src/lookup.cc - platform/external/chromium_org/v8 - Git at Google

 // 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.

 #include "src/v8.h"

 #include "src/bootstrapper.h"
 #include "src/deoptimizer.h"
 #include "src/lookup.h"
 #include "src/lookup-inl.h"

 namespace v8 {
 namespace internal {


 void LookupIterator::Next() {
   DCHECK_NE(JSPROXY, state_);
   DCHECK_NE(TRANSITION, state_);
   DisallowHeapAllocation no_gc;
   has_property_ = false;

   JSReceiver* holder = *holder_;
   Map* map = *holder_map_;

   // Perform lookup on current holder.
   state_ = LookupInHolder(map, holder);
   if (IsFound()) return;

   // Continue lookup if lookup on current holder failed.
   do {
     JSReceiver* maybe_holder = NextHolder(map);
     if (maybe_holder == NULL) break;
     holder = maybe_holder;
     map = holder->map();
     state_ = LookupInHolder(map, holder);
   } while (!IsFound());

   if (holder != *holder_) {
     holder_ = handle(holder, isolate_);
     holder_map_ = handle(map, isolate_);
   }
 }


 Handle<JSReceiver> LookupIterator::GetRoot() const {
   if (receiver_->IsJSReceiver()) return Handle<JSReceiver>::cast(receiver_);
   Handle<Object> root =
       handle(receiver_->GetRootMap(isolate_)->prototype(), isolate_);
   CHECK(!root->IsNull());
   return Handle<JSReceiver>::cast(root);
 }


 Handle<Map> LookupIterator::GetReceiverMap() const {
   if (receiver_->IsNumber()) return isolate_->factory()->heap_number_map();
   return handle(Handle<HeapObject>::cast(receiver_)->map(), isolate_);
 }


 Handle<JSObject> LookupIterator::GetStoreTarget() const {
   if (receiver_->IsJSGlobalProxy()) {
     PrototypeIterator iter(isolate(), receiver_);
     if (iter.IsAtEnd()) return Handle<JSGlobalProxy>::cast(receiver_);
     return Handle<JSGlobalObject>::cast(PrototypeIterator::GetCurrent(iter));
   }
   return Handle<JSObject>::cast(receiver_);
 }


 bool LookupIterator::IsBootstrapping() const {
   return isolate_->bootstrapper()->IsActive();
 }


 bool LookupIterator::HasAccess(v8::AccessType access_type) const {
   DCHECK_EQ(ACCESS_CHECK, state_);
   return isolate_->MayNamedAccess(GetHolder<JSObject>(), name_, access_type);
 }


 void LookupIterator::ReloadPropertyInformation() {
   state_ = BEFORE_PROPERTY;
   state_ = LookupInHolder(*holder_map_, *holder_);
   DCHECK(IsFound() || holder_map_->is_dictionary_map());
 }


 void LookupIterator::PrepareForDataProperty(Handle<Object> value) {
   DCHECK(state_ == DATA || state_ == ACCESSOR);
   DCHECK(HolderIsReceiverOrHiddenPrototype());
   if (holder_map_->is_dictionary_map()) return;
   holder_map_ =
       Map::PrepareForDataProperty(holder_map_, descriptor_number(), value);
   JSObject::MigrateToMap(GetHolder<JSObject>(), holder_map_);
   ReloadPropertyInformation();
 }


 void LookupIterator::ReconfigureDataProperty(Handle<Object> value,
                                              PropertyAttributes attributes) {
   DCHECK(state_ == DATA || state_ == ACCESSOR);
   DCHECK(HolderIsReceiverOrHiddenPrototype());
   Handle<JSObject> holder = GetHolder<JSObject>();
   if (holder_map_->is_dictionary_map()) {
     PropertyDetails details(attributes, NORMAL, 0);
     JSObject::SetNormalizedProperty(holder, name(), value, details);
   } else {
     holder_map_ = Map::ReconfigureDataProperty(holder_map_, descriptor_number(),
                                                attributes);
     JSObject::MigrateToMap(holder, holder_map_);
   }

