7045330: G1: Simplify/fix the HeapRegionSeq class
7042285: G1: native memory leak during humongous object allocation
6804436: G1: heap region indices should be size_t
Summary: A series of fixes and improvements to the HeapRegionSeq class: a) replace the _regions growable array with a standard C array, b) avoid de-allocating / re-allocating HeapRegion instances when the heap shrinks / grows (fix for 7042285), c) introduce fast method to map address to HeapRegion via a "biased" array pointer, d) embed the _hrs object in G1CollectedHeap, instead of pointing to it via an indirection, e) assume that all the regions added to the HeapRegionSeq instance are contiguous, f) replace int's with size_t's for indexes (and expand that to HeapRegion as part of 6804436), g) remove unnecessary / unused methods, h) rename a couple of fields (_alloc_search_start and _seq_bottom), i) fix iterate_from() not to always start from index 0 irrespective of the region passed to it, j) add a verification method to check the HeapRegionSeq assumptions, k) always call the wrappers for _hrs.iterate(), _hrs_length(), and _hrs.at() from G1CollectedHeap, not those methods directly, and l) unify the code that expands the sequence (by either re-using or creating a new HeapRegion) and make it robust wrt to a HeapRegion allocation failing.
Reviewed-by: stefank, johnc, brutisso
--- a/hotspot/src/share/vm/gc_implementation/g1/g1CollectedHeap.cpp Wed Jun 08 21:48:38 2011 -0400
+++ b/hotspot/src/share/vm/gc_implementation/g1/g1CollectedHeap.cpp Fri Jun 10 13:16:40 2011 -0400
@@ -578,16 +578,16 @@
}
if (res == NULL && do_expand) {
if (expand(word_size * HeapWordSize)) {
- // The expansion succeeded and so we should have at least one
- // region on the free list.
- res = _free_list.remove_head();
+ // Even though the heap was expanded, it might not have reached
+ // the desired size. So, we cannot assume that the allocation
+ // will succeed.
+ res = _free_list.remove_head_or_null();
}
}
if (res != NULL) {
if (G1PrintHeapRegions) {
- gclog_or_tty->print_cr("new alloc region %d:["PTR_FORMAT","PTR_FORMAT"], "
- "top "PTR_FORMAT, res->hrs_index(),
- res->bottom(), res->end(), res->top());
+ gclog_or_tty->print_cr("new alloc region "HR_FORMAT,
+ HR_FORMAT_PARAMS(res));
}
}
return res;
@@ -608,12 +608,12 @@
return alloc_region;
}
-int G1CollectedHeap::humongous_obj_allocate_find_first(size_t num_regions,
- size_t word_size) {
+size_t G1CollectedHeap::humongous_obj_allocate_find_first(size_t num_regions,
+ size_t word_size) {
assert(isHumongous(word_size), "word_size should be humongous");
assert(num_regions * HeapRegion::GrainWords >= word_size, "pre-condition");
- int first = -1;
+ size_t first = G1_NULL_HRS_INDEX;
if (num_regions == 1) {
// Only one region to allocate, no need to go through the slower
// path. The caller will attempt the expasion if this fails, so
@@ -622,7 +622,7 @@
if (hr != NULL) {
first = hr->hrs_index();
} else {
- first = -1;
+ first = G1_NULL_HRS_INDEX;
}
} else {
// We can't allocate humongous regions while cleanupComplete() is
@@ -637,10 +637,10 @@
append_secondary_free_list_if_not_empty_with_lock();
if (free_regions() >= num_regions) {
- first = _hrs->find_contiguous(num_regions);
- if (first != -1) {
- for (int i = first; i < first + (int) num_regions; ++i) {
- HeapRegion* hr = _hrs->at(i);
+ first = _hrs.find_contiguous(num_regions);
+ if (first != G1_NULL_HRS_INDEX) {
+ for (size_t i = first; i < first + num_regions; ++i) {
+ HeapRegion* hr = region_at(i);
assert(hr->is_empty(), "sanity");
assert(is_on_master_free_list(hr), "sanity");
hr->set_pending_removal(true);
@@ -653,15 +653,15 @@
}
HeapWord*
-G1CollectedHeap::humongous_obj_allocate_initialize_regions(int first,
+G1CollectedHeap::humongous_obj_allocate_initialize_regions(size_t first,
size_t num_regions,
size_t word_size) {
- assert(first != -1, "pre-condition");
+ assert(first != G1_NULL_HRS_INDEX, "pre-condition");
assert(isHumongous(word_size), "word_size should be humongous");
assert(num_regions * HeapRegion::GrainWords >= word_size, "pre-condition");
// Index of last region in the series + 1.
- int last = first + (int) num_regions;
+ size_t last = first + num_regions;
// We need to initialize the region(s) we just discovered. This is
// a bit tricky given that it can happen concurrently with
@@ -676,7 +676,7 @@
assert(word_size <= word_size_sum, "sanity");
// This will be the "starts humongous" region.
- HeapRegion* first_hr = _hrs->at(first);
+ HeapRegion* first_hr = region_at(first);
// The header of the new object will be placed at the bottom of
// the first region.
HeapWord* new_obj = first_hr->bottom();
@@ -711,8 +711,8 @@
// Then, if there are any, we will set up the "continues
// humongous" regions.
HeapRegion* hr = NULL;
- for (int i = first + 1; i < last; ++i) {
- hr = _hrs->at(i);
+ for (size_t i = first + 1; i < last; ++i) {
+ hr = region_at(i);
hr->set_continuesHumongous(first_hr);
}
// If we have "continues humongous" regions (hr != NULL), then the
@@ -746,8 +746,8 @@
// last one) is actually used when we will free up the humongous
// region in free_humongous_region().
hr = NULL;
- for (int i = first + 1; i < last; ++i) {
- hr = _hrs->at(i);
+ for (size_t i = first + 1; i < last; ++i) {
+ hr = region_at(i);
if ((i + 1) == last) {
// last continues humongous region
assert(hr->bottom() < new_top && new_top <= hr->end(),
@@ -783,9 +783,9 @@
size_t num_regions =
round_to(word_size, HeapRegion::GrainWords) / HeapRegion::GrainWords;
size_t x_size = expansion_regions();
- size_t fs = _hrs->free_suffix();
- int first = humongous_obj_allocate_find_first(num_regions, word_size);
- if (first == -1) {
+ size_t fs = _hrs.free_suffix();
+ size_t first = humongous_obj_allocate_find_first(num_regions, word_size);
+ if (first == G1_NULL_HRS_INDEX) {
// The only thing we can do now is attempt expansion.
if (fs + x_size >= num_regions) {
// If the number of regions we're trying to allocate for this
@@ -799,16 +799,16 @@
assert(num_regions > fs, "earlier allocation should have succeeded");
if (expand((num_regions - fs) * HeapRegion::GrainBytes)) {
+ // Even though the heap was expanded, it might not have
+ // reached the desired size. So, we cannot assume that the
+ // allocation will succeed.
first = humongous_obj_allocate_find_first(num_regions, word_size);
- // If the expansion was successful then the allocation
- // should have been successful.
- assert(first != -1, "this should have worked");
}
}
}
HeapWord* result = NULL;
- if (first != -1) {
+ if (first != G1_NULL_HRS_INDEX) {
result =
humongous_obj_allocate_initialize_regions(first, num_regions, word_size);
assert(result != NULL, "it should always return a valid result");
@@ -1366,6 +1366,7 @@
// Update the number of full collections that have been completed.
increment_full_collections_completed(false /* concurrent */);
+ _hrs.verify_optional();
verify_region_sets_optional();
if (PrintHeapAtGC) {
@@ -1589,6 +1590,7 @@
size_t expand_bytes = MAX2(word_size * HeapWordSize, MinHeapDeltaBytes);
if (expand(expand_bytes)) {
+ _hrs.verify_optional();
verify_region_sets_optional();
return attempt_allocation_at_safepoint(word_size,
false /* expect_null_mutator_alloc_region */);
@@ -1596,6 +1598,19 @@
return NULL;
}
+void G1CollectedHeap::update_committed_space(HeapWord* old_end,
+ HeapWord* new_end) {
+ assert(old_end != new_end, "don't call this otherwise");
+ assert((HeapWord*) _g1_storage.high() == new_end, "invariant");
+
+ // Update the committed mem region.
+ _g1_committed.set_end(new_end);
+ // Tell the card table about the update.
+ Universe::heap()->barrier_set()->resize_covered_region(_g1_committed);
+ // Tell the BOT about the update.
+ _bot_shared->resize(_g1_committed.word_size());
+}
+
bool G1CollectedHeap::expand(size_t expand_bytes) {
size_t old_mem_size = _g1_storage.committed_size();
size_t aligned_expand_bytes = ReservedSpace::page_align_size_up(expand_bytes);
@@ -1607,47 +1622,37 @@
old_mem_size/K, aligned_expand_bytes/K);
}
- HeapWord* old_end = (HeapWord*)_g1_storage.high();
+ // First commit the memory.
+ HeapWord* old_end = (HeapWord*) _g1_storage.high();
bool successful = _g1_storage.expand_by(aligned_expand_bytes);
if (successful) {
- HeapWord* new_end = (HeapWord*)_g1_storage.high();
-
- // Expand the committed region.
- _g1_committed.set_end(new_end);
-
- // Tell the cardtable about the expansion.
- Universe::heap()->barrier_set()->resize_covered_region(_g1_committed);
-
- // And the offset table as well.
