src/share/vm/memory/universe.hpp - platform/external/jetbrains/jdk8u_hotspot - Git at Google

 /*
  * Copyright (c) 1997, 2016, 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_MEMORY_UNIVERSE_HPP
 #define SHARE_VM_MEMORY_UNIVERSE_HPP

 #include "runtime/handles.hpp"
 #include "utilities/array.hpp"
 #include "utilities/growableArray.hpp"

 // Universe is a name space holding known system classes and objects in the VM.
 //
 // Loaded classes are accessible through the SystemDictionary.
 //
 // The object heap is allocated and accessed through Universe, and various allocation
 // support is provided. Allocation by the interpreter and compiled code is done inline
 // and bails out to Scavenge::invoke_and_allocate.

 class CollectedHeap;
 class DeferredObjAllocEvent;


 // A helper class for caching a Method* when the user of the cache
 // only cares about the latest version of the Method*.  This cache safely
 // interacts with the RedefineClasses API.

 class LatestMethodCache : public CHeapObj<mtClass> {
   // We save the Klass* and the idnum of Method* in order to get
   // the current cached Method*.
  private:
   Klass*                _klass;
   int                   _method_idnum;

  public:
   LatestMethodCache()   { _klass = NULL; _method_idnum = -1; }
   ~LatestMethodCache()  { _klass = NULL; _method_idnum = -1; }

   void   init(Klass* k, Method* m);
   Klass* klass() const           { return _klass; }
   int    method_idnum() const    { return _method_idnum; }

   Method* get_method();

   // Enhanced Class Redefinition support
   void classes_do(void f(Klass*)) {
     f(_klass);
   }

   // CDS support.  Replace the klass in this with the archive version
   // could use this for Enhanced Class Redefinition also.
   void serialize(SerializeClosure* f) {
     f->do_ptr((void**)&_klass);
   }
 };


 // For UseCompressedOops.
 struct NarrowPtrStruct {
   // Base address for oop-within-java-object materialization.
   // NULL if using wide oops or zero based narrow oops.
   address _base;
   // Number of shift bits for encoding/decoding narrow ptrs.
   // 0 if using wide ptrs or zero based unscaled narrow ptrs,
   // LogMinObjAlignmentInBytes/LogKlassAlignmentInBytes otherwise.
   int     _shift;
   // Generate code with implicit null checks for narrow ptrs.
   bool    _use_implicit_null_checks;
 };

 enum VerifyOption {
       VerifyOption_Default = 0,

       // G1
       VerifyOption_G1UsePrevMarking = VerifyOption_Default,
       VerifyOption_G1UseNextMarking = VerifyOption_G1UsePrevMarking + 1,
       VerifyOption_G1UseMarkWord    = VerifyOption_G1UseNextMarking + 1
 };

 class Universe: AllStatic {
   // Ugh.  Universe is much too friendly.
   friend class MarkSweep;
   friend class oopDesc;
   friend class ClassLoader;
   friend class Arguments;
   friend class SystemDictionary;
   friend class VMStructs;
   friend class VM_PopulateDumpSharedSpace;
   friend class Metaspace;

   friend jint  universe_init();
   friend void  universe2_init();
   friend bool  universe_post_init();

  private:
   // Known classes in the VM
   static Klass* _boolArrayKlassObj;
   static Klass* _byteArrayKlassObj;
   static Klass* _charArrayKlassObj;
   static Klass* _intArrayKlassObj;
   static Klass* _shortArrayKlassObj;
   static Klass* _longArrayKlassObj;
   static Klass* _singleArrayKlassObj;
   static Klass* _doubleArrayKlassObj;
   static Klass* _typeArrayKlassObjs[T_VOID+1];

   static Klass* _objectArrayKlassObj;

   // Known objects in the VM

   // Primitive objects
   static oop _int_mirror;
   static oop _float_mirror;
   static oop _double_mirror;
   static oop _byte_mirror;
   static oop _bool_mirror;
   static oop _char_mirror;
   static oop _long_mirror;
   static oop _short_mirror;
   static oop _void_mirror;

   static oop          _main_thread_group;             // Reference to the main thread group object
   static oop          _system_thread_group;           // Reference to the system thread group object

   static objArrayOop  _the_empty_class_klass_array;   // Canonicalized obj array of type java.lang.Class
   static oop          _the_null_string;               // A cache of "null" as a Java string
   static oop          _the_min_jint_string;          // A cache of "-2147483648" as a Java string
   static LatestMethodCache* _finalizer_register_cache; // static method for registering finalizable objects
   static LatestMethodCache* _loader_addClass_cache;    // method for registering loaded classes in class loader vector
   static LatestMethodCache* _pd_implies_cache;         // method for checking protection domain attributes
   static LatestMethodCache* _throw_illegal_access_error_cache; // Unsafe.throwIllegalAccessError() method

   // preallocated error objects (no backtrace)
   static oop          _out_of_memory_error_java_heap;
   static oop          _out_of_memory_error_metaspace;
   static oop          _out_of_memory_error_class_metaspace;
   static oop          _out_of_memory_error_array_size;
   static oop          _out_of_memory_error_gc_overhead_limit;
   static oop          _out_of_memory_error_realloc_objects;

   static Array<int>*       _the_empty_int_array;    // Canonicalized int array
   static Array<u2>*        _the_empty_short_array;  // Canonicalized short array
   static Array<Klass*>*  _the_empty_klass_array;  // Canonicalized klass obj array
   static Array<Method*>* _the_empty_method_array; // Canonicalized method obj array

   static Array<Klass*>*  _the_array_interfaces_array;

