nspr-4.8.6/mozilla/nsprpub/lib/msgc/include/prgc.h - nest-learning-thermostat/5.1.7/nspr - Git at Google

 /* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
 /* ***** BEGIN LICENSE BLOCK *****
  * Version: MPL 1.1/GPL 2.0/LGPL 2.1
  *
  * The contents of this file are subject to the Mozilla Public License Version
  * 1.1 (the "License"); you may not use this file except in compliance with
  * the License. You may obtain a copy of the License at
  * http://www.mozilla.org/MPL/
  *
  * Software distributed under the License is distributed on an "AS IS" basis,
  * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
  * for the specific language governing rights and limitations under the
  * License.
  *
  * The Original Code is the Netscape Portable Runtime (NSPR).
  *
  * The Initial Developer of the Original Code is
  * Netscape Communications Corporation.
  * Portions created by the Initial Developer are Copyright (C) 1998-2000
  * the Initial Developer. All Rights Reserved.
  *
  * Contributor(s):
  *
  * Alternatively, the contents of this file may be used under the terms of
  * either the GNU General Public License Version 2 or later (the "GPL"), or
  * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
  * in which case the provisions of the GPL or the LGPL are applicable instead
  * of those above. If you wish to allow use of your version of this file only
  * under the terms of either the GPL or the LGPL, and not to allow others to
  * use your version of this file under the terms of the MPL, indicate your
  * decision by deleting the provisions above and replace them with the notice
  * and other provisions required by the GPL or the LGPL. If you do not delete
  * the provisions above, a recipient may use your version of this file under
  * the terms of any one of the MPL, the GPL or the LGPL.
  *
  * ***** END LICENSE BLOCK ***** */

 #ifndef prgc_h___
 #define prgc_h___

 /*
 ** API to NSPR gc memory system.
 */
 #include "prtypes.h"
 #include "prmon.h"
 #include "prthread.h"
 #include <stdio.h>

 #if defined(WIN16)
 #define GCPTR __far
 #else
 #define GCPTR
 #endif


 PR_BEGIN_EXTERN_C

 /*
 ** Initialize the garbage collector.
 **     "flags" is the trace flags (see below).
 **     "initialHeapSize" is the initial size of the heap and may be zero
 **        if the default is desired.
 **    "segmentSize" is the size of each segment of memory added to the
 **       heap when the heap is grown.
 */
 PR_EXTERN(void) PR_InitGC(
     PRWord flags, PRInt32 initialHeapSize, PRInt32 segmentSize, PRThreadScope scope);

 /*
 ** Shuts down gc and frees up all memory associated with it.
 */
 PR_EXTERN(void) PR_ShutdownGC(PRBool finalizeOnExit);

 /*
 ** This walk function will be called for every gc object in the
 ** heap as it is walked. If it returns non-zero, the walk is terminated.
 */
 typedef PRInt32 (*PRWalkFun)(void GCPTR* obj, void* data);

 /*
 ** GC Type record. This defines all of the GC operations used on a
 ** particular object type. These structures are passed to
 ** PR_RegisterType.
 */
 typedef struct GCType {
     /*
     ** Scan an object that is in the GC heap and call GCInfo.livePointer
     ** on all of the pointers in it. If this slot is null then the object
     ** won't be scanned (i.e. it has no embedded pointers).
     */
     void (PR_CALLBACK *scan)(void GCPTR *obj);

     /*
     ** Finalize an object that has no references. This is called by the
     ** GC after it has determined where the object debris is but before
     ** it has moved the debris to the logical "free list". The object is
     ** marked alive for this call and removed from the list of objects
     ** that need finalization (finalization only happens once for an
     ** object). If this slot is null then the object doesn't need
     ** finalization.
     */
     void (PR_CALLBACK *finalize)(void GCPTR *obj);

     /*
     ** Dump out an object during a PR_DumpGCHeap(). This is used as a
     ** debugging tool.
     */
     void (PR_CALLBACK *dump)(FILE *out, void GCPTR *obj, PRBool detailed, PRIntn indentLevel);