   ReloadPropertyInformation();
 }


 void LookupIterator::PrepareTransitionToDataProperty(
     Handle<Object> value, PropertyAttributes attributes,
     Object::StoreFromKeyed store_mode) {
   if (state_ == TRANSITION) return;
   DCHECK(state_ != LookupIterator::ACCESSOR ||
          GetAccessors()->IsDeclaredAccessorInfo());
   DCHECK(state_ == NOT_FOUND || !HolderIsReceiverOrHiddenPrototype());

   // Can only be called when the receiver is a JSObject. JSProxy has to be
   // handled via a trap. Adding properties to primitive values is not
   // observable.
   Handle<JSObject> receiver = GetStoreTarget();

   if (!name().is_identical_to(isolate()->factory()->hidden_string()) &&
       !receiver->map()->is_extensible()) {
     return;
   }

   transition_map_ = Map::TransitionToDataProperty(
       handle(receiver->map(), isolate_), name_, value, attributes, store_mode);
   state_ = TRANSITION;
 }


 void LookupIterator::ApplyTransitionToDataProperty() {
   DCHECK_EQ(TRANSITION, state_);

   Handle<JSObject> receiver = GetStoreTarget();
   holder_ = receiver;
   holder_map_ = transition_map_;
   JSObject::MigrateToMap(receiver, holder_map_);
   ReloadPropertyInformation();
 }


 void LookupIterator::TransitionToAccessorProperty(
     AccessorComponent component, Handle<Object> accessor,
     PropertyAttributes attributes) {
   DCHECK(!accessor->IsNull());
   // Can only be called when the receiver is a JSObject. JSProxy has to be
   // handled via a trap. Adding properties to primitive values is not
   // observable.
   Handle<JSObject> receiver = GetStoreTarget();
   holder_ = receiver;
   holder_map_ =
       Map::TransitionToAccessorProperty(handle(receiver->map(), isolate_),
                                         name_, component, accessor, attributes);
   JSObject::MigrateToMap(receiver, holder_map_);

   ReloadPropertyInformation();

   if (!holder_map_->is_dictionary_map()) return;

   // We have to deoptimize since accesses to data properties may have been
   // inlined without a corresponding map-check.
   if (holder_map_->IsGlobalObjectMap()) {
     Deoptimizer::DeoptimizeGlobalObject(*receiver);
   }

   // Install the accessor into the dictionary-mode object.
   PropertyDetails details(attributes, CALLBACKS, 0);
   Handle<AccessorPair> pair;
   if (state() == ACCESSOR && GetAccessors()->IsAccessorPair()) {
     pair = Handle<AccessorPair>::cast(GetAccessors());
     // If the component and attributes are identical, nothing has to be done.
     if (pair->get(component) == *accessor) {
       if (property_details().attributes() == attributes) return;
     } else {
       pair = AccessorPair::Copy(pair);
       pair->set(component, *accessor);
     }
   } else {
     pair = isolate()->factory()->NewAccessorPair();
     pair->set(component, *accessor);
   }
   JSObject::SetNormalizedProperty(receiver, name_, pair, details);

   JSObject::ReoptimizeIfPrototype(receiver);
   holder_map_ = handle(receiver->map(), isolate_);
   ReloadPropertyInformation();
 }


 bool LookupIterator::HolderIsReceiverOrHiddenPrototype() const {
   DCHECK(has_property_ || state_ == INTERCEPTOR || state_ == JSPROXY);
   // Optimization that only works if configuration_ is not mutable.
   if (!check_prototype_chain()) return true;
   DisallowHeapAllocation no_gc;
   if (!receiver_->IsJSReceiver()) return false;
   Object* current = *receiver_;
   JSReceiver* holder = *holder_;
   // JSProxy do not occur as hidden prototypes.
   if (current->IsJSProxy()) {
     return JSReceiver::cast(current) == holder;
   }
   PrototypeIterator iter(isolate(), current,
                          PrototypeIterator::START_AT_RECEIVER);
   do {
     if (JSReceiver::cast(iter.GetCurrent()) == holder) return true;
     DCHECK(!current->IsJSProxy());
     iter.Advance();
   } while (!iter.IsAtEnd(PrototypeIterator::END_AT_NON_HIDDEN));
   return false;
 }