   // array of preallocated error objects with backtrace
   static objArrayOop   _preallocated_out_of_memory_error_array;

   // number of preallocated error objects available for use
   static volatile jint _preallocated_out_of_memory_error_avail_count;

   static oop          _null_ptr_exception_instance;   // preallocated exception object
   static oop          _arithmetic_exception_instance; // preallocated exception object
   static oop          _virtual_machine_error_instance; // preallocated exception object
   // The object used as an exception dummy when exceptions are thrown for
   // the vm thread.
   static oop          _vm_exception;

   static oop          _allocation_context_notification_obj;

   // The particular choice of collected heap.
   static CollectedHeap* _collectedHeap;

   static intptr_t _non_oop_bits;

   // For UseCompressedOops.
   static struct NarrowPtrStruct _narrow_oop;
   // For UseCompressedClassPointers.
   static struct NarrowPtrStruct _narrow_klass;
   static address _narrow_ptrs_base;

   // array of dummy objects used with +FullGCAlot
   debug_only(static objArrayOop _fullgc_alot_dummy_array;)
   // index of next entry to clear
   debug_only(static int         _fullgc_alot_dummy_next;)

   // Compiler/dispatch support
   static int  _base_vtable_size;                      // Java vtbl size of klass Object (in words)

   // Initialization
   static bool _bootstrapping;                         // true during genesis
   static bool _fully_initialized;                     // true after universe_init and initialize_vtables called

   // the array of preallocated errors with backtraces
   static objArrayOop  preallocated_out_of_memory_errors()     { return _preallocated_out_of_memory_error_array; }

   // generate an out of memory error; if possible using an error with preallocated backtrace;
   // otherwise return the given default error.
   static oop        gen_out_of_memory_error(oop default_err);

   // Historic gc information
   static size_t _heap_capacity_at_last_gc;
   static size_t _heap_used_at_last_gc;

   static jint initialize_heap();
   static void initialize_basic_type_mirrors(TRAPS);
   static void fixup_mirrors(TRAPS);

   static void reinitialize_vtable_of(KlassHandle h_k, TRAPS);
   static void reinitialize_itables(TRAPS);
   static void compute_base_vtable_size();             // compute vtable size of class Object

   static void genesis(TRAPS);                         // Create the initial world

   // Mirrors for primitive classes (created eagerly)
   static oop check_mirror(oop m) {
     assert(m != NULL, "mirror not initialized");
     return m;
   }

   static void     set_narrow_oop_base(address base) {
     assert(UseCompressedOops, "no compressed oops?");
     _narrow_oop._base    = base;
   }
   static void     set_narrow_klass_base(address base) {
     assert(UseCompressedClassPointers, "no compressed klass ptrs?");
     _narrow_klass._base   = base;
   }
   static void     set_narrow_oop_use_implicit_null_checks(bool use) {
     assert(UseCompressedOops, "no compressed ptrs?");
     _narrow_oop._use_implicit_null_checks   = use;
   }

   // Debugging
   static int _verify_count;                           // number of verifies done
   // True during call to verify().  Should only be set/cleared in verify().
   static bool _verify_in_progress;
   static long verify_flags;

   static void compute_verify_oop_data();

  public:
   // Known classes in the VM
   static Klass* boolArrayKlassObj()                 { return _boolArrayKlassObj;   }
   static Klass* byteArrayKlassObj()                 { return _byteArrayKlassObj;   }
   static Klass* charArrayKlassObj()                 { return _charArrayKlassObj;   }
   static Klass* intArrayKlassObj()                  { return _intArrayKlassObj;    }
   static Klass* shortArrayKlassObj()                { return _shortArrayKlassObj;  }
   static Klass* longArrayKlassObj()                 { return _longArrayKlassObj;   }
   static Klass* singleArrayKlassObj()               { return _singleArrayKlassObj; }
   static Klass* doubleArrayKlassObj()               { return _doubleArrayKlassObj; }

   static Klass* objectArrayKlassObj() {
     return _objectArrayKlassObj;
   }

   static Klass* typeArrayKlassObj(BasicType t) {
     assert((uint)t < T_VOID+1, err_msg("range check for type: %s", type2name(t)));
     assert(_typeArrayKlassObjs[t] != NULL, "domain check");
     return _typeArrayKlassObjs[t];
   }

   // Known objects in the VM
   static oop int_mirror()                   { return check_mirror(_int_mirror); }
   static oop float_mirror()                 { return check_mirror(_float_mirror); }
   static oop double_mirror()                { return check_mirror(_double_mirror); }
   static oop byte_mirror()                  { return check_mirror(_byte_mirror); }
   static oop bool_mirror()                  { return check_mirror(_bool_mirror); }
   static oop char_mirror()                  { return check_mirror(_char_mirror); }
   static oop long_mirror()                  { return check_mirror(_long_mirror); }
   static oop short_mirror()                 { return check_mirror(_short_mirror); }
   static oop void_mirror()                  { return check_mirror(_void_mirror); }

