src/third_party/mozjs-45/nsprpub/lib/ds/plarena.c - cobalt - Git at Google

 /* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
 /* This Source Code Form is subject to the terms of the Mozilla Public
  * License, v. 2.0. If a copy of the MPL was not distributed with this
  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

 /*
  * Lifetime-based fast allocation, inspired by much prior art, including
  * "Fast Allocation and Deallocation of Memory Based on Object Lifetimes"
  * David R. Hanson, Software -- Practice and Experience, Vol. 20(1).
  */
 #include <stdlib.h>
 #include <string.h>
 #include "plarena.h"
 #include "prmem.h"
 #include "prbit.h"
 #include "prlog.h"
 #include "prlock.h"
 #include "prinit.h"

 static PLArena *arena_freelist;

 #ifdef PL_ARENAMETER
 static PLArenaStats *arena_stats_list;

 #define COUNT(pool,what)  (pool)->stats.what++
 #else
 #define COUNT(pool,what)  /* nothing */
 #endif

 #define PL_ARENA_DEFAULT_ALIGN  sizeof(double)

 static PRLock    *arenaLock;
 static PRCallOnceType once;
 static const PRCallOnceType pristineCallOnce;

 /*
 ** InitializeArenas() -- Initialize arena operations.
 **
 ** InitializeArenas() is called exactly once and only once from
 ** LockArena(). This function creates the arena protection
 ** lock: arenaLock.
 **
 ** Note: If the arenaLock cannot be created, InitializeArenas()
 ** fails quietly, returning only PR_FAILURE. This percolates up
 ** to the application using the Arena API. He gets no arena
 ** from PL_ArenaAllocate(). It's up to him to fail gracefully
 ** or recover.
 **
 */
 static PRStatus InitializeArenas( void )
 {
     PR_ASSERT( arenaLock == NULL );
     arenaLock = PR_NewLock();
     if ( arenaLock == NULL )
         return PR_FAILURE;
     else
         return PR_SUCCESS;
 } /* end ArenaInitialize() */

 static PRStatus LockArena( void )
 {
     PRStatus rc = PR_CallOnce( &once, InitializeArenas );

     if ( PR_FAILURE != rc )
         PR_Lock( arenaLock );
     return(rc);
 } /* end LockArena() */

 static void UnlockArena( void )
 {
     PR_Unlock( arenaLock );
     return;
 } /* end UnlockArena() */

 PR_IMPLEMENT(void) PL_InitArenaPool(
     PLArenaPool *pool, const char *name, PRUint32 size, PRUint32 align)
 {
     /*
      * Look-up table of PR_BITMASK(PR_CeilingLog2(align)) values for
      * align = 1 to 32.
      */
     static const PRUint8 pmasks[33] = {
          0,                                               /*  not used */
          0, 1, 3, 3, 7, 7, 7, 7,15,15,15,15,15,15,15,15,  /*  1 ... 16 */
         31,31,31,31,31,31,31,31,31,31,31,31,31,31,31,31}; /* 17 ... 32 */

     if (align == 0)
         align = PL_ARENA_DEFAULT_ALIGN;

     if (align < sizeof(pmasks)/sizeof(pmasks[0]))
         pool->mask = pmasks[align];
     else
         pool->mask = PR_BITMASK(PR_CeilingLog2(align));

     pool->first.next = NULL;
     /* Set all three addresses in pool->first to the same dummy value.
      * These addresses are only compared with each other, but never
      * dereferenced. */
     pool->first.base = pool->first.avail = pool->first.limit =
         (PRUword)PL_ARENA_ALIGN(pool, &pool->first + 1);
     pool->current = &pool->first;
     /*
      * Compute the net size so that each arena's gross size is |size|.
      * sizeof(PLArena) + pool->mask is the header and alignment slop
      * that PL_ArenaAllocate adds to the net size.
      */
     if (size > sizeof(PLArena) + pool->mask)
         pool->arenasize = size - (sizeof(PLArena) + pool->mask);
     else
         pool->arenasize = size;
 #ifdef PL_ARENAMETER
     memset(&pool->stats, 0, sizeof pool->stats);
     pool->stats.name = strdup(name);
     pool->stats.next = arena_stats_list;
     arena_stats_list = &pool->stats;
 #endif
 }


