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

 // Copyright 2012 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/objects.h"
 #include "src/transitions-inl.h"
 #include "src/utils.h"

 namespace v8 {
 namespace internal {


 Handle<TransitionArray> TransitionArray::Allocate(Isolate* isolate,
                                                   int number_of_transitions) {
   Handle<FixedArray> array =
       isolate->factory()->NewFixedArray(ToKeyIndex(number_of_transitions));
   array->set(kPrototypeTransitionsIndex, Smi::FromInt(0));
   return Handle<TransitionArray>::cast(array);
 }


 Handle<TransitionArray> TransitionArray::AllocateSimple(Isolate* isolate,
                                                         Handle<Map> target) {
   Handle<FixedArray> array =
       isolate->factory()->NewFixedArray(kSimpleTransitionSize);
   array->set(kSimpleTransitionTarget, *target);
   return Handle<TransitionArray>::cast(array);
 }


 void TransitionArray::NoIncrementalWriteBarrierCopyFrom(TransitionArray* origin,
                                                         int origin_transition,
                                                         int target_transition) {
   NoIncrementalWriteBarrierSet(target_transition,
                                origin->GetKey(origin_transition),
                                origin->GetTarget(origin_transition));
 }


 static bool InsertionPointFound(Name* key1, Name* key2) {
   return key1->Hash() > key2->Hash();
 }


 Handle<TransitionArray> TransitionArray::NewWith(Handle<Map> map,
                                                  Handle<Name> name,
                                                  Handle<Map> target,
                                                  SimpleTransitionFlag flag) {
   Handle<TransitionArray> result;
   Isolate* isolate = name->GetIsolate();

   if (flag == SIMPLE_TRANSITION) {
     result = AllocateSimple(isolate, target);
   } else {
     result = Allocate(isolate, 1);
     result->NoIncrementalWriteBarrierSet(0, *name, *target);
   }
   result->set_back_pointer_storage(map->GetBackPointer());
   return result;
 }


 Handle<TransitionArray> TransitionArray::ExtendToFullTransitionArray(
     Handle<Map> containing_map) {
   ASSERT(!containing_map->transitions()->IsFullTransitionArray());
   int nof = containing_map->transitions()->number_of_transitions();

   // A transition array may shrink during GC.
   Handle<TransitionArray> result = Allocate(containing_map->GetIsolate(), nof);
   DisallowHeapAllocation no_gc;
   int new_nof = containing_map->transitions()->number_of_transitions();
   if (new_nof != nof) {
     ASSERT(new_nof == 0);
     result->Shrink(ToKeyIndex(0));
   } else if (nof == 1) {
     result->NoIncrementalWriteBarrierCopyFrom(
         containing_map->transitions(), kSimpleTransitionIndex, 0);
   }

   result->set_back_pointer_storage(
       containing_map->transitions()->back_pointer_storage());
   return result;
 }


 Handle<TransitionArray> TransitionArray::CopyInsert(Handle<Map> map,
                                                     Handle<Name> name,
                                                     Handle<Map> target,
                                                     SimpleTransitionFlag flag) {
   if (!map->HasTransitionArray()) {
     return TransitionArray::NewWith(map, name, target, flag);
   }

   int number_of_transitions = map->transitions()->number_of_transitions();
   int new_size = number_of_transitions;

   int insertion_index = map->transitions()->Search(*name);
   if (insertion_index == kNotFound) ++new_size;

   Handle<TransitionArray> result = Allocate(map->GetIsolate(), new_size);

   // The map's transition array may grown smaller during the allocation above as
   // it was weakly traversed, though it is guaranteed not to disappear. Trim the
   // result copy if needed, and recompute variables.
   ASSERT(map->HasTransitionArray());
   DisallowHeapAllocation no_gc;
   TransitionArray* array = map->transitions();
   if (array->number_of_transitions() != number_of_transitions) {
     ASSERT(array->number_of_transitions() < number_of_transitions);

     number_of_transitions = array->number_of_transitions();
     new_size = number_of_transitions;

     insertion_index = array->Search(*name);
     if (insertion_index == kNotFound) ++new_size;

     result->Shrink(ToKeyIndex(new_size));
   }

   if (array->HasPrototypeTransitions()) {
     result->SetPrototypeTransitions(array->GetPrototypeTransitions());
   }

   if (insertion_index != kNotFound) {
     for (int i = 0; i < number_of_transitions; ++i) {
       if (i != insertion_index) {
         result->NoIncrementalWriteBarrierCopyFrom(array, i, i);
       }
     }
     result->NoIncrementalWriteBarrierSet(insertion_index, *name, *target);
     result->set_back_pointer_storage(array->back_pointer_storage());
     return result;
   }

   insertion_index = 0;
   for (; insertion_index < number_of_transitions; ++insertion_index) {
     if (InsertionPointFound(array->GetKey(insertion_index), *name)) break;
     result->NoIncrementalWriteBarrierCopyFrom(
         array, insertion_index, insertion_index);
   }

   result->NoIncrementalWriteBarrierSet(insertion_index, *name, *target);

   for (; insertion_index < number_of_transitions; ++insertion_index) {
     result->NoIncrementalWriteBarrierCopyFrom(
         array, insertion_index, insertion_index + 1);
   }

   result->set_back_pointer_storage(array->back_pointer_storage());
   return result;
 }