   // table of same
   static oop _mirrors[T_VOID+1];

   static oop java_mirror(BasicType t) {
     assert((uint)t < T_VOID+1, "range check");
     return check_mirror(_mirrors[t]);
   }
   static oop      main_thread_group()                 { return _main_thread_group; }
   static void set_main_thread_group(oop group)        { _main_thread_group = group;}

   static oop      system_thread_group()               { return _system_thread_group; }
   static void set_system_thread_group(oop group)      { _system_thread_group = group;}

   static objArrayOop  the_empty_class_klass_array ()  { return _the_empty_class_klass_array;   }
   static Array<Klass*>* the_array_interfaces_array() { return _the_array_interfaces_array;   }
   static oop          the_null_string()               { return _the_null_string;               }
   static oop          the_min_jint_string()          { return _the_min_jint_string;          }

   static Method*      finalizer_register_method()     { return _finalizer_register_cache->get_method(); }
   static Method*      loader_addClass_method()        { return _loader_addClass_cache->get_method(); }

   static Method*      protection_domain_implies_method() { return _pd_implies_cache->get_method(); }
   static Method*      throw_illegal_access_error()    { return _throw_illegal_access_error_cache->get_method(); }

   static oop          null_ptr_exception_instance()   { return _null_ptr_exception_instance;   }
   static oop          arithmetic_exception_instance() { return _arithmetic_exception_instance; }
   static oop          virtual_machine_error_instance() { return _virtual_machine_error_instance; }
   static oop          vm_exception()                  { return _vm_exception; }

   static inline oop   allocation_context_notification_obj();
   static inline void  set_allocation_context_notification_obj(oop obj);

   static Array<int>*       the_empty_int_array()    { return _the_empty_int_array; }
   static Array<u2>*        the_empty_short_array()  { return _the_empty_short_array; }
   static Array<Method*>* the_empty_method_array() { return _the_empty_method_array; }
   static Array<Klass*>*  the_empty_klass_array()  { return _the_empty_klass_array; }

   // OutOfMemoryError support. Returns an error with the required message. The returned error
   // may or may not have a backtrace. If error has a backtrace then the stack trace is already
   // filled in.
   static oop out_of_memory_error_java_heap()          { return gen_out_of_memory_error(_out_of_memory_error_java_heap);  }
   static oop out_of_memory_error_metaspace()          { return gen_out_of_memory_error(_out_of_memory_error_metaspace);   }
   static oop out_of_memory_error_class_metaspace()    { return gen_out_of_memory_error(_out_of_memory_error_class_metaspace);   }
   static oop out_of_memory_error_array_size()         { return gen_out_of_memory_error(_out_of_memory_error_array_size); }
   static oop out_of_memory_error_gc_overhead_limit()  { return gen_out_of_memory_error(_out_of_memory_error_gc_overhead_limit);  }
   static oop out_of_memory_error_realloc_objects()    { return gen_out_of_memory_error(_out_of_memory_error_realloc_objects);  }

   // Accessors needed for fast allocation
   static Klass** boolArrayKlassObj_addr()           { return &_boolArrayKlassObj;   }
   static Klass** byteArrayKlassObj_addr()           { return &_byteArrayKlassObj;   }
   static Klass** charArrayKlassObj_addr()           { return &_charArrayKlassObj;   }
   static Klass** intArrayKlassObj_addr()            { return &_intArrayKlassObj;    }
   static Klass** shortArrayKlassObj_addr()          { return &_shortArrayKlassObj;  }
   static Klass** longArrayKlassObj_addr()           { return &_longArrayKlassObj;   }
   static Klass** singleArrayKlassObj_addr()         { return &_singleArrayKlassObj; }
   static Klass** doubleArrayKlassObj_addr()         { return &_doubleArrayKlassObj; }
   static Klass** objectArrayKlassObj_addr()         { return &_objectArrayKlassObj; }

   // The particular choice of collected heap.
   static CollectedHeap* heap() { return _collectedHeap; }

   // For UseCompressedOops
   // Narrow Oop encoding mode:
   // 0 - Use 32-bits oops without encoding when
   //     NarrowOopHeapBaseMin + heap_size < 4Gb
   // 1 - Use zero based compressed oops with encoding when
   //     NarrowOopHeapBaseMin + heap_size < 32Gb
   // 2 - Use compressed oops with heap base + encoding.
   enum NARROW_OOP_MODE {
     UnscaledNarrowOop  = 0,
     ZeroBasedNarrowOop = 1,
     HeapBasedNarrowOop = 2
   };
   static NARROW_OOP_MODE narrow_oop_mode();
   static const char* narrow_oop_mode_to_string(NARROW_OOP_MODE mode);
   static char*    preferred_heap_base(size_t heap_size, size_t alignment, NARROW_OOP_MODE mode);
   static char*    preferred_metaspace_base(size_t heap_size, NARROW_OOP_MODE mode);
   static address  narrow_oop_base()                       { return  _narrow_oop._base; }
   static bool  is_narrow_oop_base(void* addr)             { return (narrow_oop_base() == (address)addr); }
   static int      narrow_oop_shift()                      { return  _narrow_oop._shift; }
   static bool     narrow_oop_use_implicit_null_checks()   { return  _narrow_oop._use_implicit_null_checks; }

   // For UseCompressedClassPointers
   static address  narrow_klass_base()                     { return  _narrow_klass._base; }
   static bool  is_narrow_klass_base(void* addr)           { return (narrow_klass_base() == (address)addr); }
   static int      narrow_klass_shift()                    { return  _narrow_klass._shift; }
   static bool     narrow_klass_use_implicit_null_checks() { return  _narrow_klass._use_implicit_null_checks; }

   static address* narrow_ptrs_base_addr()                 { return &_narrow_ptrs_base; }
   static void     set_narrow_ptrs_base(address a)         { _narrow_ptrs_base = a; }
   static address  narrow_ptrs_base()                      { return _narrow_ptrs_base; }

   static void     print_compressed_oops_mode();

