Revert r11665, r11666 and r11667 due to slowness.

R=jkummerow@chromium.org

Review URL: https://chromiumcodereview.appspot.com/10447033

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@11668 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
parent 502123f9
......@@ -5088,40 +5088,39 @@ class IntrusiveMapTransitionIterator {
void Start() {
ASSERT(!IsIterating());
if (HasDescriptors()) *DescriptorArrayHeader() = Smi::FromInt(0);
if (HasContentArray()) *ContentHeader() = Smi::FromInt(0);
}
bool IsIterating() {
return HasDescriptors() && (*DescriptorArrayHeader())->IsSmi();
return HasContentArray() && (*ContentHeader())->IsSmi();
}
Map* Next() {
ASSERT(IsIterating());
// Attention, tricky index manipulation ahead: Two consecutive indices are
// assigned to each descriptor. Most descriptors directly advance to the
// next descriptor by adding 2 to the index. The exceptions are the
// CALLBACKS entries: An even index means we look at its getter, and an odd
// index means we look at its setter.
int raw_index = Smi::cast(*DescriptorArrayHeader())->value();
int index = raw_index / 2;
while (index < descriptor_array_->number_of_descriptors()) {
PropertyDetails details(RawGetDetails(index));
FixedArray* contents = ContentArray();
// Attention, tricky index manipulation ahead: Every entry in the contents
// array consists of a value/details pair, so the index is typically even.
// An exception is made for CALLBACKS entries: An even index means we look
// at its getter, and an odd index means we look at its setter.
int index = Smi::cast(*ContentHeader())->value();
while (index < contents->length()) {
PropertyDetails details(Smi::cast(contents->get(index | 1)));
switch (details.type()) {
case MAP_TRANSITION:
case CONSTANT_TRANSITION:
case ELEMENTS_TRANSITION:
// We definitely have a map transition.
*DescriptorArrayHeader() = Smi::FromInt(raw_index + 2);
return static_cast<Map*>(RawGetValue(index));
*ContentHeader() = Smi::FromInt(index + 2);
return static_cast<Map*>(contents->get(index));
case CALLBACKS: {
// We might have a map transition in a getter or in a setter.
AccessorPair* accessors =
static_cast<AccessorPair*>(RawGetValue(index));
Object* accessor = ((raw_index & 1) == 0)
? accessors->getter()
: accessors->setter();
static_cast<AccessorPair*>(contents->get(index & ~1));
Object* accessor =
((index & 1) == 0) ? accessors->getter() : accessors->setter();
index++;
if (accessor->IsMap()) {
*DescriptorArrayHeader() = Smi::FromInt(raw_index + 1);
*ContentHeader() = Smi::FromInt(index);
return static_cast<Map*>(accessor);
}
break;
......@@ -5133,42 +5132,28 @@ class IntrusiveMapTransitionIterator {
case INTERCEPTOR:
case NULL_DESCRIPTOR:
// We definitely have no map transition.
raw_index += 2;
++index;
index += 2;
break;
}
}
*DescriptorArrayHeader() = descriptor_array_->GetHeap()->fixed_array_map();
*ContentHeader() = descriptor_array_->GetHeap()->fixed_array_map();
return NULL;
}
private:
bool HasDescriptors() {
return descriptor_array_-> length() > DescriptorArray::kFirstIndex;
bool HasContentArray() {
return descriptor_array_-> length() > DescriptorArray::kContentArrayIndex;
}
Object** DescriptorArrayHeader() {
return HeapObject::RawField(descriptor_array_, DescriptorArray::kMapOffset);
FixedArray* ContentArray() {
Object* array = descriptor_array_->get(DescriptorArray::kContentArrayIndex);
return static_cast<FixedArray*>(array);
}
FixedArray* RawGetContentArray() {
Object* array =
descriptor_array_->get(DescriptorArray::kContentArrayIndex);
return static_cast<FixedArray*>(array);
Object** ContentHeader() {
return HeapObject::RawField(ContentArray(), DescriptorArray::kMapOffset);
}
Object* RawGetValue(int descriptor_number) {
return RawGetContentArray()->get(
DescriptorArray::ToValueIndex(descriptor_number));
}
PropertyDetails RawGetDetails(int descriptor_number) {
Object* details = RawGetContentArray()->get(
DescriptorArray::ToDetailsIndex(descriptor_number));
return PropertyDetails(Smi::cast(details));
}
DescriptorArray* descriptor_array_;
};
......@@ -5267,22 +5252,6 @@ class TraversableMap : public Map {
return old_parent;
}
// Can either be Smi (no instance descriptors), or a descriptor array with the
// header overwritten as a Smi (thus iterating).
DescriptorArray* MutatedInstanceDescriptors() {
Object* object =
*HeapObject::RawField(this, kInstanceDescriptorsOrBitField3Offset);
if (object->IsSmi()) {
return GetHeap()->empty_descriptor_array();
} else {
DescriptorArray* descriptor_array =
static_cast<DescriptorArray*>(object);
ASSERT((*HeapObject::RawField(descriptor_array,
DescriptorArray::kMapOffset))->IsSmi());
return descriptor_array;
}
}
// Start iterating over this map's children, possibly destroying a FixedArray
// map (see explanation above).
void ChildIteratorStart() {
......@@ -5294,18 +5263,17 @@ class TraversableMap : public Map {
// If we have an unvisited child map, return that one and advance. If we have
// none, return NULL and reset any destroyed FixedArray maps.
TraversableMap* ChildIteratorNext() {
IntrusiveMapTransitionIterator descriptor_iterator(instance_descriptors());
if (descriptor_iterator.IsIterating()) {
Map* next = descriptor_iterator.Next();
if (next != NULL) return static_cast<TraversableMap*>(next);
}
IntrusivePrototypeTransitionIterator
proto_iterator(unchecked_prototype_transitions());
if (proto_iterator.IsIterating()) {
Map* next = proto_iterator.Next();
if (next != NULL) return static_cast<TraversableMap*>(next);
}
IntrusiveMapTransitionIterator
descriptor_iterator(MutatedInstanceDescriptors());
if (descriptor_iterator.IsIterating()) {
Map* next = descriptor_iterator.Next();
if (next != NULL) return static_cast<TraversableMap*>(next);
}
return NULL;
}
};
......
......@@ -2588,8 +2588,6 @@ class DescriptorArray: public FixedArray {
static const int kMaxNumberOfDescriptors = 1024 + 512;
private:
friend class IntrusiveMapTransitionIterator;
// An entry in a DescriptorArray, represented as an (array, index) pair.
class Entry {
public:
......@@ -2628,7 +2626,6 @@ class DescriptorArray: public FixedArray {
FixedArray* GetContentArray() {
return FixedArray::cast(get(kContentArrayIndex));
}
DISALLOW_IMPLICIT_CONSTRUCTORS(DescriptorArray);
};
......
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