src/share/vm/runtime/handles.hpp - platform/external/jetbrains/jdk8u_hotspot - Git at Google

 /*
  * Copyright (c) 1997, 2014, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  *
  */

 #ifndef SHARE_VM_RUNTIME_HANDLES_HPP
 #define SHARE_VM_RUNTIME_HANDLES_HPP

 #include "oops/klass.hpp"

 //------------------------------------------------------------------------------------------------------------------------
 // In order to preserve oops during garbage collection, they should be
 // allocated and passed around via Handles within the VM. A handle is
 // simply an extra indirection allocated in a thread local handle area.
 //
 // A handle is a ValueObj, so it can be passed around as a value, can
 // be used as a parameter w/o using &-passing, and can be returned as a
 // return value.
 //
 // oop parameters and return types should be Handles whenever feasible.
 //
 // Handles are declared in a straight-forward manner, e.g.
 //
 //   oop obj = ...;
 //   Handle h1(obj);              // allocate new handle
 //   Handle h2(thread, obj);      // faster allocation when current thread is known
 //   Handle h3;                   // declare handle only, no allocation occurs
 //   ...
 //   h3 = h1;                     // make h3 refer to same indirection as h1
 //   oop obj2 = h2();             // get handle value
 //   h1->print();                 // invoking operation on oop
 //
 // Handles are specialized for different oop types to provide extra type
 // information and avoid unnecessary casting. For each oop type xxxOop
 // there is a corresponding handle called xxxHandle, e.g.
 //
 //   oop           Handle
 //   Method*       methodHandle
 //   instanceOop   instanceHandle

 //------------------------------------------------------------------------------------------------------------------------
 // Base class for all handles. Provides overloading of frequently
 // used operators for ease of use.

 class Handle VALUE_OBJ_CLASS_SPEC {
  private:
   oop* _handle;

  protected:
   oop     obj() const                            { return _handle == NULL ? (oop)NULL : *_handle; }
   oop     non_null_obj() const                   { assert(_handle != NULL, "resolving NULL handle"); return *_handle; }

  public:
   // Constructors
   Handle()                                       { _handle = NULL; }
   Handle(oop obj);
   Handle(Thread* thread, oop obj);

   // General access
   oop     operator () () const                   { return obj(); }
   oop     operator -> () const                   { return non_null_obj(); }
   bool    operator == (oop o) const              { return obj() == o; }
   bool    operator == (const Handle& h) const          { return obj() == h.obj(); }

   // Null checks
   bool    is_null() const                        { return _handle == NULL; }
   bool    not_null() const                       { return _handle != NULL; }

   // Debugging
   void    print()                                { obj()->print(); }

   // Direct interface, use very sparingly.
   // Used by JavaCalls to quickly convert handles and to create handles static data structures.
   // Constructor takes a dummy argument to prevent unintentional type conversion in C++.
   Handle(oop *handle, bool dummy)                { _handle = handle; }

   // Raw handle access. Allows easy duplication of Handles. This can be very unsafe
   // since duplicates is only valid as long as original handle is alive.
   oop* raw_value()                               { return _handle; }
   static oop raw_resolve(oop *handle)            { return handle == NULL ? (oop)NULL : *handle; }
 };

 // Specific Handles for different oop types
 #define DEF_HANDLE(type, is_a)                   \
   class type##Handle: public Handle {            \
    protected:                                    \
     type##Oop    obj() const                     { return (type##Oop)Handle::obj(); } \
     type##Oop    non_null_obj() const            { return (type##Oop)Handle::non_null_obj(); } \
                                                  \
    public:                                       \
     /* Constructors */                           \
     type##Handle ()                              : Handle()                 {} \
     type##Handle (type##Oop obj) : Handle((oop)obj) {                         \
       assert(is_null() || ((oop)obj)->is_a(),                                 \
              "illegal type");                                                 \
     }                                                                         \
     type##Handle (Thread* thread, type##Oop obj) : Handle(thread, (oop)obj) { \
       assert(is_null() || ((oop)obj)->is_a(), "illegal type");                \
     }                                                                         \
     \
     /* Operators for ease of use */              \
     type##Oop    operator () () const            { return obj(); } \
     type##Oop    operator -> () const            { return non_null_obj(); } \
   };