   // this is set in vm_version on sparc (and then reset in universe afaict)
   static void     set_narrow_oop_shift(int shift)         {
     _narrow_oop._shift   = shift;
   }

   static void     set_narrow_klass_shift(int shift)       {
     assert(shift == 0 || shift == LogKlassAlignmentInBytes, "invalid shift for klass ptrs");
     _narrow_klass._shift   = shift;
   }

   // Reserve Java heap and determine CompressedOops mode
   static ReservedSpace reserve_heap(size_t heap_size, size_t alignment);

   // Historic gc information
   static size_t get_heap_capacity_at_last_gc()         { return _heap_capacity_at_last_gc; }
   static size_t get_heap_free_at_last_gc()             { return _heap_capacity_at_last_gc - _heap_used_at_last_gc; }
   static size_t get_heap_used_at_last_gc()             { return _heap_used_at_last_gc; }
   static void update_heap_info_at_gc();

   // Testers
   static bool is_bootstrapping()                      { return _bootstrapping; }
   static bool is_fully_initialized()                  { return _fully_initialized; }

   static inline bool element_type_should_be_aligned(BasicType type);
   static inline bool field_type_should_be_aligned(BasicType type);
   static bool        on_page_boundary(void* addr);
   static bool        should_fill_in_stack_trace(Handle throwable);
   static void check_alignment(uintx size, uintx alignment, const char* name);

   // Finalizer support.
   static void run_finalizers_on_exit();

   // Iteration

   // Apply "f" to the addresses of all the direct heap pointers maintained
   // as static fields of "Universe".
   static void oops_do(OopClosure* f, bool do_all = false);

   // CDS support
   static void serialize(SerializeClosure* f, bool do_all = false);

   // Apply "f" to all klasses for basic types (classes not present in
   // SystemDictionary).
   static void basic_type_classes_do(void f(Klass*));

   // For sharing -- fill in a list of known vtable pointers.
   static void init_self_patching_vtbl_list(void** list, int count);

   // Debugging
   enum VERIFY_FLAGS {
     Verify_Threads = 1,
     Verify_Heap = 2,
     Verify_SymbolTable = 4,
     Verify_StringTable = 8,
     Verify_CodeCache = 16,
     Verify_SystemDictionary = 32,
     Verify_ClassLoaderDataGraph = 64,
     Verify_MetaspaceAux = 128,
     Verify_JNIHandles = 256,
     Verify_CHeap = 512,
     Verify_CodeCacheOops = 1024,
     Verify_All = -1
   };
   static void initialize_verify_flags();
   static bool should_verify_subset(uint subset);
   static bool verify_in_progress() { return _verify_in_progress; }
   static void verify(VerifyOption option, const char* prefix, bool silent = VerifySilently);
   static void verify(const char* prefix, bool silent = VerifySilently) {
     verify(VerifyOption_Default, prefix, silent);
   }
   static void verify(bool silent = VerifySilently) {
     verify("", silent);
   }

   static int  verify_count()       { return _verify_count; }
   // The default behavior is to call print_on() on gclog_or_tty.
   static void print();
   // The extended parameter determines which method on the heap will
   // be called: print_on() (extended == false) or print_extended_on()
   // (extended == true).
   static void print_on(outputStream* st, bool extended = false);
   static void print_heap_at_SIGBREAK();
   static void print_heap_before_gc() { print_heap_before_gc(gclog_or_tty); }
   static void print_heap_after_gc()  { print_heap_after_gc(gclog_or_tty); }
   static void print_heap_before_gc(outputStream* st, bool ignore_extended = false);
   static void print_heap_after_gc(outputStream* st, bool ignore_extended = false);

   // Change the number of dummy objects kept reachable by the full gc dummy
   // array; this should trigger relocation in a sliding compaction collector.
   debug_only(static bool release_fullgc_alot_dummy();)
   // The non-oop pattern (see compiledIC.hpp, etc)
   static void*   non_oop_word();

   // Oop verification (see MacroAssembler::verify_oop)
   static uintptr_t verify_oop_mask()          PRODUCT_RETURN0;
   static uintptr_t verify_oop_bits()          PRODUCT_RETURN0;
   static uintptr_t verify_mark_bits()         PRODUCT_RETURN0;
   static uintptr_t verify_mark_mask()         PRODUCT_RETURN0;

   // Flushing and deoptimization
   static void flush_dependents_on(instanceKlassHandle dependee);
   static void flush_dependents_on(Handle call_site, Handle method_handle);
 #ifdef HOTSWAP
   // Flushing and deoptimization in case of evolution
   static void flush_evol_dependents_on(instanceKlassHandle dependee);
 #endif // HOTSWAP
   // Support for fullspeed debugging
   static void flush_dependents_on_method(methodHandle dependee);

   // Compiler support
   static int base_vtable_size()               { return _base_vtable_size; }
 };

 class DeferredObjAllocEvent : public CHeapObj<mtInternal> {
   private:
     oop    _oop;
     size_t _bytesize;
     jint   _arena_id;

   public:
     DeferredObjAllocEvent(const oop o, const size_t s, const jint id) {
       _oop      = o;
       _bytesize = s;
       _arena_id = id;
     }