- _bot_shared->resize(_g1_committed.word_size());
-
- expand_bytes = aligned_expand_bytes;
- HeapWord* base = old_end;
-
- // Create the heap regions for [old_end, new_end)
- while (expand_bytes > 0) {
- HeapWord* high = base + HeapRegion::GrainWords;
-
- // Create a new HeapRegion.
- MemRegion mr(base, high);
- bool is_zeroed = !_g1_max_committed.contains(base);
- HeapRegion* hr = new HeapRegion(_bot_shared, mr, is_zeroed);
-
- // Add it to the HeapRegionSeq.
- _hrs->insert(hr);
- _free_list.add_as_tail(hr);
-
- // And we used up an expansion region to create it.
- _expansion_regions--;
-
- expand_bytes -= HeapRegion::GrainBytes;
- base += HeapRegion::GrainWords;
+ // Then propagate this update to the necessary data structures.
+ HeapWord* new_end = (HeapWord*) _g1_storage.high();
+ update_committed_space(old_end, new_end);
+
+ FreeRegionList expansion_list("Local Expansion List");
+ MemRegion mr = _hrs.expand_by(old_end, new_end, &expansion_list);
+ assert(mr.start() == old_end, "post-condition");
+ // mr might be a smaller region than what was requested if
+ // expand_by() was unable to allocate the HeapRegion instances
+ assert(mr.end() <= new_end, "post-condition");
+
+ size_t actual_expand_bytes = mr.byte_size();
+ assert(actual_expand_bytes <= aligned_expand_bytes, "post-condition");
+ assert(actual_expand_bytes == expansion_list.total_capacity_bytes(),
+ "post-condition");
+ if (actual_expand_bytes < aligned_expand_bytes) {
+ // We could not expand _hrs to the desired size. In this case we
+ // need to shrink the committed space accordingly.
+ assert(mr.end() < new_end, "invariant");
+
+ size_t diff_bytes = aligned_expand_bytes - actual_expand_bytes;
+ // First uncommit the memory.
+ _g1_storage.shrink_by(diff_bytes);
+ // Then propagate this update to the necessary data structures.
+ update_committed_space(new_end, mr.end());
}
- assert(base == new_end, "sanity");
-
- // Now update max_committed if necessary.
- _g1_max_committed.set_end(MAX2(_g1_max_committed.end(), new_end));
-
+ _free_list.add_as_tail(&expansion_list);
} else {
// The expansion of the virtual storage space was unsuccessful.
// Let's see if it was because we ran out of swap.
@@ -1667,37 +1672,31 @@
return successful;
}
-void G1CollectedHeap::shrink_helper(size_t shrink_bytes)
-{
+void G1CollectedHeap::shrink_helper(size_t shrink_bytes) {
size_t old_mem_size = _g1_storage.committed_size();
size_t aligned_shrink_bytes =
ReservedSpace::page_align_size_down(shrink_bytes);
aligned_shrink_bytes = align_size_down(aligned_shrink_bytes,
HeapRegion::GrainBytes);
size_t num_regions_deleted = 0;
- MemRegion mr = _hrs->shrink_by(aligned_shrink_bytes, num_regions_deleted);
-
- assert(mr.end() == (HeapWord*)_g1_storage.high(), "Bad shrink!");
- if (mr.byte_size() > 0)
+ MemRegion mr = _hrs.shrink_by(aligned_shrink_bytes, &num_regions_deleted);
+ HeapWord* old_end = (HeapWord*) _g1_storage.high();
+ assert(mr.end() == old_end, "post-condition");
+ if (mr.byte_size() > 0) {
_g1_storage.shrink_by(mr.byte_size());
- assert(mr.start() == (HeapWord*)_g1_storage.high(), "Bad shrink!");
-
- _g1_committed.set_end(mr.start());
- _expansion_regions += num_regions_deleted;
-
- // Tell the cardtable about it.
- Universe::heap()->barrier_set()->resize_covered_region(_g1_committed);
-
- // And the offset table as well.
- _bot_shared->resize(_g1_committed.word_size());
-
- HeapRegionRemSet::shrink_heap(n_regions());
-
- if (Verbose && PrintGC) {
- size_t new_mem_size = _g1_storage.committed_size();
- gclog_or_tty->print_cr("Shrinking garbage-first heap from %ldK by %ldK to %ldK",
- old_mem_size/K, aligned_shrink_bytes/K,
- new_mem_size/K);
+ HeapWord* new_end = (HeapWord*) _g1_storage.high();
+ assert(mr.start() == new_end, "post-condition");
+
+ _expansion_regions += num_regions_deleted;
+ update_committed_space(old_end, new_end);
+ HeapRegionRemSet::shrink_heap(n_regions());
+
+ if (Verbose && PrintGC) {
+ size_t new_mem_size = _g1_storage.committed_size();
+ gclog_or_tty->print_cr("Shrinking garbage-first heap from %ldK by %ldK to %ldK",
+ old_mem_size/K, aligned_shrink_bytes/K,
+ new_mem_size/K);
+ }
}
}
@@ -1712,6 +1711,7 @@
shrink_helper(shrink_bytes);
rebuild_region_lists();
+ _hrs.verify_optional();
verify_region_sets_optional();
}
@@ -1890,9 +1890,9 @@
_g1_storage.initialize(g1_rs, 0);
_g1_committed = MemRegion((HeapWord*)_g1_storage.low(), (size_t) 0);
- _g1_max_committed = _g1_committed;
- _hrs = new HeapRegionSeq(_expansion_regions);
- guarantee(_hrs != NULL, "Couldn't allocate HeapRegionSeq");
+ _hrs.initialize((HeapWord*) _g1_reserved.start(),
+ (HeapWord*) _g1_reserved.end(),
+ _expansion_regions);
// 6843694 - ensure that the maximum region index can fit
// in the remembered set structures.
@@ -1991,8 +1991,9 @@
// Here we allocate the dummy full region that is required by the
// G1AllocRegion class. If we don't pass an address in the reserved
// space here, lots of asserts fire.
- MemRegion mr(_g1_reserved.start(), HeapRegion::GrainWords);
- HeapRegion* dummy_region = new HeapRegion(_bot_shared, mr, true);
+
+ HeapRegion* dummy_region = new_heap_region(0 /* index of bottom region */,
+ _g1_reserved.start());
// We'll re-use the same region whether the alloc region will
// require BOT updates or not and, if it doesn't, then a non-young
// region will complain that it cannot support allocations without
@@ -2100,7 +2101,7 @@
size_t G1CollectedHeap::recalculate_used() const {
SumUsedClosure blk;
- _hrs->iterate(&blk);
+ heap_region_iterate(&blk);
return blk.result();
}
@@ -2120,7 +2121,7 @@
size_t G1CollectedHeap::recalculate_used_regions() const {
SumUsedRegionsClosure blk;
- _hrs->iterate(&blk);
+ heap_region_iterate(&blk);
return blk.result();
}
#endif // PRODUCT
@@ -2285,8 +2286,8 @@
}
bool G1CollectedHeap::is_in(const void* p) const {
- if (_g1_committed.contains(p)) {
- HeapRegion* hr = _hrs->addr_to_region(p);
+ HeapRegion* hr = _hrs.addr_to_region((HeapWord*) p);
+ if (hr != NULL) {
return hr->is_in(p);
} else {
return _perm_gen->as_gen()->is_in(p);
@@ -2314,7 +2315,7 @@
void G1CollectedHeap::oop_iterate(OopClosure* cl, bool do_perm) {
IterateOopClosureRegionClosure blk(_g1_committed, cl);
- _hrs->iterate(&blk);
+ heap_region_iterate(&blk);
if (do_perm) {
perm_gen()->oop_iterate(cl);
}
@@ -2322,7 +2323,7 @@
void G1CollectedHeap::oop_iterate(MemRegion mr, OopClosure* cl, bool do_perm) {
IterateOopClosureRegionClosure blk(mr, cl);
- _hrs->iterate(&blk);
+ heap_region_iterate(&blk);
if (do_perm) {
perm_gen()->oop_iterate(cl);
}
@@ -2344,7 +2345,7 @@
void G1CollectedHeap::object_iterate(ObjectClosure* cl, bool do_perm) {
IterateObjectClosureRegionClosure blk(cl);
- _hrs->iterate(&blk);
+ heap_region_iterate(&blk);
if (do_perm) {
perm_gen()->object_iterate(cl);
}
@@ -2369,26 +2370,19 @@
void G1CollectedHeap::space_iterate(SpaceClosure* cl) {
SpaceClosureRegionClosure blk(cl);
- _hrs->iterate(&blk);
+ heap_region_iterate(&blk);
}
-void G1CollectedHeap::heap_region_iterate(HeapRegionClosure* cl) {
- _hrs->iterate(cl);
+void G1CollectedHeap::heap_region_iterate(HeapRegionClosure* cl) const {
+ _hrs.iterate(cl);
}
void G1CollectedHeap::heap_region_iterate_from(HeapRegion* r,
- HeapRegionClosure* cl) {
- _hrs->iterate_from(r, cl);
+ HeapRegionClosure* cl) const {
+ _hrs.iterate_from(r, cl);
}
void
-G1CollectedHeap::heap_region_iterate_from(int idx, HeapRegionClosure* cl) {
- _hrs->iterate_from(idx, cl);
-}
-
-HeapRegion* G1CollectedHeap::region_at(size_t idx) { return _hrs->at(idx); }
-
-void
G1CollectedHeap::heap_region_par_iterate_chunked(HeapRegionClosure* cl,
int worker,
jint claim_value) {
@@ -2568,7 +2562,7 @@
}
CompactibleSpace* G1CollectedHeap::first_compactible_space() {
