hotspot/src/share/vm/gc_implementation/g1/concurrentG1Refine.hpp
author jwilhelm
Fri, 01 Nov 2013 17:09:38 +0100
changeset 21561 c619b1cb4554
parent 17854 d65bc1546091
child 23855 c4574075402c
permissions -rw-r--r--
8016309: assert(eden_size > 0 && survivor_size > 0) failed: just checking 7057939: jmap shows MaxNewSize=4GB when Java is using parallel collector Summary: Major cleanup of the collectorpolicy classes Reviewed-by: tschatzl, jcoomes

/*
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 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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 * accompanied this code).
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#ifndef SHARE_VM_GC_IMPLEMENTATION_G1_CONCURRENTG1REFINE_HPP
#define SHARE_VM_GC_IMPLEMENTATION_G1_CONCURRENTG1REFINE_HPP

#include "gc_implementation/g1/g1HotCardCache.hpp"
#include "memory/allocation.hpp"
#include "runtime/thread.hpp"
#include "utilities/globalDefinitions.hpp"

// Forward decl
class ConcurrentG1RefineThread;
class G1CollectedHeap;
class G1HotCardCache;
class G1RemSet;
class DirtyCardQueue;

class ConcurrentG1Refine: public CHeapObj<mtGC> {
  ConcurrentG1RefineThread** _threads;
  int _n_threads;
  int _n_worker_threads;
 /*
  * The value of the update buffer queue length falls into one of 3 zones:
  * green, yellow, red. If the value is in [0, green) nothing is
  * done, the buffers are left unprocessed to enable the caching effect of the
  * dirtied cards. In the yellow zone [green, yellow) the concurrent refinement
  * threads are gradually activated. In [yellow, red) all threads are
  * running. If the length becomes red (max queue length) the mutators start
  * processing the buffers.
  *
  * There are some interesting cases (when G1UseAdaptiveConcRefinement
  * is turned off):
  * 1) green = yellow = red = 0. In this case the mutator will process all
  *    buffers. Except for those that are created by the deferred updates
  *    machinery during a collection.
  * 2) green = 0. Means no caching. Can be a good way to minimize the
  *    amount of time spent updating rsets during a collection.
  */
  int _green_zone;
  int _yellow_zone;
  int _red_zone;

  int _thread_threshold_step;

  // We delay the refinement of 'hot' cards using the hot card cache.
  G1HotCardCache _hot_card_cache;

  // Reset the threshold step value based of the current zone boundaries.
  void reset_threshold_step();

 public:
  ConcurrentG1Refine(G1CollectedHeap* g1h);
  ~ConcurrentG1Refine();

  void init(); // Accomplish some initialization that has to wait.
  void stop();

  void reinitialize_threads();

  // Iterate over all concurrent refinement threads
  void threads_do(ThreadClosure *tc);

  // Iterate over all worker refinement threads
  void worker_threads_do(ThreadClosure * tc);

  // The RS sampling thread
  ConcurrentG1RefineThread * sampling_thread() const;

  static int thread_num();

  void print_worker_threads_on(outputStream* st) const;

  void set_green_zone(int x)  { _green_zone = x;  }
  void set_yellow_zone(int x) { _yellow_zone = x; }
  void set_red_zone(int x)    { _red_zone = x;    }

  int green_zone() const      { return _green_zone;  }
  int yellow_zone() const     { return _yellow_zone; }
  int red_zone() const        { return _red_zone;    }

  int total_thread_num() const  { return _n_threads;        }
  int worker_thread_num() const { return _n_worker_threads; }

  int thread_threshold_step() const { return _thread_threshold_step; }

  G1HotCardCache* hot_card_cache() { return &_hot_card_cache; }
};

#endif // SHARE_VM_GC_IMPLEMENTATION_G1_CONCURRENTG1REFINE_HPP