     ~DeferredObjAllocEvent() {
     }

     jint   arena_id() { return _arena_id; }
     size_t bytesize() { return _bytesize; }
     oop    get_oop()  { return _oop; }
 };

 #endif // SHARE_VM_MEMORY_UNIVERSE_HPP
	/*
	* Copyright (c) 1997, 2016, 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_MEMORY_UNIVERSE_HPP
	#define SHARE_VM_MEMORY_UNIVERSE_HPP

	#include "runtime/handles.hpp"
	#include "utilities/array.hpp"
	#include "utilities/growableArray.hpp"

	// Universe is a name space holding known system classes and objects in the VM.
	//
	// Loaded classes are accessible through the SystemDictionary.
	//
	// The object heap is allocated and accessed through Universe, and various allocation
	// support is provided. Allocation by the interpreter and compiled code is done inline
	// and bails out to Scavenge::invoke_and_allocate.

	class CollectedHeap;
	class DeferredObjAllocEvent;


	// A helper class for caching a Method* when the user of the cache
	// only cares about the latest version of the Method*. This cache safely
	// interacts with the RedefineClasses API.

	class LatestMethodCache : public CHeapObj<mtClass> {
	// We save the Klass* and the idnum of Method* in order to get
	// the current cached Method*.
	private:
	Klass* _klass;
	int _method_idnum;

	public:
	LatestMethodCache() { _klass = NULL; _method_idnum = -1; }
	~LatestMethodCache() { _klass = NULL; _method_idnum = -1; }

	void init(Klass* k, Method* m);
	Klass* klass() const { return _klass; }
	int method_idnum() const { return _method_idnum; }

	Method* get_method();

	// Enhanced Class Redefinition support
	void classes_do(void f(Klass*)) {
	f(_klass);
	}

	// CDS support. Replace the klass in this with the archive version
	// could use this for Enhanced Class Redefinition also.
	void serialize(SerializeClosure* f) {
	f->do_ptr((void**)&_klass);
	}
	};


	// For UseCompressedOops.
	struct NarrowPtrStruct {
	// Base address for oop-within-java-object materialization.
	// NULL if using wide oops or zero based narrow oops.
	address _base;
	// Number of shift bits for encoding/decoding narrow ptrs.
	// 0 if using wide ptrs or zero based unscaled narrow ptrs,
	// LogMinObjAlignmentInBytes/LogKlassAlignmentInBytes otherwise.
	int _shift;
	// Generate code with implicit null checks for narrow ptrs.
	bool _use_implicit_null_checks;
	};

	enum VerifyOption {
	VerifyOption_Default = 0,

	// G1
	VerifyOption_G1UsePrevMarking = VerifyOption_Default,
	VerifyOption_G1UseNextMarking = VerifyOption_G1UsePrevMarking + 1,
	VerifyOption_G1UseMarkWord = VerifyOption_G1UseNextMarking + 1
	};

	class Universe: AllStatic {
	// Ugh. Universe is much too friendly.
	friend class MarkSweep;
	friend class oopDesc;
	friend class ClassLoader;
	friend class Arguments;
	friend class SystemDictionary;
	friend class VMStructs;
	friend class VM_PopulateDumpSharedSpace;
	friend class Metaspace;

	friend jint universe_init();
	friend void universe2_init();
	friend bool universe_post_init();

	private:
	// Known classes in the VM
	static Klass* _boolArrayKlassObj;
	static Klass* _byteArrayKlassObj;
	static Klass* _charArrayKlassObj;
	static Klass* _intArrayKlassObj;
	static Klass* _shortArrayKlassObj;
	static Klass* _longArrayKlassObj;
	static Klass* _singleArrayKlassObj;
	static Klass* _doubleArrayKlassObj;
	static Klass* _typeArrayKlassObjs[T_VOID+1];

	static Klass* _objectArrayKlassObj;

	// Known objects in the VM

	// Primitive objects
	static oop _int_mirror;
	static oop _float_mirror;
	static oop _double_mirror;
	static oop _byte_mirror;
	static oop _bool_mirror;
	static oop _char_mirror;
	static oop _long_mirror;
	static oop _short_mirror;
	static oop _void_mirror;

	static oop _main_thread_group; // Reference to the main thread group object
	static oop _system_thread_group; // Reference to the system thread group object

	static objArrayOop _the_empty_class_klass_array; // Canonicalized obj array of type java.lang.Class
	static oop _the_null_string; // A cache of "null" as a Java string
	static oop _the_min_jint_string; // A cache of "-2147483648" as a Java string
	static LatestMethodCache* _finalizer_register_cache; // static method for registering finalizable objects
	static LatestMethodCache* _loader_addClass_cache; // method for registering loaded classes in class loader vector
	static LatestMethodCache* _pd_implies_cache; // method for checking protection domain attributes
	static LatestMethodCache* _throw_illegal_access_error_cache; // Unsafe.throwIllegalAccessError() method

	// preallocated error objects (no backtrace)
	static oop _out_of_memory_error_java_heap;
	static oop _out_of_memory_error_metaspace;
	static oop _out_of_memory_error_class_metaspace;
	static oop _out_of_memory_error_array_size;
	static oop _out_of_memory_error_gc_overhead_limit;
	static oop _out_of_memory_error_realloc_objects;

	static Array<int>* _the_empty_int_array; // Canonicalized int array
	static Array<u2>* _the_empty_short_array; // Canonicalized short array
	static Array<Klass> _the_empty_klass_array; // Canonicalized klass obj array
	static Array<Method> _the_empty_method_array; // Canonicalized method obj array

	static Array<Klass> _the_array_interfaces_array;

