if_found; /* Abort if a reclaimable object is found */
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register ptr_t list;
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{
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register word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]);
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register word *p, *plim;
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# ifdef GATHERSTATS
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register int n_words_found = 0;
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# endif
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register word mark_word;
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register int i;
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# define DO_OBJ(start_displ) \
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if (!(mark_word & ((word)1 << start_displ))) { \
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FOUND_FREE(hbp, p - (word *)hbp + start_displ); \
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if (GC_root_size) { \
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p[start_displ] = (word)list; \
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list = (ptr_t)(p+start_displ); \
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INCR_WORDS(2); \
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} \
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}
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p = (word *)(hbp->hb_body);
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plim = (word *)(((word)hbp) + HBLKSIZE);
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/* go through all words in block */
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while( p < plim ) {
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mark_word = *mark_word_addr++;
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for (i = 0; i < WORDSZ; i += 8) {
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DO_OBJ(0);
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DO_OBJ(2);
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DO_OBJ(4);
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DO_OBJ(6);
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p += 8;
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mark_word >>= 8;
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}
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}
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# ifdef GATHERSTATS
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GC_mem_found += n_words_found;
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# endif
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return(list);
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# undef DO_OBJ
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}
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/*
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* Another special case for 4 word atomic objects:
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*/
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/*ARGSUSED*/
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ptr_t GC_reclaim_uninit4(hbp, hhdr, list, abort_if_found)
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register struct hblk *hbp; /* ptr to current heap block */
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hdr * hhdr;
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GC_bool abort_if_found; /* Abort if a reclaimable object is found */
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register ptr_t list;
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{
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register word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]);
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register word *p, *plim;
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# ifdef GATHERSTATS
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register int n_words_found = 0;
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# endif
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register word mark_word;
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# define DO_OBJ(start_displ) \
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if (!(mark_word & ((word)1 << start_displ))) { \
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FOUND_FREE(hbp, p - (word *)hbp + start_displ); \
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if (GC_root_size) { \
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p[start_displ] = (word)list; \
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list = (ptr_t)(p+start_displ); \
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INCR_WORDS(4); \
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} \
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}
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p = (word *)(hbp->hb_body);
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plim = (word *)(((word)hbp) + HBLKSIZE);
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/* go through all words in block */
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while( p < plim ) {
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mark_word = *mark_word_addr++;
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DO_OBJ(0);
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DO_OBJ(4);
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DO_OBJ(8);
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DO_OBJ(12);
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DO_OBJ(16);
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DO_OBJ(20);
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DO_OBJ(24);
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DO_OBJ(28);
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# if CPP_WORDSZ == 64
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DO_OBJ(32);
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DO_OBJ(36);
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DO_OBJ(40);
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DO_OBJ(44);
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DO_OBJ(48);
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DO_OBJ(52);
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DO_OBJ(56);
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DO_OBJ(60);
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# endif
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p += WORDSZ;
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}
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# ifdef GATHERSTATS
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GC_mem_found += n_words_found;
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# endif
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return(list);
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# undef DO_OBJ
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}
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/* Finally the one word case, which never requires any clearing: */
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/*ARGSUSED*/
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ptr_t GC_reclaim1(hbp, hhdr, list, abort_if_found)
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register struct hblk *hbp; /* ptr to current heap block */
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hdr * hhdr;
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GC_bool abort_if_found; /* Abort if a reclaimable object is found */
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register ptr_t list;
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{
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register word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]);
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register word *p, *plim;
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# ifdef GATHERSTATS
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register int n_words_found = 0;
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# endif
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register word mark_word;
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register int i;
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# define DO_OBJ(start_displ) \
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if (!(mark_word & ((word)1 << start_displ))) { \
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FOUND_FREE(hbp, p - (word *)hbp + start_displ); \
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if (GC_root_size) { \
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p[start_displ] = (word)list; \
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list = (ptr_t)(p+start_displ); \
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INCR_WORDS(1); \
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} \
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}
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p = (word *)(hbp->hb_body);
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plim = (word *)(((word)hbp) + HBLKSIZE);
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/* go through all words in block */
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while( p < plim ) {
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mark_word = *mark_word_addr++;
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for (i = 0; i < WORDSZ; i += 4) {
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DO_OBJ(0);
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DO_OBJ(1);
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DO_OBJ(2);
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DO_OBJ(3);
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p += 4;
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mark_word >>= 4;
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}
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}
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# ifdef GATHERSTATS
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GC_mem_found += n_words_found;
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# endif
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return(list);
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# undef DO_OBJ
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}
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#endif /* !SMALL_CONFIG */
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/*
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* Restore unmarked small objects in the block pointed to by hbp
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* to the appropriate object free list.
