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* README, README.Mac, README.OS2, README.QUICK, README.alpha, README.amiga, README.debugging, README.dj, README.hp, README.linux, README.rs6000, README.sgi, README.solaris2, README.uts, README.win32, SCoptions.amiga, backptr.h, barrett_diagram, dbg_mlc.h, gc.h, gc.man, gc_alloc.h, gc_cpp.h, gc_hdrs.h, gc_mark.h, gc_priv.h, gc_private.h, gc_typed.h, gcconfig.h, hpux_irix_threads.c, makefile.depend, nursery.c, solaris_threads.h, test.c, test_cpp.cc, weakpointer.h, cord/README, cord/SCOPTIONS.amiga, cord/SMakefile.amiga, cord/cord.h, cord/ec.h, cord/gc.h, cord/private/cord_pos.h, include/backptr.h, include/gc_copy_descr.h, include/gc_nursery.h: Remove obsolete/moved files. From-SVN: r42379
572 lines
16 KiB
C
572 lines
16 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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# include <stdio.h>
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# include "private/gc_priv.h"
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/* Data structure for list of root sets. */
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/* We keep a hash table, so that we can filter out duplicate additions. */
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/* Under Win32, we need to do a better job of filtering overlaps, so */
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/* we resort to sequential search, and pay the price. */
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/* This is really declared in gc_priv.h:
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struct roots {
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ptr_t r_start;
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ptr_t r_end;
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# if !defined(MSWIN32) && !defined(MSWINCE)
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struct roots * r_next;
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# endif
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GC_bool r_tmp;
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-- Delete before registering new dynamic libraries
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};
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struct roots GC_static_roots[MAX_ROOT_SETS];
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*/
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int GC_no_dls = 0; /* Register dynamic library data segments. */
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static int n_root_sets = 0;
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/* GC_static_roots[0..n_root_sets) contains the valid root sets. */
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# if !defined(NO_DEBUGGING)
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/* For debugging: */
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void GC_print_static_roots()
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{
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register int i;
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size_t total = 0;
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for (i = 0; i < n_root_sets; i++) {
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GC_printf2("From 0x%lx to 0x%lx ",
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(unsigned long) GC_static_roots[i].r_start,
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(unsigned long) GC_static_roots[i].r_end);
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if (GC_static_roots[i].r_tmp) {
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GC_printf0(" (temporary)\n");
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} else {
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GC_printf0("\n");
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}
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total += GC_static_roots[i].r_end - GC_static_roots[i].r_start;
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}
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GC_printf1("Total size: %ld\n", (unsigned long) total);
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if (GC_root_size != total) {
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GC_printf1("GC_root_size incorrect: %ld!!\n",
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(unsigned long) GC_root_size);
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}
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}
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# endif /* NO_DEBUGGING */
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/* Primarily for debugging support: */
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/* Is the address p in one of the registered static */
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/* root sections? */
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GC_bool GC_is_static_root(p)
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ptr_t p;
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{
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static int last_root_set = MAX_ROOT_SETS;
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register int i;
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if (last_root_set < n_root_sets
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&& p >= GC_static_roots[last_root_set].r_start
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&& p < GC_static_roots[last_root_set].r_end) return(TRUE);
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for (i = 0; i < n_root_sets; i++) {
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if (p >= GC_static_roots[i].r_start
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&& p < GC_static_roots[i].r_end) {
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last_root_set = i;
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return(TRUE);
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}
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}
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return(FALSE);
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}
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#if !defined(MSWIN32) && !defined(MSWINCE)
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/*
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# define LOG_RT_SIZE 6
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# define RT_SIZE (1 << LOG_RT_SIZE) -- Power of 2, may be != MAX_ROOT_SETS
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struct roots * GC_root_index[RT_SIZE];
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-- Hash table header. Used only to check whether a range is
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-- already present.
