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/******************************************************************************
  Copyright (c) 1992, 1995, 1996 Xerox Corporation.  All rights reserved.
  Portions of this code were written by Stephen White, aka ghond.
  Use and copying of this software and preparation of derivative works based
  upon this software are permitted.  Any distribution of this software or
  derivative works must comply with all applicable United States export
  control laws.  This software is made available AS IS, and Xerox Corporation
  makes no warranty about the software, its performance or its conformity to
  any specification.  Any person obtaining a copy of this software is requested
  to send their name and post office or electronic mail address to:
    Pavel Curtis
    Xerox PARC
    3333 Coyote Hill Rd.
    Palo Alto, CA 94304
    Pavel@Xerox.Com
 *****************************************************************************/

/* dynamic memory allocation for GNU.
   Copyright (C) 1985, 1987 Free Software Foundation, Inc.

   NO WARRANTY

   BECAUSE THIS PROGRAM IS LICENSED FREE OF CHARGE, WE PROVIDE ABSOLUTELY
   NO WARRANTY, TO THE EXTENT PERMITTED BY APPLICABLE STATE LAW.  EXCEPT
   WHEN OTHERWISE STATED IN WRITING, FREE SOFTWARE FOUNDATION, INC,
   RICHARD M. STALLMAN AND/OR OTHER PARTIES PROVIDE THIS PROGRAM "AS IS"
   WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING,
   BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
   FITNESS FOR A PARTICULAR PURPOSE.  THE ENTIRE RISK AS TO THE QUALITY
   AND PERFORMANCE OF THE PROGRAM IS WITH YOU.  SHOULD THE PROGRAM PROVE
   DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR OR
   CORRECTION.

   IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW WILL RICHARD M.
   STALLMAN, THE FREE SOFTWARE FOUNDATION, INC., AND/OR ANY OTHER PARTY
   WHO MAY MODIFY AND REDISTRIBUTE THIS PROGRAM AS PERMITTED BELOW, BE
   LIABLE TO YOU FOR DAMAGES, INCLUDING ANY LOST PROFITS, LOST MONIES, OR
   OTHER SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE
   USE OR INABILITY TO USE (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR
   DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY THIRD PARTIES OR
   A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS) THIS
   PROGRAM, EVEN IF YOU HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH
   DAMAGES, OR FOR ANY CLAIM BY ANY OTHER PARTY.

   GENERAL PUBLIC LICENSE TO COPY

   1. You may copy and distribute verbatim copies of this source file
   as you receive it, in any medium, provided that you conspicuously and
   appropriately publish on each copy a valid copyright notice "Copyright
   (C) 1985 Free Software Foundation, Inc."; and include following the
   copyright notice a verbatim copy of the above disclaimer of warranty
   and of this License.  You may charge a distribution fee for the
   physical act of transferring a copy.

   2. You may modify your copy or copies of this source file or
   any portion of it, and copy and distribute such modifications under
   the terms of Paragraph 1 above, provided that you also do the following:

   a) cause the modified files to carry prominent notices stating
   that you changed the files and the date of any change; and

   b) cause the whole of any work that you distribute or publish,
   that in whole or in part contains or is a derivative of this
   program or any part thereof, to be licensed at no charge to all
   third parties on terms identical to those contained in this
   License Agreement (except that you may choose to grant more extensive
   warranty protection to some or all third parties, at your option).

   c) You may charge a distribution fee for the physical act of
   transferring a copy, and you may at your option offer warranty
   protection in exchange for a fee.

   Mere aggregation of another unrelated program with this program (or its
   derivative) on a volume of a storage or distribution medium does not bring
   the other program under the scope of these terms.

   3. You may copy and distribute this program (or a portion or derivative
   of it, under Paragraph 2) in object code or executable form under the terms
   of Paragraphs 1 and 2 above provided that you also do one of the following:

   a) accompany it with the complete corresponding machine-readable
   source code, which must be distributed under the terms of
   Paragraphs 1 and 2 above; or,

   b) accompany it with a written offer, valid for at least three
   years, to give any third party free (except for a nominal
   shipping charge) a complete machine-readable copy of the
   corresponding source code, to be distributed under the terms of
   Paragraphs 1 and 2 above; or,

   c) accompany it with the information you received as to where the
   corresponding source code may be obtained.  (This alternative is
   allowed only for noncommercial distribution and only if you
   received the program in object code or executable form alone.)