 Handle<Object> LookupIterator::FetchValue() const {
   Object* result = NULL;
   Handle<JSObject> holder = GetHolder<JSObject>();
   if (holder_map_->is_dictionary_map()) {
     result = holder->property_dictionary()->ValueAt(number_);
     if (holder_map_->IsGlobalObjectMap()) {
       result = PropertyCell::cast(result)->value();
     }
   } else if (property_details_.type() == v8::internal::FIELD) {
     FieldIndex field_index = FieldIndex::ForDescriptor(*holder_map_, number_);
     return JSObject::FastPropertyAt(holder, property_details_.representation(),
                                     field_index);
   } else {
     result = holder_map_->instance_descriptors()->GetValue(number_);
   }
   return handle(result, isolate_);
 }


 int LookupIterator::GetConstantIndex() const {
   DCHECK(has_property_);
   DCHECK(!holder_map_->is_dictionary_map());
   DCHECK_EQ(v8::internal::CONSTANT, property_details_.type());
   return descriptor_number();
 }


 FieldIndex LookupIterator::GetFieldIndex() const {
   DCHECK(has_property_);
   DCHECK(!holder_map_->is_dictionary_map());
   DCHECK_EQ(v8::internal::FIELD, property_details_.type());
   int index =
       holder_map_->instance_descriptors()->GetFieldIndex(descriptor_number());
   bool is_double = representation().IsDouble();
   return FieldIndex::ForPropertyIndex(*holder_map_, index, is_double);
 }


 Handle<HeapType> LookupIterator::GetFieldType() const {
   DCHECK(has_property_);
   DCHECK(!holder_map_->is_dictionary_map());
   DCHECK_EQ(v8::internal::FIELD, property_details_.type());
   return handle(
       holder_map_->instance_descriptors()->GetFieldType(descriptor_number()),
       isolate_);
 }


 Handle<PropertyCell> LookupIterator::GetPropertyCell() const {
   Handle<JSObject> holder = GetHolder<JSObject>();
   Handle<GlobalObject> global = Handle<GlobalObject>::cast(holder);
   Object* value = global->property_dictionary()->ValueAt(dictionary_entry());
   return Handle<PropertyCell>(PropertyCell::cast(value));
 }


 Handle<Object> LookupIterator::GetAccessors() const {
   DCHECK_EQ(ACCESSOR, state_);
   return FetchValue();
 }


 Handle<Object> LookupIterator::GetDataValue() const {
   DCHECK_EQ(DATA, state_);
   Handle<Object> value = FetchValue();
   return value;
 }


 void LookupIterator::WriteDataValue(Handle<Object> value) {
   DCHECK_EQ(DATA, state_);
   Handle<JSObject> holder = GetHolder<JSObject>();
   if (holder_map_->is_dictionary_map()) {
     NameDictionary* property_dictionary = holder->property_dictionary();
     if (holder->IsGlobalObject()) {
       Handle<PropertyCell> cell(
           PropertyCell::cast(property_dictionary->ValueAt(dictionary_entry())));
       PropertyCell::SetValueInferType(cell, value);
     } else {
       property_dictionary->ValueAtPut(dictionary_entry(), *value);
     }
   } else if (property_details_.type() == v8::internal::FIELD) {
     holder->WriteToField(descriptor_number(), *value);
   } else {
     DCHECK_EQ(v8::internal::CONSTANT, property_details_.type());
   }
 }


 bool LookupIterator::IsSpecialNumericIndex() const {
   if (GetStoreTarget()->IsJSTypedArray() && name()->IsString()) {
     Handle<String> name_string = Handle<String>::cast(name());
     if (name_string->length() > 0) {
       double d =
           StringToDouble(isolate()->unicode_cache(), name_string, NO_FLAGS);
       if (!std::isnan(d)) {
         if (String::Equals(isolate()->factory()->minus_zero_string(),
                            name_string))
           return true;

         Factory* factory = isolate()->factory();
         Handle<Object> num = factory->NewNumber(d);
         Handle<String> roundtrip_string = factory->NumberToString(num);
         if (String::Equals(name_string, roundtrip_string)) return true;
       }
     }
   }
   return false;
 }


 void LookupIterator::InternalizeName() {
   if (name_->IsUniqueName()) return;
   name_ = factory()->InternalizeString(Handle<String>::cast(name_));
 }
 } }  // namespace v8::internal
	// 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.

