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515 lines
13 KiB
C
515 lines
13 KiB
C
/* Block-relocating memory allocator.
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Copyright (C) 1993 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Library General Public License as
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published by the Free Software Foundation; either version 2 of the
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License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Library General Public License for more details.
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You should have received a copy of the GNU Library General Public
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License along with the GNU C Library; see the file COPYING.LIB. If
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not, write to the Free Software Foundation, Inc., 675 Mass Ave,
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Cambridge, MA 02139, USA. */
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/* NOTES:
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Only relocate the blocs neccessary for SIZE in r_alloc_sbrk,
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rather than all of them. This means allowing for a possible
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hole between the first bloc and the end of malloc storage. */
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#ifdef emacs
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#include "config.h"
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#include "lisp.h" /* Needed for VALBITS. */
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#undef NULL
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/* The important properties of this type are that 1) it's a pointer, and
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2) arithmetic on it should work as if the size of the object pointed
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to has a size of 1. */
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#if 0 /* Arithmetic on void* is a GCC extension. */
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#ifdef __STDC__
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typedef void *POINTER;
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#else
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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typedef char *POINTER;
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#endif
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#endif /* 0 */
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/* Unconditionally use char * for this. */
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typedef char *POINTER;
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typedef unsigned long SIZE;
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/* Declared in dispnew.c, this version doesn't screw up if regions
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overlap. */
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extern void safe_bcopy ();
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#include "getpagesize.h"
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#else /* Not emacs. */
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#include <stddef.h>
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typedef size_t SIZE;
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typedef void *POINTER;
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#include <unistd.h>
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#include <malloc.h>
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#include <string.h>
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#define safe_bcopy(x, y, z) memmove (y, x, z)
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#endif /* emacs. */
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#define NIL ((POINTER) 0)
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/* A flag to indicate whether we have initialized ralloc yet. For
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Emacs's sake, please do not make this local to malloc_init; on some
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machines, the dumping procedure makes all static variables
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read-only. On these machines, the word static is #defined to be
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the empty string, meaning that r_alloc_initialized becomes an
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automatic variable, and loses its value each time Emacs is started up. */
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static int r_alloc_initialized = 0;
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static void r_alloc_init ();
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/* Declarations for working with the malloc, ralloc, and system breaks. */
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/* Function to set the real break value. */
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static POINTER (*real_morecore) ();
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/* The break value, as seen by malloc (). */
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static POINTER virtual_break_value;
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/* The break value, viewed by the relocatable blocs. */
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static POINTER break_value;
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/* The REAL (i.e., page aligned) break value of the process. */
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static POINTER page_break_value;
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/* This is the size of a page. We round memory requests to this boundary. */
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static int page_size;
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/* Whenever we get memory from the system, get this many extra bytes. This
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must be a multiple of page_size. */
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static int extra_bytes;
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/* Macros for rounding. Note that rounding to any value is possible
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by changing the definition of PAGE. */
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#define PAGE (getpagesize ())
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#define ALIGNED(addr) (((unsigned int) (addr) & (page_size - 1)) == 0)
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#define ROUNDUP(size) (((unsigned int) (size) + page_size - 1) & ~(page_size - 1))
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#define ROUND_TO_PAGE(addr) (addr & (~(page_size - 1)))
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/* Functions to get and return memory from the system. */
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/* Obtain SIZE bytes of space. If enough space is not presently available
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in our process reserve, (i.e., (page_break_value - break_value)),
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this means getting more page-aligned space from the system.
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Return non-zero if all went well, or zero if we couldn't allocate
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the memory. */
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static int
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obtain (size)
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SIZE size;
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{
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SIZE already_available = page_break_value - break_value;
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if (already_available < size)
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{
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SIZE get = ROUNDUP (size - already_available);
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/* Get some extra, so we can come here less often. */
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get += extra_bytes;
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if ((*real_morecore) (get) == 0)
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return 0;
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page_break_value += get;
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}
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break_value += size;
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return 1;
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}
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/* Obtain SIZE bytes of space and return a pointer to the new area.
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If we could not allocate the space, return zero. */
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static POINTER
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get_more_space (size)
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SIZE size;
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{
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POINTER ptr = break_value;
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if (obtain (size))
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return ptr;
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else
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return 0;
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}
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/* Note that SIZE bytes of space have been relinquished by the process.
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If SIZE is more than a page, return the space to the system. */
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static void
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relinquish (size)
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SIZE size;
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{
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POINTER new_page_break;
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int excess;
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break_value -= size;
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new_page_break = (POINTER) ROUNDUP (break_value);
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excess = (char *) page_break_value - (char *) new_page_break;
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if (excess > extra_bytes * 2)
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{
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/* Keep extra_bytes worth of empty space.
