parNewGeneration.cpp 60.4 KB
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/*
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 * Copyright (c) 2001, 2012, Oracle and/or its affiliates. All rights reserved.
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 * 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.
 *
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 * 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.
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 *
 */

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#include "precompiled.hpp"
#include "gc_implementation/concurrentMarkSweep/concurrentMarkSweepGeneration.hpp"
#include "gc_implementation/parNew/parNewGeneration.hpp"
#include "gc_implementation/parNew/parOopClosures.inline.hpp"
#include "gc_implementation/shared/adaptiveSizePolicy.hpp"
#include "gc_implementation/shared/ageTable.hpp"
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#include "gc_implementation/shared/parGCAllocBuffer.hpp"
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#include "gc_implementation/shared/spaceDecorator.hpp"
#include "memory/defNewGeneration.inline.hpp"
#include "memory/genCollectedHeap.hpp"
#include "memory/genOopClosures.inline.hpp"
#include "memory/generation.hpp"
#include "memory/generation.inline.hpp"
#include "memory/referencePolicy.hpp"
#include "memory/resourceArea.hpp"
#include "memory/sharedHeap.hpp"
#include "memory/space.hpp"
#include "oops/objArrayOop.hpp"
#include "oops/oop.inline.hpp"
#include "oops/oop.pcgc.inline.hpp"
#include "runtime/handles.hpp"
#include "runtime/handles.inline.hpp"
#include "runtime/java.hpp"
#include "runtime/thread.hpp"
#include "utilities/copy.hpp"
#include "utilities/globalDefinitions.hpp"
#include "utilities/workgroup.hpp"
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#ifdef _MSC_VER
#pragma warning( push )
#pragma warning( disable:4355 ) // 'this' : used in base member initializer list
#endif
ParScanThreadState::ParScanThreadState(Space* to_space_,
                                       ParNewGeneration* gen_,
                                       Generation* old_gen_,
                                       int thread_num_,
                                       ObjToScanQueueSet* work_queue_set_,
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                                       Stack<oop, mtGC>* overflow_stacks_,
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                                       size_t desired_plab_sz_,
                                       ParallelTaskTerminator& term_) :
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  _to_space(to_space_), _old_gen(old_gen_), _young_gen(gen_), _thread_num(thread_num_),
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  _work_queue(work_queue_set_->queue(thread_num_)), _to_space_full(false),
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  _overflow_stack(overflow_stacks_ ? overflow_stacks_ + thread_num_ : NULL),
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  _ageTable(false), // false ==> not the global age table, no perf data.
  _to_space_alloc_buffer(desired_plab_sz_),
  _to_space_closure(gen_, this), _old_gen_closure(gen_, this),
  _to_space_root_closure(gen_, this), _old_gen_root_closure(gen_, this),
  _older_gen_closure(gen_, this),
  _evacuate_followers(this, &_to_space_closure, &_old_gen_closure,
                      &_to_space_root_closure, gen_, &_old_gen_root_closure,
                      work_queue_set_, &term_),
  _is_alive_closure(gen_), _scan_weak_ref_closure(gen_, this),
  _keep_alive_closure(&_scan_weak_ref_closure),
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  _promotion_failure_size(0),
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  _strong_roots_time(0.0), _term_time(0.0)
{
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  #if TASKQUEUE_STATS
  _term_attempts = 0;
  _overflow_refills = 0;
  _overflow_refill_objs = 0;
  #endif // TASKQUEUE_STATS

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  _survivor_chunk_array =
    (ChunkArray*) old_gen()->get_data_recorder(thread_num());
  _hash_seed = 17;  // Might want to take time-based random value.
  _start = os::elapsedTime();
  _old_gen_closure.set_generation(old_gen_);
  _old_gen_root_closure.set_generation(old_gen_);
}
#ifdef _MSC_VER
#pragma warning( pop )
#endif

void ParScanThreadState::record_survivor_plab(HeapWord* plab_start,
                                              size_t plab_word_size) {
  ChunkArray* sca = survivor_chunk_array();
  if (sca != NULL) {
    // A non-null SCA implies that we want the PLAB data recorded.
    sca->record_sample(plab_start, plab_word_size);
  }
}

bool ParScanThreadState::should_be_partially_scanned(oop new_obj, oop old_obj) const {
  return new_obj->is_objArray() &&
         arrayOop(new_obj)->length() > ParGCArrayScanChunk &&
         new_obj != old_obj;
}

void ParScanThreadState::scan_partial_array_and_push_remainder(oop old) {
  assert(old->is_objArray(), "must be obj array");
  assert(old->is_forwarded(), "must be forwarded");
  assert(Universe::heap()->is_in_reserved(old), "must be in heap.");
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  assert(!old_gen()->is_in(old), "must be in young generation.");
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  objArrayOop obj = objArrayOop(old->forwardee());
  // Process ParGCArrayScanChunk elements now
  // and push the remainder back onto queue
  int start     = arrayOop(old)->length();
  int end       = obj->length();
  int remainder = end - start;
  assert(start <= end, "just checking");
  if (remainder > 2 * ParGCArrayScanChunk) {
    // Test above combines last partial chunk with a full chunk
    end = start + ParGCArrayScanChunk;
    arrayOop(old)->set_length(end);
    // Push remainder.
    bool ok = work_queue()->push(old);
    assert(ok, "just popped, push must be okay");
  } else {
    // Restore length so that it can be used if there
    // is a promotion failure and forwarding pointers
    // must be removed.
    arrayOop(old)->set_length(end);
  }
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  // process our set of indices (include header in first chunk)
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  // should make sure end is even (aligned to HeapWord in case of compressed oops)
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  if ((HeapWord *)obj < young_old_boundary()) {
    // object is in to_space
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    obj->oop_iterate_range(&_to_space_closure, start, end);
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  } else {
    // object is in old generation
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    obj->oop_iterate_range(&_old_gen_closure, start, end);
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  }
}


void ParScanThreadState::trim_queues(int max_size) {
  ObjToScanQueue* queue = work_queue();
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  do {
    while (queue->size() > (juint)max_size) {
      oop obj_to_scan;
      if (queue->pop_local(obj_to_scan)) {
        if ((HeapWord *)obj_to_scan < young_old_boundary()) {
          if (obj_to_scan->is_objArray() &&
              obj_to_scan->is_forwarded() &&
              obj_to_scan->forwardee() != obj_to_scan) {
            scan_partial_array_and_push_remainder(obj_to_scan);
          } else {
            // object is in to_space
            obj_to_scan->oop_iterate(&_to_space_closure);
          }
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        } else {
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          // object is in old generation
          obj_to_scan->oop_iterate(&_old_gen_closure);
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        }
      }
    }
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    // For the  case of compressed oops, we have a private, non-shared
    // overflow stack, so we eagerly drain it so as to more evenly
    // distribute load early. Note: this may be good to do in
    // general rather than delay for the final stealing phase.
    // If applicable, we'll transfer a set of objects over to our
    // work queue, allowing them to be stolen and draining our
    // private overflow stack.
  } while (ParGCTrimOverflow && young_gen()->take_from_overflow_list(this));
}

bool ParScanThreadState::take_from_overflow_stack() {
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  assert(ParGCUseLocalOverflow, "Else should not call");
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  assert(young_gen()->overflow_list() == NULL, "Error");
  ObjToScanQueue* queue = work_queue();
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  Stack<oop, mtGC>* const of_stack = overflow_stack();
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  const size_t num_overflow_elems = of_stack->size();
  const size_t space_available = queue->max_elems() - queue->size();
  const size_t num_take_elems = MIN3(space_available / 4,
                                     ParGCDesiredObjsFromOverflowList,
                                     num_overflow_elems);
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  // Transfer the most recent num_take_elems from the overflow
  // stack to our work queue.
  for (size_t i = 0; i != num_take_elems; i++) {
    oop cur = of_stack->pop();
    oop obj_to_push = cur->forwardee();
    assert(Universe::heap()->is_in_reserved(cur), "Should be in heap");
    assert(!old_gen()->is_in_reserved(cur), "Should be in young gen");
    assert(Universe::heap()->is_in_reserved(obj_to_push), "Should be in heap");
    if (should_be_partially_scanned(obj_to_push, cur)) {
      assert(arrayOop(cur)->length() == 0, "entire array remaining to be scanned");
      obj_to_push = cur;
    }
    bool ok = queue->push(obj_to_push);
    assert(ok, "Should have succeeded");
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  }
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  assert(young_gen()->overflow_list() == NULL, "Error");
  return num_take_elems > 0;  // was something transferred?
}

void ParScanThreadState::push_on_overflow_stack(oop p) {
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  assert(ParGCUseLocalOverflow, "Else should not call");
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  overflow_stack()->push(p);
  assert(young_gen()->overflow_list() == NULL, "Error");
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}