 /*
 ** PL_ArenaAllocate() -- allocate space from an arena pool
 **
 ** Description: PL_ArenaAllocate() allocates space from an arena
 ** pool.
 **
 ** First, try to satisfy the request from arenas starting at
 ** pool->current.
 **
 ** If there is not enough space in the arena pool->current, try
 ** to claim an arena, on a first fit basis, from the global
 ** freelist (arena_freelist).
 **
 ** If no arena in arena_freelist is suitable, then try to
 ** allocate a new arena from the heap.
 **
 ** Returns: pointer to allocated space or NULL
 **
 ** Notes: The original implementation had some difficult to
 ** solve bugs; the code was difficult to read. Sometimes it's
 ** just easier to rewrite it. I did that. larryh.
 **
 ** See also: bugzilla: 45343.
 **
 */

 PR_IMPLEMENT(void *) PL_ArenaAllocate(PLArenaPool *pool, PRUint32 nb)
 {
     PLArena *a;
     char *rp;     /* returned pointer */
     PRUint32 nbOld;

     PR_ASSERT((nb & pool->mask) == 0);

     nbOld = nb;
     nb = (PRUword)PL_ARENA_ALIGN(pool, nb); /* force alignment */
     if (nb < nbOld)
         return NULL;

     /* attempt to allocate from arenas at pool->current */
     {
         a = pool->current;
         do {
             if ( nb <= a->limit - a->avail )  {
                 pool->current = a;
                 rp = (char *)a->avail;
                 a->avail += nb;
                 return rp;
             }
         } while( NULL != (a = a->next) );
     }

     /* attempt to allocate from arena_freelist */
     {
         PLArena *p; /* previous pointer, for unlinking from freelist */

         /* lock the arena_freelist. Make access to the freelist MT-Safe */
         if ( PR_FAILURE == LockArena())
             return(0);

         for ( a = arena_freelist, p = NULL; a != NULL ; p = a, a = a->next ) {
             if ( nb <= a->limit - a->base )  {
                 if ( p == NULL )
                     arena_freelist = a->next;
                 else
                     p->next = a->next;
                 UnlockArena();
                 a->avail = a->base;
                 rp = (char *)a->avail;
                 a->avail += nb;
                 /* the newly allocated arena is linked after pool->current
                 *  and becomes pool->current */
                 a->next = pool->current->next;
                 pool->current->next = a;
                 pool->current = a;
                 if ( NULL == pool->first.next )
                     pool->first.next = a;
                 return(rp);
             }
         }
         UnlockArena();
     }

     /* attempt to allocate from the heap */
     {
         PRUint32 sz = PR_MAX(pool->arenasize, nb);
         if (PR_UINT32_MAX - sz < sizeof *a + pool->mask) {
             a = NULL;
         } else {
             sz += sizeof *a + pool->mask;  /* header and alignment slop */
             a = (PLArena*)PR_MALLOC(sz);
         }
         if ( NULL != a )  {
             a->limit = (PRUword)a + sz;
             a->base = a->avail = (PRUword)PL_ARENA_ALIGN(pool, a + 1);
             PL_MAKE_MEM_NOACCESS((void*)a->avail, a->limit - a->avail);
             rp = (char *)a->avail;
             a->avail += nb;
             PR_ASSERT(a->avail <= a->limit);
             /* the newly allocated arena is linked after pool->current
             *  and becomes pool->current */
             a->next = pool->current->next;
             pool->current->next = a;
             pool->current = a;
             if ( NULL == pool->first.next )
                 pool->first.next = a;
             PL_COUNT_ARENA(pool,++);
             COUNT(pool, nmallocs);
             return(rp);
         }
     }

     /* we got to here, and there's no memory to allocate */
     return(NULL);
 } /* --- end PL_ArenaAllocate() --- */

 PR_IMPLEMENT(void *) PL_ArenaGrow(
     PLArenaPool *pool, void *p, PRUint32 size, PRUint32 incr)
 {
     void *newp;

     if (PR_UINT32_MAX - size < incr)
         return NULL;
     PL_ARENA_ALLOCATE(newp, pool, size + incr);
     if (newp)
         memcpy(newp, p, size);
     return newp;
 }

 static void ClearArenaList(PLArena *a, PRInt32 pattern)
 {

     for (; a; a = a->next) {
         PR_ASSERT(a->base <= a->avail && a->avail <= a->limit);
         a->avail = a->base;
         PL_CLEAR_UNUSED_PATTERN(a, pattern);
         PL_MAKE_MEM_NOACCESS((void*)a->avail, a->limit - a->avail);
     }
 }