	// array of preallocated error objects with backtrace
	static objArrayOop _preallocated_out_of_memory_error_array;

	// number of preallocated error objects available for use
	static volatile jint _preallocated_out_of_memory_error_avail_count;

	static oop _null_ptr_exception_instance; // preallocated exception object
	static oop _arithmetic_exception_instance; // preallocated exception object
	static oop _virtual_machine_error_instance; // preallocated exception object
	// The object used as an exception dummy when exceptions are thrown for
	// the vm thread.
	static oop _vm_exception;

	static oop _allocation_context_notification_obj;

	// The particular choice of collected heap.
	static CollectedHeap* _collectedHeap;

	static intptr_t _non_oop_bits;

	// For UseCompressedOops.
	static struct NarrowPtrStruct _narrow_oop;
	// For UseCompressedClassPointers.
	static struct NarrowPtrStruct _narrow_klass;
	static address _narrow_ptrs_base;

	// array of dummy objects used with +FullGCAlot
	debug_only(static objArrayOop _fullgc_alot_dummy_array;)
	// index of next entry to clear
	debug_only(static int _fullgc_alot_dummy_next;)

	// Compiler/dispatch support
	static int _base_vtable_size; // Java vtbl size of klass Object (in words)

	// Initialization
	static bool _bootstrapping; // true during genesis
	static bool _fully_initialized; // true after universe_init and initialize_vtables called

	// the array of preallocated errors with backtraces
	static objArrayOop preallocated_out_of_memory_errors() { return _preallocated_out_of_memory_error_array; }

	// generate an out of memory error; if possible using an error with preallocated backtrace;
	// otherwise return the given default error.
	static oop gen_out_of_memory_error(oop default_err);

	// Historic gc information
	static size_t _heap_capacity_at_last_gc;
	static size_t _heap_used_at_last_gc;

	static jint initialize_heap();
	static void initialize_basic_type_mirrors(TRAPS);
	static void fixup_mirrors(TRAPS);

	static void reinitialize_vtable_of(KlassHandle h_k, TRAPS);
	static void reinitialize_itables(TRAPS);
	static void compute_base_vtable_size(); // compute vtable size of class Object

	static void genesis(TRAPS); // Create the initial world

	// Mirrors for primitive classes (created eagerly)
	static oop check_mirror(oop m) {
	assert(m != NULL, "mirror not initialized");
	return m;
	}

	static void set_narrow_oop_base(address base) {
	assert(UseCompressedOops, "no compressed oops?");
	_narrow_oop._base = base;
	}
	static void set_narrow_klass_base(address base) {
	assert(UseCompressedClassPointers, "no compressed klass ptrs?");
	_narrow_klass._base = base;
	}
	static void set_narrow_oop_use_implicit_null_checks(bool use) {
	assert(UseCompressedOops, "no compressed ptrs?");
	_narrow_oop._use_implicit_null_checks = use;
	}

	// Debugging
	static int _verify_count; // number of verifies done
	// True during call to verify(). Should only be set/cleared in verify().
	static bool _verify_in_progress;
	static long verify_flags;

	static void compute_verify_oop_data();

	public:
	// Known classes in the VM
	static Klass* boolArrayKlassObj() { return _boolArrayKlassObj; }
	static Klass* byteArrayKlassObj() { return _byteArrayKlassObj; }
	static Klass* charArrayKlassObj() { return _charArrayKlassObj; }
	static Klass* intArrayKlassObj() { return _intArrayKlassObj; }
	static Klass* shortArrayKlassObj() { return _shortArrayKlassObj; }
	static Klass* longArrayKlassObj() { return _longArrayKlassObj; }
	static Klass* singleArrayKlassObj() { return _singleArrayKlassObj; }
	static Klass* doubleArrayKlassObj() { return _doubleArrayKlassObj; }

	static Klass* objectArrayKlassObj() {
	return _objectArrayKlassObj;
	}

	static Klass* typeArrayKlassObj(BasicType t) {
	assert((uint)t < T_VOID+1, err_msg("range check for type: %s", type2name(t)));
	assert(_typeArrayKlassObjs[t] != NULL, "domain check");
	return _typeArrayKlassObjs[t];
	}

	// Known objects in the VM
	static oop int_mirror() { return check_mirror(_int_mirror); }
	static oop float_mirror() { return check_mirror(_float_mirror); }
	static oop double_mirror() { return check_mirror(_double_mirror); }
	static oop byte_mirror() { return check_mirror(_byte_mirror); }
	static oop bool_mirror() { return check_mirror(_bool_mirror); }
	static oop char_mirror() { return check_mirror(_char_mirror); }
	static oop long_mirror() { return check_mirror(_long_mirror); }
	static oop short_mirror() { return check_mirror(_short_mirror); }
	static oop void_mirror() { return check_mirror(_void_mirror); }