 DEF_HANDLE(instance         , is_instance         )
 DEF_HANDLE(array            , is_array            )
 DEF_HANDLE(objArray         , is_objArray         )
 DEF_HANDLE(typeArray        , is_typeArray        )

 //------------------------------------------------------------------------------------------------------------------------

 // Metadata Handles.  Unlike oop Handles these are needed to prevent metadata
 // from being reclaimed by RedefineClasses.

 // Specific Handles for different oop types
 #define DEF_METADATA_HANDLE(name, type)          \
   class name##Handle;                            \
   class name##Handle : public StackObj {         \
     type*     _value;                            \
     Thread*   _thread;                           \
    protected:                                    \
     type*        obj() const                     { return _value; } \
     type*        non_null_obj() const            { assert(_value != NULL, "resolving NULL _value"); return _value; } \
                                                  \
    public:                                       \
     /* Constructors */                           \
     name##Handle () : _value(NULL), _thread(NULL) {}   \
     name##Handle (type* obj);                    \
     name##Handle (Thread* thread, type* obj);    \
                                                  \
     name##Handle (const name##Handle &h);        \
     name##Handle& operator=(const name##Handle &s); \
                                                  \
     /* Destructor */                             \
     ~name##Handle ();                            \
     void remove();                               \
                                                  \
     /* Operators for ease of use */              \
     type*        operator () () const            { return obj(); } \
     type*        operator -> () const            { return non_null_obj(); } \
                                                  \
     bool    operator == (type* o) const          { return obj() == o; } \
     bool    operator == (const name##Handle& h) const  { return obj() == h.obj(); } \
                                                  \
     /* Null checks */                            \
     bool    is_null() const                      { return _value == NULL; } \
     bool    not_null() const                     { return _value != NULL; } \
   };


 DEF_METADATA_HANDLE(method, Method)
 DEF_METADATA_HANDLE(constantPool, ConstantPool)

 // Writing this class explicitly, since DEF_METADATA_HANDLE(klass) doesn't
 // provide the necessary Klass* <-> Klass* conversions. This Klass
 // could be removed when we don't have the Klass* typedef anymore.
 class KlassHandle : public StackObj {
   Klass* _value;
  protected:
    Klass* obj() const          { return _value; }
    Klass* non_null_obj() const { assert(_value != NULL, "resolving NULL _value"); return _value; }

  public:
    KlassHandle()                                 : _value(NULL) {}
    KlassHandle(const Klass* obj)                 : _value(const_cast<Klass *>(obj)) {};
    KlassHandle(Thread* thread, const Klass* obj) : _value(const_cast<Klass *>(obj)) {};

    Klass* operator () () const { return obj(); }
    Klass* operator -> () const { return non_null_obj(); }

    bool operator == (Klass* o) const             { return obj() == o; }
    bool operator == (const KlassHandle& h) const { return obj() == h.obj(); }

     bool is_null() const  { return _value == NULL; }
     bool not_null() const { return _value != NULL; }
 };

 class instanceKlassHandle : public KlassHandle {
  public:
   /* Constructors */
   instanceKlassHandle () : KlassHandle() {}
   instanceKlassHandle (const Klass* k) : KlassHandle(k) {
     assert(k == NULL || k->oop_is_instance(),
            "illegal type");
   }
   instanceKlassHandle (Thread* thread, const Klass* k) : KlassHandle(thread, k) {
     assert(k == NULL || k->oop_is_instance(),
            "illegal type");
   }
   /* Access to klass part */
   InstanceKlass*       operator () () const { return (InstanceKlass*)obj(); }
   InstanceKlass*       operator -> () const { return (InstanceKlass*)obj(); }
 };