     /*
     ** Add object to summary table.
     */
     void (PR_CALLBACK *summarize)(void GCPTR *obj, PRUint32 bytes);

     /*
     ** Free hook called by GC when the object is being freed.
     */
     void (PR_CALLBACK *free)(void *obj);

     /* Weak pointer support: If the object has a weak pointer (Note:
        at most one), this function is used to get the weak link's
        offset from the start of the body of a gc object */
     PRUint32 (PR_CALLBACK *getWeakLinkOffset)(void *obj);

     /* Descriptive character for dumping this GCType */
     char kindChar;

     /*
     ** Walker routine. This routine should apply fun(obj->ptr, data)
     ** for every gc pointer within the object.
     */
     PRInt32 (PR_CALLBACK *walk)(void GCPTR *obj, PRWalkFun fun, void* data);
 } GCType;

 /*
 ** This data structure must be added as the hash table passed to
 ** the summarize method of GCType.
 */
 typedef struct PRSummaryEntry {
     void* clazz;
     PRInt32 instancesCount;
     PRInt32 totalSize;
 } PRSummaryEntry;

 /*
 ** This function pointer must be registered by users of nspr
 ** to produce the finally summary after all object in the
 ** heap have been visited.
 */
 typedef void (PR_CALLBACK *PRSummaryPrinter)(FILE *out, void* closure);

 PR_EXTERN(void) PR_CALLBACK PR_RegisterSummaryPrinter(PRSummaryPrinter fun, void* closure);

 typedef void PR_CALLBACK GCRootFinder(void *arg);
 typedef void PR_CALLBACK GCBeginFinalizeHook(void *arg);
 typedef void PR_CALLBACK GCEndFinalizeHook(void *arg);
 typedef void PR_CALLBACK GCBeginGCHook(void *arg);
 typedef void PR_CALLBACK GCEndGCHook(void *arg);

 typedef enum { PR_GCBEGIN, PR_GCEND } GCLockHookArg;

 typedef void PR_CALLBACK GCLockHookFunc(GCLockHookArg arg1, void *arg2);

 typedef struct GCLockHook GCLockHook;

 struct GCLockHook {
   GCLockHookFunc* func;
   void* arg;
   GCLockHook* next;
   GCLockHook* prev;
 };


 /*
 ** Hooks which are called at the beginning and end of the GC process.
 ** The begin hooks are called before the root finding step. The hooks are
 ** called with threading disabled, so it is now allowed to re-enter the
 ** kernel. The end hooks are called after the gc has finished but before
 ** the finalizer has run.
 */
 PR_EXTERN(void) PR_CALLBACK PR_SetBeginGCHook(GCBeginGCHook *hook, void *arg);
 PR_EXTERN(void) PR_CALLBACK PR_GetBeginGCHook(GCBeginGCHook **hook, void **arg);
 PR_EXTERN(void) PR_CALLBACK PR_SetEndGCHook(GCBeginGCHook *hook, void *arg);
 PR_EXTERN(void) PR_CALLBACK PR_GetEndGCHook(GCEndGCHook **hook, void **arg);

 /*
 ** Called before SuspendAll is called by dogc, so that GC thread can hold
 ** all the locks before hand to avoid any deadlocks
 */

 /*
 PR_EXTERN(void) PR_SetGCLockHook(GCLockHook *hook, void *arg);
 PR_EXTERN(void) PR_GetGCLockHook(GCLockHook **hook, void **arg);
 */

 PR_EXTERN(int) PR_RegisterGCLockHook(GCLockHookFunc *hook, void *arg);

 /*
 ** Hooks which are called at the beginning and end of the GC finalization
 ** process. After the GC has identified all of the dead objects in the
 ** heap, it looks for objects that need finalization. Before it calls the
 ** first finalization proc (see the GCType structure above) it calls the
 ** begin hook. When it has finalized the last object it calls the end
 ** hook.
 */
 PR_EXTERN(void) PR_SetBeginFinalizeHook(GCBeginFinalizeHook *hook, void *arg);
 PR_EXTERN(void) PR_GetBeginFinalizeHook(GCBeginFinalizeHook **hook, void **arg);
 PR_EXTERN(void) PR_SetEndFinalizeHook(GCBeginFinalizeHook *hook, void *arg);
 PR_EXTERN(void) PR_GetEndFinalizeHook(GCEndFinalizeHook **hook, void **arg);