- return _hrs->length() > 0 ? _hrs->at(0) : NULL;
+ return n_regions() > 0 ? region_at(0) : NULL;
}
@@ -2881,7 +2875,7 @@
"sanity check");
} else {
VerifyRegionClosure blk(allow_dirty, false, use_prev_marking);
- _hrs->iterate(&blk);
+ heap_region_iterate(&blk);
if (blk.failures()) {
failures = true;
}
@@ -2950,7 +2944,7 @@
void G1CollectedHeap::print_on_extended(outputStream* st) const {
PrintRegionClosure blk(st);
- _hrs->iterate(&blk);
+ heap_region_iterate(&blk);
}
void G1CollectedHeap::print_gc_threads_on(outputStream* st) const {
@@ -2989,15 +2983,6 @@
SpecializationStats::print();
}
-int G1CollectedHeap::addr_to_arena_id(void* addr) const {
- HeapRegion* hr = heap_region_containing(addr);
- if (hr == NULL) {
- return 0;
- } else {
- return 1;
- }
-}
-
G1CollectedHeap* G1CollectedHeap::heap() {
assert(_sh->kind() == CollectedHeap::G1CollectedHeap,
"not a garbage-first heap");
@@ -3477,6 +3462,7 @@
}
}
+ _hrs.verify_optional();
verify_region_sets_optional();
TASKQUEUE_STATS_ONLY(if (ParallelGCVerbose) print_taskqueue_stats());
@@ -3609,8 +3595,8 @@
public:
bool doHeapRegion(HeapRegion* r) {
if (r->is_gc_alloc_region()) {
- gclog_or_tty->print_cr("Region %d ["PTR_FORMAT"...] is still a gc_alloc_region.",
- r->hrs_index(), r->bottom());
+ gclog_or_tty->print_cr("Region "HR_FORMAT" is still a GC alloc region",
+ HR_FORMAT_PARAMS(r));
}
return false;
}
@@ -3695,9 +3681,8 @@
// the region was retained from the last collection
++_gc_alloc_region_counts[ap];
if (G1PrintHeapRegions) {
- gclog_or_tty->print_cr("new alloc region %d:["PTR_FORMAT", "PTR_FORMAT"], "
- "top "PTR_FORMAT,
- alloc_region->hrs_index(), alloc_region->bottom(), alloc_region->end(), alloc_region->top());
+ gclog_or_tty->print_cr("new alloc region "HR_FORMAT,
+ HR_FORMAT_PARAMS(alloc_region));
}
}
@@ -4908,10 +4893,10 @@
hr->set_notHumongous();
free_region(hr, &hr_pre_used, free_list, par);
- int i = hr->hrs_index() + 1;
+ size_t i = hr->hrs_index() + 1;
size_t num = 1;
- while ((size_t) i < n_regions()) {
- HeapRegion* curr_hr = _hrs->at(i);
+ while (i < n_regions()) {
+ HeapRegion* curr_hr = region_at(i);
if (!curr_hr->continuesHumongous()) {
break;
}
@@ -5271,16 +5256,6 @@
}
}
-size_t G1CollectedHeap::n_regions() {
- return _hrs->length();
-}
-
-size_t G1CollectedHeap::max_regions() {
- return
- (size_t)align_size_up(max_capacity(), HeapRegion::GrainBytes) /
- HeapRegion::GrainBytes;
-}
-
void G1CollectedHeap::set_region_short_lived_locked(HeapRegion* hr) {
assert(heap_lock_held_for_gc(),
"the heap lock should already be held by or for this thread");
@@ -5477,6 +5452,15 @@
}
};
+HeapRegion* G1CollectedHeap::new_heap_region(size_t hrs_index,
+ HeapWord* bottom) {
+ HeapWord* end = bottom + HeapRegion::GrainWords;
+ MemRegion mr(bottom, end);
+ assert(_g1_reserved.contains(mr), "invariant");
+ // This might return NULL if the allocation fails
+ return new HeapRegion(hrs_index, _bot_shared, mr, true /* is_zeroed */);
+}
+
void G1CollectedHeap::verify_region_sets() {
assert_heap_locked_or_at_safepoint(true /* should_be_vm_thread */);
--- a/hotspot/src/share/vm/gc_implementation/g1/g1CollectedHeap.hpp Wed Jun 08 21:48:38 2011 -0400
+++ b/hotspot/src/share/vm/gc_implementation/g1/g1CollectedHeap.hpp Fri Jun 10 13:16:40 2011 -0400
@@ -29,6 +29,7 @@
#include "gc_implementation/g1/g1AllocRegion.hpp"
#include "gc_implementation/g1/g1RemSet.hpp"
#include "gc_implementation/g1/g1MonitoringSupport.hpp"
+#include "gc_implementation/g1/heapRegionSeq.hpp"
#include "gc_implementation/g1/heapRegionSets.hpp"
#include "gc_implementation/shared/hSpaceCounters.hpp"
#include "gc_implementation/parNew/parGCAllocBuffer.hpp"
@@ -42,7 +43,6 @@
// heap subsets that will yield large amounts of garbage.
class HeapRegion;
-class HeapRegionSeq;
class HRRSCleanupTask;
class PermanentGenerationSpec;
class GenerationSpec;
@@ -196,9 +196,6 @@
// The part of _g1_storage that is currently committed.
MemRegion _g1_committed;
- // The maximum part of _g1_storage that has ever been committed.
- MemRegion _g1_max_committed;
-
// The master free list. It will satisfy all new region allocations.
MasterFreeRegionList _free_list;
@@ -222,7 +219,7 @@
void rebuild_region_lists();
// The sequence of all heap regions in the heap.
- HeapRegionSeq* _hrs;
+ HeapRegionSeq _hrs;
// Alloc region used to satisfy mutator allocation requests.
MutatorAllocRegion _mutator_alloc_region;
@@ -421,13 +418,15 @@
// Attempt to satisfy a humongous allocation request of the given
// size by finding a contiguous set of free regions of num_regions
// length and remove them from the master free list. Return the
- // index of the first region or -1 if the search was unsuccessful.
- int humongous_obj_allocate_find_first(size_t num_regions, size_t word_size);
+ // index of the first region or G1_NULL_HRS_INDEX if the search
+ // was unsuccessful.
+ size_t humongous_obj_allocate_find_first(size_t num_regions,
+ size_t word_size);
// Initialize a contiguous set of free regions of length num_regions
// and starting at index first so that they appear as a single
// humongous region.
- HeapWord* humongous_obj_allocate_initialize_regions(int first,
+ HeapWord* humongous_obj_allocate_initialize_regions(size_t first,
size_t num_regions,
size_t word_size);
@@ -587,8 +586,8 @@
void register_region_with_in_cset_fast_test(HeapRegion* r) {
assert(_in_cset_fast_test_base != NULL, "sanity");
assert(r->in_collection_set(), "invariant");
- int index = r->hrs_index();
- assert(0 <= index && (size_t) index < _in_cset_fast_test_length, "invariant");
+ size_t index = r->hrs_index();
+ assert(index < _in_cset_fast_test_length, "invariant");
assert(!_in_cset_fast_test_base[index], "invariant");
_in_cset_fast_test_base[index] = true;
}
@@ -754,6 +753,11 @@
HumongousRegionSet* humongous_proxy_set,
bool par);
+ // Notifies all the necessary spaces that the committed space has
+ // been updated (either expanded or shrunk). It should be called
+ // after _g1_storage is updated.
+ void update_committed_space(HeapWord* old_end, HeapWord* new_end);
+
// The concurrent marker (and the thread it runs in.)
ConcurrentMark* _cm;
ConcurrentMarkThread* _cmThread;
@@ -816,7 +820,6 @@
oop handle_evacuation_failure_par(OopsInHeapRegionClosure* cl, oop obj);
void handle_evacuation_failure_common(oop obj, markOop m);
-
// Ensure that the relevant gc_alloc regions are set.
void get_gc_alloc_regions();
// We're done with GC alloc regions. We are going to tear down the
@@ -967,15 +970,13 @@
}
// The total number of regions in the heap.
- size_t n_regions();
+ size_t n_regions() { return _hrs.length(); }
+
+ // The max number of regions in the heap.
+ size_t max_regions() { return _hrs.max_length(); }
// The number of regions that are completely free.
- size_t max_regions();
-
- // The number of regions that are completely free.
- size_t free_regions() {
- return _free_list.length();
- }
+ size_t free_regions() { return _free_list.length(); }
// The number of regions that are not completely free.
size_t used_regions() { return n_regions() - free_regions(); }
@@ -983,6 +984,10 @@
// The number of regions available for "regular" expansion.
size_t expansion_regions() { return _expansion_regions; }
+ // Factory method for HeapRegion instances. It will return NULL if
+ // the allocation fails.
+ HeapRegion* new_heap_region(size_t hrs_index, HeapWord* bottom);
+
void verify_not_dirty_region(HeapRegion* hr) PRODUCT_RETURN;
void verify_dirty_region(HeapRegion* hr) PRODUCT_RETURN;
void verify_dirty_young_list(HeapRegion* head) PRODUCT_RETURN;
@@ -1144,17 +1149,15 @@
// Iterate over heap regions, in address order, terminating the
// iteration early if the "doHeapRegion" method returns "true".