 PR_IMPLEMENT(void) PL_ClearArenaPool(PLArenaPool *pool, PRInt32 pattern)
 {
     ClearArenaList(pool->first.next, pattern);
 }

 /*
  * Free tail arenas linked after head, which may not be the true list head.
  * Reset pool->current to point to head in case it pointed at a tail arena.
  */
 static void FreeArenaList(PLArenaPool *pool, PLArena *head, PRBool reallyFree)
 {
     PLArena **ap, *a;

     ap = &head->next;
     a = *ap;
     if (!a)
         return;

 #ifdef DEBUG
     ClearArenaList(a, PL_FREE_PATTERN);
 #endif

     if (reallyFree) {
         do {
             *ap = a->next;
             PL_CLEAR_ARENA(a);
             PL_COUNT_ARENA(pool,--);
             PR_DELETE(a);
         } while ((a = *ap) != 0);
     } else {
         /* Insert the whole arena chain at the front of the freelist. */
         do {
             PL_MAKE_MEM_NOACCESS((void*)(*ap)->base,
                                  (*ap)->limit - (*ap)->base);
             ap = &(*ap)->next;
         } while (*ap);
         LockArena();
         *ap = arena_freelist;
         arena_freelist = a;
         head->next = 0;
         UnlockArena();
     }

     pool->current = head;
 }

 PR_IMPLEMENT(void) PL_ArenaRelease(PLArenaPool *pool, char *mark)
 {
     PLArena *a;

     for (a = &pool->first; a; a = a->next) {
         if (PR_UPTRDIFF(mark, a->base) <= PR_UPTRDIFF(a->avail, a->base)) {
             a->avail = (PRUword)PL_ARENA_ALIGN(pool, mark);
             FreeArenaList(pool, a, PR_FALSE);
             return;
         }
     }
 }

 PR_IMPLEMENT(void) PL_FreeArenaPool(PLArenaPool *pool)
 {
     FreeArenaList(pool, &pool->first, PR_FALSE);
     COUNT(pool, ndeallocs);
 }

 PR_IMPLEMENT(void) PL_FinishArenaPool(PLArenaPool *pool)
 {
     FreeArenaList(pool, &pool->first, PR_TRUE);
 #ifdef PL_ARENAMETER
     {
         PLArenaStats *stats, **statsp;

         if (pool->stats.name)
             PR_DELETE(pool->stats.name);
         for (statsp = &arena_stats_list; (stats = *statsp) != 0;
              statsp = &stats->next) {
             if (stats == &pool->stats) {
                 *statsp = stats->next;
                 return;
             }
         }
     }
 #endif
 }

 PR_IMPLEMENT(void) PL_CompactArenaPool(PLArenaPool *ap)
 {
 }

 PR_IMPLEMENT(void) PL_ArenaFinish(void)
 {
     PLArena *a, *next;

     for (a = arena_freelist; a; a = next) {
         next = a->next;
         PR_DELETE(a);
     }
     arena_freelist = NULL;

     if (arenaLock) {
         PR_DestroyLock(arenaLock);
         arenaLock = NULL;
     }
     once = pristineCallOnce;
 }

 PR_IMPLEMENT(size_t) PL_SizeOfArenaPoolExcludingPool(
     const PLArenaPool *pool, PLMallocSizeFn mallocSizeOf)
 {
     /*
      * The first PLArena is within |pool|, so don't measure it.  Subsequent
      * PLArenas are separate and must be measured.
      */
     size_t size = 0;
     const PLArena *arena = pool->first.next;
     while (arena) {
         size += mallocSizeOf(arena);
         arena = arena->next;
     }
     return size;
 }

 #ifdef PL_ARENAMETER
 PR_IMPLEMENT(void) PL_ArenaCountAllocation(PLArenaPool *pool, PRUint32 nb)
 {
     pool->stats.nallocs++;
     pool->stats.nbytes += nb;
     if (nb > pool->stats.maxalloc)
         pool->stats.maxalloc = nb;
     pool->stats.variance += nb * nb;
 }

 PR_IMPLEMENT(void) PL_ArenaCountInplaceGrowth(
     PLArenaPool *pool, PRUint32 size, PRUint32 incr)
 {
     pool->stats.ninplace++;
 }