   For an executable file, complete source code means all the source code for
   all modules it contains; but, as a special exception, it need not include
   source code for modules which are standard libraries that accompany the
   operating system on which the executable file runs.

   4. You may not copy, sublicense, distribute or transfer this program
   except as expressly provided under this License Agreement.  Any attempt
   otherwise to copy, sublicense, distribute or transfer this program is void and
   your rights to use the program under this License agreement shall be
   automatically terminated.  However, parties who have received computer
   software programs from you with this License Agreement will not have
   their licenses terminated so long as such parties remain in full compliance.

   5. If you wish to incorporate parts of this program into other free
   programs whose distribution conditions are different, write to the Free
   Software Foundation at 675 Mass Ave, Cambridge, MA 02139.  We have not yet
   worked out a simple rule that can be stated here, but we will often permit
   this.  We will be guided by the two goals of preserving the free status of
   all derivatives of our free software and of promoting the sharing and reuse of
   software.


   In other words, you are welcome to use, share and improve this program.
   You are forbidden to forbid anyone else to use, share and improve
   what you give them.   Help stamp out software-hoarding!  */


/*
 * @(#)nmalloc.c 1 (Caltech) 2/21/82
 *
 *      U of M Modified: 20 Jun 1983 ACT: strange hacks for Emacs
 *
 *      Nov 1983, Mike@BRL, Added support for 4.1C/4.2 BSD.
 *
 * This is a very fast storage allocator.  It allocates blocks of a small 
 * number of different sizes, and keeps free lists of each size.  Blocks
 * that don't exactly fit are passed up to the next larger size.  In this 
 * implementation, the available sizes are (2^n)-4 (or -16) bytes long.
 * This is designed for use in a program that uses vast quantities of
 * memory, but bombs when it runs out.  To make it a little better, it
 * warns the user when he starts to get near the end.
 *
 * June 84, ACT: modified rcheck code to check the range given to malloc,
 * rather than the range determined by the 2-power used.
 *
 * Jan 85, RMS: calls malloc_warning to issue warning on nearly full.
 * No longer Emacs-specific; can serve as all-purpose malloc for GNU.
 * You should call malloc_init to reinitialize after loading dumped Emacs.
 * Call malloc_stats to get info on memory stats if MSTATS turned on.
 * realloc knows how to return same block given, just changing its size,
 * if the power of 2 is correct.
 */

/*
 * nextf[i] is the pointer to the next free block of size 2^(i+3).  The
 * smallest allocatable block is 8 bytes.  The overhead information will
 * go in the first int of the block, and the returned pointer will point
 * to the second.
 *
 #ifdef MSTATS
 * nmalloc[i] is the difference between the number of mallocs and frees
 * for a given block size.
 #endif MSTATS
 */

#ifdef emacs
/* config.h specifies which kind of system this is.  */
#include "config.h"
#else

/* Determine which kind of system this is.  */
#include <signal.h>
#ifndef SIGTSTP
#ifndef VMS
#ifndef USG
#define USG
#endif
#endif				/* not VMS */
#else				/* SIGTSTP */
#ifdef SIGIO
#define BSD4_2
#endif				/* SIGIO */
#endif				/* SIGTSTP */

#endif				/* not emacs */

/* Define getpagesize () if the system does not.  */
#include "getpagesize.h"

#ifndef BSD4_2
#ifndef USG
#include <sys/vlimit.h>		/* warn the user when near the end */
#endif				/* not USG */
#else				/* if BSD4_2 */
#include <sys/time.h>
#include <sys/resource.h>
#endif				/* BSD4_2 */

extern char *start_of_data();

#ifdef BSD
#ifndef DATA_SEG_BITS
#define start_of_data() &etext
#endif
#endif

#ifndef emacs
#define start_of_data() &etext
#endif

#define ISALLOC ((char) 0xf7)	/* magic byte that implies allocation */
#define ISFREE ((char) 0x54)	/* magic byte that implies free block */
				/* this is for error checking only */
#define ISMEMALIGN ((char) 0xd6)	/* Stored before the value returned by
					   memalign, with the rest of the word
					   being the distance to the true
					   beginning of the block.  */

extern char etext;