- void heap_region_iterate(HeapRegionClosure* blk);
+ void heap_region_iterate(HeapRegionClosure* blk) const;
// Iterate over heap regions starting with r (or the first region if "r"
// is NULL), in address order, terminating early if the "doHeapRegion"
// method returns "true".
- void heap_region_iterate_from(HeapRegion* r, HeapRegionClosure* blk);
+ void heap_region_iterate_from(HeapRegion* r, HeapRegionClosure* blk) const;
- // As above but starting from the region at index idx.
- void heap_region_iterate_from(int idx, HeapRegionClosure* blk);
-
- HeapRegion* region_at(size_t idx);
+ // Return the region with the given index. It assumes the index is valid.
+ HeapRegion* region_at(size_t index) const { return _hrs.at(index); }
// Divide the heap region sequence into "chunks" of some size (the number
// of regions divided by the number of parallel threads times some
@@ -1195,12 +1198,14 @@
// A G1CollectedHeap will contain some number of heap regions. This
// finds the region containing a given address, or else returns NULL.
- HeapRegion* heap_region_containing(const void* addr) const;
+ template <class T>
+ inline HeapRegion* heap_region_containing(const T addr) const;
// Like the above, but requires "addr" to be in the heap (to avoid a
// null-check), and unlike the above, may return an continuing humongous
// region.
- HeapRegion* heap_region_containing_raw(const void* addr) const;
+ template <class T>
+ inline HeapRegion* heap_region_containing_raw(const T addr) const;
// A CollectedHeap is divided into a dense sequence of "blocks"; that is,
// each address in the (reserved) heap is a member of exactly
@@ -1262,7 +1267,7 @@
return true;
}
- bool is_in_young(oop obj) {
+ bool is_in_young(const oop obj) {
HeapRegion* hr = heap_region_containing(obj);
return hr != NULL && hr->is_young();
}
@@ -1368,11 +1373,6 @@
// Override
void print_tracing_info() const;
- // If "addr" is a pointer into the (reserved?) heap, returns a positive
- // number indicating the "arena" within the heap in which "addr" falls.
- // Or else returns 0.
- virtual int addr_to_arena_id(void* addr) const;
-
// Convenience function to be used in situations where the heap type can be
// asserted to be this type.
static G1CollectedHeap* heap();
--- a/hotspot/src/share/vm/gc_implementation/g1/g1CollectedHeap.inline.hpp Wed Jun 08 21:48:38 2011 -0400
+++ b/hotspot/src/share/vm/gc_implementation/g1/g1CollectedHeap.inline.hpp Fri Jun 10 13:16:40 2011 -0400
@@ -34,9 +34,10 @@
// Inline functions for G1CollectedHeap
+template <class T>
inline HeapRegion*
-G1CollectedHeap::heap_region_containing(const void* addr) const {
- HeapRegion* hr = _hrs->addr_to_region(addr);
+G1CollectedHeap::heap_region_containing(const T addr) const {
+ HeapRegion* hr = _hrs.addr_to_region((HeapWord*) addr);
// hr can be null if addr in perm_gen
if (hr != NULL && hr->continuesHumongous()) {
hr = hr->humongous_start_region();
@@ -44,19 +45,16 @@
return hr;
}
+template <class T>
inline HeapRegion*
-G1CollectedHeap::heap_region_containing_raw(const void* addr) const {
- assert(_g1_reserved.contains(addr), "invariant");
- size_t index = pointer_delta(addr, _g1_reserved.start(), 1)
- >> HeapRegion::LogOfHRGrainBytes;
-
- HeapRegion* res = _hrs->at(index);
- assert(res == _hrs->addr_to_region(addr), "sanity");
+G1CollectedHeap::heap_region_containing_raw(const T addr) const {
+ assert(_g1_reserved.contains((const void*) addr), "invariant");
+ HeapRegion* res = _hrs.addr_to_region_unsafe((HeapWord*) addr);
return res;
}
inline bool G1CollectedHeap::obj_in_cs(oop obj) {
- HeapRegion* r = _hrs->addr_to_region(obj);
+ HeapRegion* r = _hrs.addr_to_region((HeapWord*) obj);
return r != NULL && r->in_collection_set();
}
--- a/hotspot/src/share/vm/gc_implementation/g1/g1CollectorPolicy.cpp Wed Jun 08 21:48:38 2011 -0400
+++ b/hotspot/src/share/vm/gc_implementation/g1/g1CollectorPolicy.cpp Fri Jun 10 13:16:40 2011 -0400
@@ -2639,11 +2639,8 @@
assert(!hr->is_young(), "non-incremental add of young region");
if (G1PrintHeapRegions) {
- gclog_or_tty->print_cr("added region to cset "
- "%d:["PTR_FORMAT", "PTR_FORMAT"], "
- "top "PTR_FORMAT", %s",
- hr->hrs_index(), hr->bottom(), hr->end(),
- hr->top(), hr->is_young() ? "YOUNG" : "NOT_YOUNG");
+ gclog_or_tty->print_cr("added region to cset "HR_FORMAT,
+ HR_FORMAT_PARAMS(hr));
}
if (_g1->mark_in_progress())
@@ -2813,11 +2810,8 @@
_inc_cset_tail = hr;
if (G1PrintHeapRegions) {
- gclog_or_tty->print_cr(" added region to incremental cset (RHS) "
- "%d:["PTR_FORMAT", "PTR_FORMAT"], "
- "top "PTR_FORMAT", young %s",
- hr->hrs_index(), hr->bottom(), hr->end(),
- hr->top(), (hr->is_young()) ? "YES" : "NO");
+ gclog_or_tty->print_cr(" added region to incremental cset (RHS) "HR_FORMAT,
+ HR_FORMAT_PARAMS(hr));
}
}
@@ -2838,11 +2832,8 @@
_inc_cset_head = hr;
if (G1PrintHeapRegions) {
- gclog_or_tty->print_cr(" added region to incremental cset (LHS) "
- "%d:["PTR_FORMAT", "PTR_FORMAT"], "
- "top "PTR_FORMAT", young %s",
- hr->hrs_index(), hr->bottom(), hr->end(),
- hr->top(), (hr->is_young()) ? "YES" : "NO");
+ gclog_or_tty->print_cr(" added region to incremental cset (LHS) "HR_FORMAT,
+ HR_FORMAT_PARAMS(hr));
}
}
--- a/hotspot/src/share/vm/gc_implementation/g1/heapRegion.cpp Wed Jun 08 21:48:38 2011 -0400
+++ b/hotspot/src/share/vm/gc_implementation/g1/heapRegion.cpp Fri Jun 10 13:16:40 2011 -0400
@@ -159,20 +159,16 @@
gclog_or_tty->print_cr("----------");
}
gclog_or_tty->print_cr("Missing rem set entry:");
- gclog_or_tty->print_cr("Field "PTR_FORMAT
- " of obj "PTR_FORMAT
- ", in region %d ["PTR_FORMAT
- ", "PTR_FORMAT"),",
- p, (void*) _containing_obj,
- from->hrs_index(),
- from->bottom(),
- from->end());
+ gclog_or_tty->print_cr("Field "PTR_FORMAT" "
+ "of obj "PTR_FORMAT", "
+ "in region "HR_FORMAT,
+ p, (void*) _containing_obj,
+ HR_FORMAT_PARAMS(from));
_containing_obj->print_on(gclog_or_tty);
- gclog_or_tty->print_cr("points to obj "PTR_FORMAT
- " in region %d ["PTR_FORMAT
- ", "PTR_FORMAT").",
- (void*) obj, to->hrs_index(),
- to->bottom(), to->end());
+ gclog_or_tty->print_cr("points to obj "PTR_FORMAT" "
+ "in region "HR_FORMAT,
+ (void*) obj,
+ HR_FORMAT_PARAMS(to));
obj->print_on(gclog_or_tty);
gclog_or_tty->print_cr("Obj head CTE = %d, field CTE = %d.",
cv_obj, cv_field);
@@ -484,11 +480,10 @@
HeapRegion::
-HeapRegion(G1BlockOffsetSharedArray* sharedOffsetArray,
- MemRegion mr, bool is_zeroed)
+HeapRegion(size_t hrs_index, G1BlockOffsetSharedArray* sharedOffsetArray,
+ MemRegion mr, bool is_zeroed)
: G1OffsetTableContigSpace(sharedOffsetArray, mr, is_zeroed),
- _next_fk(HeapRegionDCTOC::NoFilterKind),
- _hrs_index(-1),
+ _next_fk(HeapRegionDCTOC::NoFilterKind), _hrs_index(hrs_index),
_humongous_type(NotHumongous), _humongous_start_region(NULL),
_in_collection_set(false), _is_gc_alloc_region(false),
_next_in_special_set(NULL), _orig_end(NULL),
--- a/hotspot/src/share/vm/gc_implementation/g1/heapRegion.hpp Wed Jun 08 21:48:38 2011 -0400
+++ b/hotspot/src/share/vm/gc_implementation/g1/heapRegion.hpp Fri Jun 10 13:16:40 2011 -0400
@@ -52,9 +52,11 @@
class HeapRegion;
class HeapRegionSetBase;
-#define HR_FORMAT "%d:["PTR_FORMAT","PTR_FORMAT","PTR_FORMAT"]"
-#define HR_FORMAT_PARAMS(_hr_) (_hr_)->hrs_index(), (_hr_)->bottom(), \
- (_hr_)->top(), (_hr_)->end()
+#define HR_FORMAT SIZE_FORMAT":(%s)["PTR_FORMAT","PTR_FORMAT","PTR_FORMAT"]"
+#define HR_FORMAT_PARAMS(_hr_) \
+ (_hr_)->hrs_index(), \
+ (_hr_)->is_survivor() ? "S" : (_hr_)->is_young() ? "E" : "-", \
+ (_hr_)->bottom(), (_hr_)->top(), (_hr_)->end()
// A dirty card to oop closure for heap regions. It
// knows how to get the G1 heap and how to use the bitmap
@@ -237,9 +239,8 @@
G1BlockOffsetArrayContigSpace* offsets() { return &_offsets; }
protected:
- // If this region is a member of a HeapRegionSeq, the index in that
- // sequence, otherwise -1.