	#include "src/v8.h"

	#include "src/bootstrapper.h"
	#include "src/deoptimizer.h"
	#include "src/lookup.h"
	#include "src/lookup-inl.h"

	namespace v8 {
	namespace internal {


	void LookupIterator::Next() {
	DCHECK_NE(JSPROXY, state_);
	DCHECK_NE(TRANSITION, state_);
	DisallowHeapAllocation no_gc;
	has_property_ = false;

	JSReceiver* holder = *holder_;
	Map* map = *holder_map_;

	// Perform lookup on current holder.
	state_ = LookupInHolder(map, holder);
	if (IsFound()) return;

	// Continue lookup if lookup on current holder failed.
	do {
	JSReceiver* maybe_holder = NextHolder(map);
	if (maybe_holder == NULL) break;
	holder = maybe_holder;
	map = holder->map();
	state_ = LookupInHolder(map, holder);
	} while (!IsFound());

	if (holder != *holder_) {
	holder_ = handle(holder, isolate_);
	holder_map_ = handle(map, isolate_);
	}
	}


	Handle<JSReceiver> LookupIterator::GetRoot() const {
	if (receiver_->IsJSReceiver()) return Handle<JSReceiver>::cast(receiver_);
	Handle<Object> root =
	handle(receiver_->GetRootMap(isolate_)->prototype(), isolate_);
	CHECK(!root->IsNull());
	return Handle<JSReceiver>::cast(root);
	}


	Handle<Map> LookupIterator::GetReceiverMap() const {
	if (receiver_->IsNumber()) return isolate_->factory()->heap_number_map();
	return handle(Handle<HeapObject>::cast(receiver_)->map(), isolate_);
	}


	Handle<JSObject> LookupIterator::GetStoreTarget() const {
	if (receiver_->IsJSGlobalProxy()) {
	PrototypeIterator iter(isolate(), receiver_);
	if (iter.IsAtEnd()) return Handle<JSGlobalProxy>::cast(receiver_);
	return Handle<JSGlobalObject>::cast(PrototypeIterator::GetCurrent(iter));
	}
	return Handle<JSObject>::cast(receiver_);
	}


	bool LookupIterator::IsBootstrapping() const {
	return isolate_->bootstrapper()->IsActive();
	}


	bool LookupIterator::HasAccess(v8::AccessType access_type) const {
	DCHECK_EQ(ACCESS_CHECK, state_);
	return isolate_->MayNamedAccess(GetHolder<JSObject>(), name_, access_type);
	}


	void LookupIterator::ReloadPropertyInformation() {
	state_ = BEFORE_PROPERTY;
	state_ = LookupInHolder(holder_map_, holder_);
	DCHECK(IsFound() \|\| holder_map_->is_dictionary_map());
	}


	void LookupIterator::PrepareForDataProperty(Handle<Object> value) {
	DCHECK(state_ == DATA \|\| state_ == ACCESSOR);
	DCHECK(HolderIsReceiverOrHiddenPrototype());
	if (holder_map_->is_dictionary_map()) return;
	holder_map_ =
	Map::PrepareForDataProperty(holder_map_, descriptor_number(), value);
	JSObject::MigrateToMap(GetHolder<JSObject>(), holder_map_);
	ReloadPropertyInformation();
	}


	void LookupIterator::ReconfigureDataProperty(Handle<Object> value,
	PropertyAttributes attributes) {
	DCHECK(state_ == DATA \|\| state_ == ACCESSOR);
	DCHECK(HolderIsReceiverOrHiddenPrototype());
	Handle<JSObject> holder = GetHolder<JSObject>();
	if (holder_map_->is_dictionary_map()) {
	PropertyDetails details(attributes, NORMAL, 0);
	JSObject::SetNormalizedProperty(holder, name(), value, details);
	} else {
	holder_map_ = Map::ReconfigureDataProperty(holder_map_, descriptor_number(),
	attributes);
	JSObject::MigrateToMap(holder, holder_map_);
	}