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-- really defined in gc_priv.h
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*/
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static int rt_hash(addr)
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char * addr;
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{
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word result = (word) addr;
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# if CPP_WORDSZ > 8*LOG_RT_SIZE
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result ^= result >> 8*LOG_RT_SIZE;
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# endif
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# if CPP_WORDSZ > 4*LOG_RT_SIZE
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result ^= result >> 4*LOG_RT_SIZE;
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# endif
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result ^= result >> 2*LOG_RT_SIZE;
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result ^= result >> LOG_RT_SIZE;
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result &= (RT_SIZE-1);
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return(result);
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}
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/* Is a range starting at b already in the table? If so return a */
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/* pointer to it, else NIL. */
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struct roots * GC_roots_present(b)
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char *b;
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{
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register int h = rt_hash(b);
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register struct roots *p = GC_root_index[h];
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while (p != 0) {
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if (p -> r_start == (ptr_t)b) return(p);
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p = p -> r_next;
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}
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return(FALSE);
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}
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/* Add the given root structure to the index. */
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static void add_roots_to_index(p)
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struct roots *p;
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{
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register int h = rt_hash(p -> r_start);
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p -> r_next = GC_root_index[h];
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GC_root_index[h] = p;
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}
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# else /* MSWIN32 || MSWINCE */
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# define add_roots_to_index(p)
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# endif
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word GC_root_size = 0;
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void GC_add_roots(b, e)
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char * b; char * e;
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{
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DCL_LOCK_STATE;
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DISABLE_SIGNALS();
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LOCK();
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GC_add_roots_inner(b, e, FALSE);
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UNLOCK();
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ENABLE_SIGNALS();
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}
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/* Add [b,e) to the root set. Adding the same interval a second time */
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/* is a moderately fast noop, and hence benign. We do not handle */
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/* different but overlapping intervals efficiently. (We do handle */
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/* them correctly.) */
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/* Tmp specifies that the interval may be deleted before */
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/* reregistering dynamic libraries. */
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void GC_add_roots_inner(b, e, tmp)
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char * b; char * e;
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GC_bool tmp;
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{
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struct roots * old;
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# if defined(MSWIN32) || defined(MSWINCE)
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/* Spend the time to ensure that there are no overlapping */
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/* or adjacent intervals. */
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/* This could be done faster with e.g. a */
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/* balanced tree. But the execution time here is */
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/* virtually guaranteed to be dominated by the time it */
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/* takes to scan the roots. */
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{
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register int i;
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for (i = 0; i < n_root_sets; i++) {
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old = GC_static_roots + i;
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if ((ptr_t)b <= old -> r_end && (ptr_t)e >= old -> r_start) {
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if ((ptr_t)b < old -> r_start) {
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old -> r_start = (ptr_t)b;
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GC_root_size += (old -> r_start - (ptr_t)b);
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}
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if ((ptr_t)e > old -> r_end) {
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old -> r_end = (ptr_t)e;
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GC_root_size += ((ptr_t)e - old -> r_end);
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}
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old -> r_tmp &= tmp;
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break;
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}
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}
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if (i < n_root_sets) {
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/* merge other overlapping intervals */
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struct roots *other;
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for (i++; i < n_root_sets; i++) {
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other = GC_static_roots + i;
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b = (char *)(other -> r_start);
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e = (char *)(other -> r_end);
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if ((ptr_t)b <= old -> r_end && (ptr_t)e >= old -> r_start) {
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if ((ptr_t)b < old -> r_start) {
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old -> r_start = (ptr_t)b;
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GC_root_size += (old -> r_start - (ptr_t)b);
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}
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if ((ptr_t)e > old -> r_end) {
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old -> r_end = (ptr_t)e;
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GC_root_size += ((ptr_t)e - old -> r_end);
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}
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old -> r_tmp &= other -> r_tmp;
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/* Delete this entry. */
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GC_root_size -= (other -> r_end - other -> r_start);
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other -> r_start = GC_static_roots[n_root_sets-1].r_start;
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other -> r_end = GC_static_roots[n_root_sets-1].r_end;
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n_root_sets--;