	// table of same
	static oop _mirrors[T_VOID+1];

	static oop java_mirror(BasicType t) {
	assert((uint)t < T_VOID+1, "range check");
	return check_mirror(_mirrors[t]);
	}
	static oop main_thread_group() { return _main_thread_group; }
	static void set_main_thread_group(oop group) { _main_thread_group = group;}

	static oop system_thread_group() { return _system_thread_group; }
	static void set_system_thread_group(oop group) { _system_thread_group = group;}

	static objArrayOop the_empty_class_klass_array () { return _the_empty_class_klass_array; }
	static Array<Klass> the_array_interfaces_array() { return _the_array_interfaces_array; }
	static oop the_null_string() { return _the_null_string; }
	static oop the_min_jint_string() { return _the_min_jint_string; }

	static Method* finalizer_register_method() { return _finalizer_register_cache->get_method(); }
	static Method* loader_addClass_method() { return _loader_addClass_cache->get_method(); }

	static Method* protection_domain_implies_method() { return _pd_implies_cache->get_method(); }
	static Method* throw_illegal_access_error() { return _throw_illegal_access_error_cache->get_method(); }

	static oop null_ptr_exception_instance() { return _null_ptr_exception_instance; }
	static oop arithmetic_exception_instance() { return _arithmetic_exception_instance; }
	static oop virtual_machine_error_instance() { return _virtual_machine_error_instance; }
	static oop vm_exception() { return _vm_exception; }

	static inline oop allocation_context_notification_obj();
	static inline void set_allocation_context_notification_obj(oop obj);

	static Array<int>* the_empty_int_array() { return _the_empty_int_array; }
	static Array<u2>* the_empty_short_array() { return _the_empty_short_array; }
	static Array<Method> the_empty_method_array() { return _the_empty_method_array; }
	static Array<Klass> the_empty_klass_array() { return _the_empty_klass_array; }

	// OutOfMemoryError support. Returns an error with the required message. The returned error
	// may or may not have a backtrace. If error has a backtrace then the stack trace is already
	// filled in.
	static oop out_of_memory_error_java_heap() { return gen_out_of_memory_error(_out_of_memory_error_java_heap); }
	static oop out_of_memory_error_metaspace() { return gen_out_of_memory_error(_out_of_memory_error_metaspace); }
	static oop out_of_memory_error_class_metaspace() { return gen_out_of_memory_error(_out_of_memory_error_class_metaspace); }
	static oop out_of_memory_error_array_size() { return gen_out_of_memory_error(_out_of_memory_error_array_size); }
	static oop out_of_memory_error_gc_overhead_limit() { return gen_out_of_memory_error(_out_of_memory_error_gc_overhead_limit); }
	static oop out_of_memory_error_realloc_objects() { return gen_out_of_memory_error(_out_of_memory_error_realloc_objects); }

	// Accessors needed for fast allocation
	static Klass** boolArrayKlassObj_addr() { return &_boolArrayKlassObj; }
	static Klass** byteArrayKlassObj_addr() { return &_byteArrayKlassObj; }
	static Klass** charArrayKlassObj_addr() { return &_charArrayKlassObj; }
	static Klass** intArrayKlassObj_addr() { return &_intArrayKlassObj; }
	static Klass** shortArrayKlassObj_addr() { return &_shortArrayKlassObj; }
	static Klass** longArrayKlassObj_addr() { return &_longArrayKlassObj; }
	static Klass** singleArrayKlassObj_addr() { return &_singleArrayKlassObj; }
	static Klass** doubleArrayKlassObj_addr() { return &_doubleArrayKlassObj; }
	static Klass** objectArrayKlassObj_addr() { return &_objectArrayKlassObj; }

	// The particular choice of collected heap.
	static CollectedHeap* heap() { return _collectedHeap; }

	// For UseCompressedOops
	// Narrow Oop encoding mode:
	// 0 - Use 32-bits oops without encoding when
	// NarrowOopHeapBaseMin + heap_size < 4Gb
	// 1 - Use zero based compressed oops with encoding when
	// NarrowOopHeapBaseMin + heap_size < 32Gb
	// 2 - Use compressed oops with heap base + encoding.
	enum NARROW_OOP_MODE {
	UnscaledNarrowOop = 0,
	ZeroBasedNarrowOop = 1,
	HeapBasedNarrowOop = 2
	};
	static NARROW_OOP_MODE narrow_oop_mode();
	static const char* narrow_oop_mode_to_string(NARROW_OOP_MODE mode);
	static char* preferred_heap_base(size_t heap_size, size_t alignment, NARROW_OOP_MODE mode);
	static char* preferred_metaspace_base(size_t heap_size, NARROW_OOP_MODE mode);
	static address narrow_oop_base() { return _narrow_oop._base; }
	static bool is_narrow_oop_base(void* addr) { return (narrow_oop_base() == (address)addr); }
	static int narrow_oop_shift() { return _narrow_oop._shift; }
	static bool narrow_oop_use_implicit_null_checks() { return _narrow_oop._use_implicit_null_checks; }

	// For UseCompressedClassPointers
	static address narrow_klass_base() { return _narrow_klass._base; }
	static bool is_narrow_klass_base(void* addr) { return (narrow_klass_base() == (address)addr); }
	static int narrow_klass_shift() { return _narrow_klass._shift; }
	static bool narrow_klass_use_implicit_null_checks() { return _narrow_klass._use_implicit_null_checks; }

	static address* narrow_ptrs_base_addr() { return &_narrow_ptrs_base; }
	static void set_narrow_ptrs_base(address a) { _narrow_ptrs_base = a; }
	static address narrow_ptrs_base() { return _narrow_ptrs_base; }

	static void print_compressed_oops_mode();