 //------------------------------------------------------------------------------------------------------------------------
 // Thread local handle area
 class HandleArea: public Arena {
   friend class HandleMark;
   friend class NoHandleMark;
   friend class ResetNoHandleMark;
 #ifdef ASSERT
   int _handle_mark_nesting;
   int _no_handle_mark_nesting;
 #endif
   HandleArea* _prev;          // link to outer (older) area
  public:
   // Constructor
   HandleArea(HandleArea* prev) : Arena(mtThread, Chunk::tiny_size) {
     debug_only(_handle_mark_nesting    = 0);
     debug_only(_no_handle_mark_nesting = 0);
     _prev = prev;
   }

   // Handle allocation
  private:
   oop* real_allocate_handle(oop obj) {
 #ifdef ASSERT
     oop* handle = (oop*) (UseMallocOnly ? internal_malloc_4(oopSize) : Amalloc_4(oopSize));
 #else
     oop* handle = (oop*) Amalloc_4(oopSize);
 #endif
     *handle = obj;
     return handle;
   }
  public:
 #ifdef ASSERT
   oop* allocate_handle(oop obj);
 #else
   oop* allocate_handle(oop obj) { return real_allocate_handle(obj); }
 #endif

   // Garbage collection support
   void oops_do(OopClosure* f);

   // Number of handles in use
   size_t used() const     { return Arena::used() / oopSize; }

   debug_only(bool no_handle_mark_active() { return _no_handle_mark_nesting > 0; })
 };


 //------------------------------------------------------------------------------------------------------------------------
 // Handles are allocated in a (growable) thread local handle area. Deallocation
 // is managed using a HandleMark. It should normally not be necessary to use
 // HandleMarks manually.
 //
 // A HandleMark constructor will record the current handle area top, and the
 // desctructor will reset the top, destroying all handles allocated in between.
 // The following code will therefore NOT work:
 //
 //   Handle h;
 //   {
 //     HandleMark hm;
 //     h = Handle(obj);
 //   }
 //   h()->print();       // WRONG, h destroyed by HandleMark destructor.
 //
 // If h has to be preserved, it can be converted to an oop or a local JNI handle
 // across the HandleMark boundary.

 // The base class of HandleMark should have been StackObj but we also heap allocate
 // a HandleMark when a thread is created. The operator new is for this special case.

 class HandleMark {
  private:
   Thread *_thread;              // thread that owns this mark
   HandleArea *_area;            // saved handle area
   Chunk *_chunk;                // saved arena chunk
   char *_hwm, *_max;            // saved arena info
   size_t _size_in_bytes;        // size of handle area
   // Link to previous active HandleMark in thread
   HandleMark* _previous_handle_mark;

   void initialize(Thread* thread);                // common code for constructors
   void set_previous_handle_mark(HandleMark* mark) { _previous_handle_mark = mark; }
   HandleMark* previous_handle_mark() const        { return _previous_handle_mark; }

   size_t size_in_bytes() const { return _size_in_bytes; }
  public:
   HandleMark();                            // see handles_inline.hpp
   HandleMark(Thread* thread)                      { initialize(thread); }
   ~HandleMark();

   // Functions used by HandleMarkCleaner
   // called in the constructor of HandleMarkCleaner
   void push();
   // called in the destructor of HandleMarkCleaner
   void pop_and_restore();
   // overloaded operators
   void* operator new(size_t size) throw();
   void* operator new [](size_t size) throw();
   void operator delete(void* p);
   void operator delete[](void* p);
 };

 //------------------------------------------------------------------------------------------------------------------------
 // A NoHandleMark stack object will verify that no handles are allocated
 // in its scope. Enabled in debug mode only.

 class NoHandleMark: public StackObj {
  public:
 #ifdef ASSERT
   NoHandleMark();
   ~NoHandleMark();
 #else
   NoHandleMark()  {}
   ~NoHandleMark() {}
 #endif
 };


 class ResetNoHandleMark: public StackObj {
   int _no_handle_mark_nesting;
  public:
 #ifdef ASSERT
   ResetNoHandleMark();
   ~ResetNoHandleMark();
 #else
   ResetNoHandleMark()  {}
   ~ResetNoHandleMark() {}
 #endif
 };

