PRAGMA_FORMAT_MUTE_WARNINGS_FOR_GCC

void CardTableModRefBS::non_clean_card_iterate_parallel_work(Space* sp, MemRegion mr,
                                                             OopsInGenClosure* cl,
                                                             CardTableRS* ct,
                                                             int n_threads) {
  assert(n_threads > 0, "Error: expected n_threads > 0");
  assert((n_threads == 1 && ParallelGCThreads == 0) ||
         n_threads <= (int)ParallelGCThreads,
         "# worker threads != # requested!");
  assert(!Thread::current()->is_VM_thread() || (n_threads == 1), "There is only 1 VM thread");
  assert(UseDynamicNumberOfGCThreads ||
         !FLAG_IS_DEFAULT(ParallelGCThreads) ||
         n_threads == (int)ParallelGCThreads,
         "# worker threads != # requested!");
  // Make sure the LNC array is valid for the space.
  jbyte**   lowest_non_clean;
  uintptr_t lowest_non_clean_base_chunk_index;
  size_t    lowest_non_clean_chunk_size;
  get_LNC_array_for_space(sp, lowest_non_clean,
                          lowest_non_clean_base_chunk_index,
                          lowest_non_clean_chunk_size);

  uint n_strides = n_threads * ParGCStridesPerThread;
  SequentialSubTasksDone* pst = sp->par_seq_tasks();
  // Sets the condition for completion of the subtask (how many threads
  // need to finish in order to be done).
  pst->set_n_threads(n_threads);
  pst->set_n_tasks(n_strides);

  uint stride = 0;
  while (!pst->is_task_claimed(/* reference */ stride)) {
    process_stride(sp, mr, stride, n_strides, cl, ct,
                   lowest_non_clean,
                   lowest_non_clean_base_chunk_index,
                   lowest_non_clean_chunk_size);
  }
  if (pst->all_tasks_completed()) {
    // Clear lowest_non_clean array for next time.
    intptr_t first_chunk_index = addr_to_chunk_index(mr.start());
    uintptr_t last_chunk_index  = addr_to_chunk_index(mr.last());
    for (uintptr_t ch = first_chunk_index; ch <= last_chunk_index; ch++) {
      intptr_t ind = ch - lowest_non_clean_base_chunk_index;
      assert(0 <= ind && ind < (intptr_t)lowest_non_clean_chunk_size,
             "Bounds error");
      lowest_non_clean[ind] = NULL;
    }
  }
}
void CardTableModRefBSForCTRS::
non_clean_card_iterate_parallel_work(Space* sp, MemRegion mr,
                                     OopsInGenClosure* cl,
                                     CardTableRS* ct,
                                     uint n_threads) {
  assert(n_threads > 0, "expected n_threads > 0");
  assert(n_threads <= ParallelGCThreads,
         err_msg("n_threads: %u > ParallelGCThreads: %u", n_threads, ParallelGCThreads));

  // Make sure the LNC array is valid for the space.
  jbyte**   lowest_non_clean;
  uintptr_t lowest_non_clean_base_chunk_index;
  size_t    lowest_non_clean_chunk_size;
  get_LNC_array_for_space(sp, lowest_non_clean,
                          lowest_non_clean_base_chunk_index,
                          lowest_non_clean_chunk_size);

  uint n_strides = n_threads * ParGCStridesPerThread;
  SequentialSubTasksDone* pst = sp->par_seq_tasks();
  // Sets the condition for completion of the subtask (how many threads
  // need to finish in order to be done).
  pst->set_n_threads(n_threads);
  pst->set_n_tasks(n_strides);

  uint stride = 0;
  while (!pst->is_task_claimed(/* reference */ stride)) {
    process_stride(sp, mr, stride, n_strides,
                   cl, ct,
                   lowest_non_clean,
                   lowest_non_clean_base_chunk_index,
                   lowest_non_clean_chunk_size);
  }
  if (pst->all_tasks_completed()) {
    // Clear lowest_non_clean array for next time.
    intptr_t first_chunk_index = addr_to_chunk_index(mr.start());
    uintptr_t last_chunk_index  = addr_to_chunk_index(mr.last());
    for (uintptr_t ch = first_chunk_index; ch <= last_chunk_index; ch++) {
      intptr_t ind = ch - lowest_non_clean_base_chunk_index;
      assert(0 <= ind && ind < (intptr_t)lowest_non_clean_chunk_size,
             "Bounds error");
      lowest_non_clean[ind] = NULL;
    }
  }
}
Exemple #3
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void CardTableModRefBS::par_non_clean_card_iterate_work(Space* sp, MemRegion mr,
                                                        DirtyCardToOopClosure* dcto_cl,
                                                        MemRegionClosure* cl,
                                                        bool clear,
                                                        int n_threads) {
  if (n_threads > 0) {
    assert((n_threads == 1 && ParallelGCThreads == 0) ||
           n_threads <= (int)ParallelGCThreads,
           "# worker threads != # requested!");
    // Make sure the LNC array is valid for the space.
    jbyte**   lowest_non_clean;
    uintptr_t lowest_non_clean_base_chunk_index;
    size_t    lowest_non_clean_chunk_size;
    get_LNC_array_for_space(sp, lowest_non_clean,
                            lowest_non_clean_base_chunk_index,
                            lowest_non_clean_chunk_size);

    int n_strides = n_threads * StridesPerThread;
    SequentialSubTasksDone* pst = sp->par_seq_tasks();
    pst->set_par_threads(n_threads);
    pst->set_n_tasks(n_strides);

    int stride = 0;
    while (!pst->is_task_claimed(/* reference */ stride)) {
      process_stride(sp, mr, stride, n_strides, dcto_cl, cl, clear,
                     lowest_non_clean,
                     lowest_non_clean_base_chunk_index,
                     lowest_non_clean_chunk_size);
    }
    if (pst->all_tasks_completed()) {
      // Clear lowest_non_clean array for next time.
      intptr_t first_chunk_index = addr_to_chunk_index(mr.start());
      uintptr_t last_chunk_index  = addr_to_chunk_index(mr.last());
      for (uintptr_t ch = first_chunk_index; ch <= last_chunk_index; ch++) {
        intptr_t ind = ch - lowest_non_clean_base_chunk_index;
        assert(0 <= ind && ind < (intptr_t)lowest_non_clean_chunk_size,
               "Bounds error");
        lowest_non_clean[ind] = NULL;
      }
    }
  }
}