	ReloadPropertyInformation();
	}


	void LookupIterator::PrepareTransitionToDataProperty(
	Handle<Object> value, PropertyAttributes attributes,
	Object::StoreFromKeyed store_mode) {
	if (state_ == TRANSITION) return;
	DCHECK(state_ != LookupIterator::ACCESSOR \|\|
	GetAccessors()->IsDeclaredAccessorInfo());
	DCHECK(state_ == NOT_FOUND \|\| !HolderIsReceiverOrHiddenPrototype());

	// Can only be called when the receiver is a JSObject. JSProxy has to be
	// handled via a trap. Adding properties to primitive values is not
	// observable.
	Handle<JSObject> receiver = GetStoreTarget();

	if (!name().is_identical_to(isolate()->factory()->hidden_string()) &&
	!receiver->map()->is_extensible()) {
	return;
	}

	transition_map_ = Map::TransitionToDataProperty(
	handle(receiver->map(), isolate_), name_, value, attributes, store_mode);
	state_ = TRANSITION;
	}


	void LookupIterator::ApplyTransitionToDataProperty() {
	DCHECK_EQ(TRANSITION, state_);

	Handle<JSObject> receiver = GetStoreTarget();
	holder_ = receiver;
	holder_map_ = transition_map_;
	JSObject::MigrateToMap(receiver, holder_map_);
	ReloadPropertyInformation();
	}


	void LookupIterator::TransitionToAccessorProperty(
	AccessorComponent component, Handle<Object> accessor,
	PropertyAttributes attributes) {
	DCHECK(!accessor->IsNull());
	// Can only be called when the receiver is a JSObject. JSProxy has to be
	// handled via a trap. Adding properties to primitive values is not
	// observable.
	Handle<JSObject> receiver = GetStoreTarget();
	holder_ = receiver;
	holder_map_ =
	Map::TransitionToAccessorProperty(handle(receiver->map(), isolate_),
	name_, component, accessor, attributes);
	JSObject::MigrateToMap(receiver, holder_map_);

	ReloadPropertyInformation();

	if (!holder_map_->is_dictionary_map()) return;

	// We have to deoptimize since accesses to data properties may have been
	// inlined without a corresponding map-check.
	if (holder_map_->IsGlobalObjectMap()) {
	Deoptimizer::DeoptimizeGlobalObject(*receiver);
	}

	// Install the accessor into the dictionary-mode object.
	PropertyDetails details(attributes, CALLBACKS, 0);
	Handle<AccessorPair> pair;
	if (state() == ACCESSOR && GetAccessors()->IsAccessorPair()) {
	pair = Handle<AccessorPair>::cast(GetAccessors());
	// If the component and attributes are identical, nothing has to be done.
	if (pair->get(component) == *accessor) {
	if (property_details().attributes() == attributes) return;
	} else {
	pair = AccessorPair::Copy(pair);
	pair->set(component, *accessor);
	}
	} else {
	pair = isolate()->factory()->NewAccessorPair();
	pair->set(component, *accessor);
	}
	JSObject::SetNormalizedProperty(receiver, name_, pair, details);

	JSObject::ReoptimizeIfPrototype(receiver);
	holder_map_ = handle(receiver->map(), isolate_);
	ReloadPropertyInformation();
	}


	bool LookupIterator::HolderIsReceiverOrHiddenPrototype() const {
	DCHECK(has_property_ \|\| state_ == INTERCEPTOR \|\| state_ == JSPROXY);
	// Optimization that only works if configuration_ is not mutable.
	if (!check_prototype_chain()) return true;
	DisallowHeapAllocation no_gc;
	if (!receiver_->IsJSReceiver()) return false;
	Object* current = *receiver_;
	JSReceiver* holder = *holder_;
	// JSProxy do not occur as hidden prototypes.
	if (current->IsJSProxy()) {
	return JSReceiver::cast(current) == holder;
	}
	PrototypeIterator iter(isolate(), current,
	PrototypeIterator::START_AT_RECEIVER);
	do {
	if (JSReceiver::cast(iter.GetCurrent()) == holder) return true;
	DCHECK(!current->IsJSProxy());
	iter.Advance();
	} while (!iter.IsAtEnd(PrototypeIterator::END_AT_NON_HIDDEN));
	return false;
	}


