Commit 2e38f339 authored by ishell@chromium.org's avatar ishell@chromium.org

Revert "TransitionArray now uses <is_data_property, name, attributes> tuple as...

Revert "TransitionArray now uses <is_data_property, name, attributes> tuple as a key, which allows to have several entries for the same property name."
Revert "Fix for an assertion failure in Map::FindTransitionToField(...). Appeared after r25136."

This revert is made in order to revert r25099 which potentially causes renderer hangs.

R=verwaest@chromium.org

Review URL: https://codereview.chromium.org/722873004

Cr-Commit-Position: refs/heads/master@{#25332}
parent a190a7f1
......@@ -361,7 +361,6 @@ template <typename Config, class Allocator = FreeStoreAllocationPolicy>
class String;
class Name;
class Struct;
class Symbol;
class Variable;
class RelocInfo;
class Deserializer;
......
......@@ -6154,7 +6154,7 @@ bool HOptimizedGraphBuilder::PropertyAccessInfo::CanAccessMonomorphic() {
if (IsAccessor()) return true;
Handle<Map> map = this->map();
map->LookupTransition(NULL, *name_, NONE, &lookup_);
map->LookupTransition(NULL, *name_, &lookup_);
if (lookup_.IsTransitionToField() && map->unused_property_fields() > 0) {
// Construct the object field access.
int descriptor = transition()->LastAdded();
......
......@@ -1169,13 +1169,15 @@ bool DescriptorArray::IsSortedNoDuplicates(int valid_entries) {
for (int i = 0; i < number_of_descriptors(); i++) {
Name* key = GetSortedKey(i);
if (key == current_key) {
Print();
OFStream os(stdout);
PrintDescriptors(os);
return false;
}
current_key = key;
uint32_t hash = GetSortedKey(i)->Hash();
if (hash < current) {
Print();
OFStream os(stdout);
PrintDescriptors(os);
return false;
}
current = hash;
......@@ -1207,36 +1209,23 @@ bool LayoutDescriptor::IsConsistentWithMap(Map* map) {
bool TransitionArray::IsSortedNoDuplicates(int valid_entries) {
DCHECK(valid_entries == -1);
Name* prev_key = NULL;
bool prev_is_data_property = false;
PropertyAttributes prev_attributes = NONE;
uint32_t prev_hash = 0;
Name* current_key = NULL;
uint32_t current = 0;
for (int i = 0; i < number_of_transitions(); i++) {
Name* key = GetSortedKey(i);
uint32_t hash = key->Hash();
bool is_data_property = false;
PropertyAttributes attributes = NONE;
if (!IsSpecialTransition(key)) {
Map* target = GetTarget(i);
PropertyDetails details = GetTargetDetails(key, target);
is_data_property = details.type() == FIELD || details.type() == CONSTANT;
attributes = details.attributes();
} else {
// Duplicate entries are not allowed for non-property transitions.
CHECK_NE(prev_key, key);
if (key == current_key) {
OFStream os(stdout);
PrintTransitions(os);
return false;
}
int cmp =
CompareKeys(prev_key, prev_hash, prev_is_data_property, prev_attributes,
key, hash, is_data_property, attributes);
if (cmp >= 0) {
Print();
current_key = key;
uint32_t hash = GetSortedKey(i)->Hash();
if (hash < current) {
OFStream os(stdout);
PrintTransitions(os);
return false;
}
prev_key = key;
prev_hash = hash;
prev_attributes = attributes;
prev_is_data_property = is_data_property;
current = hash;
}
return true;
}
......