- int _hrs_index;
+ // The index of this region in the heap region sequence.
+ size_t _hrs_index;
HumongousType _humongous_type;
// For a humongous region, region in which it starts.
@@ -296,8 +297,7 @@
enum YoungType {
NotYoung, // a region is not young
Young, // a region is young
- Survivor // a region is young and it contains
- // survivor
+ Survivor // a region is young and it contains survivors
};
volatile YoungType _young_type;
@@ -351,7 +351,8 @@
public:
// If "is_zeroed" is "true", the region "mr" can be assumed to contain zeros.
- HeapRegion(G1BlockOffsetSharedArray* sharedOffsetArray,
+ HeapRegion(size_t hrs_index,
+ G1BlockOffsetSharedArray* sharedOffsetArray,
MemRegion mr, bool is_zeroed);
static int LogOfHRGrainBytes;
@@ -393,8 +394,7 @@
// If this region is a member of a HeapRegionSeq, the index in that
// sequence, otherwise -1.
- int hrs_index() const { return _hrs_index; }
- void set_hrs_index(int index) { _hrs_index = index; }
+ size_t hrs_index() const { return _hrs_index; }
// The number of bytes marked live in the region in the last marking phase.
size_t marked_bytes() { return _prev_marked_bytes; }
@@ -579,6 +579,8 @@
void set_next_dirty_cards_region(HeapRegion* hr) { _next_dirty_cards_region = hr; }
bool is_on_dirty_cards_region_list() const { return get_next_dirty_cards_region() != NULL; }
+ HeapWord* orig_end() { return _orig_end; }
+
// Allows logical separation between objects allocated before and after.
void save_marks();
--- a/hotspot/src/share/vm/gc_implementation/g1/heapRegionRemSet.cpp Wed Jun 08 21:48:38 2011 -0400
+++ b/hotspot/src/share/vm/gc_implementation/g1/heapRegionRemSet.cpp Fri Jun 10 13:16:40 2011 -0400
@@ -834,7 +834,7 @@
#endif
// Set the corresponding coarse bit.
- int max_hrs_index = max->hr()->hrs_index();
+ size_t max_hrs_index = max->hr()->hrs_index();
if (!_coarse_map.at(max_hrs_index)) {
_coarse_map.at_put(max_hrs_index, true);
_n_coarse_entries++;
@@ -860,7 +860,8 @@
BitMap* region_bm, BitMap* card_bm) {
// First eliminated garbage regions from the coarse map.
if (G1RSScrubVerbose)
- gclog_or_tty->print_cr("Scrubbing region %d:", hr()->hrs_index());
+ gclog_or_tty->print_cr("Scrubbing region "SIZE_FORMAT":",
+ hr()->hrs_index());
assert(_coarse_map.size() == region_bm->size(), "Precondition");
if (G1RSScrubVerbose)
@@ -878,7 +879,8 @@
PosParPRT* nxt = cur->next();
// If the entire region is dead, eliminate.
if (G1RSScrubVerbose)
- gclog_or_tty->print_cr(" For other region %d:", cur->hr()->hrs_index());
+ gclog_or_tty->print_cr(" For other region "SIZE_FORMAT":",
+ cur->hr()->hrs_index());
if (!region_bm->at(cur->hr()->hrs_index())) {
*prev = nxt;
cur->set_next(NULL);
@@ -994,7 +996,7 @@
void OtherRegionsTable::clear_incoming_entry(HeapRegion* from_hr) {
MutexLockerEx x(&_m, Mutex::_no_safepoint_check_flag);
- size_t hrs_ind = (size_t)from_hr->hrs_index();
+ size_t hrs_ind = from_hr->hrs_index();
size_t ind = hrs_ind & _mod_max_fine_entries_mask;
if (del_single_region_table(ind, from_hr)) {
assert(!_coarse_map.at(hrs_ind), "Inv");
@@ -1002,7 +1004,7 @@
_coarse_map.par_at_put(hrs_ind, 0);
}
// Check to see if any of the fcc entries come from here.
- int hr_ind = hr()->hrs_index();
+ size_t hr_ind = hr()->hrs_index();
for (int tid = 0; tid < HeapRegionRemSet::num_par_rem_sets(); tid++) {
int fcc_ent = _from_card_cache[tid][hr_ind];
if (fcc_ent != -1) {
--- a/hotspot/src/share/vm/gc_implementation/g1/heapRegionSeq.cpp Wed Jun 08 21:48:38 2011 -0400
+++ b/hotspot/src/share/vm/gc_implementation/g1/heapRegionSeq.cpp Fri Jun 10 13:16:40 2011 -0400
@@ -23,259 +23,182 @@
*/
#include "precompiled.hpp"
+#include "gc_implementation/g1/heapRegion.hpp"
+#include "gc_implementation/g1/heapRegionSeq.inline.hpp"
+#include "gc_implementation/g1/heapRegionSets.hpp"
#include "gc_implementation/g1/g1CollectedHeap.inline.hpp"
-#include "gc_implementation/g1/heapRegionSeq.hpp"
#include "memory/allocation.hpp"
-// Local to this file.
-
-static int orderRegions(HeapRegion** hr1p, HeapRegion** hr2p) {
- if ((*hr1p)->end() <= (*hr2p)->bottom()) return -1;
- else if ((*hr2p)->end() <= (*hr1p)->bottom()) return 1;
- else if (*hr1p == *hr2p) return 0;
- else {
- assert(false, "We should never compare distinct overlapping regions.");
- }
- return 0;
-}
-
-HeapRegionSeq::HeapRegionSeq(const size_t max_size) :
- _alloc_search_start(0),
- // The line below is the worst bit of C++ hackery I've ever written
- // (Detlefs, 11/23). You should think of it as equivalent to
- // "_regions(100, true)": initialize the growable array and inform it
- // that it should allocate its elem array(s) on the C heap.
- //
- // The first argument, however, is actually a comma expression
- // (set_allocation_type(this, C_HEAP), 100). The purpose of the
- // set_allocation_type() call is to replace the default allocation
- // type for embedded objects STACK_OR_EMBEDDED with C_HEAP. It will
- // allow to pass the assert in GenericGrowableArray() which checks
- // that a growable array object must be on C heap if elements are.
- //
- // Note: containing object is allocated on C heap since it is CHeapObj.
- //
- _regions((ResourceObj::set_allocation_type((address)&_regions,
- ResourceObj::C_HEAP),
- (int)max_size),
- true),
- _next_rr_candidate(0),
- _seq_bottom(NULL)
-{}
-
-// Private methods.
+// Private
-void HeapRegionSeq::print_empty_runs() {
- int empty_run = 0;
- int n_empty = 0;
- int empty_run_start;
- for (int i = 0; i < _regions.length(); i++) {
- HeapRegion* r = _regions.at(i);
- if (r->continuesHumongous()) continue;
- if (r->is_empty()) {
- assert(!r->isHumongous(), "H regions should not be empty.");
- if (empty_run == 0) empty_run_start = i;
- empty_run++;
- n_empty++;
- } else {
- if (empty_run > 0) {
- gclog_or_tty->print(" %d:%d", empty_run_start, empty_run);
- empty_run = 0;
- }
- }
- }
- if (empty_run > 0) {
- gclog_or_tty->print(" %d:%d", empty_run_start, empty_run);
- }
- gclog_or_tty->print_cr(" [tot = %d]", n_empty);
-}
-
-int HeapRegionSeq::find(HeapRegion* hr) {
- // FIXME: optimized for adjacent regions of fixed size.
- int ind = hr->hrs_index();
- if (ind != -1) {
- assert(_regions.at(ind) == hr, "Mismatch");
- }
- return ind;
-}
-
-
-// Public methods.