 /*
 ** Register a GC type. Return's the index into the GC internal type
 ** table. The returned value is passed to PR_AllocMemory. After the call,
 ** the "type" memory belongs to the GC (the caller must not free it or
 ** change it).
 */
 PR_EXTERN(PRInt32) PR_RegisterType(GCType *type);

 /*
 ** Register a root finder with the collector. The collector will call
 ** these functions to identify all of the roots before collection
 ** proceeds. "arg" is passed to the function when it is called.
 */
 PR_EXTERN(PRStatus) PR_RegisterRootFinder(GCRootFinder func, char *name, void *arg);

 /*
 ** Allocate some GC'able memory. The object must be at least bytes in
 ** size. The type index function for the object is specified. "flags"
 ** specifies some control flags. If PR_ALLOC_CLEAN is set then the memory
 ** is zero'd before being returned. If PR_ALLOC_DOUBLE is set then the
 ** allocated memory is double aligned.
 **
 ** Any memory cell that you store a pointer to something allocated by
 ** this call must be findable by the GC. Use the PR_RegisterRootFinder to
 ** register new places where the GC will look for pointers into the heap.
 ** The GC already knows how to scan any NSPR threads or monitors.
 */
 PR_EXTERN(PRWord GCPTR *)PR_AllocMemory(
     PRWord bytes, PRInt32 typeIndex, PRWord flags);
 PR_EXTERN(PRWord GCPTR *)PR_AllocSimpleMemory(
     PRWord bytes, PRInt32 typeIndex);

 /*
 ** This function can be used to cause PR_AllocMemory to always return
 ** NULL. This may be useful in low memory situations when we're trying to
 ** shutdown applets.
 */
 PR_EXTERN(void) PR_EnableAllocation(PRBool yesOrNo);

 /* flags bits */
 #define PR_ALLOC_CLEAN 0x1
 #define PR_ALLOC_DOUBLE 0x2
 #define PR_ALLOC_ZERO_HANDLE 0x4              /* XXX yes, it's a hack */

 /*
 ** Force a garbage collection right now. Return when it completes.
 */
 PR_EXTERN(void) PR_GC(void);

 /*
 ** Force a finalization right now. Return when finalization has
 ** completed. Finalization completes when there are no more objects
 ** pending finalization. This does not mean there are no objects in the
 ** gc heap that will need finalization should a collection be done after
 ** this call.
 */
 PR_EXTERN(void) PR_ForceFinalize(void);

 /*
 ** Dump the GC heap out to the given file. This will stop the system dead
 ** in its tracks while it is occuring.
 */
 PR_EXTERN(void) PR_DumpGCHeap(FILE *out, PRBool detailed);

 /*
 ** Wrapper for PR_DumpGCHeap
 */
 PR_EXTERN(void) PR_DumpMemory(PRBool detailed);

 /*
 ** Dump summary of objects allocated.
 */
 PR_EXTERN(void) PR_DumpMemorySummary(void);

 /*
 ** Dump the application heaps.
 */
 PR_EXTERN(void) PR_DumpApplicationHeaps(void);

 /*
 ** Helper function used by dump routines to do the indentation in a
 ** consistent fashion.
 */
 PR_EXTERN(void) PR_DumpIndent(FILE *out, PRIntn indent);