 #endif // SHARE_VM_RUNTIME_HANDLES_HPP
	/*
	* Copyright (c) 1997, 2014, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation.
	*
	* This code is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*
	*/

	#ifndef SHARE_VM_RUNTIME_HANDLES_HPP
	#define SHARE_VM_RUNTIME_HANDLES_HPP

	#include "oops/klass.hpp"

	//------------------------------------------------------------------------------------------------------------------------
	// In order to preserve oops during garbage collection, they should be
	// allocated and passed around via Handles within the VM. A handle is
	// simply an extra indirection allocated in a thread local handle area.
	//
	// A handle is a ValueObj, so it can be passed around as a value, can
	// be used as a parameter w/o using &-passing, and can be returned as a
	// return value.
	//
	// oop parameters and return types should be Handles whenever feasible.
	//
	// Handles are declared in a straight-forward manner, e.g.
	//
	// oop obj = ...;
	// Handle h1(obj); // allocate new handle
	// Handle h2(thread, obj); // faster allocation when current thread is known
	// Handle h3; // declare handle only, no allocation occurs
	// ...
	// h3 = h1; // make h3 refer to same indirection as h1
	// oop obj2 = h2(); // get handle value
	// h1->print(); // invoking operation on oop
	//
	// Handles are specialized for different oop types to provide extra type
	// information and avoid unnecessary casting. For each oop type xxxOop
	// there is a corresponding handle called xxxHandle, e.g.
	//
	// oop Handle
	// Method* methodHandle
	// instanceOop instanceHandle

	//------------------------------------------------------------------------------------------------------------------------
	// Base class for all handles. Provides overloading of frequently
	// used operators for ease of use.

	class Handle VALUE_OBJ_CLASS_SPEC {
	private:
	oop* _handle;

	protected:
	oop obj() const { return _handle == NULL ? (oop)NULL : *_handle; }
	oop non_null_obj() const { assert(_handle != NULL, "resolving NULL handle"); return *_handle; }

	public:
	// Constructors
	Handle() { _handle = NULL; }
	Handle(oop obj);
	Handle(Thread* thread, oop obj);

	// General access
	oop operator () () const { return obj(); }
	oop operator -> () const { return non_null_obj(); }
	bool operator == (oop o) const { return obj() == o; }
	bool operator == (const Handle& h) const { return obj() == h.obj(); }

	// Null checks
	bool is_null() const { return _handle == NULL; }
	bool not_null() const { return _handle != NULL; }

	// Debugging
	void print() { obj()->print(); }

	// Direct interface, use very sparingly.
	// Used by JavaCalls to quickly convert handles and to create handles static data structures.
	// Constructor takes a dummy argument to prevent unintentional type conversion in C++.
	Handle(oop *handle, bool dummy) { _handle = handle; }

	// Raw handle access. Allows easy duplication of Handles. This can be very unsafe
	// since duplicates is only valid as long as original handle is alive.
	oop* raw_value() { return _handle; }
	static oop raw_resolve(oop handle) { return handle == NULL ? (oop)NULL : handle; }
	};

	// Specific Handles for different oop types
	#define DEF_HANDLE(type, is_a) \
	class type##Handle: public Handle { \
	protected: \
	type##Oop obj() const { return (type##Oop)Handle::obj(); } \
	type##Oop non_null_obj() const { return (type##Oop)Handle::non_null_obj(); } \
	\
	public: \
	/* Constructors */ \
	type##Handle () : Handle() {} \
	type##Handle (type##Oop obj) : Handle((oop)obj) { \
	assert(is_null() \|\| ((oop)obj)->is_a(), \
	"illegal type"); \
	} \
	type##Handle (Thread* thread, type##Oop obj) : Handle(thread, (oop)obj) { \
	assert(is_null() \|\| ((oop)obj)->is_a(), "illegal type"); \
	} \
	\
	/* Operators for ease of use */ \
	type##Oop operator () () const { return obj(); } \
	type##Oop operator -> () const { return non_null_obj(); } \
	};