 } }  // namespace v8::internal
	// Copyright 2012 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/objects.h"
	#include "src/transitions-inl.h"
	#include "src/utils.h"

	namespace v8 {
	namespace internal {


	Handle<TransitionArray> TransitionArray::Allocate(Isolate* isolate,
	int number_of_transitions) {
	Handle<FixedArray> array =
	isolate->factory()->NewFixedArray(ToKeyIndex(number_of_transitions));
	array->set(kPrototypeTransitionsIndex, Smi::FromInt(0));
	return Handle<TransitionArray>::cast(array);
	}


	Handle<TransitionArray> TransitionArray::AllocateSimple(Isolate* isolate,
	Handle<Map> target) {
	Handle<FixedArray> array =
	isolate->factory()->NewFixedArray(kSimpleTransitionSize);
	array->set(kSimpleTransitionTarget, *target);
	return Handle<TransitionArray>::cast(array);
	}


	void TransitionArray::NoIncrementalWriteBarrierCopyFrom(TransitionArray* origin,
	int origin_transition,
	int target_transition) {
	NoIncrementalWriteBarrierSet(target_transition,
	origin->GetKey(origin_transition),
	origin->GetTarget(origin_transition));
	}


	static bool InsertionPointFound(Name* key1, Name* key2) {
	return key1->Hash() > key2->Hash();
	}


	Handle<TransitionArray> TransitionArray::NewWith(Handle<Map> map,
	Handle<Name> name,
	Handle<Map> target,
	SimpleTransitionFlag flag) {
	Handle<TransitionArray> result;
	Isolate* isolate = name->GetIsolate();

	if (flag == SIMPLE_TRANSITION) {
	result = AllocateSimple(isolate, target);
	} else {
	result = Allocate(isolate, 1);
	result->NoIncrementalWriteBarrierSet(0, name, target);
	}
	result->set_back_pointer_storage(map->GetBackPointer());
	return result;
	}


	Handle<TransitionArray> TransitionArray::ExtendToFullTransitionArray(
	Handle<Map> containing_map) {
	ASSERT(!containing_map->transitions()->IsFullTransitionArray());
	int nof = containing_map->transitions()->number_of_transitions();

	// A transition array may shrink during GC.
	Handle<TransitionArray> result = Allocate(containing_map->GetIsolate(), nof);
	DisallowHeapAllocation no_gc;
	int new_nof = containing_map->transitions()->number_of_transitions();
	if (new_nof != nof) {
	ASSERT(new_nof == 0);
	result->Shrink(ToKeyIndex(0));
	} else if (nof == 1) {
	result->NoIncrementalWriteBarrierCopyFrom(
	containing_map->transitions(), kSimpleTransitionIndex, 0);
	}

	result->set_back_pointer_storage(
	containing_map->transitions()->back_pointer_storage());
	return result;
	}


	Handle<TransitionArray> TransitionArray::CopyInsert(Handle<Map> map,
	Handle<Name> name,
	Handle<Map> target,
	SimpleTransitionFlag flag) {
	if (!map->HasTransitionArray()) {
	return TransitionArray::NewWith(map, name, target, flag);
	}

	int number_of_transitions = map->transitions()->number_of_transitions();
	int new_size = number_of_transitions;

	int insertion_index = map->transitions()->Search(*name);
	if (insertion_index == kNotFound) ++new_size;

	Handle<TransitionArray> result = Allocate(map->GetIsolate(), new_size);

	// The map's transition array may grown smaller during the allocation above as
	// it was weakly traversed, though it is guaranteed not to disappear. Trim the
	// result copy if needed, and recompute variables.
	ASSERT(map->HasTransitionArray());
	DisallowHeapAllocation no_gc;
	TransitionArray* array = map->transitions();
	if (array->number_of_transitions() != number_of_transitions) {
	ASSERT(array->number_of_transitions() < number_of_transitions);

	number_of_transitions = array->number_of_transitions();
	new_size = number_of_transitions;

	insertion_index = array->Search(*name);
	if (insertion_index == kNotFound) ++new_size;

	result->Shrink(ToKeyIndex(new_size));
	}

	if (array->HasPrototypeTransitions()) {
	result->SetPrototypeTransitions(array->GetPrototypeTransitions());
	}

	if (insertion_index != kNotFound) {
	for (int i = 0; i < number_of_transitions; ++i) {
	if (i != insertion_index) {
	result->NoIncrementalWriteBarrierCopyFrom(array, i, i);
	}
	}
	result->NoIncrementalWriteBarrierSet(insertion_index, name, target);
	result->set_back_pointer_storage(array->back_pointer_storage());
	return result;
	}

	insertion_index = 0;
	for (; insertion_index < number_of_transitions; ++insertion_index) {
	if (InsertionPointFound(array->GetKey(insertion_index), *name)) break;
	result->NoIncrementalWriteBarrierCopyFrom(
	array, insertion_index, insertion_index);
	}

	result->NoIncrementalWriteBarrierSet(insertion_index, name, target);

	for (; insertion_index < number_of_transitions; ++insertion_index) {
	result->NoIncrementalWriteBarrierCopyFrom(
	array, insertion_index, insertion_index + 1);
	}

	result->set_back_pointer_storage(array->back_pointer_storage());
	return result;
	}


	} } // namespace v8::internal