/* These two are for user programs to look at, when they are interested.  */

unsigned int malloc_sbrk_used;	/* amount of data space used now */
unsigned int malloc_sbrk_unused;	/* amount more we can have */

/* start of data space; can be changed by calling init_malloc */
static char *data_space_start;

#ifdef MSTATS
static int nmalloc[30];
static int nmal, nfre;
#endif				/* MSTATS */

/* If range checking is not turned on, all we have is a flag indicating
   whether memory is allocated, an index in nextf[], and a size field; to
   realloc() memory we copy either size bytes or 1<<(index+3) bytes depending
   on whether the former can hold the exact size (given the value of
   'index').  If range checking is on, we always need to know how much space
   is allocated, so the 'size' field is never used. */

struct mhead {
    char mh_alloc;		/* ISALLOC or ISFREE */
    char mh_index;		/* index in nextf[] */
/* Remainder are valid only when block is allocated */
    unsigned short mh_size;	/* size, if < 0x10000 */
#ifdef rcheck
    unsigned mh_nbytes;		/* number of bytes allocated */
    int mh_magic4;		/* should be == MAGIC4 */
#endif				/* rcheck */
};

/* Access free-list pointer of a block.
   It is stored at block + 4.
   This is not a field in the mhead structure
   because we want sizeof (struct mhead)
   to describe the overhead for when the block is in use,
   and we do not want the free-list pointer to count in that.  */

#define CHAIN(a) \
  (*(struct mhead **) (sizeof (char *) + (char *) (a)))

#ifdef rcheck

/* To implement range checking, we write magic values in at the beginning and
   end of each allocated block, and make sure they are undisturbed whenever a
   free or a realloc occurs. */
/* Written in each of the 4 bytes following the block's real space */
#define MAGIC1 0x55
/* Written in the 4 bytes before the block's real space */
#define MAGIC4 0x55555555
#define ASSERT(p) if (!(p)) botch("p"); else {}
#define EXTRA  4		/* 4 bytes extra for MAGIC1s */
#else
#define ASSERT(p)
#define EXTRA  0
#endif				/* rcheck */


/* nextf[i] is free list of blocks of size 2**(i + 3)  */

static struct mhead *nextf[30];

/* busy[i] is nonzero while allocation of block size i is in progress.  */

static char busy[30];

/* Number of bytes of writable memory we can expect to be able to get */
static unsigned int lim_data;

/* Level number of warnings already issued.
   0 -- no warnings issued.
   1 -- 75% warning already issued.
   2 -- 85% warning already issued.
 */
static int warnlevel;

/* Function to call to issue a warning;
   0 means don't issue them.  */
static void (*warnfunction) ();

/* nonzero once initial bunch of free blocks made */
static int gotpool;

char *_malloc_base;

static void getpool();

/* Cause reinitialization based on job parameters;
   also declare where the end of pure storage is. */
void
malloc_init(start, warnfun)
    char *start;
    void (*warnfun) ();
{
    if (start)
	data_space_start = start;
    lim_data = 0;
    warnlevel = 0;
    warnfunction = warnfun;
}

/* Return the maximum size to which MEM can be realloc'd
   without actually requiring copying.  */

int
malloc_usable_size(mem)
    char *mem;
{
    int blocksize = 8 << (((struct mhead *) mem) - 1)->mh_index;

    return blocksize - sizeof(struct mhead) - EXTRA;
}

void get_lim_data();

static void
morecore(nu)			/* ask system for more memory */
    register int nu;		/* size index to get more of  */
{
    char *sbrk();
    register char *cp;
    register int nblks;
    register unsigned int siz;

#ifdef BSD
#ifndef BSD4_1
    int oldmask;

    /* ?? There was a suggestion not to block SIGILL, somehow for GDB's sake.  */
    oldmask = sigsetmask(-1);
#endif
#endif

    if (!data_space_start) {
	data_space_start = start_of_data();
    }
    if (lim_data == 0)
	get_lim_data();