	DEF_HANDLE(instance , is_instance )
	DEF_HANDLE(array , is_array )
	DEF_HANDLE(objArray , is_objArray )
	DEF_HANDLE(typeArray , is_typeArray )

	//------------------------------------------------------------------------------------------------------------------------

	// Metadata Handles. Unlike oop Handles these are needed to prevent metadata
	// from being reclaimed by RedefineClasses.

	// Specific Handles for different oop types
	#define DEF_METADATA_HANDLE(name, type) \
	class name##Handle; \
	class name##Handle : public StackObj { \
	type* _value; \
	Thread* _thread; \
	protected: \
	type* obj() const { return _value; } \
	type* non_null_obj() const { assert(_value != NULL, "resolving NULL _value"); return _value; } \
	\
	public: \
	/* Constructors */ \
	name##Handle () : _value(NULL), _thread(NULL) {} \
	name##Handle (type* obj); \
	name##Handle (Thread* thread, type* obj); \
	\
	name##Handle (const name##Handle &h); \
	name##Handle& operator=(const name##Handle &s); \
	\
	/* Destructor */ \
	~name##Handle (); \
	void remove(); \
	\
	/* Operators for ease of use */ \
	type* operator () () const { return obj(); } \
	type* operator -> () const { return non_null_obj(); } \
	\
	bool operator == (type* o) const { return obj() == o; } \
	bool operator == (const name##Handle& h) const { return obj() == h.obj(); } \
	\
	/* Null checks */ \
	bool is_null() const { return _value == NULL; } \
	bool not_null() const { return _value != NULL; } \
	};


	DEF_METADATA_HANDLE(method, Method)
	DEF_METADATA_HANDLE(constantPool, ConstantPool)

	// Writing this class explicitly, since DEF_METADATA_HANDLE(klass) doesn't
	// provide the necessary Klass* <-> Klass* conversions. This Klass
	// could be removed when we don't have the Klass* typedef anymore.
	class KlassHandle : public StackObj {
	Klass* _value;
	protected:
	Klass* obj() const { return _value; }
	Klass* non_null_obj() const { assert(_value != NULL, "resolving NULL _value"); return _value; }

	public:
	KlassHandle() : _value(NULL) {}
	KlassHandle(const Klass* obj) : _value(const_cast<Klass *>(obj)) {};
	KlassHandle(Thread* thread, const Klass* obj) : _value(const_cast<Klass *>(obj)) {};

	Klass* operator () () const { return obj(); }
	Klass* operator -> () const { return non_null_obj(); }

	bool operator == (Klass* o) const { return obj() == o; }
	bool operator == (const KlassHandle& h) const { return obj() == h.obj(); }

	bool is_null() const { return _value == NULL; }
	bool not_null() const { return _value != NULL; }
	};

	class instanceKlassHandle : public KlassHandle {
	public:
	/* Constructors */
	instanceKlassHandle () : KlassHandle() {}
	instanceKlassHandle (const Klass* k) : KlassHandle(k) {
	assert(k == NULL \|\| k->oop_is_instance(),
	"illegal type");
	}
	instanceKlassHandle (Thread* thread, const Klass* k) : KlassHandle(thread, k) {
	assert(k == NULL \|\| k->oop_is_instance(),
	"illegal type");
	}
	/* Access to klass part */
	InstanceKlass* operator () () const { return (InstanceKlass*)obj(); }
	InstanceKlass* operator -> () const { return (InstanceKlass*)obj(); }
	};