HeapWord* ParScanThreadState::alloc_in_to_space_slow(size_t word_sz) {

  // Otherwise, if the object is small enough, try to reallocate the
  // buffer.
  HeapWord* obj = NULL;
  if (!_to_space_full) {
    ParGCAllocBuffer* const plab = to_space_alloc_buffer();
    Space*            const sp   = to_space();
    if (word_sz * 100 <
        ParallelGCBufferWastePct * plab->word_sz()) {
      // Is small enough; abandon this buffer and start a new one.
      plab->retire(false, false);
      size_t buf_size = plab->word_sz();
      HeapWord* buf_space = sp->par_allocate(buf_size);
      if (buf_space == NULL) {
        const size_t min_bytes =
          ParGCAllocBuffer::min_size() << LogHeapWordSize;
        size_t free_bytes = sp->free();
        while(buf_space == NULL && free_bytes >= min_bytes) {
          buf_size = free_bytes >> LogHeapWordSize;
          assert(buf_size == (size_t)align_object_size(buf_size),
                 "Invariant");
          buf_space  = sp->par_allocate(buf_size);
          free_bytes = sp->free();
        }
      }
      if (buf_space != NULL) {
        plab->set_word_size(buf_size);
        plab->set_buf(buf_space);
        record_survivor_plab(buf_space, buf_size);
        obj = plab->allocate(word_sz);
        // Note that we cannot compare buf_size < word_sz below
        // because of AlignmentReserve (see ParGCAllocBuffer::allocate()).
        assert(obj != NULL || plab->words_remaining() < word_sz,
               "Else should have been able to allocate");
        // It's conceivable that we may be able to use the
        // buffer we just grabbed for subsequent small requests
        // even if not for this one.
      } else {
        // We're used up.
        _to_space_full = true;
      }

    } else {
      // Too large; allocate the object individually.
      obj = sp->par_allocate(word_sz);
    }
  }
  return obj;
}


void ParScanThreadState::undo_alloc_in_to_space(HeapWord* obj,
                                                size_t word_sz) {
  // Is the alloc in the current alloc buffer?
  if (to_space_alloc_buffer()->contains(obj)) {
    assert(to_space_alloc_buffer()->contains(obj + word_sz - 1),
           "Should contain whole object.");
    to_space_alloc_buffer()->undo_allocation(obj, word_sz);
  } else {
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    CollectedHeap::fill_with_object(obj, word_sz);
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  }
}

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void ParScanThreadState::print_and_clear_promotion_failure_size() {
  if (_promotion_failure_size != 0) {
    if (PrintPromotionFailure) {
      gclog_or_tty->print(" (%d: promotion failure size = " SIZE_FORMAT ") ",
        _thread_num, _promotion_failure_size);
    }
    _promotion_failure_size = 0;
  }
}

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class ParScanThreadStateSet: private ResourceArray {
public:
  // Initializes states for the specified number of threads;
  ParScanThreadStateSet(int                     num_threads,
                        Space&                  to_space,
                        ParNewGeneration&       gen,
                        Generation&             old_gen,
                        ObjToScanQueueSet&      queue_set,
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                        Stack<oop, mtGC>*       overflow_stacks_,
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                        size_t                  desired_plab_sz,
                        ParallelTaskTerminator& term);
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  ~ParScanThreadStateSet() { TASKQUEUE_STATS_ONLY(reset_stats()); }

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  inline ParScanThreadState& thread_state(int i);
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  void reset(int active_workers, bool promotion_failed);
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  void flush();
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  #if TASKQUEUE_STATS
  static void
    print_termination_stats_hdr(outputStream* const st = gclog_or_tty);
  void print_termination_stats(outputStream* const st = gclog_or_tty);
  static void
    print_taskqueue_stats_hdr(outputStream* const st = gclog_or_tty);
  void print_taskqueue_stats(outputStream* const st = gclog_or_tty);
  void reset_stats();
  #endif // TASKQUEUE_STATS

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private:
  ParallelTaskTerminator& _term;
  ParNewGeneration&       _gen;
  Generation&             _next_gen;
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 public:
  bool is_valid(int id) const { return id < length(); }
  ParallelTaskTerminator* terminator() { return &_term; }
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};


ParScanThreadStateSet::ParScanThreadStateSet(
  int num_threads, Space& to_space, ParNewGeneration& gen,
  Generation& old_gen, ObjToScanQueueSet& queue_set,
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  Stack<oop, mtGC>* overflow_stacks,
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  size_t desired_plab_sz, ParallelTaskTerminator& term)
  : ResourceArray(sizeof(ParScanThreadState), num_threads),
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    _gen(gen), _next_gen(old_gen), _term(term)
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{
  assert(num_threads > 0, "sanity check!");
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  assert(ParGCUseLocalOverflow == (overflow_stacks != NULL),
         "overflow_stack allocation mismatch");
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  // Initialize states.
  for (int i = 0; i < num_threads; ++i) {
    new ((ParScanThreadState*)_data + i)
        ParScanThreadState(&to_space, &gen, &old_gen, i, &queue_set,
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                           overflow_stacks, desired_plab_sz, term);
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  }
}

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inline ParScanThreadState& ParScanThreadStateSet::thread_state(int i)
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{
  assert(i >= 0 && i < length(), "sanity check!");
  return ((ParScanThreadState*)_data)[i];
}


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void ParScanThreadStateSet::reset(int active_threads, bool promotion_failed)
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{
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  _term.reset_for_reuse(active_threads);
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  if (promotion_failed) {
    for (int i = 0; i < length(); ++i) {
      thread_state(i).print_and_clear_promotion_failure_size();
    }
  }
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}

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#if TASKQUEUE_STATS
void
ParScanThreadState::reset_stats()
{
  taskqueue_stats().reset();
  _term_attempts = 0;
  _overflow_refills = 0;
  _overflow_refill_objs = 0;
}

void ParScanThreadStateSet::reset_stats()
{
  for (int i = 0; i < length(); ++i) {
    thread_state(i).reset_stats();
  }
}

void
ParScanThreadStateSet::print_termination_stats_hdr(outputStream* const st)
{
  st->print_raw_cr("GC Termination Stats");
  st->print_raw_cr("     elapsed  --strong roots-- "
                   "-------termination-------");
  st->print_raw_cr("thr     ms        ms       %   "
                   "    ms       %   attempts");
  st->print_raw_cr("--- --------- --------- ------ "
                   "--------- ------ --------");
}

void ParScanThreadStateSet::print_termination_stats(outputStream* const st)
{
  print_termination_stats_hdr(st);

  for (int i = 0; i < length(); ++i) {
    const ParScanThreadState & pss = thread_state(i);
    const double elapsed_ms = pss.elapsed_time() * 1000.0;
    const double s_roots_ms = pss.strong_roots_time() * 1000.0;
    const double term_ms = pss.term_time() * 1000.0;
    st->print_cr("%3d %9.2f %9.2f %6.2f "
                 "%9.2f %6.2f " SIZE_FORMAT_W(8),
                 i, elapsed_ms, s_roots_ms, s_roots_ms * 100 / elapsed_ms,
                 term_ms, term_ms * 100 / elapsed_ms, pss.term_attempts());
  }
}

// Print stats related to work queue activity.
void ParScanThreadStateSet::print_taskqueue_stats_hdr(outputStream* const st)
{
  st->print_raw_cr("GC Task Stats");
  st->print_raw("thr "); TaskQueueStats::print_header(1, st); st->cr();
  st->print_raw("--- "); TaskQueueStats::print_header(2, st); st->cr();
}

void ParScanThreadStateSet::print_taskqueue_stats(outputStream* const st)
{
  print_taskqueue_stats_hdr(st);