 /*
 ** The GCInfo structure contains all of the GC state...
 **
 ** busyMemory:
 **    The amount of GC heap memory that is busy at this instant. Busy
 **    doesn't mean alive, it just means that it has been
 **    allocated. Immediately after a collection busy means how much is
 **    alive.
 **
 ** freeMemory:
 **    The amount of GC heap memory that is as yet unallocated.
 **
 ** allocMemory:
 **    The sum of free and busy memory in the GC heap.
 **
 ** maxMemory:
 **    The maximum size that the GC heap is allowed to grow.
 **
 ** lowSeg:
 **    The lowest segment currently used in the GC heap.
 **
 ** highSeg:
 **    The highest segment currently used in the GC heap.
 **    The lowSeg and highSeg members are used for a "quick test" of whether
 **    a pointer falls within the GC heap. [ see GC_IN_HEAP(...) ]
 **
 ** lock:
 **    Monitor used for synchronization within the GC.
 **
 ** finalizer:
 **    Thread in which the GC finalizer is running.
 **
 ** liveBlock:
 **    Object scanning functions call through this function pointer to
 **    register a potential block of pointers with the collector. (This is
 **    currently not at all different than processRoot.)
 **
 ** livePointer:
 **    Object scanning functions call through this function pointer to
 **    register a single pointer with the collector.
 **
 ** processRootBlock:
 **    When a root finder identifies a root it should call through this
 **    function pointer so that the GC can process the root. The call takes
 **    a base address and count which the gc will examine for valid heap
 **    pointers.
 **
 ** processRootPointer:
 **    When a root finder identifies a root it should call through this
 **    function pointer so that the GC can process the root. The call takes
 **    a single pointer value.
 */
 typedef struct GCInfoStr {
     PRWord  flags;         /* trace flags (see below)               */
     PRWord  busyMemory;    /* memory in use right now               */
     PRWord  freeMemory;    /* memory free right now                 */
     PRWord  allocMemory;   /* sum of busy & free memory             */
     PRWord  maxMemory;     /* max memory we are allowed to allocate */
     PRWord *lowSeg;        /* lowest segment in the GC heap         */
     PRWord *highSeg;       /* highest segment in the GC heap         */

     PRMonitor *lock;
     PRThread  *finalizer;

     void (PR_CALLBACK *liveBlock)(void **base, PRInt32 count);
     void (PR_CALLBACK *livePointer)(void *ptr);
     void (PR_CALLBACK *processRootBlock)(void **base, PRInt32 count);
     void (PR_CALLBACK *processRootPointer)(void *ptr);
     FILE* dumpOutput;
 #ifdef GCTIMINGHOOK
     void (*gcTimingHook)(int32 gcTime);
 #endif
 } GCInfo;

 PR_EXTERN(GCInfo *) PR_GetGCInfo(void);
 PR_EXTERN(PRBool) PR_GC_In_Heap(void GCPTR *object);

 /*
 ** Simple bounds check to see if a pointer is anywhere near the GC heap.
 ** Used to avoid calls to PR_ProcessRoot and GCInfo.livePointer by object
 ** scanning code.
 */
 #if !defined(XP_PC) || defined(_WIN32)
 #define GC_IN_HEAP(_info, _p) (((PRWord*)(_p) >= (_info)->lowSeg) && \
                                ((PRWord*)(_p) <  (_info)->highSeg))
 #else
 /*
 ** The simple bounds check, above, doesn't work in Win16, because we don't
 ** maintain: lowSeg == MIN(all segments) and highSeg == MAX(all segments).
 ** So we have to do a little better.
 */
 #define GC_IN_HEAP(_info, _p) PR_GC_In_Heap(_p)
 #endif

 PR_EXTERN(PRWord) PR_GetObjectHeader(void *ptr);

 PR_EXTERN(PRWord) PR_SetObjectHeader(void *ptr, PRWord newUserBits);

 /************************************************************************/

 /* Trace flags (passed to PR_InitGC or in environment GCLOG) */
 #define GC_TRACE    0x0001
 #define GC_ROOTS    0x0002
 #define GC_LIVE     0x0004
 #define GC_ALLOC    0x0008
 #define GC_MARK     0x0010
 #define GC_SWEEP    0x0020
 #define GC_DEBUG    0x0040
 #define GC_FINAL    0x0080

 #if defined(DEBUG_kipp) || defined(DEBUG_warren)
 #define GC_CHECK    0x0100
 #endif

