hotspot/src/share/vm/memory/genOopClosures.hpp
author ysr
Wed, 07 Sep 2011 13:55:42 -0700
changeset 10526 3e92f211533f
parent 9443 921ea97b65fa
child 13195 be27e1b6a4b9
permissions -rw-r--r--
4965777: GC changes to support use of discovered field for pending references Summary: If and when the reference handler thread is able to use the discovered field to link reference objects in its pending list, so will GC. In that case, GC will scan through this field once a reference object has been placed on the pending list, but not scan that field before that stage, as the field is used by the concurrent GC thread to link discovered objects. When ReferenceHandleR thread does not use the discovered field for the purpose of linking the elements in the pending list, as would be the case in older JDKs, the JVM will fall back to the old behaviour of using the next field for that purpose. Reviewed-by: jcoomes, mchung, stefank

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#ifndef SHARE_VM_MEMORY_GENOOPCLOSURES_HPP
#define SHARE_VM_MEMORY_GENOOPCLOSURES_HPP

#include "memory/iterator.hpp"
#include "oops/oop.hpp"

class Generation;
class HeapWord;
class CardTableRS;
class CardTableModRefBS;
class DefNewGeneration;

template<class E, unsigned int N> class GenericTaskQueue;
typedef GenericTaskQueue<oop, TASKQUEUE_SIZE> OopTaskQueue;
template<class T> class GenericTaskQueueSet;
typedef GenericTaskQueueSet<OopTaskQueue> OopTaskQueueSet;

// Closure for iterating roots from a particular generation
// Note: all classes deriving from this MUST call this do_barrier
// method at the end of their own do_oop method!
// Note: no do_oop defined, this is an abstract class.

class OopsInGenClosure : public OopClosure {
 private:
  Generation*  _orig_gen;     // generation originally set in ctor
  Generation*  _gen;          // generation being scanned

 protected:
  // Some subtypes need access.
  HeapWord*    _gen_boundary; // start of generation
  CardTableRS* _rs;           // remembered set

  // For assertions
  Generation* generation() { return _gen; }
  CardTableRS* rs() { return _rs; }

  // Derived classes that modify oops so that they might be old-to-young
  // pointers must call the method below.
  template <class T> void do_barrier(T* p);

  // Version for use by closures that may be called in parallel code.
  template <class T> void par_do_barrier(T* p);

 public:
  OopsInGenClosure() : OopClosure(NULL),
    _orig_gen(NULL), _gen(NULL), _gen_boundary(NULL), _rs(NULL) {};

  OopsInGenClosure(Generation* gen);
  void set_generation(Generation* gen);

  void reset_generation() { _gen = _orig_gen; }

  // Problem with static closures: must have _gen_boundary set at some point,
  // but cannot do this until after the heap is initialized.
  void set_orig_generation(Generation* gen) {
    _orig_gen = gen;
    set_generation(gen);
  }

  HeapWord* gen_boundary() { return _gen_boundary; }
};

// Closure for scanning DefNewGeneration.
//
// This closure will perform barrier store calls for ALL
// pointers in scanned oops.
class ScanClosure: public OopsInGenClosure {
 protected:
  DefNewGeneration* _g;
  HeapWord*         _boundary;
  bool              _gc_barrier;
  template <class T> inline void do_oop_work(T* p);
 public:
  ScanClosure(DefNewGeneration* g, bool gc_barrier);
  virtual void do_oop(oop* p);
  virtual void do_oop(narrowOop* p);
  inline void do_oop_nv(oop* p);
  inline void do_oop_nv(narrowOop* p);
  bool do_header() { return false; }
  Prefetch::style prefetch_style() {
    return Prefetch::do_write;
  }
};

// Closure for scanning DefNewGeneration.
//
// This closure only performs barrier store calls on
// pointers into the DefNewGeneration. This is less
// precise, but faster, than a ScanClosure
class FastScanClosure: public OopsInGenClosure {
 protected:
  DefNewGeneration* _g;
  HeapWord*         _boundary;
  bool              _gc_barrier;
  template <class T> inline void do_oop_work(T* p);
 public:
  FastScanClosure(DefNewGeneration* g, bool gc_barrier);
  virtual void do_oop(oop* p);
  virtual void do_oop(narrowOop* p);
  inline void do_oop_nv(oop* p);
  inline void do_oop_nv(narrowOop* p);
  bool do_header() { return false; }
  Prefetch::style prefetch_style() {
    return Prefetch::do_write;
  }
};

class FilteringClosure: public OopClosure {
 private:
  HeapWord*   _boundary;
  OopClosure* _cl;
 protected:
  template <class T> inline void do_oop_work(T* p) {
    T heap_oop = oopDesc::load_heap_oop(p);
    if (!oopDesc::is_null(heap_oop)) {
      oop obj = oopDesc::decode_heap_oop_not_null(heap_oop);
      if ((HeapWord*)obj < _boundary) {
        _cl->do_oop(p);
      }
    }
  }
 public:
  FilteringClosure(HeapWord* boundary, OopClosure* cl) :
    OopClosure(cl->_ref_processor), _boundary(boundary),
    _cl(cl) {}
  virtual void do_oop(oop* p);
  virtual void do_oop(narrowOop* p);
  inline void do_oop_nv(oop* p)       { FilteringClosure::do_oop_work(p); }
  inline void do_oop_nv(narrowOop* p) { FilteringClosure::do_oop_work(p); }
  bool do_header() { return false; }
};

// Closure for scanning DefNewGeneration's weak references.
// NOTE: very much like ScanClosure but not derived from
//  OopsInGenClosure -- weak references are processed all
//  at once, with no notion of which generation they were in.
class ScanWeakRefClosure: public OopClosure {
 protected:
  DefNewGeneration* _g;
  HeapWord*         _boundary;
  template <class T> inline void do_oop_work(T* p);
 public:
  ScanWeakRefClosure(DefNewGeneration* g);
  virtual void do_oop(oop* p);
  virtual void do_oop(narrowOop* p);
  inline void do_oop_nv(oop* p);
  inline void do_oop_nv(narrowOop* p);
};

class VerifyOopClosure: public OopClosure {
 protected:
  template <class T> inline void do_oop_work(T* p) {
    oop obj = oopDesc::load_decode_heap_oop(p);
    guarantee(obj->is_oop_or_null(), err_msg("invalid oop: " INTPTR_FORMAT, (oopDesc*) obj));
  }
 public:
  virtual void do_oop(oop* p);
  virtual void do_oop(narrowOop* p);
  static VerifyOopClosure verify_oop;
};

#endif // SHARE_VM_MEMORY_GENOOPCLOSURES_HPP