  TaskQueueStats totals;
  for (int i = 0; i < length(); ++i) {
    const ParScanThreadState & pss = thread_state(i);
    const TaskQueueStats & stats = pss.taskqueue_stats();
    st->print("%3d ", i); stats.print(st); st->cr();
    totals += stats;

    if (pss.overflow_refills() > 0) {
      st->print_cr("    " SIZE_FORMAT_W(10) " overflow refills    "
                   SIZE_FORMAT_W(10) " overflow objects",
                   pss.overflow_refills(), pss.overflow_refill_objs());
    }
  }
  st->print("tot "); totals.print(st); st->cr();

  DEBUG_ONLY(totals.verify());
}
#endif // TASKQUEUE_STATS

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void ParScanThreadStateSet::flush()
{
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  // Work in this loop should be kept as lightweight as
  // possible since this might otherwise become a bottleneck
  // to scaling. Should we add heavy-weight work into this
  // loop, consider parallelizing the loop into the worker threads.
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  for (int i = 0; i < length(); ++i) {
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    ParScanThreadState& par_scan_state = thread_state(i);
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    // Flush stats related to To-space PLAB activity and
    // retire the last buffer.
    par_scan_state.to_space_alloc_buffer()->
      flush_stats_and_retire(_gen.plab_stats(),
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                             true /* end_of_gc */,
                             false /* retain */);
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    // Every thread has its own age table.  We need to merge
    // them all into one.
    ageTable *local_table = par_scan_state.age_table();
    _gen.age_table()->merge(local_table);

    // Inform old gen that we're done.
    _next_gen.par_promote_alloc_done(i);
    _next_gen.par_oop_since_save_marks_iterate_done(i);
  }
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  if (UseConcMarkSweepGC && ParallelGCThreads > 0) {
    // We need to call this even when ResizeOldPLAB is disabled
    // so as to avoid breaking some asserts. While we may be able
    // to avoid this by reorganizing the code a bit, I am loathe
    // to do that unless we find cases where ergo leads to bad
    // performance.
    CFLS_LAB::compute_desired_plab_size();
  }
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}

ParScanClosure::ParScanClosure(ParNewGeneration* g,
                               ParScanThreadState* par_scan_state) :
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  OopsInKlassOrGenClosure(g), _par_scan_state(par_scan_state), _g(g)
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{
  assert(_g->level() == 0, "Optimized for youngest generation");
  _boundary = _g->reserved().end();
}

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void ParScanWithBarrierClosure::do_oop(oop* p)       { ParScanClosure::do_oop_work(p, true, false); }
void ParScanWithBarrierClosure::do_oop(narrowOop* p) { ParScanClosure::do_oop_work(p, true, false); }

void ParScanWithoutBarrierClosure::do_oop(oop* p)       { ParScanClosure::do_oop_work(p, false, false); }
void ParScanWithoutBarrierClosure::do_oop(narrowOop* p) { ParScanClosure::do_oop_work(p, false, false); }

void ParRootScanWithBarrierTwoGensClosure::do_oop(oop* p)       { ParScanClosure::do_oop_work(p, true, true); }
void ParRootScanWithBarrierTwoGensClosure::do_oop(narrowOop* p) { ParScanClosure::do_oop_work(p, true, true); }

void ParRootScanWithoutBarrierClosure::do_oop(oop* p)       { ParScanClosure::do_oop_work(p, false, true); }
void ParRootScanWithoutBarrierClosure::do_oop(narrowOop* p) { ParScanClosure::do_oop_work(p, false, true); }

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ParScanWeakRefClosure::ParScanWeakRefClosure(ParNewGeneration* g,
                                             ParScanThreadState* par_scan_state)
  : ScanWeakRefClosure(g), _par_scan_state(par_scan_state)
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{}

void ParScanWeakRefClosure::do_oop(oop* p)       { ParScanWeakRefClosure::do_oop_work(p); }
void ParScanWeakRefClosure::do_oop(narrowOop* p) { ParScanWeakRefClosure::do_oop_work(p); }
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#ifdef WIN32
#pragma warning(disable: 4786) /* identifier was truncated to '255' characters in the browser information */
#endif

ParEvacuateFollowersClosure::ParEvacuateFollowersClosure(
    ParScanThreadState* par_scan_state_,
    ParScanWithoutBarrierClosure* to_space_closure_,
    ParScanWithBarrierClosure* old_gen_closure_,
    ParRootScanWithoutBarrierClosure* to_space_root_closure_,
    ParNewGeneration* par_gen_,
    ParRootScanWithBarrierTwoGensClosure* old_gen_root_closure_,
    ObjToScanQueueSet* task_queues_,
    ParallelTaskTerminator* terminator_) :

    _par_scan_state(par_scan_state_),
    _to_space_closure(to_space_closure_),
    _old_gen_closure(old_gen_closure_),
    _to_space_root_closure(to_space_root_closure_),
    _old_gen_root_closure(old_gen_root_closure_),
    _par_gen(par_gen_),
    _task_queues(task_queues_),
    _terminator(terminator_)
{}

void ParEvacuateFollowersClosure::do_void() {
  ObjToScanQueue* work_q = par_scan_state()->work_queue();

  while (true) {

    // Scan to-space and old-gen objs until we run out of both.
    oop obj_to_scan;
    par_scan_state()->trim_queues(0);

    // We have no local work, attempt to steal from other threads.

    // attempt to steal work from promoted.
    if (task_queues()->steal(par_scan_state()->thread_num(),
                             par_scan_state()->hash_seed(),
                             obj_to_scan)) {
      bool res = work_q->push(obj_to_scan);
      assert(res, "Empty queue should have room for a push.");

      //   if successful, goto Start.
      continue;

      // try global overflow list.
    } else if (par_gen()->take_from_overflow_list(par_scan_state())) {
      continue;
    }

    // Otherwise, offer termination.
    par_scan_state()->start_term_time();
    if (terminator()->offer_termination()) break;
    par_scan_state()->end_term_time();
  }
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  assert(par_gen()->_overflow_list == NULL && par_gen()->_num_par_pushes == 0,
         "Broken overflow list?");
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  // Finish the last termination pause.
  par_scan_state()->end_term_time();
}

ParNewGenTask::ParNewGenTask(ParNewGeneration* gen, Generation* next_gen,
                HeapWord* young_old_boundary, ParScanThreadStateSet* state_set) :
    AbstractGangTask("ParNewGeneration collection"),
    _gen(gen), _next_gen(next_gen),
    _young_old_boundary(young_old_boundary),
    _state_set(state_set)
  {}

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// Reset the terminator for the given number of
// active threads.
void ParNewGenTask::set_for_termination(int active_workers) {
  _state_set->reset(active_workers, _gen->promotion_failed());
  // Should the heap be passed in?  There's only 1 for now so
  // grab it instead.
  GenCollectedHeap* gch = GenCollectedHeap::heap();
  gch->set_n_termination(active_workers);
}

// The "i" passed to this method is the part of the work for
// this thread.  It is not the worker ID.  The "i" is derived
// from _started_workers which is incremented in internal_note_start()
// called in GangWorker loop() and which is called under the
// which is  called under the protection of the gang monitor and is
// called after a task is started.  So "i" is based on
// first-come-first-served.