	Handle<Object> LookupIterator::FetchValue() const {
	Object* result = NULL;
	Handle<JSObject> holder = GetHolder<JSObject>();
	if (holder_map_->is_dictionary_map()) {
	result = holder->property_dictionary()->ValueAt(number_);
	if (holder_map_->IsGlobalObjectMap()) {
	result = PropertyCell::cast(result)->value();
	}
	} else if (property_details_.type() == v8::internal::FIELD) {
	FieldIndex field_index = FieldIndex::ForDescriptor(*holder_map_, number_);
	return JSObject::FastPropertyAt(holder, property_details_.representation(),
	field_index);
	} else {
	result = holder_map_->instance_descriptors()->GetValue(number_);
	}
	return handle(result, isolate_);
	}


	int LookupIterator::GetConstantIndex() const {
	DCHECK(has_property_);
	DCHECK(!holder_map_->is_dictionary_map());
	DCHECK_EQ(v8::internal::CONSTANT, property_details_.type());
	return descriptor_number();
	}


	FieldIndex LookupIterator::GetFieldIndex() const {
	DCHECK(has_property_);
	DCHECK(!holder_map_->is_dictionary_map());
	DCHECK_EQ(v8::internal::FIELD, property_details_.type());
	int index =
	holder_map_->instance_descriptors()->GetFieldIndex(descriptor_number());
	bool is_double = representation().IsDouble();
	return FieldIndex::ForPropertyIndex(*holder_map_, index, is_double);
	}


	Handle<HeapType> LookupIterator::GetFieldType() const {
	DCHECK(has_property_);
	DCHECK(!holder_map_->is_dictionary_map());
	DCHECK_EQ(v8::internal::FIELD, property_details_.type());
	return handle(
	holder_map_->instance_descriptors()->GetFieldType(descriptor_number()),
	isolate_);
	}


	Handle<PropertyCell> LookupIterator::GetPropertyCell() const {
	Handle<JSObject> holder = GetHolder<JSObject>();
	Handle<GlobalObject> global = Handle<GlobalObject>::cast(holder);
	Object* value = global->property_dictionary()->ValueAt(dictionary_entry());
	return Handle<PropertyCell>(PropertyCell::cast(value));
	}


	Handle<Object> LookupIterator::GetAccessors() const {
	DCHECK_EQ(ACCESSOR, state_);
	return FetchValue();
	}


	Handle<Object> LookupIterator::GetDataValue() const {
	DCHECK_EQ(DATA, state_);
	Handle<Object> value = FetchValue();
	return value;
	}


	void LookupIterator::WriteDataValue(Handle<Object> value) {
	DCHECK_EQ(DATA, state_);
	Handle<JSObject> holder = GetHolder<JSObject>();
	if (holder_map_->is_dictionary_map()) {
	NameDictionary* property_dictionary = holder->property_dictionary();
	if (holder->IsGlobalObject()) {
	Handle<PropertyCell> cell(
	PropertyCell::cast(property_dictionary->ValueAt(dictionary_entry())));
	PropertyCell::SetValueInferType(cell, value);
	} else {
	property_dictionary->ValueAtPut(dictionary_entry(), *value);
	}
	} else if (property_details_.type() == v8::internal::FIELD) {
	holder->WriteToField(descriptor_number(), *value);
	} else {
	DCHECK_EQ(v8::internal::CONSTANT, property_details_.type());
	}
	}


	bool LookupIterator::IsSpecialNumericIndex() const {
	if (GetStoreTarget()->IsJSTypedArray() && name()->IsString()) {
	Handle<String> name_string = Handle<String>::cast(name());
	if (name_string->length() > 0) {
	double d =
	StringToDouble(isolate()->unicode_cache(), name_string, NO_FLAGS);
	if (!std::isnan(d)) {
	if (String::Equals(isolate()->factory()->minus_zero_string(),
	name_string))
	return true;

	Factory* factory = isolate()->factory();
	Handle<Object> num = factory->NewNumber(d);
	Handle<String> roundtrip_string = factory->NumberToString(num);
	if (String::Equals(name_string, roundtrip_string)) return true;
	}
	}
	}
	return false;
	}


	void LookupIterator::InternalizeName() {
	if (name_->IsUniqueName()) return;
	name_ = factory()->InternalizeString(Handle<String>::cast(name_));
	}
	} } // namespace v8::internal