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* If entirely empty blocks are to be completely deallocated, then
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* caller should perform that check.
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*/
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void GC_reclaim_small_nonempty_block(hbp, abort_if_found)
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register struct hblk *hbp; /* ptr to current heap block */
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int abort_if_found; /* Abort if a reclaimable object is found */
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{
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hdr * hhdr;
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register word sz; /* size of objects in current block */
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register struct obj_kind * ok;
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register ptr_t * flh;
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register int kind;
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hhdr = HDR(hbp);
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sz = hhdr -> hb_sz;
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hhdr -> hb_last_reclaimed = (unsigned short) GC_gc_no;
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kind = hhdr -> hb_obj_kind;
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ok = &GC_obj_kinds[kind];
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flh = &(ok -> ok_freelist[sz]);
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GC_write_hint(hbp);
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if (ok -> ok_init) {
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switch(sz) {
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# ifndef SMALL_CONFIG
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case 1:
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*flh = GC_reclaim1(hbp, hhdr, *flh, abort_if_found);
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break;
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case 2:
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*flh = GC_reclaim_clear2(hbp, hhdr, *flh, abort_if_found);
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break;
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case 4:
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*flh = GC_reclaim_clear4(hbp, hhdr, *flh, abort_if_found);
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break;
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# endif
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default:
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*flh = GC_reclaim_clear(hbp, hhdr, sz, *flh, abort_if_found);
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break;
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}
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} else {
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switch(sz) {
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# ifndef SMALL_CONFIG
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case 1:
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*flh = GC_reclaim1(hbp, hhdr, *flh, abort_if_found);
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break;
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case 2:
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*flh = GC_reclaim_uninit2(hbp, hhdr, *flh, abort_if_found);
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break;
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case 4:
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*flh = GC_reclaim_uninit4(hbp, hhdr, *flh, abort_if_found);
|
|
break;
|
|
# endif
|
|
default:
|
|
*flh = GC_reclaim_uninit(hbp, hhdr, sz, *flh, abort_if_found);
|
|
break;
|
|
}
|
|
}
|
|
if (IS_UNCOLLECTABLE(kind)) GC_set_hdr_marks(hhdr);
|
|
}
|
|
|
|
/*
|
|
* Restore an unmarked large object or an entirely empty blocks of small objects
|
|
* to the heap block free list.
|
|
* Otherwise enqueue the block for later processing
|
|
* by GC_reclaim_small_nonempty_block.
|
|
* If abort_if_found is TRUE, then process any block immediately.