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}
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}
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return;
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}
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}
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# else
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old = GC_roots_present(b);
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if (old != 0) {
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if ((ptr_t)e <= old -> r_end) /* already there */ return;
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/* else extend */
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GC_root_size += (ptr_t)e - old -> r_end;
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old -> r_end = (ptr_t)e;
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return;
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}
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# endif
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if (n_root_sets == MAX_ROOT_SETS) {
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ABORT("Too many root sets\n");
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}
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GC_static_roots[n_root_sets].r_start = (ptr_t)b;
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GC_static_roots[n_root_sets].r_end = (ptr_t)e;
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GC_static_roots[n_root_sets].r_tmp = tmp;
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# if !defined(MSWIN32) && !defined(MSWINCE)
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GC_static_roots[n_root_sets].r_next = 0;
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# endif
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add_roots_to_index(GC_static_roots + n_root_sets);
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GC_root_size += (ptr_t)e - (ptr_t)b;
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n_root_sets++;
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}
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static roots_were_cleared = FALSE;
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void GC_clear_roots GC_PROTO((void))
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{
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DCL_LOCK_STATE;
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DISABLE_SIGNALS();
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LOCK();
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roots_were_cleared = TRUE;
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n_root_sets = 0;
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GC_root_size = 0;
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# if !defined(MSWIN32) && !defined(MSWINCE)
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{
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register int i;
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for (i = 0; i < RT_SIZE; i++) GC_root_index[i] = 0;
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}
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# endif
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UNLOCK();
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ENABLE_SIGNALS();
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}
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/* Internal use only; lock held. */
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void GC_remove_tmp_roots()
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{
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register int i;
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for (i = 0; i < n_root_sets; ) {
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if (GC_static_roots[i].r_tmp) {
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GC_root_size -=
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(GC_static_roots[i].r_end - GC_static_roots[i].r_start);
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GC_static_roots[i].r_start = GC_static_roots[n_root_sets-1].r_start;
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GC_static_roots[i].r_end = GC_static_roots[n_root_sets-1].r_end;
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GC_static_roots[i].r_tmp = GC_static_roots[n_root_sets-1].r_tmp;
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n_root_sets--;
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} else {
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i++;
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}
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}
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# if !defined(MSWIN32) && !defined(MSWINCE)
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{
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register int i;
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for (i = 0; i < RT_SIZE; i++) GC_root_index[i] = 0;
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for (i = 0; i < n_root_sets; i++)
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add_roots_to_index(GC_static_roots + i);
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}
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# endif
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}
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#if defined(MSWIN32) || defined(_WIN32_WCE_EMULATION)
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/* Workaround for the OS mapping and unmapping behind our back: */
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/* Is the address p in one of the temporary static root sections? */
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GC_bool GC_is_tmp_root(p)
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ptr_t p;
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{
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static int last_root_set = MAX_ROOT_SETS;
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register int i;
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if (last_root_set < n_root_sets
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&& p >= GC_static_roots[last_root_set].r_start
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&& p < GC_static_roots[last_root_set].r_end)
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return GC_static_roots[last_root_set].r_tmp;
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for (i = 0; i < n_root_sets; i++) {
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if (p >= GC_static_roots[i].r_start
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&& p < GC_static_roots[i].r_end) {
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last_root_set = i;
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return GC_static_roots[i].r_tmp;
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}
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}
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return(FALSE);
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}
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#endif /* MSWIN32 || _WIN32_WCE_EMULATION */
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ptr_t GC_approx_sp()
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{
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word dummy;
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# ifdef _MSC_VER
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# pragma warning(disable:4172)
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# endif
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return((ptr_t)(&dummy));
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# ifdef _MSC_VER
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# pragma warning(default:4172)
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# endif
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}
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/*
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* Data structure for excluded static roots.
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* Real declaration is in gc_priv.h.
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struct exclusion {
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ptr_t e_start;
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ptr_t e_end;
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};
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struct exclusion GC_excl_table[MAX_EXCLUSIONS];
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-- Array of exclusions, ascending
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-- address order.