 #ifdef DEBUG
 #define GCTRACE(x, y) if (PR_GetGCInfo()->flags & x) GCTrace y
 PR_EXTERN(void) GCTrace(char *fmt, ...);
 #else
 #define GCTRACE(x, y)
 #endif

 PR_END_EXTERN_C

 #endif /* prgc_h___ */
	/* -- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -- */
	/* *** BEGIN LICENSE BLOCK ***
	* Version: MPL 1.1/GPL 2.0/LGPL 2.1
	*
	* The contents of this file are subject to the Mozilla Public License Version
	* 1.1 (the "License"); you may not use this file except in compliance with
	* the License. You may obtain a copy of the License at
	* http://www.mozilla.org/MPL/
	*
	* Software distributed under the License is distributed on an "AS IS" basis,
	* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
	* for the specific language governing rights and limitations under the
	* License.
	*
	* The Original Code is the Netscape Portable Runtime (NSPR).
	*
	* The Initial Developer of the Original Code is
	* Netscape Communications Corporation.
	* Portions created by the Initial Developer are Copyright (C) 1998-2000
	* the Initial Developer. All Rights Reserved.
	*
	* Contributor(s):
	*
	* Alternatively, the contents of this file may be used under the terms of
	* either the GNU General Public License Version 2 or later (the "GPL"), or
	* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
	* in which case the provisions of the GPL or the LGPL are applicable instead
	* of those above. If you wish to allow use of your version of this file only
	* under the terms of either the GPL or the LGPL, and not to allow others to
	* use your version of this file under the terms of the MPL, indicate your
	* decision by deleting the provisions above and replace them with the notice
	* and other provisions required by the GPL or the LGPL. If you do not delete
	* the provisions above, a recipient may use your version of this file under
	* the terms of any one of the MPL, the GPL or the LGPL.
	*
	* *** END LICENSE BLOCK *** */

	#ifndef prgc_h___
	#define prgc_h___

	/*
	** API to NSPR gc memory system.
	*/
	#include "prtypes.h"
	#include "prmon.h"
	#include "prthread.h"
	#include <stdio.h>

	#if defined(WIN16)
	#define GCPTR __far
	#else
	#define GCPTR
	#endif


	PR_BEGIN_EXTERN_C

	/*
	** Initialize the garbage collector.
	** "flags" is the trace flags (see below).
	** "initialHeapSize" is the initial size of the heap and may be zero
	** if the default is desired.
	** "segmentSize" is the size of each segment of memory added to the
	** heap when the heap is grown.
	*/
	PR_EXTERN(void) PR_InitGC(
	PRWord flags, PRInt32 initialHeapSize, PRInt32 segmentSize, PRThreadScope scope);

	/*
	** Shuts down gc and frees up all memory associated with it.
	*/
	PR_EXTERN(void) PR_ShutdownGC(PRBool finalizeOnExit);

	/*
	** This walk function will be called for every gc object in the
	** heap as it is walked. If it returns non-zero, the walk is terminated.
	*/
	typedef PRInt32 (PRWalkFun)(void GCPTR obj, void* data);

	/*
	** GC Type record. This defines all of the GC operations used on a
	** particular object type. These structures are passed to
	** PR_RegisterType.
	*/
	typedef struct GCType {
	/*
	** Scan an object that is in the GC heap and call GCInfo.livePointer
	** on all of the pointers in it. If this slot is null then the object
	** won't be scanned (i.e. it has no embedded pointers).
	*/
	void (PR_CALLBACK scan)(void GCPTR obj);

	/*
	** Finalize an object that has no references. This is called by the
	** GC after it has determined where the object debris is but before
	** it has moved the debris to the logical "free list". The object is
	** marked alive for this call and removed from the list of objects
	** that need finalization (finalization only happens once for an
	** object). If this slot is null then the object doesn't need
	** finalization.
	*/
	void (PR_CALLBACK finalize)(void GCPTR obj);

	/*
	** Dump out an object during a PR_DumpGCHeap(). This is used as a
	** debugging tool.
	*/
	void (PR_CALLBACK dump)(FILE out, void GCPTR *obj, PRBool detailed, PRIntn indentLevel);