|
|
*/
|
|
void GC_reclaim_block(hbp, abort_if_found)
|
|
register struct hblk *hbp; /* ptr to current heap block */
|
|
word abort_if_found; /* Abort if a reclaimable object is found */
|
|
{
|
|
register hdr * hhdr;
|
|
register word sz; /* size of objects in current block */
|
|
register struct obj_kind * ok;
|
|
struct hblk ** rlh;
|
|
|
|
hhdr = HDR(hbp);
|
|
sz = hhdr -> hb_sz;
|
|
ok = &GC_obj_kinds[hhdr -> hb_obj_kind];
|
|
|
|
if( sz > MAXOBJSZ ) { /* 1 big object */
|
|
if( !mark_bit_from_hdr(hhdr, HDR_WORDS) ) {
|
|
FOUND_FREE(hbp, HDR_WORDS);
|
|
if (GC_root_size) {
|
|
# ifdef GATHERSTATS
|
|
GC_mem_found += sz;
|
|
# endif
|
|
GC_freehblk(hbp);
|
|
}
|
|
}
|
|
} else {
|
|
GC_bool empty = GC_block_empty(hhdr);
|
|
if (abort_if_found) {
|
|
GC_reclaim_small_nonempty_block(hbp, (int)abort_if_found);
|
|
} else if (empty) {
|
|
# ifdef GATHERSTATS
|
|
GC_mem_found += BYTES_TO_WORDS(HBLKSIZE);
|
|
# endif
|
|
GC_freehblk(hbp);
|
|
} else {
|
|
/* group of smaller objects, enqueue the real work */
|
|
rlh = &(ok -> ok_reclaim_list[sz]);
|
|
hhdr -> hb_next = *rlh;
|
|
*rlh = hbp;
|
|
}
|
|
}
|
|
}
|
|
|
|
#if !defined(NO_DEBUGGING)
|
|
/* Routines to gather and print heap block info */
|
|
/* intended for debugging. Otherwise should be called */
|
|
/* with lock. */
|
|
static size_t number_of_blocks;
|
|
static size_t total_bytes;
|
|
|
|
/* Number of set bits in a word. Not performance critical. */
|
|
static int set_bits(n)
|
|
word n;
|
|
{
|
|
register word m = n;
|
|
register int result = 0;
|
|
|
|
while (m > 0) {
|
|
if (m & 1) result++;
|
|
m >>= 1;
|
|
}
|
|
return(result);
|
|
}
|
|
|
|
/* Return the number of set mark bits in the given header */
|
|
int GC_n_set_marks(hhdr)
|
|
hdr * hhdr;
|
|
{
|
|
register int result = 0;
|
|
register int i;
|
|
|
|
for (i = 0; i < MARK_BITS_SZ; i++) {
|
|
result += set_bits(hhdr -> hb_marks[i]);
|
|
}
|
|
return(result);
|
|
}
|
|
|
|
/*ARGSUSED*/
|
|
void GC_print_block_descr(h, dummy)
|
|
struct hblk *h;
|
|
word dummy;
|
|
{
|
|
register hdr * hhdr = HDR(h);
|
|
register size_t bytes = WORDS_TO_BYTES(hhdr -> hb_sz);
|
|
|
|
GC_printf3("(%lu:%lu,%lu)", (unsigned long)(hhdr -> hb_obj_kind),
|
|
(unsigned long)bytes,
|
|
(unsigned long)(GC_n_set_marks(hhdr)));
|
|
bytes += HDR_BYTES + HBLKSIZE-1;
|
|
bytes &= ~(HBLKSIZE-1);
|
|
total_bytes += bytes;
|
|
number_of_blocks++;
|
|
}
|
|
|
|
void GC_print_block_list()
|
|
{
|
|
GC_printf0("(kind(0=ptrfree,1=normal,2=unc.,3=stubborn):size_in_bytes, #_marks_set)\n");
|
|
number_of_blocks = 0;
|
|
total_bytes = 0;
|
|
GC_apply_to_all_blocks(GC_print_block_descr, (word)0);
|
|
GC_printf2("\nblocks = %lu, bytes = %lu\n",
|
|
(unsigned long)number_of_blocks,
|
|
(unsigned long)total_bytes);
|
|
}
|
|
|
|
#endif /* NO_DEBUGGING */
|
|
|
|
/*
|
|
* Do the same thing on the entire heap, after first clearing small object
|
|
* free lists (if we are not just looking for leaks).
|
|
*/
|
|
void GC_start_reclaim(abort_if_found)
|
|
int abort_if_found; /* Abort if a GC_reclaimable object is found */
|
|
{
|
|
int kind;
|
|
|
|
/* Clear reclaim- and free-lists */
|
|
for (kind = 0; kind < GC_n_kinds; kind++) {
|
|
register ptr_t *fop;
|
|
register ptr_t *lim;
|
|
register struct hblk ** rlp;
|
|
register struct hblk ** rlim;
|
|
register struct hblk ** rlist = GC_obj_kinds[kind].ok_reclaim_list;
|
|
|
|
if (rlist == 0) continue; /* This kind not used. */
|
|
if (!abort_if_found) {
|
|
lim = &(GC_obj_kinds[kind].ok_freelist[MAXOBJSZ+1]);
|
|
for( fop = GC_obj_kinds[kind].ok_freelist; fop < lim; fop++ ) {
|
|
*fop = 0;
|
|
}
|
|
} /* otherwise free list objects are marked, */
|
|
/* and its safe to leave them */
|
|
rlim = rlist + MAXOBJSZ+1;
|
|
for( rlp = rlist; rlp < rlim; rlp++ ) {
|
|
*rlp = 0;
|
|
}
|
|
}
|
|
|
|
# ifdef PRINTBLOCKS
|
|
GC_printf0("GC_reclaim: current block sizes:\n");
|
|
GC_print_block_list();
|
|
# endif
|
|
|
|
/* Go through all heap blocks (in hblklist) and reclaim unmarked objects */
|
|
/* or enqueue the block for later processing. */
|
|
GC_apply_to_all_blocks(GC_reclaim_block, (word)abort_if_found);
|
|
|
|
}
|
|
|
|
/*
|
|
* Sweep blocks of the indicated object size and kind until either the
|
|
* appropriate free list is nonempty, or there are no more blocks to
|
|
* sweep.