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*/
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size_t GC_excl_table_entries = 0; /* Number of entries in use. */
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/* Return the first exclusion range that includes an address >= start_addr */
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/* Assumes the exclusion table contains at least one entry (namely the */
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/* GC data structures). */
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struct exclusion * GC_next_exclusion(start_addr)
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ptr_t start_addr;
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{
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size_t low = 0;
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size_t high = GC_excl_table_entries - 1;
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size_t mid;
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while (high > low) {
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mid = (low + high) >> 1;
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/* low <= mid < high */
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if ((word) GC_excl_table[mid].e_end <= (word) start_addr) {
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low = mid + 1;
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} else {
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high = mid;
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}
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}
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if ((word) GC_excl_table[low].e_end <= (word) start_addr) return 0;
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return GC_excl_table + low;
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}
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void GC_exclude_static_roots(start, finish)
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GC_PTR start;
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GC_PTR finish;
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{
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struct exclusion * next;
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size_t next_index, i;
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if (0 == GC_excl_table_entries) {
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next = 0;
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} else {
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next = GC_next_exclusion(start);
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}
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if (0 != next) {
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if ((word)(next -> e_start) < (word) finish) {
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/* incomplete error check. */
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ABORT("exclusion ranges overlap");
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}
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if ((word)(next -> e_start) == (word) finish) {
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/* extend old range backwards */
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next -> e_start = (ptr_t)start;
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return;
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}
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next_index = next - GC_excl_table;
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for (i = GC_excl_table_entries; i > next_index; --i) {
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GC_excl_table[i] = GC_excl_table[i-1];
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}
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} else {
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next_index = GC_excl_table_entries;
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}
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if (GC_excl_table_entries == MAX_EXCLUSIONS) ABORT("Too many exclusions");
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GC_excl_table[next_index].e_start = (ptr_t)start;
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GC_excl_table[next_index].e_end = (ptr_t)finish;
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++GC_excl_table_entries;
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}
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/* Invoke push_conditional on ranges that are not excluded. */
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void GC_push_conditional_with_exclusions(bottom, top, all)
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ptr_t bottom;
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ptr_t top;
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int all;
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{
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struct exclusion * next;
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ptr_t excl_start;
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while (bottom < top) {
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next = GC_next_exclusion(bottom);
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if (0 == next || (excl_start = next -> e_start) >= top) {
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GC_push_conditional(bottom, top, all);
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return;
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}
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if (excl_start > bottom) GC_push_conditional(bottom, excl_start, all);
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bottom = next -> e_end;
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}
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}
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/*
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* In the absence of threads, push the stack contents.
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* In the presence of threads, push enough of the current stack
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* to ensure that callee-save registers saved in collector frames have been
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* seen.
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*/
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void GC_push_current_stack(cold_gc_frame)
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ptr_t cold_gc_frame;
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{
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# if defined(THREADS)
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if (0 == cold_gc_frame) return;
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# ifdef STACK_GROWS_DOWN
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GC_push_all_eager(GC_approx_sp(), cold_gc_frame);
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/* For IA64, the register stack backing store is handled */
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/* in the thread-specific code. */
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# else
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GC_push_all_eager( cold_gc_frame, GC_approx_sp() );
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# endif
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# else
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# ifdef STACK_GROWS_DOWN
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GC_push_all_stack_partially_eager( GC_approx_sp(), GC_stackbottom,
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cold_gc_frame );
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# ifdef IA64
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/* We also need to push the register stack backing store. */
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/* This should really be done in the same way as the */
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/* regular stack. For now we fudge it a bit. */
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/* Note that the backing store grows up, so we can't use */
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/* GC_push_all_stack_partially_eager. */
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{
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extern word GC_save_regs_ret_val;
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/* Previously set to backing store pointer. */
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ptr_t bsp = (ptr_t) GC_save_regs_ret_val;
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ptr_t cold_gc_bs_pointer;
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if (GC_all_interior_pointers) {
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cold_gc_bs_pointer = bsp - 2048;
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if (cold_gc_bs_pointer < BACKING_STORE_BASE) {
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cold_gc_bs_pointer = BACKING_STORE_BASE;
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}
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GC_push_all_stack(BACKING_STORE_BASE, cold_gc_bs_pointer);
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} else {
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cold_gc_bs_pointer = BACKING_STORE_BASE;
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}
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GC_push_all_eager(cold_gc_bs_pointer, bsp);
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/* All values should be sufficiently aligned that we */
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/* dont have to worry about the boundary. */
|
|
}
|
|
# endif
|
|
# else
|
|
GC_push_all_stack_partially_eager( GC_stackbottom, GC_approx_sp(),
|
|
cold_gc_frame );
|
|
# endif
|
|
# endif /* !THREADS */
|
|
}
|
|
|
|
/*
|
|
* Push GC internal roots. Only called if there is some reason to believe
|
|
* these would not otherwise get registered.