594
void ParNewGenTask::work(uint worker_id) {
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  GenCollectedHeap* gch = GenCollectedHeap::heap();
  // Since this is being done in a separate thread, need new resource
  // and handle marks.
  ResourceMark rm;
  HandleMark hm;
  // We would need multiple old-gen queues otherwise.
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  assert(gch->n_gens() == 2, "Par young collection currently only works with one older gen.");
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  Generation* old_gen = gch->next_gen(_gen);

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  ParScanThreadState& par_scan_state = _state_set->thread_state(worker_id);
  assert(_state_set->is_valid(worker_id), "Should not have been called");
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  par_scan_state.set_young_old_boundary(_young_old_boundary);

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  KlassScanClosure klass_scan_closure(&par_scan_state.to_space_root_closure(),
                                      gch->rem_set()->klass_rem_set());

  int so = SharedHeap::SO_AllClasses | SharedHeap::SO_Strings | SharedHeap::SO_CodeCache;

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  par_scan_state.start_strong_roots();
  gch->gen_process_strong_roots(_gen->level(),
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                                true,  // Process younger gens, if any,
                                       // as strong roots.
                                false, // no scope; this is parallel code
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                                true,  // is scavenging
                                SharedHeap::ScanningOption(so),
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                                &par_scan_state.to_space_root_closure(),
                                true,   // walk *all* scavengable nmethods
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                                &par_scan_state.older_gen_closure(),
                                &klass_scan_closure);
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  par_scan_state.end_strong_roots();

  // "evacuate followers".
  par_scan_state.evacuate_followers_closure().do_void();
}

#ifdef _MSC_VER
#pragma warning( push )
#pragma warning( disable:4355 ) // 'this' : used in base member initializer list
#endif
ParNewGeneration::
ParNewGeneration(ReservedSpace rs, size_t initial_byte_size, int level)
  : DefNewGeneration(rs, initial_byte_size, level, "PCopy"),
  _overflow_list(NULL),
  _is_alive_closure(this),
  _plab_stats(YoungPLABSize, PLABWeight)
{
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  NOT_PRODUCT(_overflow_counter = ParGCWorkQueueOverflowInterval;)
  NOT_PRODUCT(_num_par_pushes = 0;)
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  _task_queues = new ObjToScanQueueSet(ParallelGCThreads);
  guarantee(_task_queues != NULL, "task_queues allocation failure.");

  for (uint i1 = 0; i1 < ParallelGCThreads; i1++) {
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    ObjToScanQueue *q = new ObjToScanQueue();
    guarantee(q != NULL, "work_queue Allocation failure.");
    _task_queues->register_queue(i1, q);
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  }

  for (uint i2 = 0; i2 < ParallelGCThreads; i2++)
    _task_queues->queue(i2)->initialize();

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  _overflow_stacks = NULL;
  if (ParGCUseLocalOverflow) {
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    // typedef to workaround NEW_C_HEAP_ARRAY macro, which can not deal
    // with ','
    typedef Stack<oop, mtGC> GCOopStack;

    _overflow_stacks = NEW_C_HEAP_ARRAY(GCOopStack, ParallelGCThreads, mtGC);
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    for (size_t i = 0; i < ParallelGCThreads; ++i) {
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      new (_overflow_stacks + i) Stack<oop, mtGC>();
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    }
  }

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  if (UsePerfData) {
    EXCEPTION_MARK;
    ResourceMark rm;

    const char* cname =
         PerfDataManager::counter_name(_gen_counters->name_space(), "threads");
    PerfDataManager::create_constant(SUN_GC, cname, PerfData::U_None,
                                     ParallelGCThreads, CHECK);
  }
}
#ifdef _MSC_VER
#pragma warning( pop )
#endif

// ParNewGeneration::
ParKeepAliveClosure::ParKeepAliveClosure(ParScanWeakRefClosure* cl) :
  DefNewGeneration::KeepAliveClosure(cl), _par_cl(cl) {}

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template <class T>
void /*ParNewGeneration::*/ParKeepAliveClosure::do_oop_work(T* p) {
#ifdef ASSERT
  {
    assert(!oopDesc::is_null(*p), "expected non-null ref");
    oop obj = oopDesc::load_decode_heap_oop_not_null(p);
    // We never expect to see a null reference being processed
    // as a weak reference.
    assert(obj->is_oop(), "expected an oop while scanning weak refs");
  }
#endif // ASSERT
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  _par_cl->do_oop_nv(p);

  if (Universe::heap()->is_in_reserved(p)) {
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    oop obj = oopDesc::load_decode_heap_oop_not_null(p);
    _rs->write_ref_field_gc_par(p, obj);
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  }
}

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void /*ParNewGeneration::*/ParKeepAliveClosure::do_oop(oop* p)       { ParKeepAliveClosure::do_oop_work(p); }
void /*ParNewGeneration::*/ParKeepAliveClosure::do_oop(narrowOop* p) { ParKeepAliveClosure::do_oop_work(p); }

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// ParNewGeneration::
KeepAliveClosure::KeepAliveClosure(ScanWeakRefClosure* cl) :
  DefNewGeneration::KeepAliveClosure(cl) {}

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template <class T>
void /*ParNewGeneration::*/KeepAliveClosure::do_oop_work(T* p) {
#ifdef ASSERT
  {
    assert(!oopDesc::is_null(*p), "expected non-null ref");
    oop obj = oopDesc::load_decode_heap_oop_not_null(p);
    // We never expect to see a null reference being processed
    // as a weak reference.
    assert(obj->is_oop(), "expected an oop while scanning weak refs");
  }
#endif // ASSERT
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  _cl->do_oop_nv(p);

  if (Universe::heap()->is_in_reserved(p)) {
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    oop obj = oopDesc::load_decode_heap_oop_not_null(p);
    _rs->write_ref_field_gc_par(p, obj);
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  }
}

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void /*ParNewGeneration::*/KeepAliveClosure::do_oop(oop* p)       { KeepAliveClosure::do_oop_work(p); }
void /*ParNewGeneration::*/KeepAliveClosure::do_oop(narrowOop* p) { KeepAliveClosure::do_oop_work(p); }

template <class T> void ScanClosureWithParBarrier::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);
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    if ((HeapWord*)obj < _boundary) {
      assert(!_g->to()->is_in_reserved(obj), "Scanning field twice?");
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      oop new_obj = obj->is_forwarded()
                      ? obj->forwardee()
                      : _g->DefNewGeneration::copy_to_survivor_space(obj);
      oopDesc::encode_store_heap_oop_not_null(p, new_obj);
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    }
    if (_gc_barrier) {
      // If p points to a younger generation, mark the card.
      if ((HeapWord*)obj < _gen_boundary) {
        _rs->write_ref_field_gc_par(p, obj);
      }
    }
  }
}

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void ScanClosureWithParBarrier::do_oop(oop* p)       { ScanClosureWithParBarrier::do_oop_work(p); }
void ScanClosureWithParBarrier::do_oop(narrowOop* p) { ScanClosureWithParBarrier::do_oop_work(p); }

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class ParNewRefProcTaskProxy: public AbstractGangTask {
  typedef AbstractRefProcTaskExecutor::ProcessTask ProcessTask;
public:
  ParNewRefProcTaskProxy(ProcessTask& task, ParNewGeneration& gen,
                         Generation& next_gen,
                         HeapWord* young_old_boundary,
                         ParScanThreadStateSet& state_set);

private:
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  virtual void work(uint worker_id);
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  virtual void set_for_termination(int active_workers) {
    _state_set.terminator()->reset_for_reuse(active_workers);
  }
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private:
  ParNewGeneration&      _gen;
  ProcessTask&           _task;
  Generation&            _next_gen;
  HeapWord*              _young_old_boundary;
  ParScanThreadStateSet& _state_set;
};

ParNewRefProcTaskProxy::ParNewRefProcTaskProxy(
    ProcessTask& task, ParNewGeneration& gen,
    Generation& next_gen,
    HeapWord* young_old_boundary,
    ParScanThreadStateSet& state_set)
  : AbstractGangTask("ParNewGeneration parallel reference processing"),
    _gen(gen),
    _task(task),
    _next_gen(next_gen),
    _young_old_boundary(young_old_boundary),
    _state_set(state_set)
{
}

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void ParNewRefProcTaskProxy::work(uint worker_id)
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{
  ResourceMark rm;
  HandleMark hm;
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  ParScanThreadState& par_scan_state = _state_set.thread_state(worker_id);
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  par_scan_state.set_young_old_boundary(_young_old_boundary);
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  _task.work(worker_id, par_scan_state.is_alive_closure(),
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             par_scan_state.keep_alive_closure(),
             par_scan_state.evacuate_followers_closure());
}

class ParNewRefEnqueueTaskProxy: public AbstractGangTask {
  typedef AbstractRefProcTaskExecutor::EnqueueTask EnqueueTask;
  EnqueueTask& _task;

public:
  ParNewRefEnqueueTaskProxy(EnqueueTask& task)
    : AbstractGangTask("ParNewGeneration parallel reference enqueue"),
      _task(task)
  { }