	/*
	** Add object to summary table.
	*/
	void (PR_CALLBACK summarize)(void GCPTR obj, PRUint32 bytes);

	/*
	** Free hook called by GC when the object is being freed.
	*/
	void (PR_CALLBACK free)(void obj);

	/* Weak pointer support: If the object has a weak pointer (Note:
	at most one), this function is used to get the weak link's
	offset from the start of the body of a gc object */
	PRUint32 (PR_CALLBACK getWeakLinkOffset)(void obj);

	/* Descriptive character for dumping this GCType */
	char kindChar;

	/*
	** Walker routine. This routine should apply fun(obj->ptr, data)
	** for every gc pointer within the object.
	*/
	PRInt32 (PR_CALLBACK walk)(void GCPTR obj, PRWalkFun fun, void* data);
	} GCType;

	/*
	** This data structure must be added as the hash table passed to
	** the summarize method of GCType.
	*/
	typedef struct PRSummaryEntry {
	void* clazz;
	PRInt32 instancesCount;
	PRInt32 totalSize;
	} PRSummaryEntry;

	/*
	** This function pointer must be registered by users of nspr
	** to produce the finally summary after all object in the
	** heap have been visited.
	*/
	typedef void (PR_CALLBACK PRSummaryPrinter)(FILE out, void* closure);

	PR_EXTERN(void) PR_CALLBACK PR_RegisterSummaryPrinter(PRSummaryPrinter fun, void* closure);

	typedef void PR_CALLBACK GCRootFinder(void *arg);
	typedef void PR_CALLBACK GCBeginFinalizeHook(void *arg);
	typedef void PR_CALLBACK GCEndFinalizeHook(void *arg);
	typedef void PR_CALLBACK GCBeginGCHook(void *arg);
	typedef void PR_CALLBACK GCEndGCHook(void *arg);

	typedef enum { PR_GCBEGIN, PR_GCEND } GCLockHookArg;

	typedef void PR_CALLBACK GCLockHookFunc(GCLockHookArg arg1, void *arg2);

	typedef struct GCLockHook GCLockHook;

	struct GCLockHook {
	GCLockHookFunc* func;
	void* arg;
	GCLockHook* next;
	GCLockHook* prev;
	};


	/*
	** Hooks which are called at the beginning and end of the GC process.
	** The begin hooks are called before the root finding step. The hooks are
	** called with threading disabled, so it is now allowed to re-enter the
	** kernel. The end hooks are called after the gc has finished but before
	** the finalizer has run.
	*/
	PR_EXTERN(void) PR_CALLBACK PR_SetBeginGCHook(GCBeginGCHook hook, void arg);
	PR_EXTERN(void) PR_CALLBACK PR_GetBeginGCHook(GCBeginGCHook hook, void arg);
	PR_EXTERN(void) PR_CALLBACK PR_SetEndGCHook(GCBeginGCHook hook, void arg);
	PR_EXTERN(void) PR_CALLBACK PR_GetEndGCHook(GCEndGCHook hook, void arg);

	/*
	** Called before SuspendAll is called by dogc, so that GC thread can hold
	** all the locks before hand to avoid any deadlocks
	*/

	/*
	PR_EXTERN(void) PR_SetGCLockHook(GCLockHook hook, void arg);
	PR_EXTERN(void) PR_GetGCLockHook(GCLockHook hook, void arg);
	*/

	PR_EXTERN(int) PR_RegisterGCLockHook(GCLockHookFunc hook, void arg);

	/*
	** Hooks which are called at the beginning and end of the GC finalization
	** process. After the GC has identified all of the dead objects in the
	** heap, it looks for objects that need finalization. Before it calls the
	** first finalization proc (see the GCType structure above) it calls the
	** begin hook. When it has finalized the last object it calls the end
	** hook.
	*/
	PR_EXTERN(void) PR_SetBeginFinalizeHook(GCBeginFinalizeHook hook, void arg);
	PR_EXTERN(void) PR_GetBeginFinalizeHook(GCBeginFinalizeHook hook, void arg);
	PR_EXTERN(void) PR_SetEndFinalizeHook(GCBeginFinalizeHook hook, void arg);
	PR_EXTERN(void) PR_GetEndFinalizeHook(GCEndFinalizeHook hook, void arg);