 PR_IMPLEMENT(void) PL_ArenaCountGrowth(
     PLArenaPool *pool, PRUint32 size, PRUint32 incr)
 {
     pool->stats.ngrows++;
     pool->stats.nbytes += incr;
     pool->stats.variance -= size * size;
     size += incr;
     if (size > pool->stats.maxalloc)
         pool->stats.maxalloc = size;
     pool->stats.variance += size * size;
 }

 PR_IMPLEMENT(void) PL_ArenaCountRelease(PLArenaPool *pool, char *mark)
 {
     pool->stats.nreleases++;
 }

 PR_IMPLEMENT(void) PL_ArenaCountRetract(PLArenaPool *pool, char *mark)
 {
     pool->stats.nfastrels++;
 }

 #include <math.h>
 #include <stdio.h>

 PR_IMPLEMENT(void) PL_DumpArenaStats(FILE *fp)
 {
     PLArenaStats *stats;
     double mean, variance;

     for (stats = arena_stats_list; stats; stats = stats->next) {
         if (stats->nallocs != 0) {
             mean = (double)stats->nbytes / stats->nallocs;
             variance = fabs(stats->variance / stats->nallocs - mean * mean);
         } else {
             mean = variance = 0;
         }

         fprintf(fp, "\n%s allocation statistics:\n", stats->name);
         fprintf(fp, "              number of arenas: %u\n", stats->narenas);
         fprintf(fp, "         number of allocations: %u\n", stats->nallocs);
         fprintf(fp, " number of free arena reclaims: %u\n", stats->nreclaims);
         fprintf(fp, "        number of malloc calls: %u\n", stats->nmallocs);
         fprintf(fp, "       number of deallocations: %u\n", stats->ndeallocs);
         fprintf(fp, "  number of allocation growths: %u\n", stats->ngrows);
         fprintf(fp, "    number of in-place growths: %u\n", stats->ninplace);
         fprintf(fp, "number of released allocations: %u\n", stats->nreleases);
         fprintf(fp, "       number of fast releases: %u\n", stats->nfastrels);
         fprintf(fp, "         total bytes allocated: %u\n", stats->nbytes);
         fprintf(fp, "          mean allocation size: %g\n", mean);
         fprintf(fp, "            standard deviation: %g\n", sqrt(variance));
         fprintf(fp, "       maximum allocation size: %u\n", stats->maxalloc);
     }
 }
 #endif /* PL_ARENAMETER */
	/* -- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -- */
	/* This Source Code Form is subject to the terms of the Mozilla Public
	* License, v. 2.0. If a copy of the MPL was not distributed with this
	* file, You can obtain one at http://mozilla.org/MPL/2.0/. */

	/*
	* Lifetime-based fast allocation, inspired by much prior art, including
	* "Fast Allocation and Deallocation of Memory Based on Object Lifetimes"
	* David R. Hanson, Software -- Practice and Experience, Vol. 20(1).
	*/
	#include <stdlib.h>
	#include <string.h>
	#include "plarena.h"
	#include "prmem.h"
	#include "prbit.h"
	#include "prlog.h"
	#include "prlock.h"
	#include "prinit.h"

	static PLArena *arena_freelist;

	#ifdef PL_ARENAMETER
	static PLArenaStats *arena_stats_list;

	#define COUNT(pool,what) (pool)->stats.what++
	#else
	#define COUNT(pool,what) /* nothing */
	#endif

	#define PL_ARENA_DEFAULT_ALIGN sizeof(double)

	static PRLock *arenaLock;
	static PRCallOnceType once;
	static const PRCallOnceType pristineCallOnce;

	/*
	** InitializeArenas() -- Initialize arena operations.
	**
	** InitializeArenas() is called exactly once and only once from
	** LockArena(). This function creates the arena protection
	** lock: arenaLock.
	**
	** Note: If the arenaLock cannot be created, InitializeArenas()
	** fails quietly, returning only PR_FAILURE. This percolates up
	** to the application using the Arena API. He gets no arena
	** from PL_ArenaAllocate(). It's up to him to fail gracefully
	** or recover.
	**
	*/
	static PRStatus InitializeArenas( void )
	{
	PR_ASSERT( arenaLock == NULL );
	arenaLock = PR_NewLock();
	if ( arenaLock == NULL )
	return PR_FAILURE;
	else
	return PR_SUCCESS;
	} /* end ArenaInitialize() */

	static PRStatus LockArena( void )
	{
	PRStatus rc = PR_CallOnce( &once, InitializeArenas );

	if ( PR_FAILURE != rc )
	PR_Lock( arenaLock );
	return(rc);
	} /* end LockArena() */

	static void UnlockArena( void )
	{
	PR_Unlock( arenaLock );
	return;
	} /* end UnlockArena() */