......@@ -1901,11 +1901,11 @@ Handle<Map> Map::FindTransitionToField(Handle<Map> map, Handle<Name> key) {
DisallowHeapAllocation no_allocation;
if (!map->HasTransitionArray()) return Handle<Map>::null();
TransitionArray* transitions = map->transitions();
int transition = transitions->Search(FIELD, *key, NONE);
int transition = transitions->Search(*key);
if (transition == TransitionArray::kNotFound) return Handle<Map>::null();
PropertyDetails details = transitions->GetTargetDetails(transition);
if (details.type() != FIELD) return Handle<Map>::null();
DCHECK_EQ(NONE, details.attributes());
PropertyDetails target_details = transitions->GetTargetDetails(transition);
if (target_details.type() != FIELD) return Handle<Map>::null();
if (target_details.attributes() != NONE) return Handle<Map>::null();
return Handle<Map>(transitions->GetTarget(transition));
}
......@@ -2995,10 +2995,8 @@ void Map::LookupDescriptor(JSObject* holder,
}
void Map::LookupTransition(JSObject* holder, Name* name,
PropertyAttributes attributes,
LookupResult* result) {
int transition_index = this->SearchTransition(FIELD, name, attributes);
void Map::LookupTransition(JSObject* holder, Name* name, LookupResult* result) {
int transition_index = this->SearchTransition(name);
if (transition_index == TransitionArray::kNotFound) return result->NotFound();
result->TransitionResult(holder, this->GetTransition(transition_index));
}
......@@ -5320,8 +5318,7 @@ bool Map::HasTransitionArray() const {
Map* Map::elements_transition_map() {
int index =
transitions()->SearchSpecial(GetHeap()->elements_transition_symbol());
int index = transitions()->Search(GetHeap()->elements_transition_symbol());
return transitions()->GetTarget(index);
}
......@@ -5338,19 +5335,8 @@ Map* Map::GetTransition(int transition_index) {
}
int Map::SearchSpecialTransition(Symbol* name) {
if (HasTransitionArray()) {
return transitions()->SearchSpecial(name);
}
return TransitionArray::kNotFound;
}
int Map::SearchTransition(PropertyType type, Name* name,
PropertyAttributes attributes) {
if (HasTransitionArray()) {
return transitions()->Search(type, name, attributes);
}
int Map::SearchTransition(Name* name) {
if (HasTransitionArray()) return transitions()->Search(name);
return TransitionArray::kNotFound;
}
......@@ -5401,17 +5387,9 @@ void Map::set_transitions(TransitionArray* transition_array,
Map* target = transitions()->GetTarget(i);
if (target->instance_descriptors() == instance_descriptors()) {
Name* key = transitions()->GetKey(i);
int new_target_index;
if (TransitionArray::IsSpecialTransition(key)) {
new_target_index = transition_array->SearchSpecial(Symbol::cast(key));
} else {
PropertyDetails details =
TransitionArray::GetTargetDetails(key, target);
new_target_index = transition_array->Search(details.type(), key,
details.attributes());
}
DCHECK_NE(TransitionArray::kNotFound, new_target_index);
DCHECK_EQ(target, transition_array->GetTarget(new_target_index));
int new_target_index = transition_array->Search(key);
DCHECK(new_target_index != TransitionArray::kNotFound);
DCHECK(transition_array->GetTarget(new_target_index) == target);
}
}
#endif
......
......@@ -1134,19 +1134,18 @@ void TransitionArray::PrintTransitions(std::ostream& os,
}
for (int i = 0; i < number_of_transitions(); i++) {
Name* key = GetKey(i);
Map* target = GetTarget(i);
os << " ";
key->NamePrint(os);
os << ": ";
if (key == GetHeap()->frozen_symbol()) {
os << " (transition to frozen)";
} else if (key == GetHeap()->elements_transition_symbol()) {
os << " (transition to " << ElementsKindToString(target->elements_kind())
<< ")";
os << " (transition to "
<< ElementsKindToString(GetTarget(i)->elements_kind()) << ")";
} else if (key == GetHeap()->observed_symbol()) {
os << " (transition to Object.observe)";
} else {
PropertyDetails details = GetTargetDetails(key, target);
PropertyDetails details = GetTargetDetails(i);
switch (details.type()) {
case FIELD: {
os << " (transition to field)";
......@@ -1165,7 +1164,7 @@ void TransitionArray::PrintTransitions(std::ostream& os,
}
os << ", attrs: " << details.attributes();
}
os << " -> " << Brief(target) << "\n";
os << " -> " << Brief(GetTarget(i)) << "\n";
}
}
......
This diff is collapsed.