	/*
	** Register a GC type. Return's the index into the GC internal type
	** table. The returned value is passed to PR_AllocMemory. After the call,
	** the "type" memory belongs to the GC (the caller must not free it or
	** change it).
	*/
	PR_EXTERN(PRInt32) PR_RegisterType(GCType *type);

	/*
	** Register a root finder with the collector. The collector will call
	** these functions to identify all of the roots before collection
	** proceeds. "arg" is passed to the function when it is called.
	*/
	PR_EXTERN(PRStatus) PR_RegisterRootFinder(GCRootFinder func, char name, void arg);

	/*
	** Allocate some GC'able memory. The object must be at least bytes in
	** size. The type index function for the object is specified. "flags"
	** specifies some control flags. If PR_ALLOC_CLEAN is set then the memory
	** is zero'd before being returned. If PR_ALLOC_DOUBLE is set then the
	** allocated memory is double aligned.
	**
	** Any memory cell that you store a pointer to something allocated by
	** this call must be findable by the GC. Use the PR_RegisterRootFinder to
	** register new places where the GC will look for pointers into the heap.
	** The GC already knows how to scan any NSPR threads or monitors.
	*/
	PR_EXTERN(PRWord GCPTR *)PR_AllocMemory(
	PRWord bytes, PRInt32 typeIndex, PRWord flags);
	PR_EXTERN(PRWord GCPTR *)PR_AllocSimpleMemory(
	PRWord bytes, PRInt32 typeIndex);

	/*
	** This function can be used to cause PR_AllocMemory to always return
	** NULL. This may be useful in low memory situations when we're trying to
	** shutdown applets.
	*/
	PR_EXTERN(void) PR_EnableAllocation(PRBool yesOrNo);

	/* flags bits */
	#define PR_ALLOC_CLEAN 0x1
	#define PR_ALLOC_DOUBLE 0x2
	#define PR_ALLOC_ZERO_HANDLE 0x4 /* XXX yes, it's a hack */

	/*
	** Force a garbage collection right now. Return when it completes.
	*/
	PR_EXTERN(void) PR_GC(void);

	/*
	** Force a finalization right now. Return when finalization has
	** completed. Finalization completes when there are no more objects
	** pending finalization. This does not mean there are no objects in the
	** gc heap that will need finalization should a collection be done after
	** this call.
	*/
	PR_EXTERN(void) PR_ForceFinalize(void);

	/*
	** Dump the GC heap out to the given file. This will stop the system dead
	** in its tracks while it is occuring.
	*/
	PR_EXTERN(void) PR_DumpGCHeap(FILE *out, PRBool detailed);

	/*
	** Wrapper for PR_DumpGCHeap
	*/
	PR_EXTERN(void) PR_DumpMemory(PRBool detailed);

	/*
	** Dump summary of objects allocated.
	*/
	PR_EXTERN(void) PR_DumpMemorySummary(void);

	/*
	** Dump the application heaps.
	*/
	PR_EXTERN(void) PR_DumpApplicationHeaps(void);

	/*
	** Helper function used by dump routines to do the indentation in a
	** consistent fashion.
	*/
	PR_EXTERN(void) PR_DumpIndent(FILE *out, PRIntn indent);