+size_t HeapRegionSeq::find_contiguous_from(size_t from, size_t num) {
+ size_t len = length();
+ assert(num > 1, "use this only for sequences of length 2 or greater");
+ assert(from <= len,
+ err_msg("from: "SIZE_FORMAT" should be valid and <= than "SIZE_FORMAT,
+ from, len));
-void HeapRegionSeq::insert(HeapRegion* hr) {
- assert(!_regions.is_full(), "Too many elements in HeapRegionSeq");
- if (_regions.length() == 0
- || _regions.top()->end() <= hr->bottom()) {
- hr->set_hrs_index(_regions.length());
- _regions.append(hr);
- } else {
- _regions.append(hr);
- _regions.sort(orderRegions);
- for (int i = 0; i < _regions.length(); i++) {
- _regions.at(i)->set_hrs_index(i);
- }
- }
- char* bot = (char*)_regions.at(0)->bottom();
- if (_seq_bottom == NULL || bot < _seq_bottom) _seq_bottom = bot;
-}
-
-size_t HeapRegionSeq::length() {
- return _regions.length();
-}
-
-size_t HeapRegionSeq::free_suffix() {
- size_t res = 0;
- int first = _regions.length() - 1;
- int cur = first;
- while (cur >= 0 &&
- (_regions.at(cur)->is_empty()
- && (first == cur
- || (_regions.at(cur+1)->bottom() ==
- _regions.at(cur)->end())))) {
- res++;
- cur--;
- }
- return res;
-}
-
-int HeapRegionSeq::find_contiguous_from(int from, size_t num) {
- assert(num > 1, "pre-condition");
- assert(0 <= from && from <= _regions.length(),
- err_msg("from: %d should be valid and <= than %d",
- from, _regions.length()));
-
- int curr = from;
- int first = -1;
+ size_t curr = from;
+ size_t first = G1_NULL_HRS_INDEX;
size_t num_so_far = 0;
- while (curr < _regions.length() && num_so_far < num) {
- HeapRegion* curr_hr = _regions.at(curr);
- if (curr_hr->is_empty()) {
- if (first == -1) {
+ while (curr < len && num_so_far < num) {
+ if (at(curr)->is_empty()) {
+ if (first == G1_NULL_HRS_INDEX) {
first = curr;
num_so_far = 1;
} else {
num_so_far += 1;
}
} else {
- first = -1;
+ first = G1_NULL_HRS_INDEX;
num_so_far = 0;
}
curr += 1;
}
-
assert(num_so_far <= num, "post-condition");
if (num_so_far == num) {
// we found enough space for the humongous object
- assert(from <= first && first < _regions.length(), "post-condition");
- assert(first < curr && (curr - first) == (int) num, "post-condition");
- for (int i = first; i < first + (int) num; ++i) {
- assert(_regions.at(i)->is_empty(), "post-condition");
+ assert(from <= first && first < len, "post-condition");
+ assert(first < curr && (curr - first) == num, "post-condition");
+ for (size_t i = first; i < first + num; ++i) {
+ assert(at(i)->is_empty(), "post-condition");
}
return first;
} else {
// we failed to find enough space for the humongous object
- return -1;
+ return G1_NULL_HRS_INDEX;
}
}
-int HeapRegionSeq::find_contiguous(size_t num) {
- assert(num > 1, "otherwise we should not be calling this");
- assert(0 <= _alloc_search_start && _alloc_search_start <= _regions.length(),
- err_msg("_alloc_search_start: %d should be valid and <= than %d",
- _alloc_search_start, _regions.length()));
+// Public
+
+void HeapRegionSeq::initialize(HeapWord* bottom, HeapWord* end,
+ size_t max_length) {
+ assert((size_t) bottom % HeapRegion::GrainBytes == 0,
+ "bottom should be heap region aligned");
+ assert((size_t) end % HeapRegion::GrainBytes == 0,
+ "end should be heap region aligned");
+
+ _length = 0;
+ _heap_bottom = bottom;
+ _heap_end = end;
+ _region_shift = HeapRegion::LogOfHRGrainBytes;
+ _next_search_index = 0;
+ _allocated_length = 0;
+ _max_length = max_length;
+
+ _regions = NEW_C_HEAP_ARRAY(HeapRegion*, max_length);
+ memset(_regions, 0, max_length * sizeof(HeapRegion*));
+ _regions_biased = _regions - ((size_t) bottom >> _region_shift);
+
+ assert(&_regions[0] == &_regions_biased[addr_to_index_biased(bottom)],
+ "bottom should be included in the region with index 0");
+}
+
+MemRegion HeapRegionSeq::expand_by(HeapWord* old_end,
+ HeapWord* new_end,
+ FreeRegionList* list) {
+ assert(old_end < new_end, "don't call it otherwise");
+ G1CollectedHeap* g1h = G1CollectedHeap::heap();
+
+ HeapWord* next_bottom = old_end;
+ assert(_heap_bottom <= next_bottom, "invariant");
+ while (next_bottom < new_end) {
+ assert(next_bottom < _heap_end, "invariant");
+ size_t index = length();
- int start = _alloc_search_start;
- int res = find_contiguous_from(start, num);
- if (res == -1 && start != 0) {
- // Try starting from the beginning. If _alloc_search_start was 0,
- // no point in doing this again.
- res = find_contiguous_from(0, num);
+ assert(index < _max_length, "otherwise we cannot expand further");
+ if (index == 0) {
+ // We have not allocated any regions so far
+ assert(next_bottom == _heap_bottom, "invariant");
+ } else {
+ // next_bottom should match the end of the last/previous region
+ assert(next_bottom == at(index - 1)->end(), "invariant");
+ }
+
+ if (index == _allocated_length) {
+ // We have to allocate a new HeapRegion.
+ HeapRegion* new_hr = g1h->new_heap_region(index, next_bottom);
+ if (new_hr == NULL) {
+ // allocation failed, we bail out and return what we have done so far
+ return MemRegion(old_end, next_bottom);
+ }
+ assert(_regions[index] == NULL, "invariant");
+ _regions[index] = new_hr;
+ increment_length(&_allocated_length);
+ }
+ // Have to increment the length first, otherwise we will get an
+ // assert failure at(index) below.
+ increment_length(&_length);
+ HeapRegion* hr = at(index);
+ list->add_as_tail(hr);
+
+ next_bottom = hr->end();
}
- if (res != -1) {
- assert(0 <= res && res < _regions.length(),
- err_msg("res: %d should be valid", res));
- _alloc_search_start = res + (int) num;
- assert(0 < _alloc_search_start && _alloc_search_start <= _regions.length(),
- err_msg("_alloc_search_start: %d should be valid",
- _alloc_search_start));
+ assert(next_bottom == new_end, "post-condition");
+ return MemRegion(old_end, next_bottom);
+}
+
+size_t HeapRegionSeq::free_suffix() {
+ size_t res = 0;
+ size_t index = length();
+ while (index > 0) {
+ index -= 1;
+ if (!at(index)->is_empty()) {
+ break;
+ }
+ res += 1;
}
return res;
}
-void HeapRegionSeq::iterate(HeapRegionClosure* blk) {
- iterate_from((HeapRegion*)NULL, blk);
+size_t HeapRegionSeq::find_contiguous(size_t num) {
+ assert(num > 1, "use this only for sequences of length 2 or greater");
+ assert(_next_search_index <= length(),
+ err_msg("_next_search_indeex: "SIZE_FORMAT" "
+ "should be valid and <= than "SIZE_FORMAT,
+ _next_search_index, length()));
+
+ size_t start = _next_search_index;
+ size_t res = find_contiguous_from(start, num);
+ if (res == G1_NULL_HRS_INDEX && start > 0) {
+ // Try starting from the beginning. If _next_search_index was 0,
+ // no point in doing this again.
+ res = find_contiguous_from(0, num);
+ }
+ if (res != G1_NULL_HRS_INDEX) {
+ assert(res < length(),
+ err_msg("res: "SIZE_FORMAT" should be valid", res));
+ _next_search_index = res + num;
+ assert(_next_search_index <= length(),
+ err_msg("_next_search_indeex: "SIZE_FORMAT" "
+ "should be valid and <= than "SIZE_FORMAT,
+ _next_search_index, length()));
+ }
+ return res;
}
-// The first argument r is the heap region at which iteration begins.
-// This operation runs fastest when r is NULL, or the heap region for
-// which a HeapRegionClosure most recently returned true, or the
-// heap region immediately to its right in the sequence. In all
-// other cases a linear search is required to find the index of r.
-
-void HeapRegionSeq::iterate_from(HeapRegion* r, HeapRegionClosure* blk) {
-
- // :::: FIXME ::::
- // Static cache value is bad, especially when we start doing parallel
- // remembered set update. For now just don't cache anything (the
- // code in the def'd out blocks).
+void HeapRegionSeq::iterate(HeapRegionClosure* blk) const {
+ iterate_from((HeapRegion*) NULL, blk);
+}
-#if 0
- static int cached_j = 0;
-#endif
- int len = _regions.length();
- int j = 0;
- // Find the index of r.
- if (r != NULL) {
-#if 0
- assert(cached_j >= 0, "Invariant.");
- if ((cached_j < len) && (r == _regions.at(cached_j))) {
- j = cached_j;
- } else if ((cached_j + 1 < len) && (r == _regions.at(cached_j + 1))) {
- j = cached_j + 1;
- } else {
- j = find(r);
-#endif
- if (j < 0) {
- j = 0;
- }
-#if 0
- }
-#endif
+void HeapRegionSeq::iterate_from(HeapRegion* hr, HeapRegionClosure* blk) const {
+ size_t hr_index = 0;
+ if (hr != NULL) {
+ hr_index = (size_t) hr->hrs_index();
}
- int i;
- for (i = j; i < len; i += 1) {
- int res = blk->doHeapRegion(_regions.at(i));
+
+ size_t len = length();
+ for (size_t i = hr_index; i < len; i += 1) {
+ bool res = blk->doHeapRegion(at(i));
if (res) {
-#if 0
- cached_j = i;
-#endif
blk->incomplete();
return;
}
}
- for (i = 0; i < j; i += 1) {
- int res = blk->doHeapRegion(_regions.at(i));
+ for (size_t i = 0; i < hr_index; i += 1) {
+ bool res = blk->doHeapRegion(at(i));
if (res) {
-#if 0
- cached_j = i;
-#endif
- blk->incomplete();
- return;
- }
- }
-}
-
-void HeapRegionSeq::iterate_from(int idx, HeapRegionClosure* blk) {
- int len = _regions.length();
- int i;
- for (i = idx; i < len; i++) {
- if (blk->doHeapRegion(_regions.at(i))) {
- blk->incomplete();
- return;
- }
- }
- for (i = 0; i < idx; i++) {
- if (blk->doHeapRegion(_regions.at(i))) {
blk->incomplete();
return;
}
@@ -283,54 +206,92 @@
}
MemRegion HeapRegionSeq::shrink_by(size_t shrink_bytes,
- size_t& num_regions_deleted) {
+ size_t* num_regions_deleted) {
// Reset this in case it's currently pointing into the regions that
// we just removed.