......@@ -280,11 +280,7 @@ enum DebugExtraICState {
// Indicates whether the transition is simple: the target map of the transition
// either extends the current map with a new property, or it modifies the
// property that was added last to the current map.
enum SimpleTransitionFlag {
SIMPLE_PROPERTY_TRANSITION,
PROPERTY_TRANSITION,
SPECIAL_TRANSITION
};
enum SimpleTransitionFlag { SIMPLE_TRANSITION, FULL_TRANSITION };
// Indicates whether we are only interested in the descriptors of a particular
......@@ -5793,9 +5789,7 @@ class Map: public HeapObject {
inline Map* elements_transition_map();
inline Map* GetTransition(int transition_index);
inline int SearchSpecialTransition(Symbol* name);
inline int SearchTransition(PropertyType type, Name* name,
PropertyAttributes attributes);
inline int SearchTransition(Name* name);
inline FixedArrayBase* GetInitialElements();
DECL_ACCESSORS(transitions, TransitionArray)
......@@ -5949,7 +5943,6 @@ class Map: public HeapObject {
LookupResult* result);
inline void LookupTransition(JSObject* holder, Name* name,
PropertyAttributes attributes,
LookupResult* result);
inline PropertyDetails GetLastDescriptorDetails();
......@@ -6340,8 +6333,7 @@ class Map: public HeapObject {
Handle<Map> map, Handle<DescriptorArray> descriptors,
Handle<LayoutDescriptor> layout_descriptor, TransitionFlag flag,
MaybeHandle<Name> maybe_name, const char* reason,
SimpleTransitionFlag simple_flag);
SimpleTransitionFlag simple_flag = FULL_TRANSITION);
static Handle<Map> CopyReplaceDescriptor(Handle<Map> map,
Handle<DescriptorArray> descriptors,
Descriptor* descriptor,
......@@ -6369,9 +6361,7 @@ class Map: public HeapObject {
void ZapTransitions();
void DeprecateTransitionTree();
void DeprecateTarget(PropertyType type, Name* key,
PropertyAttributes attributes,
DescriptorArray* new_descriptors,
void DeprecateTarget(Name* key, DescriptorArray* new_descriptors,
LayoutDescriptor* new_layout_descriptor);
Map* FindLastMatchMap(int verbatim, int length, DescriptorArray* descriptors);
......
......@@ -34,7 +34,7 @@ TransitionArray* TransitionArray::cast(Object* object) {
bool TransitionArray::HasElementsTransition() {
return SearchSpecial(GetHeap()->elements_transition_symbol()) != kNotFound;
return Search(GetHeap()->elements_transition_symbol()) != kNotFound;
}
......@@ -140,7 +140,7 @@ Object* TransitionArray::GetTargetValue(int transition_number) {
}
int TransitionArray::SearchName(Name* name, int* out_insertion_index) {
int TransitionArray::Search(Name* name, int* out_insertion_index) {
if (IsSimpleTransition()) {
Name* key = GetKey(kSimpleTransitionIndex);
if (key->Equals(name)) return kSimpleTransitionIndex;
......@@ -153,71 +153,6 @@ int TransitionArray::SearchName(Name* name, int* out_insertion_index) {
}
#ifdef DEBUG
bool TransitionArray::IsSpecialTransition(Name* name) {
if (!name->IsSymbol()) return false;
Heap* heap = name->GetHeap();
return name == heap->frozen_symbol() ||
name == heap->elements_transition_symbol() ||
name == heap->observed_symbol();
}
#endif
int TransitionArray::CompareKeys(Name* key1, uint32_t hash1,
bool is_data_property1,
PropertyAttributes attributes1, Name* key2,
uint32_t hash2, bool is_data_property2,
PropertyAttributes attributes2) {
int cmp = CompareNames(key1, hash1, key2, hash2);
if (cmp != 0) return cmp;
return CompareDetails(is_data_property1, attributes1, is_data_property2,
attributes2);
}
int TransitionArray::CompareNames(Name* key1, uint32_t hash1, Name* key2,
uint32_t hash2) {
if (key1 != key2) {
// In case of hash collisions key1 is always "less" than key2.