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  virtual void work(uint worker_id)
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  {
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    _task.work(worker_id);
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  }
};


void ParNewRefProcTaskExecutor::execute(ProcessTask& task)
{
  GenCollectedHeap* gch = GenCollectedHeap::heap();
  assert(gch->kind() == CollectedHeap::GenCollectedHeap,
         "not a generational heap");
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  FlexibleWorkGang* workers = gch->workers();
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  assert(workers != NULL, "Need parallel worker threads.");
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  _state_set.reset(workers->active_workers(), _generation.promotion_failed());
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  ParNewRefProcTaskProxy rp_task(task, _generation, *_generation.next_gen(),
                                 _generation.reserved().end(), _state_set);
  workers->run_task(&rp_task);
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  _state_set.reset(0 /* bad value in debug if not reset */,
                   _generation.promotion_failed());
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}

void ParNewRefProcTaskExecutor::execute(EnqueueTask& task)
{
  GenCollectedHeap* gch = GenCollectedHeap::heap();
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  FlexibleWorkGang* workers = gch->workers();
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  assert(workers != NULL, "Need parallel worker threads.");
  ParNewRefEnqueueTaskProxy enq_task(task);
  workers->run_task(&enq_task);
}

void ParNewRefProcTaskExecutor::set_single_threaded_mode()
{
  _state_set.flush();
  GenCollectedHeap* gch = GenCollectedHeap::heap();
  gch->set_par_threads(0);  // 0 ==> non-parallel.
  gch->save_marks();
}

ScanClosureWithParBarrier::
ScanClosureWithParBarrier(ParNewGeneration* g, bool gc_barrier) :
  ScanClosure(g, gc_barrier) {}

EvacuateFollowersClosureGeneral::
EvacuateFollowersClosureGeneral(GenCollectedHeap* gch, int level,
                                OopsInGenClosure* cur,
                                OopsInGenClosure* older) :
  _gch(gch), _level(level),
  _scan_cur_or_nonheap(cur), _scan_older(older)
{}

void EvacuateFollowersClosureGeneral::do_void() {
  do {
    // Beware: this call will lead to closure applications via virtual
    // calls.
    _gch->oop_since_save_marks_iterate(_level,
                                       _scan_cur_or_nonheap,
                                       _scan_older);
  } while (!_gch->no_allocs_since_save_marks(_level));
}


bool ParNewGeneration::_avoid_promotion_undo = false;

void ParNewGeneration::adjust_desired_tenuring_threshold() {
  // Set the desired survivor size to half the real survivor space
  _tenuring_threshold =
    age_table()->compute_tenuring_threshold(to()->capacity()/HeapWordSize);
}

// A Generation that does parallel young-gen collection.

void ParNewGeneration::collect(bool   full,
                               bool   clear_all_soft_refs,
                               size_t size,
                               bool   is_tlab) {
  assert(full || size > 0, "otherwise we don't want to collect");
  GenCollectedHeap* gch = GenCollectedHeap::heap();
  assert(gch->kind() == CollectedHeap::GenCollectedHeap,
    "not a CMS generational heap");
  AdaptiveSizePolicy* size_policy = gch->gen_policy()->size_policy();
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  FlexibleWorkGang* workers = gch->workers();
  assert(workers != NULL, "Need workgang for parallel work");
  int active_workers =
      AdaptiveSizePolicy::calc_active_workers(workers->total_workers(),
                                   workers->active_workers(),
                                   Threads::number_of_non_daemon_threads());
  workers->set_active_workers(active_workers);
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  _next_gen = gch->next_gen(this);
  assert(_next_gen != NULL,
    "This must be the youngest gen, and not the only gen");
  assert(gch->n_gens() == 2,
         "Par collection currently only works with single older gen.");
  // Do we have to avoid promotion_undo?
  if (gch->collector_policy()->is_concurrent_mark_sweep_policy()) {
    set_avoid_promotion_undo(true);
  }

  // If the next generation is too full to accomodate worst-case promotion
  // from this generation, pass on collection; let the next generation
  // do it.
  if (!collection_attempt_is_safe()) {
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    gch->set_incremental_collection_failed();  // slight lie, in that we did not even attempt one
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    return;
  }
  assert(to()->is_empty(), "Else not collection_attempt_is_safe");

  init_assuming_no_promotion_failure();

  if (UseAdaptiveSizePolicy) {
    set_survivor_overflow(false);
    size_policy->minor_collection_begin();
  }

931
  TraceTime t1(GCCauseString("GC", gch->gc_cause()), PrintGC && !PrintGCDetails, true, gclog_or_tty);
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  // Capture heap used before collection (for printing).
  size_t gch_prev_used = gch->used();

  SpecializationStats::clear();

  age_table()->clear();
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  to()->clear(SpaceDecorator::Mangle);
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  gch->save_marks();
  assert(workers != NULL, "Need parallel worker threads.");
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  int n_workers = active_workers;

  // Set the correct parallelism (number of queues) in the reference processor
  ref_processor()->set_active_mt_degree(n_workers);

  // Always set the terminator for the active number of workers
  // because only those workers go through the termination protocol.
  ParallelTaskTerminator _term(n_workers, task_queues());
  ParScanThreadStateSet thread_state_set(workers->active_workers(),
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                                         *to(), *this, *_next_gen, *task_queues(),
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                                         _overflow_stacks, desired_plab_sz(), _term);
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  ParNewGenTask tsk(this, _next_gen, reserved().end(), &thread_state_set);
  gch->set_par_threads(n_workers);
  gch->rem_set()->prepare_for_younger_refs_iterate(true);
  // It turns out that even when we're using 1 thread, doing the work in a
  // separate thread causes wide variance in run times.  We can't help this
  // in the multi-threaded case, but we special-case n=1 here to get
  // repeatable measurements of the 1-thread overhead of the parallel code.
  if (n_workers > 1) {
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    GenCollectedHeap::StrongRootsScope srs(gch);
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    workers->run_task(&tsk);
  } else {
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    GenCollectedHeap::StrongRootsScope srs(gch);
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    tsk.work(0);
  }
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  thread_state_set.reset(0 /* Bad value in debug if not reset */,
                         promotion_failed());
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  // Process (weak) reference objects found during scavenge.
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  ReferenceProcessor* rp = ref_processor();
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  IsAliveClosure is_alive(this);
  ScanWeakRefClosure scan_weak_ref(this);
  KeepAliveClosure keep_alive(&scan_weak_ref);
  ScanClosure               scan_without_gc_barrier(this, false);
  ScanClosureWithParBarrier scan_with_gc_barrier(this, true);
  set_promo_failure_scan_stack_closure(&scan_without_gc_barrier);
  EvacuateFollowersClosureGeneral evacuate_followers(gch, _level,
    &scan_without_gc_barrier, &scan_with_gc_barrier);
981
  rp->setup_policy(clear_all_soft_refs);
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  // Can  the mt_degree be set later (at run_task() time would be best)?
  rp->set_active_mt_degree(active_workers);
984
  if (rp->processing_is_mt()) {
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    ParNewRefProcTaskExecutor task_executor(*this, thread_state_set);
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    rp->process_discovered_references(&is_alive, &keep_alive,
                                      &evacuate_followers, &task_executor);
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  } else {
    thread_state_set.flush();
    gch->set_par_threads(0);  // 0 ==> non-parallel.
    gch->save_marks();
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    rp->process_discovered_references(&is_alive, &keep_alive,
                                      &evacuate_followers, NULL);
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  }
  if (!promotion_failed()) {
    // Swap the survivor spaces.
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    eden()->clear(SpaceDecorator::Mangle);
    from()->clear(SpaceDecorator::Mangle);
    if (ZapUnusedHeapArea) {
      // This is now done here because of the piece-meal mangling which
      // can check for valid mangling at intermediate points in the
      // collection(s).  When a minor collection fails to collect
      // sufficient space resizing of the young generation can occur
      // an redistribute the spaces in the young generation.  Mangle
      // here so that unzapped regions don't get distributed to
      // other spaces.
      to()->mangle_unused_area();
    }
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    swap_spaces();

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    // A successful scavenge should restart the GC time limit count which is
    // for full GC's.
    size_policy->reset_gc_overhead_limit_count();

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    assert(to()->is_empty(), "to space should be empty now");
  } else {
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    assert(_promo_failure_scan_stack.is_empty(), "post condition");
    _promo_failure_scan_stack.clear(true); // Clear cached segments.

