Capacity returns allocatable memory and TotalCapacity returns allocatable plus...

Capacity returns allocatable memory and TotalCapacity returns allocatable plus non-allocatable memory for the new space. BUG= R=ulan@chromium.org Review URL: https://codereview.chromium.org/577223002 git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@24040 ce2b1a6d-e550-0410-aec6-3dcde31c8c00

Capacity returns allocatable memory and TotalCapacity returns allocatable plus...
Capacity returns allocatable memory and TotalCapacity returns allocatable plus non-allocatable memory for the new space. BUG= R=ulan@chromium.org Review URL: https://codereview.chromium.org/577223002 git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@24040 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
1373784d · hpayer@chromium.org · 200095c3 · 1373784d · 1373784d · 1373784d
Commit 1373784d authored Sep 18, 2014 by hpayer@chromium.org
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Showing with 78 additions and 72 deletions

heap.cc src/heap/heap.cc +2 -2

spaces.cc src/heap/spaces.cc +31 -29

spaces.h src/heap/spaces.h +29 -25

test-heap.cc test/cctest/test-heap.cc +16 -16

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--- a/src/heap/heap.cc
+++ b/src/heap/heap.cc
@@ -1282,8 +1282,8 @@ static void VerifyNonPointerSpacePointers(Heap* heap) {


 void Heap::CheckNewSpaceExpansionCriteria() {
-  if (new_space_.Capacity() < new_space_.MaximumCapacity() &&
-      survived_since_last_expansion_ > new_space_.Capacity()) {
+  if (new_space_.TotalCapacity() < new_space_.MaximumCapacity() &&
+      survived_since_last_expansion_ > new_space_.TotalCapacity()) {
    // Grow the size of new space if there is room to grow, enough data
    // has survived scavenge since the last expansion and we are not in
    // high promotion mode.

--- a/src/heap/spaces.cc
+++ b/src/heap/spaces.cc
@@ -1259,14 +1259,15 @@ void NewSpace::Flip() { SemiSpace::Swap(&from_space_, &to_space_); }

 void NewSpace::Grow() {
  // Double the semispace size but only up to maximum capacity.
-  DCHECK(Capacity() < MaximumCapacity());
-  int new_capacity = Min(MaximumCapacity(), 2 * static_cast<int>(Capacity()));
+  DCHECK(TotalCapacity() < MaximumCapacity());
+  int new_capacity =
+      Min(MaximumCapacity(), 2 * static_cast<int>(TotalCapacity()));
  if (to_space_.GrowTo(new_capacity)) {
    // Only grow from space if we managed to grow to-space.
    if (!from_space_.GrowTo(new_capacity)) {
      // If we managed to grow to-space but couldn't grow from-space,
      // attempt to shrink to-space.
-      if (!to_space_.ShrinkTo(from_space_.Capacity())) {
+      if (!to_space_.ShrinkTo(from_space_.TotalCapacity())) {
        // We are in an inconsistent state because we could not
        // commit/uncommit memory from new space.
        V8::FatalProcessOutOfMemory("Failed to grow new space.");
@@ -1278,16 +1279,16 @@ void NewSpace::Grow() {


 void NewSpace::Shrink() {
-  int new_capacity = Max(InitialCapacity(), 2 * SizeAsInt());
+  int new_capacity = Max(InitialTotalCapacity(), 2 * SizeAsInt());
  int rounded_new_capacity = RoundUp(new_capacity, Page::kPageSize);
-  if (rounded_new_capacity < Capacity() &&
+  if (rounded_new_capacity < TotalCapacity() &&
      to_space_.ShrinkTo(rounded_new_capacity)) {
    // Only shrink from-space if we managed to shrink to-space.
    from_space_.Reset();
    if (!from_space_.ShrinkTo(rounded_new_capacity)) {
      // If we managed to shrink to-space but couldn't shrink from
      // space, attempt to grow to-space again.
-      if (!to_space_.GrowTo(from_space_.Capacity())) {
+      if (!to_space_.GrowTo(from_space_.TotalCapacity())) {
        // We are in an inconsistent state because we could not
        // commit/uncommit memory from new space.
        V8::FatalProcessOutOfMemory("Failed to shrink new space.");
@@ -1465,9 +1466,9 @@ void SemiSpace::SetUp(Address start, int initial_capacity,
  // space is used as the marking stack. It requires contiguous memory
  // addresses.
  DCHECK(maximum_capacity >= Page::kPageSize);
-  initial_capacity_ = RoundDown(initial_capacity, Page::kPageSize);
-  capacity_ = initial_capacity;
-  maximum_capacity_ = RoundDown(maximum_capacity, Page::kPageSize);
+  initial_total_capacity_ = RoundDown(initial_capacity, Page::kPageSize);
+  total_capacity_ = initial_capacity;
+  maximum_total_capacity_ = RoundDown(maximum_capacity, Page::kPageSize);
  maximum_committed_ = 0;
  committed_ = false;
  start_ = start;
@@ -1480,15 +1481,15 @@ void SemiSpace::SetUp(Address start, int initial_capacity,