    /* On initial startup, get two blocks of each size up to 1k bytes */
    if (!gotpool) {
	getpool();
	getpool();
	gotpool = 1;
    }
    /* Find current end of memory and issue warning if getting near max */

#ifndef VMS
    /* Maximum virtual memory on VMS is difficult to calculate since it
     * depends on several dynmacially changing things. Also, alignment
     * isn't that important. That is why much of the code here is ifdef'ed
     * out for VMS systems.
     */
    cp = sbrk(0);
    siz = cp - data_space_start;

    if (warnfunction)
	switch (warnlevel) {
	case 0:
	    if (siz > (lim_data / 4) * 3) {
		warnlevel++;
		(*warnfunction) ("Warning: past 75% of memory limit");
	    }
	    break;
	case 1:
	    if (siz > (lim_data / 20) * 17) {
		warnlevel++;
		(*warnfunction) ("Warning: past 85% of memory limit");
	    }
	    break;
	case 2:
	    if (siz > (lim_data / 20) * 19) {
		warnlevel++;
		(*warnfunction) ("Warning: past 95% of memory limit");
	    }
	    break;
	}
    if ((int) cp & 0x3ff)	/* land on 1K boundaries */
	sbrk(1024 - ((int) cp & 0x3ff));
#endif				/* not VMS */

    /* Take at least 2k, and figure out how many blocks of the desired size
       we're about to get */
    nblks = 1;
    if ((siz = nu) < 8)
	nblks = 1 << ((siz = 8) - nu);

    if ((cp = sbrk(1 << (siz + 3))) == (char *) -1) {
#ifdef BSD
#ifndef BSD4_1
	sigsetmask(oldmask);
#endif
#endif
	return;			/* no more room! */
    }
    malloc_sbrk_used = siz;
    malloc_sbrk_unused = lim_data - siz;

#ifndef VMS
    if ((int) cp & 7) {		/* shouldn't happen, but just in case */
	cp = (char *) (((int) cp + 8) & ~7);
	nblks--;
    }
#endif				/* not VMS */

    /* save new header and link the nblks blocks together */
    nextf[nu] = (struct mhead *) cp;
    siz = 1 << (nu + 3);
    while (1) {
	((struct mhead *) cp)->mh_alloc = ISFREE;
	((struct mhead *) cp)->mh_index = nu;
	if (--nblks <= 0)
	    break;
	CHAIN((struct mhead *) cp) = (struct mhead *) (cp + siz);
	cp += siz;
    }
    CHAIN((struct mhead *) cp) = 0;

#ifdef BSD
#ifndef BSD4_1
    sigsetmask(oldmask);
#endif
#endif
}

static void
getpool()
{
    register int nu;
    char *sbrk();
    register char *cp = sbrk(0);

    if ((int) cp & 0x3ff)	/* land on 1K boundaries */
	sbrk(1024 - ((int) cp & 0x3ff));

    /* Record address of start of space allocated by malloc.  */
    if (_malloc_base == 0)
	_malloc_base = cp;

    /* Get 2k of storage */

    cp = sbrk(04000);
    if (cp == (char *) -1)
	return;

    /* Divide it into an initial 8-word block
       plus one block of size 2**nu for nu = 3 ... 10.  */

    CHAIN(cp) = nextf[0];
    nextf[0] = (struct mhead *) cp;
    ((struct mhead *) cp)->mh_alloc = ISFREE;
    ((struct mhead *) cp)->mh_index = 0;
    cp += 8;

    for (nu = 0; nu < 7; nu++) {
	CHAIN(cp) = nextf[nu];
	nextf[nu] = (struct mhead *) cp;
	((struct mhead *) cp)->mh_alloc = ISFREE;
	((struct mhead *) cp)->mh_index = nu;
	cp += 8 << nu;
    }
}

char *
malloc(n)			/* get a block */
    unsigned n;
{
    register struct mhead *p;
    register unsigned int nbytes;
    register int nunits = 0;