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And don't free anything unless we can free at least extra_bytes. */
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if ((*real_morecore) (extra_bytes - excess) == 0)
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abort ();
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page_break_value += extra_bytes - excess;
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}
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/* Zero the space from the end of the "official" break to the actual
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break, so that bugs show up faster. */
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bzero (break_value, ((char *) page_break_value - (char *) break_value));
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}
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/* The meat - allocating, freeing, and relocating blocs. */
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/* These structures are allocated in the malloc arena.
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The linked list is kept in order of increasing '.data' members.
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The data blocks abut each other; if b->next is non-nil, then
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b->data + b->size == b->next->data. */
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typedef struct bp
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{
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struct bp *next;
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struct bp *prev;
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POINTER *variable;
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POINTER data;
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SIZE size;
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} *bloc_ptr;
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#define NIL_BLOC ((bloc_ptr) 0)
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#define BLOC_PTR_SIZE (sizeof (struct bp))
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/* Head and tail of the list of relocatable blocs. */
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static bloc_ptr first_bloc, last_bloc;
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/* Find the bloc referenced by the address in PTR. Returns a pointer
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to that block. */
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static bloc_ptr
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find_bloc (ptr)
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POINTER *ptr;
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{
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register bloc_ptr p = first_bloc;
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while (p != NIL_BLOC)
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{
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if (p->variable == ptr && p->data == *ptr)
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return p;
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p = p->next;
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}
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return p;
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}
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/* Allocate a bloc of SIZE bytes and append it to the chain of blocs.
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Returns a pointer to the new bloc, or zero if we couldn't allocate
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memory for the new block. */
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static bloc_ptr
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get_bloc (size)
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SIZE size;
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{
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register bloc_ptr new_bloc;
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if (! (new_bloc = (bloc_ptr) malloc (BLOC_PTR_SIZE))
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|| ! (new_bloc->data = get_more_space (size)))
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{
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if (new_bloc)
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free (new_bloc);
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return 0;
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}
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new_bloc->size = size;
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new_bloc->next = NIL_BLOC;
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new_bloc->variable = (POINTER *) NIL;
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if (first_bloc)
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{
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new_bloc->prev = last_bloc;
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last_bloc->next = new_bloc;
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last_bloc = new_bloc;
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}
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else
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{
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first_bloc = last_bloc = new_bloc;
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new_bloc->prev = NIL_BLOC;
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}
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return new_bloc;
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}
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/* Relocate all blocs from BLOC on upward in the list to the zone
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indicated by ADDRESS. Direction of relocation is determined by
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the position of ADDRESS relative to BLOC->data.
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If BLOC is NIL_BLOC, nothing is done.
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Note that ordering of blocs is not affected by this function. */
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static void
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relocate_some_blocs (bloc, address)
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bloc_ptr bloc;
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POINTER address;
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{
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if (bloc != NIL_BLOC)
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{
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register SIZE offset = address - bloc->data;
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register SIZE data_size = 0;
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register bloc_ptr b;
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for (b = bloc; b != NIL_BLOC; b = b->next)
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{
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data_size += b->size;
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b->data += offset;
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*b->variable = b->data;
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}
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safe_bcopy (address - offset, address, data_size);
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}
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}
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/* Free BLOC from the chain of blocs, relocating any blocs above it
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and returning BLOC->size bytes to the free area. */
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static void
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free_bloc (bloc)
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bloc_ptr bloc;
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{
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if (bloc == first_bloc && bloc == last_bloc)
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{
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first_bloc = last_bloc = NIL_BLOC;
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}
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else if (bloc == last_bloc)
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{
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last_bloc = bloc->prev;
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last_bloc->next = NIL_BLOC;
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}
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else if (bloc == first_bloc)
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{
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first_bloc = bloc->next;
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first_bloc->prev = NIL_BLOC;
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}
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else
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{
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bloc->next->prev = bloc->prev;
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bloc->prev->next = bloc->next;
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}
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relocate_some_blocs (bloc->next, bloc->data);
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relinquish (bloc->size);
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free (bloc);
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}
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/* Interface routines. */
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static int use_relocatable_buffers;
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/* Obtain SIZE bytes of storage from the free pool, or the system, as
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necessary. If relocatable blocs are in use, this means relocating
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them. This function gets plugged into the GNU malloc's __morecore
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hook.
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We provide hysteresis, never relocating by less than extra_bytes.