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    remove_forwarding_pointers();
    if (PrintGCDetails) {
      gclog_or_tty->print(" (promotion failed)");
    }
    // All the spaces are in play for mark-sweep.
    swap_spaces();  // Make life simpler for CMS || rescan; see 6483690.
    from()->set_next_compaction_space(to());
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    gch->set_incremental_collection_failed();
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    // Inform the next generation that a promotion failure occurred.
    _next_gen->promotion_failure_occurred();
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    // Reset the PromotionFailureALot counters.
    NOT_PRODUCT(Universe::heap()->reset_promotion_should_fail();)
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  }
  // set new iteration safe limit for the survivor spaces
  from()->set_concurrent_iteration_safe_limit(from()->top());
  to()->set_concurrent_iteration_safe_limit(to()->top());

  adjust_desired_tenuring_threshold();
  if (ResizePLAB) {
    plab_stats()->adjust_desired_plab_sz();
  }

  if (PrintGC && !PrintGCDetails) {
    gch->print_heap_change(gch_prev_used);
  }

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  if (PrintGCDetails && ParallelGCVerbose) {
    TASKQUEUE_STATS_ONLY(thread_state_set.print_termination_stats());
    TASKQUEUE_STATS_ONLY(thread_state_set.print_taskqueue_stats());
  }
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  if (UseAdaptiveSizePolicy) {
    size_policy->minor_collection_end(gch->gc_cause());
    size_policy->avg_survived()->sample(from()->used());
  }

1057 1058 1059 1060 1061
  // We need to use a monotonically non-deccreasing time in ms
  // or we will see time-warp warnings and os::javaTimeMillis()
  // does not guarantee monotonicity.
  jlong now = os::javaTimeNanos() / NANOSECS_PER_MILLISEC;
  update_time_of_last_gc(now);
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  SpecializationStats::print();

1065 1066
  rp->set_enqueuing_is_done(true);
  if (rp->processing_is_mt()) {
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    ParNewRefProcTaskExecutor task_executor(*this, thread_state_set);
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    rp->enqueue_discovered_references(&task_executor);
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  } else {
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    rp->enqueue_discovered_references(NULL);
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  }
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  rp->verify_no_references_recorded();
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}

static int sum;
void ParNewGeneration::waste_some_time() {
  for (int i = 0; i < 100; i++) {
    sum += i;
  }
}

static const oop ClaimedForwardPtr = oop(0x4);

// Because of concurrency, there are times where an object for which
// "is_forwarded()" is true contains an "interim" forwarding pointer
// value.  Such a value will soon be overwritten with a real value.
// This method requires "obj" to have a forwarding pointer, and waits, if
// necessary for a real one to be inserted, and returns it.

oop ParNewGeneration::real_forwardee(oop obj) {
  oop forward_ptr = obj->forwardee();
  if (forward_ptr != ClaimedForwardPtr) {
    return forward_ptr;
  } else {
    return real_forwardee_slow(obj);
  }
}

oop ParNewGeneration::real_forwardee_slow(oop obj) {
  // Spin-read if it is claimed but not yet written by another thread.
  oop forward_ptr = obj->forwardee();
  while (forward_ptr == ClaimedForwardPtr) {
    waste_some_time();
    assert(obj->is_forwarded(), "precondition");
    forward_ptr = obj->forwardee();
  }
  return forward_ptr;
}

#ifdef ASSERT
bool ParNewGeneration::is_legal_forward_ptr(oop p) {
  return
    (_avoid_promotion_undo && p == ClaimedForwardPtr)
    || Universe::heap()->is_in_reserved(p);
}
#endif

void ParNewGeneration::preserve_mark_if_necessary(oop obj, markOop m) {
1119 1120 1121
  if (m->must_be_preserved_for_promotion_failure(obj)) {
    // We should really have separate per-worker stacks, rather
    // than use locking of a common pair of stacks.
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    MutexLocker ml(ParGCRareEvent_lock);
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    preserve_mark(obj, m);
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  }
}

// Multiple GC threads may try to promote an object.  If the object
// is successfully promoted, a forwarding pointer will be installed in
// the object in the young generation.  This method claims the right
// to install the forwarding pointer before it copies the object,
// thus avoiding the need to undo the copy as in
// copy_to_survivor_space_avoiding_with_undo.

oop ParNewGeneration::copy_to_survivor_space_avoiding_promotion_undo(
        ParScanThreadState* par_scan_state, oop old, size_t sz, markOop m) {
  // In the sequential version, this assert also says that the object is
  // not forwarded.  That might not be the case here.  It is the case that
  // the caller observed it to be not forwarded at some time in the past.
  assert(is_in_reserved(old), "shouldn't be scavenging this oop");

  // The sequential code read "old->age()" below.  That doesn't work here,
  // since the age is in the mark word, and that might be overwritten with
  // a forwarding pointer by a parallel thread.  So we must save the mark
  // word in a local and then analyze it.
  oopDesc dummyOld;
  dummyOld.set_mark(m);
  assert(!dummyOld.is_forwarded(),
         "should not be called with forwarding pointer mark word.");

  oop new_obj = NULL;
  oop forward_ptr;

  // Try allocating obj in to-space (unless too old)
  if (dummyOld.age() < tenuring_threshold()) {
    new_obj = (oop)par_scan_state->alloc_in_to_space(sz);
    if (new_obj == NULL) {
      set_survivor_overflow(true);
    }
  }

  if (new_obj == NULL) {
    // Either to-space is full or we decided to promote
    // try allocating obj tenured

    // Attempt to install a null forwarding pointer (atomically),
    // to claim the right to install the real forwarding pointer.
    forward_ptr = old->forward_to_atomic(ClaimedForwardPtr);
    if (forward_ptr != NULL) {
      // someone else beat us to it.
        return real_forwardee(old);
    }

    new_obj = _next_gen->par_promote(par_scan_state->thread_num(),
                                       old, m, sz);

    if (new_obj == NULL) {
      // promotion failed, forward to self
      _promotion_failed = true;
      new_obj = old;

      preserve_mark_if_necessary(old, m);
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      // Log the size of the maiden promotion failure
      par_scan_state->log_promotion_failure(sz);
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    }

    old->forward_to(new_obj);
    forward_ptr = NULL;
  } else {
    // Is in to-space; do copying ourselves.
    Copy::aligned_disjoint_words((HeapWord*)old, (HeapWord*)new_obj, sz);
    forward_ptr = old->forward_to_atomic(new_obj);
    // Restore the mark word copied above.
    new_obj->set_mark(m);
    // Increment age if obj still in new generation
    new_obj->incr_age();
    par_scan_state->age_table()->add(new_obj, sz);
  }
  assert(new_obj != NULL, "just checking");

1200 1201 1202 1203 1204 1205 1206 1207 1208 1209
#ifndef PRODUCT
  // This code must come after the CAS test, or it will print incorrect
  // information.
  if (TraceScavenge) {
    gclog_or_tty->print_cr("{%s %s " PTR_FORMAT " -> " PTR_FORMAT " (%d)}",
       is_in_reserved(new_obj) ? "copying" : "tenuring",
       new_obj->klass()->internal_name(), old, new_obj, new_obj->size());
  }
#endif

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  if (forward_ptr == NULL) {
    oop obj_to_push = new_obj;
    if (par_scan_state->should_be_partially_scanned(obj_to_push, old)) {
      // Length field used as index of next element to be scanned.
      // Real length can be obtained from real_forwardee()
      arrayOop(old)->set_length(0);
      obj_to_push = old;
      assert(obj_to_push->is_forwarded() && obj_to_push->forwardee() != obj_to_push,
             "push forwarded object");
    }
    // Push it on one of the queues of to-be-scanned objects.
1221 1222 1223 1224 1225 1226 1227 1228
    bool simulate_overflow = false;
    NOT_PRODUCT(
      if (ParGCWorkQueueOverflowALot && should_simulate_overflow()) {
        // simulate a stack overflow
        simulate_overflow = true;
      }
    )
    if (simulate_overflow || !par_scan_state->work_queue()->push(obj_to_push)) {
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      // Add stats for overflow pushes.
      if (Verbose && PrintGCDetails) {
        gclog_or_tty->print("queue overflow!\n");
      }
1233
      push_on_overflow_list(old, par_scan_state);
1234
      TASKQUEUE_STATS_ONLY(par_scan_state->taskqueue_stats().record_overflow(0));
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    }

    return new_obj;
  }

  // Oops.  Someone beat us to it.  Undo the allocation.  Where did we
  // allocate it?
  if (is_in_reserved(new_obj)) {
    // Must be in to_space.
    assert(to()->is_in_reserved(new_obj), "Checking");
    if (forward_ptr == ClaimedForwardPtr) {
      // Wait to get the real forwarding pointer value.
      forward_ptr = real_forwardee(old);
    }
    par_scan_state->undo_alloc_in_to_space((HeapWord*)new_obj, sz);
  }

  return forward_ptr;
}


// Multiple GC threads may try to promote the same object.  If two
// or more GC threads copy the object, only one wins the race to install
// the forwarding pointer.  The other threads have to undo their copy.