    /* Figure out how many bytes are required, rounding up to the nearest
       multiple of 8, then figure out which nestf[] area to use.
       Both the beginning of the header and the beginning of the
       block should be on an eight byte boundary.  */
    nbytes = (n + ((sizeof *p + 7) & ~7) + EXTRA + 7) & ~7;
    {
	register unsigned int shiftr = (nbytes - 1) >> 2;

	while (shiftr >>= 1)
	    nunits++;
    }

    /* In case this is reentrant use of malloc from signal handler,
       pick a block size that no other malloc level is currently
       trying to allocate.  That's the easiest harmless way not to
       interfere with the other level of execution.  */
    while (busy[nunits])
	nunits++;
    busy[nunits] = 1;

    /* If there are no blocks of the appropriate size, go get some */
    /* COULD SPLIT UP A LARGER BLOCK HERE ... ACT */
    if (nextf[nunits] == 0)
	morecore(nunits);

    /* Get one block off the list, and set the new list head */
    if ((p = nextf[nunits]) == 0) {
	busy[nunits] = 0;
	return 0;
    }
    nextf[nunits] = CHAIN(p);
    busy[nunits] = 0;

    /* Check for free block clobbered */
    /* If not for this check, we would gobble a clobbered free chain ptr */
    /* and bomb out on the NEXT allocate of this size block */
    if (p->mh_alloc != ISFREE || p->mh_index != nunits)
	botch("block on free list clobbered");

    /* Fill in the info, and if range checking, set up the magic numbers */
    p->mh_alloc = ISALLOC;
#ifdef rcheck
    p->mh_nbytes = n;
    p->mh_magic4 = MAGIC4;
    {
	/* Get the location n after the beginning of the user's space.  */
	register char *m = (char *) p + ((sizeof *p + 7) & ~7) + n;

	*m++ = MAGIC1, *m++ = MAGIC1, *m++ = MAGIC1, *m = MAGIC1;
    }
#else				/* not rcheck */
    p->mh_size = n;
#endif				/* not rcheck */
#ifdef MSTATS
    nmalloc[nunits]++;
    nmal++;
#endif				/* MSTATS */
    return (char *) p + ((sizeof *p + 7) & ~7);
}

void
free(mem)
    char *mem;
{
    register struct mhead *p;
    {
	register char *ap = mem;

	if (ap == 0)
	    return;

	p = (struct mhead *) (ap - ((sizeof *p + 7) & ~7));
	if (p->mh_alloc == ISMEMALIGN) {
	    ap -= p->mh_size;
	    p = (struct mhead *) (ap - ((sizeof *p + 7) & ~7));
	}
	if (p->mh_alloc != ISALLOC) {
	    if (p->mh_alloc == ISFREE)
		botch("free: Called with already freed block argument\n");
	    else
		botch("free: Called with bad argument\n");
	}
#ifdef rcheck
	ASSERT(p->mh_magic4 == MAGIC4);
	ap += p->mh_nbytes;
	ASSERT(*ap++ == MAGIC1);
	ASSERT(*ap++ == MAGIC1);
	ASSERT(*ap++ == MAGIC1);
	ASSERT(*ap == MAGIC1);
#endif				/* rcheck */
    }
    {
	register int nunits = p->mh_index;

	ASSERT(nunits <= 29);
	p->mh_alloc = ISFREE;

	/* Protect against signal handlers calling malloc.  */
	busy[nunits] = 1;
	/* Put this block on the free list.  */
	CHAIN(p) = nextf[nunits];
	nextf[nunits] = p;
	busy[nunits] = 0;

#ifdef MSTATS
	nmalloc[nunits]--;
	nfre++;
#endif				/* MSTATS */
    }
}

char *
realloc(mem, n)
    char *mem;
    register unsigned n;
{
    register struct mhead *p;
    register unsigned int tocopy;
    register unsigned int nbytes;
    register int nunits;

    if (mem == 0)
	return malloc(n);
    p = (struct mhead *) (mem - ((sizeof *p + 7) & ~7));
    nunits = p->mh_index;
    ASSERT(p->mh_alloc == ISALLOC);
#ifdef rcheck
    ASSERT(p->mh_magic4 == MAGIC4);
    {
	register char *m = mem + (tocopy = p->mh_nbytes);
	ASSERT(*m++ == MAGIC1);
	ASSERT(*m++ == MAGIC1);
	ASSERT(*m++ == MAGIC1);
	ASSERT(*m == MAGIC1);
    }
#else				/* not rcheck */
    if (p->mh_index >= 13)
	tocopy = (1 << (p->mh_index + 3)) - ((sizeof *p + 7) & ~7);
    else
	tocopy = p->mh_size;
#endif				/* not rcheck */