 void SemiSpace::TearDown() {
  start_ = NULL;
-  capacity_ = 0;
+  total_capacity_ = 0;
 }


 bool SemiSpace::Commit() {
  DCHECK(!is_committed());
-  int pages = capacity_ / Page::kPageSize;
-  if (!heap()->isolate()->memory_allocator()->CommitBlock(start_, capacity_,
-                                                          executable())) {
+  int pages = total_capacity_ / Page::kPageSize;
+  if (!heap()->isolate()->memory_allocator()->CommitBlock(
+          start_, total_capacity_, executable())) {
    return false;
  }

@@ -1500,7 +1501,7 @@ bool SemiSpace::Commit() {
    current = new_page;
  }

-  SetCapacity(capacity_);
+  SetCapacity(total_capacity_);
  committed_ = true;
  Reset();
  return true;
@@ -1509,8 +1510,9 @@ bool SemiSpace::Commit() {

 bool SemiSpace::Uncommit() {
  DCHECK(is_committed());
-  Address start = start_ + maximum_capacity_ - capacity_;
-  if (!heap()->isolate()->memory_allocator()->UncommitBlock(start, capacity_)) {
+  Address start = start_ + maximum_total_capacity_ - total_capacity_;
+  if (!heap()->isolate()->memory_allocator()->UncommitBlock(start,
+                                                            total_capacity_)) {
    return false;
  }
  anchor()->set_next_page(anchor());
@@ -1537,16 +1539,16 @@ bool SemiSpace::GrowTo(int new_capacity) {
    if (!Commit()) return false;
  }
  DCHECK((new_capacity & Page::kPageAlignmentMask) == 0);
-  DCHECK(new_capacity <= maximum_capacity_);
-  DCHECK(new_capacity > capacity_);
-  int pages_before = capacity_ / Page::kPageSize;
+  DCHECK(new_capacity <= maximum_total_capacity_);
+  DCHECK(new_capacity > total_capacity_);
+  int pages_before = total_capacity_ / Page::kPageSize;
  int pages_after = new_capacity / Page::kPageSize;

-  size_t delta = new_capacity - capacity_;
+  size_t delta = new_capacity - total_capacity_;

  DCHECK(IsAligned(delta, base::OS::AllocateAlignment()));
  if (!heap()->isolate()->memory_allocator()->CommitBlock(
-          start_ + capacity_, delta, executable())) {
+          start_ + total_capacity_, delta, executable())) {
    return false;
  }
  SetCapacity(new_capacity);
@@ -1569,10 +1571,10 @@ bool SemiSpace::GrowTo(int new_capacity) {

 bool SemiSpace::ShrinkTo(int new_capacity) {
  DCHECK((new_capacity & Page::kPageAlignmentMask) == 0);
-  DCHECK(new_capacity >= initial_capacity_);
-  DCHECK(new_capacity < capacity_);
+  DCHECK(new_capacity >= initial_total_capacity_);
+  DCHECK(new_capacity < total_capacity_);
  if (is_committed()) {
-    size_t delta = capacity_ - new_capacity;
+    size_t delta = total_capacity_ - new_capacity;
    DCHECK(IsAligned(delta, base::OS::AllocateAlignment()));

    MemoryAllocator* allocator = heap()->isolate()->memory_allocator();
@@ -1652,9 +1654,9 @@ void SemiSpace::Swap(SemiSpace* from, SemiSpace* to) {


 void SemiSpace::SetCapacity(int new_capacity) {
-  capacity_ = new_capacity;
-  if (capacity_ > maximum_committed_) {
-    maximum_committed_ = capacity_;
+  total_capacity_ = new_capacity;
+  if (total_capacity_ > maximum_committed_) {
+    maximum_committed_ = total_capacity_;
  }
 }