oop ParNewGeneration::copy_to_survivor_space_with_undo(
        ParScanThreadState* par_scan_state, oop old, size_t sz, markOop m) {

  // In the sequential version, this assert also says that the object is
  // not forwarded.  That might not be the case here.  It is the case that
  // the caller observed it to be not forwarded at some time in the past.
  assert(is_in_reserved(old), "shouldn't be scavenging this oop");

  // The sequential code read "old->age()" below.  That doesn't work here,
  // since the age is in the mark word, and that might be overwritten with
  // a forwarding pointer by a parallel thread.  So we must save the mark
  // word here, install it in a local oopDesc, and then analyze it.
  oopDesc dummyOld;
  dummyOld.set_mark(m);
  assert(!dummyOld.is_forwarded(),
         "should not be called with forwarding pointer mark word.");

  bool failed_to_promote = false;
  oop new_obj = NULL;
  oop forward_ptr;

  // Try allocating obj in to-space (unless too old)
  if (dummyOld.age() < tenuring_threshold()) {
    new_obj = (oop)par_scan_state->alloc_in_to_space(sz);
    if (new_obj == NULL) {
      set_survivor_overflow(true);
    }
  }

  if (new_obj == NULL) {
    // Either to-space is full or we decided to promote
    // try allocating obj tenured
    new_obj = _next_gen->par_promote(par_scan_state->thread_num(),
                                       old, m, sz);

    if (new_obj == NULL) {
      // promotion failed, forward to self
      forward_ptr = old->forward_to_atomic(old);
      new_obj = old;

      if (forward_ptr != NULL) {
        return forward_ptr;   // someone else succeeded
      }

      _promotion_failed = true;
      failed_to_promote = true;

      preserve_mark_if_necessary(old, m);
1308 1309
      // Log the size of the maiden promotion failure
      par_scan_state->log_promotion_failure(sz);
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    }
  } else {
    // Is in to-space; do copying ourselves.
    Copy::aligned_disjoint_words((HeapWord*)old, (HeapWord*)new_obj, sz);
    // Restore the mark word copied above.
    new_obj->set_mark(m);
    // Increment age if new_obj still in new generation
    new_obj->incr_age();
    par_scan_state->age_table()->add(new_obj, sz);
  }
  assert(new_obj != NULL, "just checking");

1322 1323 1324 1325 1326 1327 1328 1329 1330 1331
#ifndef PRODUCT
  // This code must come after the CAS test, or it will print incorrect
  // information.
  if (TraceScavenge) {
    gclog_or_tty->print_cr("{%s %s " PTR_FORMAT " -> " PTR_FORMAT " (%d)}",
       is_in_reserved(new_obj) ? "copying" : "tenuring",
       new_obj->klass()->internal_name(), old, new_obj, new_obj->size());
  }
#endif

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  // Now attempt to install the forwarding pointer (atomically).
  // We have to copy the mark word before overwriting with forwarding
  // ptr, so we can restore it below in the copy.
  if (!failed_to_promote) {
    forward_ptr = old->forward_to_atomic(new_obj);
  }

  if (forward_ptr == NULL) {
    oop obj_to_push = new_obj;
    if (par_scan_state->should_be_partially_scanned(obj_to_push, old)) {
      // Length field used as index of next element to be scanned.
      // Real length can be obtained from real_forwardee()
      arrayOop(old)->set_length(0);
      obj_to_push = old;
      assert(obj_to_push->is_forwarded() && obj_to_push->forwardee() != obj_to_push,
             "push forwarded object");
    }
    // Push it on one of the queues of to-be-scanned objects.
1350 1351 1352 1353 1354 1355 1356 1357
    bool simulate_overflow = false;
    NOT_PRODUCT(
      if (ParGCWorkQueueOverflowALot && should_simulate_overflow()) {
        // simulate a stack overflow
        simulate_overflow = true;
      }
    )
    if (simulate_overflow || !par_scan_state->work_queue()->push(obj_to_push)) {
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      // Add stats for overflow pushes.
1359
      push_on_overflow_list(old, par_scan_state);
1360
      TASKQUEUE_STATS_ONLY(par_scan_state->taskqueue_stats().record_overflow(0));
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    }

    return new_obj;
  }

  // Oops.  Someone beat us to it.  Undo the allocation.  Where did we
  // allocate it?
  if (is_in_reserved(new_obj)) {
    // Must be in to_space.
    assert(to()->is_in_reserved(new_obj), "Checking");
    par_scan_state->undo_alloc_in_to_space((HeapWord*)new_obj, sz);
  } else {
    assert(!_avoid_promotion_undo, "Should not be here if avoiding.");
    _next_gen->par_promote_alloc_undo(par_scan_state->thread_num(),
                                      (HeapWord*)new_obj, sz);
  }

  return forward_ptr;
}

1381 1382 1383 1384 1385 1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396
#ifndef PRODUCT
// It's OK to call this multi-threaded;  the worst thing
// that can happen is that we'll get a bunch of closely
// spaced simulated oveflows, but that's OK, in fact
// probably good as it would exercise the overflow code
// under contention.
bool ParNewGeneration::should_simulate_overflow() {
  if (_overflow_counter-- <= 0) { // just being defensive
    _overflow_counter = ParGCWorkQueueOverflowInterval;
    return true;
  } else {
    return false;
  }
}
#endif

1397 1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413 1414 1415 1416
// In case we are using compressed oops, we need to be careful.
// If the object being pushed is an object array, then its length
// field keeps track of the "grey boundary" at which the next
// incremental scan will be done (see ParGCArrayScanChunk).
// When using compressed oops, this length field is kept in the
// lower 32 bits of the erstwhile klass word and cannot be used
// for the overflow chaining pointer (OCP below). As such the OCP
// would itself need to be compressed into the top 32-bits in this
// case. Unfortunately, see below, in the event that we have a
// promotion failure, the node to be pushed on the list can be
// outside of the Java heap, so the heap-based pointer compression
// would not work (we would have potential aliasing between C-heap
// and Java-heap pointers). For this reason, when using compressed
// oops, we simply use a worker-thread-local, non-shared overflow
// list in the form of a growable array, with a slightly different
// overflow stack draining strategy. If/when we start using fat
// stacks here, we can go back to using (fat) pointer chains
// (although some performance comparisons would be useful since
// single global lists have their own performance disadvantages
// as we were made painfully aware not long ago, see 6786503).
1417 1418
#define BUSY (oop(0x1aff1aff))
void ParNewGeneration::push_on_overflow_list(oop from_space_obj, ParScanThreadState* par_scan_state) {
1419
  assert(is_in_reserved(from_space_obj), "Should be from this generation");
1420
  if (ParGCUseLocalOverflow) {
1421 1422 1423 1424
    // In the case of compressed oops, we use a private, not-shared
    // overflow stack.
    par_scan_state->push_on_overflow_stack(from_space_obj);
  } else {
1425
    assert(!UseCompressedOops, "Error");
1426 1427 1428 1429 1430
    // if the object has been forwarded to itself, then we cannot
    // use the klass pointer for the linked list.  Instead we have
    // to allocate an oopDesc in the C-Heap and use that for the linked list.
    // XXX This is horribly inefficient when a promotion failure occurs
    // and should be fixed. XXX FIX ME !!!
1431
#ifndef PRODUCT
1432 1433
    Atomic::inc_ptr(&_num_par_pushes);
    assert(_num_par_pushes > 0, "Tautology");
1434
#endif
1435
    if (from_space_obj->forwardee() == from_space_obj) {
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      oopDesc* listhead = NEW_C_HEAP_ARRAY(oopDesc, 1, mtGC);
1437 1438
      listhead->forward_to(from_space_obj);
      from_space_obj = listhead;
1439
    }
1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452
    oop observed_overflow_list = _overflow_list;
    oop cur_overflow_list;
    do {
      cur_overflow_list = observed_overflow_list;
      if (cur_overflow_list != BUSY) {
        from_space_obj->set_klass_to_list_ptr(cur_overflow_list);
      } else {
        from_space_obj->set_klass_to_list_ptr(NULL);
      }
      observed_overflow_list =
        (oop)Atomic::cmpxchg_ptr(from_space_obj, &_overflow_list, cur_overflow_list);
    } while (cur_overflow_list != observed_overflow_list);
  }
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}