    /* See if desired size rounds to same power of 2 as actual size. */
    nbytes = (n + ((sizeof *p + 7) & ~7) + EXTRA + 7) & ~7;

    /* If ok, use the same block, just marking its size as changed.  */
    if (nbytes > (4 << nunits) && nbytes <= (8 << nunits)) {
#ifdef rcheck
	register char *m = mem + tocopy;
	*m++ = 0;
	*m++ = 0;
	*m++ = 0;
	*m++ = 0;
	p->mh_nbytes = n;
	m = mem + n;
	*m++ = MAGIC1;
	*m++ = MAGIC1;
	*m++ = MAGIC1;
	*m++ = MAGIC1;
#else				/* not rcheck */
	p->mh_size = n;
#endif				/* not rcheck */
	return mem;
    }
    if (n < tocopy)
	tocopy = n;
    {
	register char *new;
	int bcopy();

	if ((new = malloc(n)) == 0)
	    return 0;
	bcopy(mem, new, tocopy);
	free(mem);
	return new;
    }
}

#ifndef VMS

char *
memalign(alignment, size)
    unsigned alignment, size;
{
    register char *ptr = malloc(size + alignment);
    register char *aligned;
    register struct mhead *p;

    if (ptr == 0)
	return 0;
    /* If entire block has the desired alignment, just accept it.  */
    if (((int) ptr & (alignment - 1)) == 0)
	return ptr;
    /* Otherwise, get address of byte in the block that has that alignment.  */
    aligned = (char *) (((int) ptr + alignment - 1) & -alignment);

    /* Store a suitable indication of how to free the block,
       so that free can find the true beginning of it.  */
    p = (struct mhead *) aligned - 1;
    p->mh_size = aligned - ptr;
    p->mh_alloc = ISMEMALIGN;
    return aligned;
}

#ifndef HPUX
/* This runs into trouble with getpagesize on HPUX.
   Patching out seems cleaner than the ugly fix needed.  */
char *
valloc(size)
    int size;
{
    return memalign(getpagesize(), size);
}
#endif				/* not HPUX */
#endif				/* not VMS */

#ifdef MSTATS
/* Return statistics describing allocation of blocks of size 2**n. */

struct mstats_value {
    int blocksize;
    int nfree;
    int nused;
};

struct mstats_value
malloc_stats(size)
    int size;
{
    struct mstats_value v;
    register struct mhead *p;

    v.nfree = 0;

    if (size < 0 || size >= 30) {
	v.blocksize = 0;
	v.nused = 0;
	return v;
    }
    v.blocksize = 1 << (size + 3);
    v.nused = nmalloc[size];

    for (p = nextf[size]; p; p = CHAIN(p))
	v.nfree++;

    return v;
}
int
malloc_mem_used()
{
    int i;
    int size_used;

    size_used = 0;

    for (i = 0; i < 30; i++) {
	int allocation_size = 1 << (i + 3);

	size_used += nmalloc[i] * allocation_size;
    }

    return size_used;
}

int
malloc_mem_free()
{
    int i;
    int size_unused;

    size_unused = 0;

    for (i = 0; i < 30; i++) {
	int allocation_size = 1 << (i + 3);
	struct mhead *p;

	for (p = nextf[i]; p; p = CHAIN(p))
	    size_unused += allocation_size;
    }

    return size_unused;
}
#endif				/* MSTATS */

/*
 *    This function returns the total number of bytes that the process
 *      will be allowed to allocate via the sbrk(2) system call.  On
 *      BSD systems this is the total space allocatable to stack and
 *      data.  On USG systems this is the data space only.
 */

#ifdef USG
void
get_lim_data()
{
    extern long ulimit();

#ifdef ULIMIT_BREAK_VALUE
    lim_data = ULIMIT_BREAK_VALUE;
#else
    lim_data = ulimit(3, 0);
#endif

    lim_data -= (long) data_space_start;
}

#else				/* not USG */
#ifndef BSD4_2
void
get_lim_data()
{
    lim_data = vlimit(LIM_DATA, -1);
}