- _alloc_search_start = 0;
+ _next_search_index = 0;
assert(shrink_bytes % os::vm_page_size() == 0, "unaligned");
assert(shrink_bytes % HeapRegion::GrainBytes == 0, "unaligned");
+ assert(length() > 0, "the region sequence should not be empty");
+ assert(length() <= _allocated_length, "invariant");
+ assert(_allocated_length > 0, "we should have at least one region committed");
- if (_regions.length() == 0) {
- num_regions_deleted = 0;
- return MemRegion();
- }
- int j = _regions.length() - 1;
- HeapWord* end = _regions.at(j)->end();
+ // around the loop, i will be the next region to be removed
+ size_t i = length() - 1;
+ assert(i > 0, "we should never remove all regions");
+ // [last_start, end) is the MemRegion that covers the regions we will remove.
+ HeapWord* end = at(i)->end();
HeapWord* last_start = end;
- while (j >= 0 && shrink_bytes > 0) {
- HeapRegion* cur = _regions.at(j);
- // We have to leave humongous regions where they are,
- // and work around them.
- if (cur->isHumongous()) {
- return MemRegion(last_start, end);
- }
- assert(cur == _regions.top(), "Should be top");
+ *num_regions_deleted = 0;
+ while (shrink_bytes > 0) {
+ HeapRegion* cur = at(i);
+ // We should leave the humongous regions where they are.
+ if (cur->isHumongous()) break;
+ // We should stop shrinking if we come across a non-empty region.
if (!cur->is_empty()) break;
+
+ i -= 1;
+ *num_regions_deleted += 1;
shrink_bytes -= cur->capacity();
- num_regions_deleted++;
- _regions.pop();
last_start = cur->bottom();
- // We need to delete these somehow, but can't currently do so here: if
- // we do, the ZF thread may still access the deleted region. We'll
- // leave this here as a reminder that we have to do something about
- // this.
- // delete cur;
- j--;
+ decrement_length(&_length);
+ // We will reclaim the HeapRegion. _allocated_length should be
+ // covering this index. So, even though we removed the region from
+ // the active set by decreasing _length, we still have it
+ // available in the future if we need to re-use it.
+ assert(i > 0, "we should never remove all regions");
+ assert(length() > 0, "we should never remove all regions");
}
return MemRegion(last_start, end);
}
-class PrintHeapRegionClosure : public HeapRegionClosure {
-public:
- bool doHeapRegion(HeapRegion* r) {
- gclog_or_tty->print(PTR_FORMAT ":", r);
- r->print();
- return false;
+#ifndef PRODUCT
+void HeapRegionSeq::verify_optional() {
+ guarantee(_length <= _allocated_length,
+ err_msg("invariant: _length: "SIZE_FORMAT" "
+ "_allocated_length: "SIZE_FORMAT,
+ _length, _allocated_length));
+ guarantee(_allocated_length <= _max_length,
+ err_msg("invariant: _allocated_length: "SIZE_FORMAT" "
+ "_max_length: "SIZE_FORMAT,
+ _allocated_length, _max_length));
+ guarantee(_next_search_index <= _length,
+ err_msg("invariant: _next_search_index: "SIZE_FORMAT" "
+ "_length: "SIZE_FORMAT,
+ _next_search_index, _length));
+
+ HeapWord* prev_end = _heap_bottom;
+ for (size_t i = 0; i < _allocated_length; i += 1) {
+ HeapRegion* hr = _regions[i];
+ guarantee(hr != NULL, err_msg("invariant: i: "SIZE_FORMAT, i));
+ guarantee(hr->bottom() == prev_end,
+ err_msg("invariant i: "SIZE_FORMAT" "HR_FORMAT" "
+ "prev_end: "PTR_FORMAT,
+ i, HR_FORMAT_PARAMS(hr), prev_end));
+ guarantee(hr->hrs_index() == i,
+ err_msg("invariant: i: "SIZE_FORMAT" hrs_index(): "SIZE_FORMAT,
+ i, hr->hrs_index()));
+ if (i < _length) {
+ // Asserts will fire if i is >= _length
+ HeapWord* addr = hr->bottom();
+ guarantee(addr_to_region(addr) == hr, "sanity");
+ guarantee(addr_to_region_unsafe(addr) == hr, "sanity");
+ } else {
+ guarantee(hr->is_empty(), "sanity");
+ guarantee(!hr->isHumongous(), "sanity");
+ // using assert instead of guarantee here since containing_set()
+ // is only available in non-product builds.
+ assert(hr->containing_set() == NULL, "sanity");
+ }
+ if (hr->startsHumongous()) {
+ prev_end = hr->orig_end();
+ } else {
+ prev_end = hr->end();
+ }
}
-};
-
-void HeapRegionSeq::print() {
- PrintHeapRegionClosure cl;
- iterate(&cl);
+ for (size_t i = _allocated_length; i < _max_length; i += 1) {
+ guarantee(_regions[i] == NULL, err_msg("invariant i: "SIZE_FORMAT, i));
+ }
}
+#endif // PRODUCT
--- a/hotspot/src/share/vm/gc_implementation/g1/heapRegionSeq.hpp Wed Jun 08 21:48:38 2011 -0400
+++ b/hotspot/src/share/vm/gc_implementation/g1/heapRegionSeq.hpp Fri Jun 10 13:16:40 2011 -0400
@@ -25,92 +25,143 @@
#ifndef SHARE_VM_GC_IMPLEMENTATION_G1_HEAPREGIONSEQ_HPP
#define SHARE_VM_GC_IMPLEMENTATION_G1_HEAPREGIONSEQ_HPP
-#include "gc_implementation/g1/heapRegion.hpp"
-#include "utilities/growableArray.hpp"
-
class HeapRegion;
class HeapRegionClosure;
+class FreeRegionList;
+
+#define G1_NULL_HRS_INDEX ((size_t) -1)
+
+// This class keeps track of the region metadata (i.e., HeapRegion
+// instances). They are kept in the _regions array in address
+// order. A region's index in the array corresponds to its index in
+// the heap (i.e., 0 is the region at the bottom of the heap, 1 is
+// the one after it, etc.). Two regions that are consecutive in the
+// array should also be adjacent in the address space (i.e.,
+// region(i).end() == region(i+1).bottom().
+//
+// We create a HeapRegion when we commit the region's address space
+// for the first time. When we uncommit the address space of a
+// region we retain the HeapRegion to be able to re-use it in the
+// future (in case we recommit it).
+//
+// We keep track of three lengths:
+//
+// * _length (returned by length()) is the number of currently
+// committed regions.
+// * _allocated_length (not exposed outside this class) is the
+// number of regions for which we have HeapRegions.
+// * _max_length (returned by max_length()) is the maximum number of
+// regions the heap can have.
+//
+// and maintain that: _length <= _allocated_length <= _max_length
class HeapRegionSeq: public CHeapObj {
- // _regions is kept sorted by start address order, and no two regions are
- // overlapping.
- GrowableArray<HeapRegion*> _regions;
+ // The array that holds the HeapRegions.
+ HeapRegion** _regions;
+
+ // Version of _regions biased to address 0
+ HeapRegion** _regions_biased;
+
+ // The number of regions committed in the heap.
+ size_t _length;
- // The index in "_regions" at which to start the next allocation search.
- // (For efficiency only; private to obj_allocate after initialization.)
- int _alloc_search_start;
+ // The address of the first reserved word in the heap.
+ HeapWord* _heap_bottom;
+
+ // The address of the last reserved word in the heap - 1.
+ HeapWord* _heap_end;
+
+ // The log of the region byte size.
+ size_t _region_shift;
+
+ // A hint for which index to start searching from for humongous
+ // allocations.
+ size_t _next_search_index;
- // Finds a contiguous set of empty regions of length num, starting
- // from a given index.
- int find_contiguous_from(int from, size_t num);
+ // The number of regions for which we have allocated HeapRegions for.
+ size_t _allocated_length;
+
+ // The maximum number of regions in the heap.
+ size_t _max_length;
+
+ // Find a contiguous set of empty regions of length num, starting
+ // from the given index.
+ size_t find_contiguous_from(size_t from, size_t num);
- // Currently, we're choosing collection sets in a round-robin fashion,
- // starting here.
- int _next_rr_candidate;
+ // Map a heap address to a biased region index. Assume that the
+ // address is valid.
+ inline size_t addr_to_index_biased(HeapWord* addr) const;
- // The bottom address of the bottom-most region, or else NULL if there
- // are no regions in the sequence.
- char* _seq_bottom;
+ void increment_length(size_t* length) {
+ assert(*length < _max_length, "pre-condition");
+ *length += 1;
+ }
+
+ void decrement_length(size_t* length) {
+ assert(*length > 0, "pre-condition");
+ *length -= 1;
+ }
public:
- // Initializes "this" to the empty sequence of regions.