@@ -1895,11 +1897,11 @@ static void DoReportStatistics(Isolate* isolate, HistogramInfo* info,
 void NewSpace::ReportStatistics() {
 #ifdef DEBUG
  if (FLAG_heap_stats) {
-    float pct = static_cast<float>(Available()) / Capacity();
+    float pct = static_cast<float>(Available()) / TotalCapacity();
    PrintF("  capacity: %" V8_PTR_PREFIX
           "d"
           ", available: %" V8_PTR_PREFIX "d, %%%d\n",
-           Capacity(), Available(), static_cast<int>(pct * 100));
+           TotalCapacity(), Available(), static_cast<int>(pct * 100));
    PrintF("\n  Object Histogram:\n");
    for (int i = 0; i <= LAST_TYPE; i++) {
      if (allocated_histogram_[i].number() > 0) {

--- a/src/heap/spaces.h
+++ b/src/heap/spaces.h
@@ -2161,14 +2161,14 @@ class SemiSpace : public Space {
  inline static void AssertValidRange(Address from, Address to) {}
 #endif

-  // Returns the current capacity of the semi space.
-  int Capacity() { return capacity_; }
+  // Returns the current total capacity of the semispace.
+  int TotalCapacity() { return total_capacity_; }

-  // Returns the maximum capacity of the semi space.
-  int MaximumCapacity() { return maximum_capacity_; }
+  // Returns the maximum total capacity of the semispace.
+  int MaximumTotalCapacity() { return maximum_total_capacity_; }

-  // Returns the initial capacity of the semi space.
-  int InitialCapacity() { return initial_capacity_; }
+  // Returns the initial capacity of the semispace.
+  int InitialTotalCapacity() { return initial_total_capacity_; }

  SemiSpaceId id() { return id_; }

@@ -2190,10 +2190,10 @@ class SemiSpace : public Space {

  NewSpacePage* anchor() { return &anchor_; }

-  // The current and maximum capacity of the space.
-  int capacity_;
-  int maximum_capacity_;
-  int initial_capacity_;
+  // The current and maximum total capacity of the space.
+  int total_capacity_;
+  int maximum_total_capacity_;
+  int initial_total_capacity_;

  intptr_t maximum_committed_;

@@ -2363,22 +2363,24 @@ class NewSpace : public Space {
  // new space, which can't get as big as the other spaces then this is useful:
  int SizeAsInt() { return static_cast<int>(Size()); }

-  // Return the current capacity of a semispace.
-  intptr_t EffectiveCapacity() {
-    SLOW_DCHECK(to_space_.Capacity() == from_space_.Capacity());
-    return (to_space_.Capacity() / Page::kPageSize) * NewSpacePage::kAreaSize;
+  // Return the allocatable capacity of a semispace.
+  intptr_t Capacity() {
+    SLOW_DCHECK(to_space_.TotalCapacity() == from_space_.TotalCapacity());
+    return (to_space_.TotalCapacity() / Page::kPageSize) *
+           NewSpacePage::kAreaSize;
  }

-  // Return the current capacity of a semispace.
-  intptr_t Capacity() {
-    DCHECK(to_space_.Capacity() == from_space_.Capacity());
-    return to_space_.Capacity();
+  // Return the current size of a semispace, allocatable and non-allocatable
+  // memory.
+  intptr_t TotalCapacity() {
+    DCHECK(to_space_.TotalCapacity() == from_space_.TotalCapacity());
+    return to_space_.TotalCapacity();
  }

  // Return the total amount of memory committed for new space.
  intptr_t CommittedMemory() {
    if (from_space_.is_committed()) return 2 * Capacity();
-    return Capacity();
+    return TotalCapacity();
  }

  // Return the total amount of memory committed for new space.
@@ -2395,16 +2397,18 @@ class NewSpace : public Space {

  // Return the maximum capacity of a semispace.
  int MaximumCapacity() {
-    DCHECK(to_space_.MaximumCapacity() == from_space_.MaximumCapacity());
-    return to_space_.MaximumCapacity();
+    DCHECK(to_space_.MaximumTotalCapacity() ==
+           from_space_.MaximumTotalCapacity());
+    return to_space_.MaximumTotalCapacity();
  }

-  bool IsAtMaximumCapacity() { return Capacity() == MaximumCapacity(); }
+  bool IsAtMaximumCapacity() { return TotalCapacity() == MaximumCapacity(); }

  // Returns the initial capacity of a semispace.
-  int InitialCapacity() {
-    DCHECK(to_space_.InitialCapacity() == from_space_.InitialCapacity());
-    return to_space_.InitialCapacity();
+  int InitialTotalCapacity() {
+    DCHECK(to_space_.InitialTotalCapacity() ==
+           from_space_.InitialTotalCapacity());
+    return to_space_.InitialTotalCapacity();
  }

  // Return the address of the allocation pointer in the active semispace.