	// this is set in vm_version on sparc (and then reset in universe afaict)
	static void set_narrow_oop_shift(int shift) {
	_narrow_oop._shift = shift;
	}

	static void set_narrow_klass_shift(int shift) {
	assert(shift == 0 \|\| shift == LogKlassAlignmentInBytes, "invalid shift for klass ptrs");
	_narrow_klass._shift = shift;
	}

	// Reserve Java heap and determine CompressedOops mode
	static ReservedSpace reserve_heap(size_t heap_size, size_t alignment);

	// Historic gc information
	static size_t get_heap_capacity_at_last_gc() { return _heap_capacity_at_last_gc; }
	static size_t get_heap_free_at_last_gc() { return _heap_capacity_at_last_gc - _heap_used_at_last_gc; }
	static size_t get_heap_used_at_last_gc() { return _heap_used_at_last_gc; }
	static void update_heap_info_at_gc();

	// Testers
	static bool is_bootstrapping() { return _bootstrapping; }
	static bool is_fully_initialized() { return _fully_initialized; }

	static inline bool element_type_should_be_aligned(BasicType type);
	static inline bool field_type_should_be_aligned(BasicType type);
	static bool on_page_boundary(void* addr);
	static bool should_fill_in_stack_trace(Handle throwable);
	static void check_alignment(uintx size, uintx alignment, const char* name);

	// Finalizer support.
	static void run_finalizers_on_exit();

	// Iteration

	// Apply "f" to the addresses of all the direct heap pointers maintained
	// as static fields of "Universe".
	static void oops_do(OopClosure* f, bool do_all = false);

	// CDS support
	static void serialize(SerializeClosure* f, bool do_all = false);

	// Apply "f" to all klasses for basic types (classes not present in
	// SystemDictionary).
	static void basic_type_classes_do(void f(Klass*));

	// For sharing -- fill in a list of known vtable pointers.
	static void init_self_patching_vtbl_list(void** list, int count);

	// Debugging
	enum VERIFY_FLAGS {
	Verify_Threads = 1,
	Verify_Heap = 2,
	Verify_SymbolTable = 4,
	Verify_StringTable = 8,
	Verify_CodeCache = 16,
	Verify_SystemDictionary = 32,
	Verify_ClassLoaderDataGraph = 64,
	Verify_MetaspaceAux = 128,
	Verify_JNIHandles = 256,
	Verify_CHeap = 512,
	Verify_CodeCacheOops = 1024,
	Verify_All = -1
	};
	static void initialize_verify_flags();
	static bool should_verify_subset(uint subset);
	static bool verify_in_progress() { return _verify_in_progress; }
	static void verify(VerifyOption option, const char* prefix, bool silent = VerifySilently);
	static void verify(const char* prefix, bool silent = VerifySilently) {
	verify(VerifyOption_Default, prefix, silent);
	}
	static void verify(bool silent = VerifySilently) {
	verify("", silent);
	}

	static int verify_count() { return _verify_count; }
	// The default behavior is to call print_on() on gclog_or_tty.
	static void print();
	// The extended parameter determines which method on the heap will
	// be called: print_on() (extended == false) or print_extended_on()
	// (extended == true).
	static void print_on(outputStream* st, bool extended = false);
	static void print_heap_at_SIGBREAK();
	static void print_heap_before_gc() { print_heap_before_gc(gclog_or_tty); }
	static void print_heap_after_gc() { print_heap_after_gc(gclog_or_tty); }
	static void print_heap_before_gc(outputStream* st, bool ignore_extended = false);
	static void print_heap_after_gc(outputStream* st, bool ignore_extended = false);

	// Change the number of dummy objects kept reachable by the full gc dummy
	// array; this should trigger relocation in a sliding compaction collector.
	debug_only(static bool release_fullgc_alot_dummy();)
	// The non-oop pattern (see compiledIC.hpp, etc)
	static void* non_oop_word();

	// Oop verification (see MacroAssembler::verify_oop)
	static uintptr_t verify_oop_mask() PRODUCT_RETURN0;
	static uintptr_t verify_oop_bits() PRODUCT_RETURN0;
	static uintptr_t verify_mark_bits() PRODUCT_RETURN0;
	static uintptr_t verify_mark_mask() PRODUCT_RETURN0;

	// Flushing and deoptimization
	static void flush_dependents_on(instanceKlassHandle dependee);
	static void flush_dependents_on(Handle call_site, Handle method_handle);
	#ifdef HOTSWAP
	// Flushing and deoptimization in case of evolution
	static void flush_evol_dependents_on(instanceKlassHandle dependee);
	#endif // HOTSWAP
	// Support for fullspeed debugging
	static void flush_dependents_on_method(methodHandle dependee);

	// Compiler support
	static int base_vtable_size() { return _base_vtable_size; }
	};

	class DeferredObjAllocEvent : public CHeapObj<mtInternal> {
	private:
	oop _oop;
	size_t _bytesize;
	jint _arena_id;

	public:
	DeferredObjAllocEvent(const oop o, const size_t s, const jint id) {
	_oop = o;
	_bytesize = s;
	_arena_id = id;
	}

	~DeferredObjAllocEvent() {
	}

	jint arena_id() { return _arena_id; }
	size_t bytesize() { return _bytesize; }
	oop get_oop() { return _oop; }
	};

	#endif // SHARE_VM_MEMORY_UNIVERSE_HPP