	PR_IMPLEMENT(void) PL_InitArenaPool(
	PLArenaPool pool, const char name, PRUint32 size, PRUint32 align)
	{
	/*
	* Look-up table of PR_BITMASK(PR_CeilingLog2(align)) values for
	* align = 1 to 32.
	*/
	static const PRUint8 pmasks[33] = {
	0, /* not used */
	0, 1, 3, 3, 7, 7, 7, 7,15,15,15,15,15,15,15,15, /* 1 ... 16 */
	31,31,31,31,31,31,31,31,31,31,31,31,31,31,31,31}; /* 17 ... 32 */

	if (align == 0)
	align = PL_ARENA_DEFAULT_ALIGN;

	if (align < sizeof(pmasks)/sizeof(pmasks[0]))
	pool->mask = pmasks[align];
	else
	pool->mask = PR_BITMASK(PR_CeilingLog2(align));

	pool->first.next = NULL;
	/* Set all three addresses in pool->first to the same dummy value.
	* These addresses are only compared with each other, but never
	* dereferenced. */
	pool->first.base = pool->first.avail = pool->first.limit =
	(PRUword)PL_ARENA_ALIGN(pool, &pool->first + 1);
	pool->current = &pool->first;
	/*
	* Compute the net size so that each arena's gross size is \|size\|.
	* sizeof(PLArena) + pool->mask is the header and alignment slop
	* that PL_ArenaAllocate adds to the net size.
	*/
	if (size > sizeof(PLArena) + pool->mask)
	pool->arenasize = size - (sizeof(PLArena) + pool->mask);
	else
	pool->arenasize = size;
	#ifdef PL_ARENAMETER
	memset(&pool->stats, 0, sizeof pool->stats);
	pool->stats.name = strdup(name);
	pool->stats.next = arena_stats_list;
	arena_stats_list = &pool->stats;
	#endif
	}


	/*
	** PL_ArenaAllocate() -- allocate space from an arena pool
	**
	** Description: PL_ArenaAllocate() allocates space from an arena
	** pool.
	**
	** First, try to satisfy the request from arenas starting at
	** pool->current.
	**
	** If there is not enough space in the arena pool->current, try
	** to claim an arena, on a first fit basis, from the global
	** freelist (arena_freelist).
	**
	** If no arena in arena_freelist is suitable, then try to
	** allocate a new arena from the heap.
	**
	** Returns: pointer to allocated space or NULL
	**
	** Notes: The original implementation had some difficult to
	** solve bugs; the code was difficult to read. Sometimes it's
	** just easier to rewrite it. I did that. larryh.
	**
	** See also: bugzilla: 45343.
	**
	*/

	PR_IMPLEMENT(void ) PL_ArenaAllocate(PLArenaPool pool, PRUint32 nb)
	{
	PLArena *a;
	char rp; / returned pointer */
	PRUint32 nbOld;

	PR_ASSERT((nb & pool->mask) == 0);

	nbOld = nb;
	nb = (PRUword)PL_ARENA_ALIGN(pool, nb); /* force alignment */
	if (nb < nbOld)
	return NULL;

	/* attempt to allocate from arenas at pool->current */
	{
	a = pool->current;
	do {
	if ( nb <= a->limit - a->avail ) {
	pool->current = a;
	rp = (char *)a->avail;
	a->avail += nb;
	return rp;
	}
	} while( NULL != (a = a->next) );
	}

	/* attempt to allocate from arena_freelist */
	{
	PLArena p; / previous pointer, for unlinking from freelist */

	/* lock the arena_freelist. Make access to the freelist MT-Safe */
	if ( PR_FAILURE == LockArena())
	return(0);

	for ( a = arena_freelist, p = NULL; a != NULL ; p = a, a = a->next ) {
	if ( nb <= a->limit - a->base ) {
	if ( p == NULL )
	arena_freelist = a->next;
	else
	p->next = a->next;
	UnlockArena();
	a->avail = a->base;
	rp = (char *)a->avail;
	a->avail += nb;
	/* the newly allocated arena is linked after pool->current
	* and becomes pool->current */
	a->next = pool->current->next;
	pool->current->next = a;
	pool->current = a;
	if ( NULL == pool->first.next )
	pool->first.next = a;
	return(rp);
	}
	}
	UnlockArena();
	}