return hash1 <= hash2 ? -1 : 1;
}
return 0;
}
int TransitionArray::CompareDetails(bool is_data_property1,
PropertyAttributes attributes1,
bool is_data_property2,
PropertyAttributes attributes2) {
if (is_data_property1 != is_data_property2) {
return static_cast<int>(is_data_property1) <
static_cast<int>(is_data_property2)
? -1
: 1;
}
if (attributes1 != attributes2) {
return static_cast<int>(attributes1) < static_cast<int>(attributes2) ? -1
: 1;
}
return 0;
}
PropertyDetails TransitionArray::GetTargetDetails(Name* name, Map* target) {
DCHECK(!IsSpecialTransition(name));
int descriptor = target->LastAdded();
DescriptorArray* descriptors = target->instance_descriptors();
// Transitions are allowed only for the last added property.
DCHECK(descriptors->GetKey(descriptor)->Equals(name));
return descriptors->GetDetails(descriptor);
}
void TransitionArray::NoIncrementalWriteBarrierSet(int transition_number,
Name* key,
Map* target) {
......
......@@ -48,7 +48,7 @@ Handle<TransitionArray> TransitionArray::NewWith(Handle<Map> map,
Handle<TransitionArray> result;
Isolate* isolate = name->GetIsolate();
if (flag == SIMPLE_PROPERTY_TRANSITION) {
if (flag == SIMPLE_TRANSITION) {
result = AllocateSimple(isolate, target);
} else {
result = Allocate(isolate, 1);
......@@ -94,19 +94,9 @@ Handle<TransitionArray> TransitionArray::Insert(Handle<Map> map,
int number_of_transitions = map->transitions()->number_of_transitions();
int new_nof = number_of_transitions;
bool is_special_transition = flag == SPECIAL_TRANSITION;
DCHECK_EQ(is_special_transition, IsSpecialTransition(*name));
PropertyDetails details = is_special_transition
? PropertyDetails(NONE, NORMAL, 0)
: GetTargetDetails(*name, *target);
int insertion_index = kNotFound;
int index =
is_special_transition
? map->transitions()->SearchSpecial(Symbol::cast(*name),
&insertion_index)
: map->transitions()->Search(details.type(), *name,
details.attributes(), &insertion_index);
int index = map->transitions()->Search(*name, &insertion_index);
if (index == kNotFound) {
++new_nof;
} else {
......@@ -128,12 +118,12 @@ Handle<TransitionArray> TransitionArray::Insert(Handle<Map> map,
array->SetNumberOfTransitions(new_nof);
for (index = number_of_transitions; index > insertion_index; --index) {
Name* key = array->GetKey(index - 1);
DCHECK(key->Hash() > name->Hash());
array->SetKey(index, key);
array->SetTarget(index, array->GetTarget(index - 1));
}
array->SetKey(index, *name);
array->SetTarget(index, *target);
SLOW_DCHECK(array->IsSortedNoDuplicates());
return handle(array);
}
......@@ -154,11 +144,7 @@ Handle<TransitionArray> TransitionArray::Insert(Handle<Map> map,
new_nof = number_of_transitions;
insertion_index = kNotFound;
index = is_special_transition ? map->transitions()->SearchSpecial(
Symbol::cast(*name), &insertion_index)
: map->transitions()->Search(
details.type(), *name,
details.attributes(), &insertion_index);
index = array->Search(*name, &insertion_index);
if (index == kNotFound) {
++new_nof;
} else {
......@@ -184,46 +170,8 @@ Handle<TransitionArray> TransitionArray::Insert(Handle<Map> map,
}
result->set_back_pointer_storage(array->back_pointer_storage());
SLOW_DCHECK(result->IsSortedNoDuplicates());
return result;
}
int TransitionArray::SearchDetails(int transition, PropertyType type,
PropertyAttributes attributes,
int* out_insertion_index) {
int nof_transitions = number_of_transitions();
DCHECK(transition < nof_transitions);
Name* key = GetKey(transition);
bool is_data = type == FIELD || type == CONSTANT;
for (; transition < nof_transitions && GetKey(transition) == key;
transition++) {
Map* target = GetTarget(transition);
PropertyDetails target_details = GetTargetDetails(key, target);
bool target_is_data =
target_details.type() == FIELD || target_details.type() == CONSTANT;
int cmp = CompareDetails(is_data, attributes, target_is_data,
target_details.attributes());
if (cmp == 0) {
return transition;
} else if (cmp < 0) {
break;
}
}
if (out_insertion_index != NULL) *out_insertion_index = transition;
return kNotFound;
}
int TransitionArray::Search(PropertyType type, Name* name,
PropertyAttributes attributes,
int* out_insertion_index) {
int transition = SearchName(name, out_insertion_index);
if (transition == kNotFound) {
return kNotFound;
}
return SearchDetails(transition, type, attributes, out_insertion_index);
}
} } // namespace v8::internal
......@@ -98,17 +98,9 @@ class TransitionArray: public FixedArray {
static Handle<TransitionArray> Insert(Handle<Map> map, Handle<Name> name,
Handle<Map> target,
SimpleTransitionFlag flag);
// Search a transition for a given type, property name and attributes.