--- a/test/cctest/test-heap.cc
+++ b/test/cctest/test-heap.cc
@@ -1684,7 +1684,7 @@ static void FillUpNewSpace(NewSpace* new_space) {
  Factory* factory = isolate->factory();
  HandleScope scope(isolate);
  AlwaysAllocateScope always_allocate(isolate);
-  intptr_t available = new_space->EffectiveCapacity() - new_space->Size();
+  intptr_t available = new_space->Capacity() - new_space->Size();
  intptr_t number_of_fillers = (available / FixedArray::SizeFor(32)) - 1;
  for (intptr_t i = 0; i < number_of_fillers; i++) {
    CHECK(heap->InNewSpace(*factory->NewFixedArray(32, NOT_TENURED)));
@@ -1707,20 +1707,20 @@ TEST(GrowAndShrinkNewSpace) {

  // Explicitly growing should double the space capacity.
  intptr_t old_capacity, new_capacity;
-  old_capacity = new_space->Capacity();
+  old_capacity = new_space->TotalCapacity();
  new_space->Grow();
-  new_capacity = new_space->Capacity();
+  new_capacity = new_space->TotalCapacity();
  CHECK(2 * old_capacity == new_capacity);

-  old_capacity = new_space->Capacity();
+  old_capacity = new_space->TotalCapacity();
  FillUpNewSpace(new_space);
-  new_capacity = new_space->Capacity();
+  new_capacity = new_space->TotalCapacity();
  CHECK(old_capacity == new_capacity);

  // Explicitly shrinking should not affect space capacity.
-  old_capacity = new_space->Capacity();
+  old_capacity = new_space->TotalCapacity();
  new_space->Shrink();
-  new_capacity = new_space->Capacity();
+  new_capacity = new_space->TotalCapacity();
  CHECK(old_capacity == new_capacity);

  // Let the scavenger empty the new space.
@@ -1728,17 +1728,17 @@ TEST(GrowAndShrinkNewSpace) {
  CHECK_LE(new_space->Size(), old_capacity);

  // Explicitly shrinking should halve the space capacity.
-  old_capacity = new_space->Capacity();
+  old_capacity = new_space->TotalCapacity();
  new_space->Shrink();
-  new_capacity = new_space->Capacity();
+  new_capacity = new_space->TotalCapacity();
  CHECK(old_capacity == 2 * new_capacity);

  // Consecutive shrinking should not affect space capacity.
-  old_capacity = new_space->Capacity();
+  old_capacity = new_space->TotalCapacity();
  new_space->Shrink();
  new_space->Shrink();
  new_space->Shrink();
-  new_capacity = new_space->Capacity();
+  new_capacity = new_space->TotalCapacity();
  CHECK(old_capacity == new_capacity);
 }

@@ -1757,13 +1757,13 @@ TEST(CollectingAllAvailableGarbageShrinksNewSpace) {
  v8::HandleScope scope(CcTest::isolate());
  NewSpace* new_space = heap->new_space();
  intptr_t old_capacity, new_capacity;
-  old_capacity = new_space->Capacity();
+  old_capacity = new_space->TotalCapacity();
  new_space->Grow();
-  new_capacity = new_space->Capacity();
+  new_capacity = new_space->TotalCapacity();
  CHECK(2 * old_capacity == new_capacity);
  FillUpNewSpace(new_space);
  heap->CollectAllAvailableGarbage();
-  new_capacity = new_space->Capacity();
+  new_capacity = new_space->TotalCapacity();
  CHECK(old_capacity == new_capacity);
 }

@@ -4379,10 +4379,10 @@ TEST(PromotionQueue) {

  // Grow the semi-space to two pages to make semi-space copy overwrite the
  // promotion queue, which will be at the end of the second page.
-  intptr_t old_capacity = new_space->Capacity();
+  intptr_t old_capacity = new_space->TotalCapacity();
  new_space->Grow();
  CHECK(new_space->IsAtMaximumCapacity());
-  CHECK(2 * old_capacity == new_space->Capacity());
+  CHECK(2 * old_capacity == new_space->TotalCapacity());

  // Call the scavenger two times to get an empty new space
  heap->CollectGarbage(NEW_SPACE);