- HeapRegionSeq(const size_t max_size);
+ // Empty contructor, we'll initialize it with the initialize() method.
+ HeapRegionSeq() { }
+
+ void initialize(HeapWord* bottom, HeapWord* end, size_t max_length);
- // Adds "hr" to "this" sequence. Requires "hr" not to overlap with
- // any region already in "this". (Will perform better if regions are
- // inserted in ascending address order.)
- void insert(HeapRegion* hr);
+ // Return the HeapRegion at the given index. Assume that the index
+ // is valid.
+ inline HeapRegion* at(size_t index) const;
+
+ // If addr is within the committed space return its corresponding
+ // HeapRegion, otherwise return NULL.
+ inline HeapRegion* addr_to_region(HeapWord* addr) const;
+
+ // Return the HeapRegion that corresponds to the given
+ // address. Assume the address is valid.
+ inline HeapRegion* addr_to_region_unsafe(HeapWord* addr) const;
- // Given a HeapRegion*, returns its index within _regions,
- // or returns -1 if not found.
- int find(HeapRegion* hr);
+ // Return the number of regions that have been committed in the heap.
+ size_t length() const { return _length; }
+
+ // Return the maximum number of regions in the heap.
+ size_t max_length() const { return _max_length; }
- // Requires the index to be valid, and return the region at the index.
- HeapRegion* at(size_t i) { return _regions.at((int)i); }
+ // Expand the sequence to reflect that the heap has grown from
+ // old_end to new_end. Either create new HeapRegions, or re-use
+ // existing ones, and return them in the given list. Returns the
+ // memory region that covers the newly-created regions. If a
+ // HeapRegion allocation fails, the result memory region might be
+ // smaller than the desired one.
+ MemRegion expand_by(HeapWord* old_end, HeapWord* new_end,
+ FreeRegionList* list);
- // Return the number of regions in the sequence.
- size_t length();
-
- // Returns the number of contiguous regions at the end of the sequence
+ // Return the number of contiguous regions at the end of the sequence
// that are available for allocation.
size_t free_suffix();
// Find a contiguous set of empty regions of length num and return
- // the index of the first region or -1 if the search was unsuccessful.
- int find_contiguous(size_t num);
+ // the index of the first region or G1_NULL_HRS_INDEX if the
+ // search was unsuccessful.
+ size_t find_contiguous(size_t num);
- // Apply the "doHeapRegion" method of "blk" to all regions in "this",
- // in address order, terminating the iteration early
- // if the "doHeapRegion" method returns "true".
- void iterate(HeapRegionClosure* blk);
-
- // Apply the "doHeapRegion" method of "blk" to all regions in "this",
- // starting at "r" (or first region, if "r" is NULL), in a circular
- // manner, terminating the iteration early if the "doHeapRegion" method
- // returns "true".
- void iterate_from(HeapRegion* r, HeapRegionClosure* blk);
+ // Apply blk->doHeapRegion() on all committed regions in address order,
+ // terminating the iteration early if doHeapRegion() returns true.
+ void iterate(HeapRegionClosure* blk) const;
- // As above, but start from a given index in the sequence
- // instead of a given heap region.
- void iterate_from(int idx, HeapRegionClosure* blk);
+ // As above, but start the iteration from hr and loop around. If hr
+ // is NULL, we start from the first region in the heap.
+ void iterate_from(HeapRegion* hr, HeapRegionClosure* blk) const;
- // Requires "shrink_bytes" to be a multiple of the page size and heap
- // region granularity. Deletes as many "rightmost" completely free heap
- // regions from the sequence as comprise shrink_bytes bytes. Returns the
- // MemRegion indicating the region those regions comprised, and sets
- // "num_regions_deleted" to the number of regions deleted.
- MemRegion shrink_by(size_t shrink_bytes, size_t& num_regions_deleted);
+ // Tag as uncommitted as many regions that are completely free as
+ // possible, up to shrink_bytes, from the suffix of the committed
+ // sequence. Return a MemRegion that corresponds to the address
+ // range of the uncommitted regions. Assume shrink_bytes is page and
+ // heap region aligned.
+ MemRegion shrink_by(size_t shrink_bytes, size_t* num_regions_deleted);
- // If "addr" falls within a region in the sequence, return that region,
- // or else NULL.
- inline HeapRegion* addr_to_region(const void* addr);
-
- void print();
-
- // Prints out runs of empty regions.
- void print_empty_runs();
-
+ // Do some sanity checking.
+ void verify_optional() PRODUCT_RETURN;
};
#endif // SHARE_VM_GC_IMPLEMENTATION_G1_HEAPREGIONSEQ_HPP
--- a/hotspot/src/share/vm/gc_implementation/g1/heapRegionSeq.inline.hpp Wed Jun 08 21:48:38 2011 -0400
+++ b/hotspot/src/share/vm/gc_implementation/g1/heapRegionSeq.inline.hpp Fri Jun 10 13:16:40 2011 -0400
@@ -1,5 +1,5 @@
/*
- * Copyright (c) 2001, 2010, Oracle and/or its affiliates. All rights reserved.
+ * Copyright (c) 2001, 2011, 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
@@ -25,23 +25,42 @@
#ifndef SHARE_VM_GC_IMPLEMENTATION_G1_HEAPREGIONSEQ_INLINE_HPP
#define SHARE_VM_GC_IMPLEMENTATION_G1_HEAPREGIONSEQ_INLINE_HPP
+#include "gc_implementation/g1/heapRegion.hpp"
#include "gc_implementation/g1/heapRegionSeq.hpp"
-inline HeapRegion* HeapRegionSeq::addr_to_region(const void* addr) {
- assert(_seq_bottom != NULL, "bad _seq_bottom in addr_to_region");
- if ((char*) addr >= _seq_bottom) {
- size_t diff = (size_t) pointer_delta((HeapWord*) addr,
- (HeapWord*) _seq_bottom);
- int index = (int) (diff >> HeapRegion::LogOfHRGrainWords);
- assert(index >= 0, "invariant / paranoia");
- if (index < _regions.length()) {
- HeapRegion* hr = _regions.at(index);
- assert(hr->is_in_reserved(addr),
- "addr_to_region is wrong...");
- return hr;
- }
+inline size_t HeapRegionSeq::addr_to_index_biased(HeapWord* addr) const {
+ assert(_heap_bottom <= addr && addr < _heap_end,
+ err_msg("addr: "PTR_FORMAT" bottom: "PTR_FORMAT" end: "PTR_FORMAT,
+ addr, _heap_bottom, _heap_end));
+ size_t index = (size_t) addr >> _region_shift;
+ return index;
+}
+
+inline HeapRegion* HeapRegionSeq::addr_to_region_unsafe(HeapWord* addr) const {
+ assert(_heap_bottom <= addr && addr < _heap_end,
+ err_msg("addr: "PTR_FORMAT" bottom: "PTR_FORMAT" end: "PTR_FORMAT,
+ addr, _heap_bottom, _heap_end));
+ size_t index_biased = addr_to_index_biased(addr);
+ HeapRegion* hr = _regions_biased[index_biased];
+ assert(hr != NULL, "invariant");
+ return hr;
+}
+
+inline HeapRegion* HeapRegionSeq::addr_to_region(HeapWord* addr) const {
+ if (addr != NULL && addr < _heap_end) {
+ assert(addr >= _heap_bottom,
+ err_msg("addr: "PTR_FORMAT" bottom: "PTR_FORMAT, addr, _heap_bottom));
+ return addr_to_region_unsafe(addr);
}
return NULL;
}
+inline HeapRegion* HeapRegionSeq::at(size_t index) const {
+ assert(index < length(), "pre-condition");
+ HeapRegion* hr = _regions[index];
+ assert(hr != NULL, "sanity");
+ assert(hr->hrs_index() == index, "sanity");
+ return hr;
+}
+
#endif // SHARE_VM_GC_IMPLEMENTATION_G1_HEAPREGIONSEQ_INLINE_HPP
--- a/hotspot/src/share/vm/gc_implementation/g1/sparsePRT.cpp Wed Jun 08 21:48:38 2011 -0400
+++ b/hotspot/src/share/vm/gc_implementation/g1/sparsePRT.cpp Fri Jun 10 13:16:40 2011 -0400
@@ -481,8 +481,9 @@
bool SparsePRT::add_card(RegionIdx_t region_id, CardIdx_t card_index) {
#if SPARSE_PRT_VERBOSE
- gclog_or_tty->print_cr(" Adding card %d from region %d to region %d sparse.",
- card_index, region_id, _hr->hrs_index());
+ gclog_or_tty->print_cr(" Adding card %d from region %d to region "
+ SIZE_FORMAT" sparse.",
+ card_index, region_id, _hr->hrs_index());
#endif
if (_next->occupied_entries() * 2 > _next->capacity()) {
expand();
@@ -533,8 +534,8 @@
_next = new RSHashTable(last->capacity() * 2);
#if SPARSE_PRT_VERBOSE
- gclog_or_tty->print_cr(" Expanded sparse table for %d to %d.",
- _hr->hrs_index(), _next->capacity());
+ gclog_or_tty->print_cr(" Expanded sparse table for "SIZE_FORMAT" to %d.",
+ _hr->hrs_index(), _next->capacity());
#endif
for (size_t i = 0; i < last->capacity(); i++) {
SparsePRTEntry* e = last->entry((int)i);