int Search(PropertyType type, Name* name, PropertyAttributes attributes,
int* out_insertion_index = NULL);
// Search a non-property transition (like elements kind, observe or frozen
// transitions).
inline int SearchSpecial(Symbol* symbol, int* out_insertion_index = NULL) {
return SearchName(symbol, out_insertion_index);
}
static inline PropertyDetails GetTargetDetails(Name* name, Map* target);
// Search a transition for a given property name.
inline int Search(Name* name, int* out_insertion_index = NULL);
// Allocates a TransitionArray.
static Handle<TransitionArray> Allocate(Isolate* isolate,
......@@ -175,10 +167,6 @@ class TransitionArray: public FixedArray {
bool IsSortedNoDuplicates(int valid_entries = -1);
bool IsConsistentWithBackPointers(Map* current_map);
bool IsEqualTo(TransitionArray* other);
// Returns true for a non-property transitions like elements kind, observed
// or frozen transitions.
static inline bool IsSpecialTransition(Name* name);
#endif
// The maximum number of transitions we want in a transition array (should
......@@ -214,31 +202,6 @@ class TransitionArray: public FixedArray {
Handle<Map> target,
SimpleTransitionFlag flag);
// Search a first transition for a given property name.
inline int SearchName(Name* name, int* out_insertion_index = NULL);
int SearchDetails(int transition, PropertyType type,
PropertyAttributes attributes, int* out_insertion_index);
// Compares two tuples <key, is_data_property, attributes>, returns -1 if
// tuple1 is "less" than tuple2, 0 if tuple1 equal to tuple2 and 1 otherwise.
static inline int CompareKeys(Name* key1, uint32_t hash1,
bool is_data_property1,
PropertyAttributes attributes1, Name* key2,
uint32_t hash2, bool is_data_property2,
PropertyAttributes attributes2);
// Compares keys, returns -1 if key1 is "less" than key2,
// 0 if key1 equal to key2 and 1 otherwise.
static inline int CompareNames(Name* key1, uint32_t hash1, Name* key2,
uint32_t hash2);
// Compares two details, returns -1 if details1 is "less" than details2,
// 0 if details1 equal to details2 and 1 otherwise.
static inline int CompareDetails(bool is_data_property1,
PropertyAttributes attributes1,
bool is_data_property2,
PropertyAttributes attributes2);
inline void NoIncrementalWriteBarrierSet(int transition_number,
Name* key,
Map* target);
......
......@@ -155,7 +155,6 @@
'test-strtod.cc',
'test-thread-termination.cc',
'test-threads.cc',
'test-transitions.cc',
'test-types.cc',
'test-unbound-queue.cc',
'test-unboxed-doubles.cc',
......
This diff is collapsed.
// Copyright 2014 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Flags: --allow-natives-syntax
function foo() { return 1; };
var o1 = {};
o1.foo = foo;
var json = '{"foo": {"x": 1}}';
var o2 = JSON.parse(json);
var o3 = JSON.parse(json);
assertTrue(%HaveSameMap(o2, o3));
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