	//------------------------------------------------------------------------------------------------------------------------
	// Thread local handle area
	class HandleArea: public Arena {
	friend class HandleMark;
	friend class NoHandleMark;
	friend class ResetNoHandleMark;
	#ifdef ASSERT
	int _handle_mark_nesting;
	int _no_handle_mark_nesting;
	#endif
	HandleArea* _prev; // link to outer (older) area
	public:
	// Constructor
	HandleArea(HandleArea* prev) : Arena(mtThread, Chunk::tiny_size) {
	debug_only(_handle_mark_nesting = 0);
	debug_only(_no_handle_mark_nesting = 0);
	_prev = prev;
	}

	// Handle allocation
	private:
	oop* real_allocate_handle(oop obj) {
	#ifdef ASSERT
	oop* handle = (oop*) (UseMallocOnly ? internal_malloc_4(oopSize) : Amalloc_4(oopSize));
	#else
	oop* handle = (oop*) Amalloc_4(oopSize);
	#endif
	*handle = obj;
	return handle;
	}
	public:
	#ifdef ASSERT
	oop* allocate_handle(oop obj);
	#else
	oop* allocate_handle(oop obj) { return real_allocate_handle(obj); }
	#endif

	// Garbage collection support
	void oops_do(OopClosure* f);

	// Number of handles in use
	size_t used() const { return Arena::used() / oopSize; }

	debug_only(bool no_handle_mark_active() { return _no_handle_mark_nesting > 0; })
	};


	//------------------------------------------------------------------------------------------------------------------------
	// Handles are allocated in a (growable) thread local handle area. Deallocation
	// is managed using a HandleMark. It should normally not be necessary to use
	// HandleMarks manually.
	//
	// A HandleMark constructor will record the current handle area top, and the
	// desctructor will reset the top, destroying all handles allocated in between.
	// The following code will therefore NOT work:
	//
	// Handle h;
	// {
	// HandleMark hm;
	// h = Handle(obj);
	// }
	// h()->print(); // WRONG, h destroyed by HandleMark destructor.
	//
	// If h has to be preserved, it can be converted to an oop or a local JNI handle
	// across the HandleMark boundary.

	// The base class of HandleMark should have been StackObj but we also heap allocate
	// a HandleMark when a thread is created. The operator new is for this special case.

	class HandleMark {
	private:
	Thread *_thread; // thread that owns this mark
	HandleArea *_area; // saved handle area
	Chunk *_chunk; // saved arena chunk
	char _hwm, _max; // saved arena info
	size_t _size_in_bytes; // size of handle area
	// Link to previous active HandleMark in thread
	HandleMark* _previous_handle_mark;

	void initialize(Thread* thread); // common code for constructors
	void set_previous_handle_mark(HandleMark* mark) { _previous_handle_mark = mark; }
	HandleMark* previous_handle_mark() const { return _previous_handle_mark; }

	size_t size_in_bytes() const { return _size_in_bytes; }
	public:
	HandleMark(); // see handles_inline.hpp
	HandleMark(Thread* thread) { initialize(thread); }
	~HandleMark();

	// Functions used by HandleMarkCleaner
	// called in the constructor of HandleMarkCleaner
	void push();
	// called in the destructor of HandleMarkCleaner
	void pop_and_restore();
	// overloaded operators
	void* operator new(size_t size) throw();
	void* operator new [](size_t size) throw();
	void operator delete(void* p);
	void operator delete[](void* p);
	};

	//------------------------------------------------------------------------------------------------------------------------
	// A NoHandleMark stack object will verify that no handles are allocated
	// in its scope. Enabled in debug mode only.

	class NoHandleMark: public StackObj {
	public:
	#ifdef ASSERT
	NoHandleMark();
	~NoHandleMark();
	#else
	NoHandleMark() {}
	~NoHandleMark() {}
	#endif
	};


	class ResetNoHandleMark: public StackObj {
	int _no_handle_mark_nesting;
	public:
	#ifdef ASSERT
	ResetNoHandleMark();
	~ResetNoHandleMark();
	#else
	ResetNoHandleMark() {}
	~ResetNoHandleMark() {}
	#endif
	};

	#endif // SHARE_VM_RUNTIME_HANDLES_HPP