#else				/* BSD4_2 */
void
get_lim_data()
{
    struct rlimit XXrlimit;
    void getrlimit();

    getrlimit(RLIMIT_DATA, &XXrlimit);
#ifdef RLIM_INFINITY
    lim_data = XXrlimit.rlim_cur & RLIM_INFINITY;	/* soft limit */
#else
    lim_data = XXrlimit.rlim_cur;	/* soft limit */
#endif
}

#endif				/* BSD4_2 */
#endif				/* not USG */

#ifdef VMS
/* There is a problem when dumping and restoring things on VMS. Calls
 * to SBRK don't necessarily result in contiguous allocation. Dumping
 * doesn't work when it isn't. Therefore, we make the initial
 * allocation contiguous by allocating a big chunk, and do SBRKs from
 * there. Once Emacs has dumped there is no reason to continue
 * contiguous allocation, malloc doesn't depend on it.
 *
 * There is a further problem of using brk and sbrk while using VMS C
 * run time library routines malloc, calloc, etc. The documentation
 * says that this is a no-no, although I'm not sure why this would be
 * a problem. In any case, we remove the necessity to call brk and
 * sbrk, by calling calloc (to assure zero filled data) rather than
 * sbrk.
 *
 * VMS_ALLOCATION_SIZE is the size of the allocation array. This
 * should be larger than the malloc size before dumping. Making this
 * too large will result in the startup procedure slowing down since
 * it will require more space and time to map it in.
 *
 * The value for VMS_ALLOCATION_SIZE in the following define was determined
 * by running emacs linked (and a large allocation) with the debugger and
 * looking to see how much storage was used. The allocation was 201 pages,
 * so I rounded it up to a power of two.
 */
#ifndef VMS_ALLOCATION_SIZE
#define VMS_ALLOCATION_SIZE	(512*256)
#endif

/* Use VMS RTL definitions */
#undef sbrk
#undef brk
#undef malloc
int vms_out_initial = 0;
char vms_initial_buffer[VMS_ALLOCATION_SIZE];
static char *vms_current_brk = &vms_initial_buffer;
static char *vms_end_brk = &vms_initial_buffer[VMS_ALLOCATION_SIZE - 1];

#include <stdio.h>

char *
sys_sbrk(incr)
    int incr;
{
    char *sbrk(), *temp, *ptr;

    if (vms_out_initial) {
	/* out of initial allocation... */
	if (!(temp = malloc(incr)))
	    temp = (char *) -1;
    } else {
	/* otherwise, go out of our area */
	ptr = vms_current_brk + incr;	/* new current_brk */
	if (ptr <= vms_end_brk) {
	    temp = vms_current_brk;
	    vms_current_brk = ptr;
	} else {
	    vms_out_initial = 1;	/* mark as out of initial allocation */
	    if (!(temp = malloc(incr)))
		temp = (char *) -1;
	}
    }
    return temp;
}
#endif				/* VMS */

char rcsid_gnu_malloc[] = "$Id$";

/* $Log$
/* Revision 1.2  1997/03/03 04:18:44  nop
/* GNU Indent normalization
/*
 * Revision 1.1.1.1  1997/03/03 03:45:02  nop
 * LambdaMOO 1.8.0p5
 *
 * Revision 2.1  1996/02/08  06:38:46  pavel
 * Updated copyright notice for 1996.  Release 1.8.0beta1.
 *
 * Revision 2.0  1995/11/30  04:45:02  pavel
 * New baseline version, corresponding to release 1.8.0alpha1.
 *
 * Revision 1.4  1992/10/23  23:03:47  pavel
 * Added copyright notice.
 *
 * Revision 1.3  1992/07/21  00:03:37  pavel
 * Added rcsid_<filename-root> declaration to hold the RCS ident. string.
 *
 * Revision 1.2  1992/07/21  00:02:53  pavel
 * Added rcsid_<filename-root> declaration to hold the RCS ident. string.
 *
 * Revision 1.1  1992/07/20  23:23:12  pavel
 * Initial RCS-controlled version.
 */