|
|
*/
|
|
void GC_continue_reclaim(sz, kind)
|
|
word sz; /* words */
|
|
int kind;
|
|
{
|
|
register hdr * hhdr;
|
|
register struct hblk * hbp;
|
|
register struct obj_kind * ok = &(GC_obj_kinds[kind]);
|
|
struct hblk ** rlh = ok -> ok_reclaim_list;
|
|
ptr_t *flh = &(ok -> ok_freelist[sz]);
|
|
|
|
if (rlh == 0) return; /* No blocks of this kind. */
|
|
rlh += sz;
|
|
while ((hbp = *rlh) != 0) {
|
|
hhdr = HDR(hbp);
|
|
*rlh = hhdr -> hb_next;
|
|
GC_reclaim_small_nonempty_block(hbp, FALSE);
|
|
if (*flh != 0) break;
|
|
}
|
|
}
|
|
|
|
/*
|
|
* Reclaim all small blocks waiting to be reclaimed.
|
|
* Abort and return FALSE when/if (*stop_func)() returns TRUE.
|
|
* If this returns TRUE, then it's safe to restart the world
|
|
* with incorrectly cleared mark bits.
|
|
* If ignore_old is TRUE, then reclain only blocks that have been
|
|
* recently reclaimed, and discard the rest.
|
|
* Stop_func may be 0.
|
|
*/
|
|
GC_bool GC_reclaim_all(stop_func, ignore_old)
|
|
GC_stop_func stop_func;
|
|
GC_bool ignore_old;
|
|
{
|
|
register word sz;
|
|
register int kind;
|
|
register hdr * hhdr;
|
|
register struct hblk * hbp;
|
|
register struct obj_kind * ok;
|
|
struct hblk ** rlp;
|
|
struct hblk ** rlh;
|
|
# ifdef PRINTTIMES
|
|
CLOCK_TYPE start_time;
|
|
CLOCK_TYPE done_time;
|
|
|
|
GET_TIME(start_time);
|
|
# endif
|
|
|
|
for (kind = 0; kind < GC_n_kinds; kind++) {
|
|
ok = &(GC_obj_kinds[kind]);
|
|
rlp = ok -> ok_reclaim_list;
|
|
if (rlp == 0) continue;
|
|
for (sz = 1; sz <= MAXOBJSZ; sz++) {
|
|
rlh = rlp + sz;
|
|
while ((hbp = *rlh) != 0) {
|
|
if (stop_func != (GC_stop_func)0 && (*stop_func)()) {
|
|
return(FALSE);
|
|
}
|
|
hhdr = HDR(hbp);
|
|
*rlh = hhdr -> hb_next;
|
|
if (!ignore_old || hhdr -> hb_last_reclaimed == GC_gc_no - 1) {
|
|
/* It's likely we'll need it this time, too */
|
|
/* It's been touched recently, so this */
|
|
/* shouldn't trigger paging. */
|
|
GC_reclaim_small_nonempty_block(hbp, FALSE);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
# ifdef PRINTTIMES
|
|
GET_TIME(done_time);
|
|
GC_printf1("Disposing of reclaim lists took %lu msecs\n",
|
|
MS_TIME_DIFF(done_time,start_time));
|
|
# endif
|
|
return(TRUE);
|
|
}
|