1455 1456 1457
bool ParNewGeneration::take_from_overflow_list(ParScanThreadState* par_scan_state) {
  bool res;

1458
  if (ParGCUseLocalOverflow) {
1459 1460
    res = par_scan_state->take_from_overflow_stack();
  } else {
1461
    assert(!UseCompressedOops, "Error");
1462 1463 1464 1465 1466 1467
    res = take_from_overflow_list_work(par_scan_state);
  }
  return res;
}


1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481
// *NOTE*: The overflow list manipulation code here and
// in CMSCollector:: are very similar in shape,
// except that in the CMS case we thread the objects
// directly into the list via their mark word, and do
// not need to deal with special cases below related
// to chunking of object arrays and promotion failure
// handling.
// CR 6797058 has been filed to attempt consolidation of
// the common code.
// Because of the common code, if you make any changes in
// the code below, please check the CMS version to see if
// similar changes might be needed.
// See CMSCollector::par_take_from_overflow_list() for
// more extensive documentation comments.
1482
bool ParNewGeneration::take_from_overflow_list_work(ParScanThreadState* par_scan_state) {
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  ObjToScanQueue* work_q = par_scan_state->work_queue();
  // How many to take?
1485
  size_t objsFromOverflow = MIN2((size_t)(work_q->max_elems() - work_q->size())/4,
1486
                                 (size_t)ParGCDesiredObjsFromOverflowList);
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1488
  assert(!UseCompressedOops, "Error");
1489
  assert(par_scan_state->overflow_stack() == NULL, "Error");
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  if (_overflow_list == NULL) return false;

  // Otherwise, there was something there; try claiming the list.
1493
  oop prefix = (oop)Atomic::xchg_ptr(BUSY, &_overflow_list);
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  // Trim off a prefix of at most objsFromOverflow items
1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520
  Thread* tid = Thread::current();
  size_t spin_count = (size_t)ParallelGCThreads;
  size_t sleep_time_millis = MAX2((size_t)1, objsFromOverflow/100);
  for (size_t spin = 0; prefix == BUSY && spin < spin_count; spin++) {
    // someone grabbed it before we did ...
    // ... we spin for a short while...
    os::sleep(tid, sleep_time_millis, false);
    if (_overflow_list == NULL) {
      // nothing left to take
      return false;
    } else if (_overflow_list != BUSY) {
     // try and grab the prefix
     prefix = (oop)Atomic::xchg_ptr(BUSY, &_overflow_list);
    }
  }
  if (prefix == NULL || prefix == BUSY) {
     // Nothing to take or waited long enough
     if (prefix == NULL) {
       // Write back the NULL in case we overwrote it with BUSY above
       // and it is still the same value.
       (void) Atomic::cmpxchg_ptr(NULL, &_overflow_list, BUSY);
     }
     return false;
  }
  assert(prefix != NULL && prefix != BUSY, "Error");
  size_t i = 1;
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  oop cur = prefix;
1522
  while (i < objsFromOverflow && cur->klass_or_null() != NULL) {
1523
    i++; cur = cur->list_ptr_from_klass();
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  }

  // Reattach remaining (suffix) to overflow list
1527 1528 1529 1530 1531
  if (cur->klass_or_null() == NULL) {
    // Write back the NULL in lieu of the BUSY we wrote
    // above and it is still the same value.
    if (_overflow_list == BUSY) {
      (void) Atomic::cmpxchg_ptr(NULL, &_overflow_list, BUSY);
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    }
1533
  } else {
1534 1535
    assert(cur->klass_or_null() != (Klass*)(address)BUSY, "Error");
    oop suffix = cur->list_ptr_from_klass();       // suffix will be put back on global list
1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555
    cur->set_klass_to_list_ptr(NULL);     // break off suffix
    // It's possible that the list is still in the empty(busy) state
    // we left it in a short while ago; in that case we may be
    // able to place back the suffix.
    oop observed_overflow_list = _overflow_list;
    oop cur_overflow_list = observed_overflow_list;
    bool attached = false;
    while (observed_overflow_list == BUSY || observed_overflow_list == NULL) {
      observed_overflow_list =
        (oop) Atomic::cmpxchg_ptr(suffix, &_overflow_list, cur_overflow_list);
      if (cur_overflow_list == observed_overflow_list) {
        attached = true;
        break;
      } else cur_overflow_list = observed_overflow_list;
    }
    if (!attached) {
      // Too bad, someone else got in in between; we'll need to do a splice.
      // Find the last item of suffix list
      oop last = suffix;
      while (last->klass_or_null() != NULL) {
1556
        last = last->list_ptr_from_klass();
1557 1558 1559 1560 1561 1562 1563 1564 1565 1566 1567 1568 1569 1570
      }
      // Atomically prepend suffix to current overflow list
      observed_overflow_list = _overflow_list;
      do {
        cur_overflow_list = observed_overflow_list;
        if (cur_overflow_list != BUSY) {
          // Do the splice ...
          last->set_klass_to_list_ptr(cur_overflow_list);
        } else { // cur_overflow_list == BUSY
          last->set_klass_to_list_ptr(NULL);
        }
        observed_overflow_list =
          (oop)Atomic::cmpxchg_ptr(suffix, &_overflow_list, cur_overflow_list);
      } while (cur_overflow_list != observed_overflow_list);
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    }
  }

  // Push objects on prefix list onto this thread's work queue
1575
  assert(prefix != NULL && prefix != BUSY, "program logic");
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  cur = prefix;
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  ssize_t n = 0;
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  while (cur != NULL) {
    oop obj_to_push = cur->forwardee();
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    oop next        = cur->list_ptr_from_klass();
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    cur->set_klass(obj_to_push->klass());
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    // This may be an array object that is self-forwarded. In that case, the list pointer
    // space, cur, is not in the Java heap, but rather in the C-heap and should be freed.
    if (!is_in_reserved(cur)) {
      // This can become a scaling bottleneck when there is work queue overflow coincident
      // with promotion failure.
      oopDesc* f = cur;
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      FREE_C_HEAP_ARRAY(oopDesc, f, mtGC);
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    } else if (par_scan_state->should_be_partially_scanned(obj_to_push, cur)) {
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      assert(arrayOop(cur)->length() == 0, "entire array remaining to be scanned");
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      obj_to_push = cur;
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    }
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    bool ok = work_q->push(obj_to_push);
    assert(ok, "Should have succeeded");
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    cur = next;
    n++;
  }
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  TASKQUEUE_STATS_ONLY(par_scan_state->note_overflow_refill(n));
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#ifndef PRODUCT
  assert(_num_par_pushes >= n, "Too many pops?");
  Atomic::add_ptr(-(intptr_t)n, &_num_par_pushes);
#endif
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  return true;
}
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#undef BUSY
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void ParNewGeneration::ref_processor_init()
{
  if (_ref_processor == NULL) {
    // Allocate and initialize a reference processor
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    _ref_processor =
      new ReferenceProcessor(_reserved,                  // span
                             ParallelRefProcEnabled && (ParallelGCThreads > 1), // mt processing
                             (int) ParallelGCThreads,    // mt processing degree
                             refs_discovery_is_mt(),     // mt discovery
                             (int) ParallelGCThreads,    // mt discovery degree
                             refs_discovery_is_atomic(), // atomic_discovery
                             NULL,                       // is_alive_non_header
                             false);                     // write barrier for next field updates
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  }
}

const char* ParNewGeneration::name() const {
  return "par new generation";
}
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bool ParNewGeneration::in_use() {
  return UseParNewGC && ParallelGCThreads > 0;
}