	/*
	** The GCInfo structure contains all of the GC state...
	**
	** busyMemory:
	** The amount of GC heap memory that is busy at this instant. Busy
	** doesn't mean alive, it just means that it has been
	** allocated. Immediately after a collection busy means how much is
	** alive.
	**
	** freeMemory:
	** The amount of GC heap memory that is as yet unallocated.
	**
	** allocMemory:
	** The sum of free and busy memory in the GC heap.
	**
	** maxMemory:
	** The maximum size that the GC heap is allowed to grow.
	**
	** lowSeg:
	** The lowest segment currently used in the GC heap.
	**
	** highSeg:
	** The highest segment currently used in the GC heap.
	** The lowSeg and highSeg members are used for a "quick test" of whether
	** a pointer falls within the GC heap. [ see GC_IN_HEAP(...) ]
	**
	** lock:
	** Monitor used for synchronization within the GC.
	**
	** finalizer:
	** Thread in which the GC finalizer is running.
	**
	** liveBlock:
	** Object scanning functions call through this function pointer to
	** register a potential block of pointers with the collector. (This is
	** currently not at all different than processRoot.)
	**
	** livePointer:
	** Object scanning functions call through this function pointer to
	** register a single pointer with the collector.
	**
	** processRootBlock:
	** When a root finder identifies a root it should call through this
	** function pointer so that the GC can process the root. The call takes
	** a base address and count which the gc will examine for valid heap
	** pointers.
	**
	** processRootPointer:
	** When a root finder identifies a root it should call through this
	** function pointer so that the GC can process the root. The call takes
	** a single pointer value.
	*/
	typedef struct GCInfoStr {
	PRWord flags; /* trace flags (see below) */
	PRWord busyMemory; /* memory in use right now */
	PRWord freeMemory; /* memory free right now */
	PRWord allocMemory; /* sum of busy & free memory */
	PRWord maxMemory; /* max memory we are allowed to allocate */
	PRWord lowSeg; / lowest segment in the GC heap */
	PRWord highSeg; / highest segment in the GC heap */

	PRMonitor *lock;
	PRThread *finalizer;

	void (PR_CALLBACK liveBlock)(void *base, PRInt32 count);
	void (PR_CALLBACK livePointer)(void ptr);
	void (PR_CALLBACK processRootBlock)(void *base, PRInt32 count);
	void (PR_CALLBACK processRootPointer)(void ptr);
	FILE* dumpOutput;
	#ifdef GCTIMINGHOOK
	void (*gcTimingHook)(int32 gcTime);
	#endif
	} GCInfo;

	PR_EXTERN(GCInfo *) PR_GetGCInfo(void);
	PR_EXTERN(PRBool) PR_GC_In_Heap(void GCPTR *object);

	/*
	** Simple bounds check to see if a pointer is anywhere near the GC heap.
	** Used to avoid calls to PR_ProcessRoot and GCInfo.livePointer by object
	** scanning code.
	*/
	#if !defined(XP_PC) \|\| defined(_WIN32)
	#define GC_IN_HEAP(_info, _p) (((PRWord*)(_p) >= (_info)->lowSeg) && \
	((PRWord*)(_p) < (_info)->highSeg))
	#else
	/*
	** The simple bounds check, above, doesn't work in Win16, because we don't
	** maintain: lowSeg == MIN(all segments) and highSeg == MAX(all segments).
	** So we have to do a little better.
	*/
	#define GC_IN_HEAP(_info, _p) PR_GC_In_Heap(_p)
	#endif

	PR_EXTERN(PRWord) PR_GetObjectHeader(void *ptr);

	PR_EXTERN(PRWord) PR_SetObjectHeader(void *ptr, PRWord newUserBits);

	/************************************************************************/

	/* Trace flags (passed to PR_InitGC or in environment GCLOG) */
	#define GC_TRACE 0x0001
	#define GC_ROOTS 0x0002
	#define GC_LIVE 0x0004
	#define GC_ALLOC 0x0008
	#define GC_MARK 0x0010
	#define GC_SWEEP 0x0020
	#define GC_DEBUG 0x0040
	#define GC_FINAL 0x0080

	#if defined(DEBUG_kipp) \|\| defined(DEBUG_warren)
	#define GC_CHECK 0x0100
	#endif

	#ifdef DEBUG
	#define GCTRACE(x, y) if (PR_GetGCInfo()->flags & x) GCTrace y
	PR_EXTERN(void) GCTrace(char *fmt, ...);
	#else
	#define GCTRACE(x, y)
	#endif

	PR_END_EXTERN_C

	#endif /* prgc_h___ */