	/* attempt to allocate from the heap */
	{
	PRUint32 sz = PR_MAX(pool->arenasize, nb);
	if (PR_UINT32_MAX - sz < sizeof *a + pool->mask) {
	a = NULL;
	} else {
	sz += sizeof a + pool->mask; / header and alignment slop */
	a = (PLArena*)PR_MALLOC(sz);
	}
	if ( NULL != a ) {
	a->limit = (PRUword)a + sz;
	a->base = a->avail = (PRUword)PL_ARENA_ALIGN(pool, a + 1);
	PL_MAKE_MEM_NOACCESS((void*)a->avail, a->limit - a->avail);
	rp = (char *)a->avail;
	a->avail += nb;
	PR_ASSERT(a->avail <= a->limit);
	/* the newly allocated arena is linked after pool->current
	* and becomes pool->current */
	a->next = pool->current->next;
	pool->current->next = a;
	pool->current = a;
	if ( NULL == pool->first.next )
	pool->first.next = a;
	PL_COUNT_ARENA(pool,++);
	COUNT(pool, nmallocs);
	return(rp);
	}
	}

	/* we got to here, and there's no memory to allocate */
	return(NULL);
	} /* --- end PL_ArenaAllocate() --- */

	PR_IMPLEMENT(void *) PL_ArenaGrow(
	PLArenaPool pool, void p, PRUint32 size, PRUint32 incr)
	{
	void *newp;

	if (PR_UINT32_MAX - size < incr)
	return NULL;
	PL_ARENA_ALLOCATE(newp, pool, size + incr);
	if (newp)
	memcpy(newp, p, size);
	return newp;
	}

	static void ClearArenaList(PLArena *a, PRInt32 pattern)
	{

	for (; a; a = a->next) {
	PR_ASSERT(a->base <= a->avail && a->avail <= a->limit);
	a->avail = a->base;
	PL_CLEAR_UNUSED_PATTERN(a, pattern);
	PL_MAKE_MEM_NOACCESS((void*)a->avail, a->limit - a->avail);
	}
	}

	PR_IMPLEMENT(void) PL_ClearArenaPool(PLArenaPool *pool, PRInt32 pattern)
	{
	ClearArenaList(pool->first.next, pattern);
	}

	/*
	* Free tail arenas linked after head, which may not be the true list head.
	* Reset pool->current to point to head in case it pointed at a tail arena.
	*/
	static void FreeArenaList(PLArenaPool pool, PLArena head, PRBool reallyFree)
	{
	PLArena *ap, a;

	ap = &head->next;
	a = *ap;
	if (!a)
	return;

	#ifdef DEBUG
	ClearArenaList(a, PL_FREE_PATTERN);
	#endif

	if (reallyFree) {
	do {
	*ap = a->next;
	PL_CLEAR_ARENA(a);
	PL_COUNT_ARENA(pool,--);
	PR_DELETE(a);
	} while ((a = *ap) != 0);
	} else {
	/* Insert the whole arena chain at the front of the freelist. */
	do {
	PL_MAKE_MEM_NOACCESS((void)(ap)->base,
	(ap)->limit - (ap)->base);
	ap = &(*ap)->next;
	} while (*ap);
	LockArena();
	*ap = arena_freelist;
	arena_freelist = a;
	head->next = 0;
	UnlockArena();
	}

	pool->current = head;
	}

	PR_IMPLEMENT(void) PL_ArenaRelease(PLArenaPool pool, char mark)
	{
	PLArena *a;

	for (a = &pool->first; a; a = a->next) {
	if (PR_UPTRDIFF(mark, a->base) <= PR_UPTRDIFF(a->avail, a->base)) {
	a->avail = (PRUword)PL_ARENA_ALIGN(pool, mark);
	FreeArenaList(pool, a, PR_FALSE);
	return;
	}
	}
	}

	PR_IMPLEMENT(void) PL_FreeArenaPool(PLArenaPool *pool)
	{
	FreeArenaList(pool, &pool->first, PR_FALSE);
	COUNT(pool, ndeallocs);
	}