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If we're out of memory, we should return zero, to imitate the other
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__morecore hook values - in particular, __default_morecore in the
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GNU malloc package. */
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POINTER
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r_alloc_sbrk (size)
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long size;
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{
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/* This is the first address not currently available for the heap. */
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POINTER top;
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/* Amount of empty space below that. */
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/* It is not correct to use SIZE here, because that is usually unsigned.
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ptrdiff_t would be okay, but is not always available.
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`long' will work in all cases, in practice. */
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long already_available;
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POINTER ptr;
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if (! use_relocatable_buffers)
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return (*real_morecore) (size);
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top = first_bloc ? first_bloc->data : page_break_value;
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already_available = (char *) top - (char *) virtual_break_value;
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/* Do we not have enough gap already? */
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if (size > 0 && already_available < size)
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{
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/* Get what we need, plus some extra so we can come here less often. */
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SIZE get = size - already_available + extra_bytes;
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if (! obtain (get))
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return 0;
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if (first_bloc)
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relocate_some_blocs (first_bloc, first_bloc->data + get);
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/* Zero out the space we just allocated, to help catch bugs
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quickly. */
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bzero (virtual_break_value, get);
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}
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/* Can we keep extra_bytes of gap while freeing at least extra_bytes? */
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else if (size < 0 && already_available - size > 2 * extra_bytes)
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{
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/* Ok, do so. This is how many to free. */
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SIZE give_back = already_available - size - extra_bytes;
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if (first_bloc)
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relocate_some_blocs (first_bloc, first_bloc->data - give_back);
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relinquish (give_back);
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}
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ptr = virtual_break_value;
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virtual_break_value += size;
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return ptr;
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}
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/* Allocate a relocatable bloc of storage of size SIZE. A pointer to
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the data is returned in *PTR. PTR is thus the address of some variable
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which will use the data area.
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If we can't allocate the necessary memory, set *PTR to zero, and
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return zero. */
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POINTER
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r_alloc (ptr, size)
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POINTER *ptr;
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SIZE size;
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{
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register bloc_ptr new_bloc;
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if (! r_alloc_initialized)
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r_alloc_init ();
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new_bloc = get_bloc (size);
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if (new_bloc)
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{
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new_bloc->variable = ptr;
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*ptr = new_bloc->data;
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}
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else
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*ptr = 0;
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return *ptr;
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}
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/* Free a bloc of relocatable storage whose data is pointed to by PTR.
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Store 0 in *PTR to show there's no block allocated. */
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void
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r_alloc_free (ptr)
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register POINTER *ptr;
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{
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register bloc_ptr dead_bloc;
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dead_bloc = find_bloc (ptr);
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if (dead_bloc == NIL_BLOC)
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abort ();
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free_bloc (dead_bloc);
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*ptr = 0;
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}
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/* Given a pointer at address PTR to relocatable data, resize it to SIZE.
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Do this by shifting all blocks above this one up in memory, unless
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SIZE is less than or equal to the current bloc size, in which case
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do nothing.
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Change *PTR to reflect the new bloc, and return this value.
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If more memory cannot be allocated, then leave *PTR unchanged, and
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return zero. */
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POINTER
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r_re_alloc (ptr, size)
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POINTER *ptr;
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SIZE size;
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{
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register bloc_ptr bloc;
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bloc = find_bloc (ptr);
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if (bloc == NIL_BLOC)
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abort ();
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if (size <= bloc->size)
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/* Wouldn't it be useful to actually resize the bloc here? */
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return *ptr;
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if (! obtain (size - bloc->size))
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return 0;
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relocate_some_blocs (bloc->next, bloc->data + size);
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/* Zero out the new space in the bloc, to help catch bugs faster. */
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bzero (bloc->data + bloc->size, size - bloc->size);
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/* Indicate that this block has a new size. */
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bloc->size = size;
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return *ptr;
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}
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/* The hook `malloc' uses for the function which gets more space
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from the system. */
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extern POINTER (*__morecore) ();
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/* Intialize various things for memory allocation. */
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static void
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r_alloc_init ()
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{
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if (r_alloc_initialized)
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return;
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r_alloc_initialized = 1;
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real_morecore = __morecore;
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__morecore = r_alloc_sbrk;
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virtual_break_value = break_value = (*real_morecore) (0);
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if (break_value == NIL)
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abort ();
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page_size = PAGE;
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extra_bytes = ROUNDUP (50000);
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page_break_value = (POINTER) ROUNDUP (break_value);
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/* Clear the rest of the last page; this memory is in our address space
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even though it is after the sbrk value. */
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bzero (break_value, (page_break_value - break_value));
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use_relocatable_buffers = 1;
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}
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