|
|
*/
|
|
void GC_push_gc_structures GC_PROTO((void))
|
|
{
|
|
GC_push_finalizer_structures();
|
|
GC_push_stubborn_structures();
|
|
# if defined(THREADS)
|
|
GC_push_thread_structures();
|
|
# endif
|
|
}
|
|
|
|
/*
|
|
* Call the mark routines (GC_tl_push for a single pointer, GC_push_conditional
|
|
* on groups of pointers) on every top level accessible pointer.
|
|
* If all is FALSE, arrange to push only possibly altered values.
|
|
* Cold_gc_frame is an address inside a GC frame that
|
|
* remains valid until all marking is complete.
|
|
* A zero value indicates that it's OK to miss some
|
|
* register values.
|
|
*/
|
|
void GC_push_roots(all, cold_gc_frame)
|
|
GC_bool all;
|
|
ptr_t cold_gc_frame;
|
|
{
|
|
register int i;
|
|
|
|
/*
|
|
* push registers - i.e., call GC_push_one(r) for each
|
|
* register contents r.
|
|
*/
|
|
# ifdef USE_GENERIC_PUSH_REGS
|
|
GC_generic_push_regs(cold_gc_frame);
|
|
# else
|
|
GC_push_regs(); /* usually defined in machine_dep.c */
|
|
# endif
|
|
|
|
/*
|
|
* Next push static data. This must happen early on, since it's
|
|
* not robust against mark stack overflow.
|
|
*/
|
|
/* Reregister dynamic libraries, in case one got added. */
|
|
# if (defined(DYNAMIC_LOADING) || defined(MSWIN32) || defined(MSWINCE) \
|
|
|| defined(PCR)) && !defined(SRC_M3)
|
|
GC_remove_tmp_roots();
|
|
if (!GC_no_dls) GC_register_dynamic_libraries();
|
|
# else
|
|
GC_no_dls = TRUE;
|
|
# endif
|
|
|
|
/* Mark everything in static data areas */
|
|
for (i = 0; i < n_root_sets; i++) {
|
|
GC_push_conditional_with_exclusions(
|
|
GC_static_roots[i].r_start,
|
|
GC_static_roots[i].r_end, all);
|
|
}
|
|
|
|
/* Mark from GC internal roots if those might otherwise have */
|
|
/* been excluded. */
|
|
if (GC_no_dls || roots_were_cleared) {
|
|
GC_push_gc_structures();
|
|
}
|
|
|
|
/*
|
|
* Now traverse stacks.
|
|
*/
|
|
# if !defined(USE_GENERIC_PUSH_REGS)
|
|
GC_push_current_stack(cold_gc_frame);
|
|
/* IN the threads case, this only pushes collector frames. */
|
|
/* In the USE_GENERIC_PUSH_REGS case, this is done inside */
|
|
/* GC_push_regs, so that we catch callee-save registers saved */
|
|
/* inside the GC_push_regs frame. */
|
|
/* In the case of linux threads on Ia64, the hot section of */
|
|
/* the main stack is marked here, but the register stack */
|
|
/* backing store is handled in the threads-specific code. */
|
|
# endif
|
|
if (GC_push_other_roots != 0) (*GC_push_other_roots)();
|
|
/* In the threads case, this also pushes thread stacks. */
|
|
}
|
|
|