	PR_IMPLEMENT(void) PL_FinishArenaPool(PLArenaPool *pool)
	{
	FreeArenaList(pool, &pool->first, PR_TRUE);
	#ifdef PL_ARENAMETER
	{
	PLArenaStats stats, *statsp;

	if (pool->stats.name)
	PR_DELETE(pool->stats.name);
	for (statsp = &arena_stats_list; (stats = *statsp) != 0;
	statsp = &stats->next) {
	if (stats == &pool->stats) {
	*statsp = stats->next;
	return;
	}
	}
	}
	#endif
	}

	PR_IMPLEMENT(void) PL_CompactArenaPool(PLArenaPool *ap)
	{
	}

	PR_IMPLEMENT(void) PL_ArenaFinish(void)
	{
	PLArena a, next;

	for (a = arena_freelist; a; a = next) {
	next = a->next;
	PR_DELETE(a);
	}
	arena_freelist = NULL;

	if (arenaLock) {
	PR_DestroyLock(arenaLock);
	arenaLock = NULL;
	}
	once = pristineCallOnce;
	}

	PR_IMPLEMENT(size_t) PL_SizeOfArenaPoolExcludingPool(
	const PLArenaPool *pool, PLMallocSizeFn mallocSizeOf)
	{
	/*
	* The first PLArena is within \|pool\|, so don't measure it. Subsequent
	* PLArenas are separate and must be measured.
	*/
	size_t size = 0;
	const PLArena *arena = pool->first.next;
	while (arena) {
	size += mallocSizeOf(arena);
	arena = arena->next;
	}
	return size;
	}

	#ifdef PL_ARENAMETER
	PR_IMPLEMENT(void) PL_ArenaCountAllocation(PLArenaPool *pool, PRUint32 nb)
	{
	pool->stats.nallocs++;
	pool->stats.nbytes += nb;
	if (nb > pool->stats.maxalloc)
	pool->stats.maxalloc = nb;
	pool->stats.variance += nb * nb;
	}

	PR_IMPLEMENT(void) PL_ArenaCountInplaceGrowth(
	PLArenaPool *pool, PRUint32 size, PRUint32 incr)
	{
	pool->stats.ninplace++;
	}

	PR_IMPLEMENT(void) PL_ArenaCountGrowth(
	PLArenaPool *pool, PRUint32 size, PRUint32 incr)
	{
	pool->stats.ngrows++;
	pool->stats.nbytes += incr;
	pool->stats.variance -= size * size;
	size += incr;
	if (size > pool->stats.maxalloc)
	pool->stats.maxalloc = size;
	pool->stats.variance += size * size;
	}

	PR_IMPLEMENT(void) PL_ArenaCountRelease(PLArenaPool pool, char mark)
	{
	pool->stats.nreleases++;
	}

	PR_IMPLEMENT(void) PL_ArenaCountRetract(PLArenaPool pool, char mark)
	{
	pool->stats.nfastrels++;
	}

	#include <math.h>
	#include <stdio.h>

	PR_IMPLEMENT(void) PL_DumpArenaStats(FILE *fp)
	{
	PLArenaStats *stats;
	double mean, variance;

	for (stats = arena_stats_list; stats; stats = stats->next) {
	if (stats->nallocs != 0) {
	mean = (double)stats->nbytes / stats->nallocs;
	variance = fabs(stats->variance / stats->nallocs - mean * mean);
	} else {
	mean = variance = 0;
	}

	fprintf(fp, "\n%s allocation statistics:\n", stats->name);
	fprintf(fp, " number of arenas: %u\n", stats->narenas);
	fprintf(fp, " number of allocations: %u\n", stats->nallocs);
	fprintf(fp, " number of free arena reclaims: %u\n", stats->nreclaims);
	fprintf(fp, " number of malloc calls: %u\n", stats->nmallocs);
	fprintf(fp, " number of deallocations: %u\n", stats->ndeallocs);
	fprintf(fp, " number of allocation growths: %u\n", stats->ngrows);
	fprintf(fp, " number of in-place growths: %u\n", stats->ninplace);
	fprintf(fp, "number of released allocations: %u\n", stats->nreleases);
	fprintf(fp, " number of fast releases: %u\n", stats->nfastrels);
	fprintf(fp, " total bytes allocated: %u\n", stats->nbytes);
	fprintf(fp, " mean allocation size: %g\n", mean);
	fprintf(fp, " standard deviation: %g\n", sqrt(variance));
	fprintf(fp, " maximum allocation size: %u\n", stats->maxalloc);
	}
	}
	#endif /* PL_ARENAMETER */