runtime/vm/handles_impl.h - sdk.git - Git at Google

 // Copyright (c) 2012, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef RUNTIME_VM_HANDLES_IMPL_H_
 #define RUNTIME_VM_HANDLES_IMPL_H_

 #include "vm/heap/heap.h"
 #include "vm/thread.h"
 #include "vm/visitor.h"

 namespace dart {

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     VisitObjectPointers(ObjectPointerVisitor* visitor) {
   // Visit all zone handles.
   HandlesBlock* block = zone_blocks_;
   while (block != NULL) {
     block->VisitObjectPointers(visitor);
     block = block->next_block();
   }

   // Visit all scoped handles.
   VisitScopedHandles(visitor);
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     VisitScopedHandles(ObjectPointerVisitor* visitor) {
   HandlesBlock* block = &first_scoped_block_;
   do {
     block->VisitObjectPointers(visitor);
     if (block == scoped_blocks_) {
       return;
     }
     block = block->next_block();
   } while (block != NULL);
   UNREACHABLE();
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::Visit(
     HandleVisitor* visitor) {
   // Visit all zone handles.
   HandlesBlock* block = zone_blocks_;
   while (block != NULL) {
     block->Visit(visitor);
     block = block->next_block();
   }

   // Visit all scoped handles.
   block = &first_scoped_block_;
   do {
     block->Visit(visitor);
     block = block->next_block();
   } while (block != NULL);
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::Reset() {
   // Delete all the extra zone handle blocks allocated and reinit the first
   // zone block.
   if (zone_blocks_ != NULL) {
     DeleteHandleBlocks(zone_blocks_->next_block());
     zone_blocks_->ReInit();
   }

   // Delete all the extra scoped handle blocks allocated and reinit the first
   // scoped block.
   DeleteHandleBlocks(first_scoped_block_.next_block());
   first_scoped_block_.ReInit();
   scoped_blocks_ = &first_scoped_block_;
 }

 // Figure out the current handle scope using the current Zone and
 // allocate a handle in that scope. The function assumes that a
 // current handle scope exists. It asserts for this appropriately.
 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 uword Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     AllocateHandle(Zone* zone) {
 #if defined(DEBUG)
   Thread* thread = Thread::Current();
   ASSERT(thread->MayAllocateHandles());
 #endif  // DEBUG
   Handles* handles = zone->handles();
   ASSERT(handles != NULL);
   return handles->AllocateScopedHandle();
 }

 // The function assumes that 'zone' is the current zone and asserts for
 // this appropriately.
 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 uword Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     AllocateZoneHandle(Zone* zone) {
 #if defined(DEBUG)
   Thread* thread = Thread::Current();
   ASSERT(zone->ContainsNestedZone(thread->zone()));
   ASSERT(thread->MayAllocateHandles());
 #endif  // DEBUG
   Handles* handles = zone->handles();
   ASSERT(handles != NULL);
   uword address = handles->AllocateHandleInZone();
   return address;
 }

 // Figure out the current zone using the current Thread and
 // check if the specified handle has been allocated in this zone.
 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 bool Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     IsZoneHandle(uword handle) {
   // TODO(5411412): Accessing the current thread is a performance problem,
   // consider passing it down as a parameter.
   Thread* thread = Thread::Current();
   ASSERT(thread != NULL);
   ASSERT(thread->zone() != NULL);
   Handles* handles = thread->zone()->handles();
   ASSERT(handles != NULL);
   return handles->IsValidZoneHandle(handle);
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     DeleteAll() {
   // Delete all the zone allocated handle blocks.
   // GCTrace does not need to trace this call to DeleteHandleBlocks,
   // since the individual zone deletions will be caught
   // by instrumentation in the BaseZone destructor.
   DeleteHandleBlocks(zone_blocks_);
   zone_blocks_ = NULL;

   // Delete all the scoped handle blocks.
   scoped_blocks_ = first_scoped_block_.next_block();
   DeleteHandleBlocks(scoped_blocks_);
   first_scoped_block_.ReInit();
   scoped_blocks_ = &first_scoped_block_;
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     DeleteHandleBlocks(HandlesBlock* blocks) {
   while (blocks != NULL) {
     HandlesBlock* block = blocks;
     blocks = blocks->next_block();
     delete block;
   }
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     SetupNextScopeBlock() {
   if (FLAG_trace_handles) {
     OS::PrintErr("***   Handle Counts for (0x%" Px "):Zone = %d,Scoped = %d\n",
                  reinterpret_cast<intptr_t>(this), CountZoneHandles(),
                  CountScopedHandles());
   }
   if (scoped_blocks_->next_block() == NULL) {
     HandlesBlock* block = new HandlesBlock(NULL);
     scoped_blocks_->set_next_block(block);
   }
   scoped_blocks_ = scoped_blocks_->next_block();
   scoped_blocks_->set_next_handle_slot(0);
 #if defined(DEBUG)
   scoped_blocks_->ZapFreeHandles();
 #endif
 }

 // Validation of the handle involves iterating through all the
 // handle blocks to check if the handle is valid, please
 // use this only in ASSERT code for verification purposes.
 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 bool Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     IsValidScopedHandle(uword handle) const {
   const HandlesBlock* iterator = &first_scoped_block_;
   while (iterator != NULL) {
     if (iterator->IsValidHandle(handle)) {
       return true;
     }
     iterator = iterator->next_block();
   }
   return false;
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 bool Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     IsValidZoneHandle(uword handle) const {
   const HandlesBlock* iterator = zone_blocks_;
   while (iterator != NULL) {
     if (iterator->IsValidHandle(handle)) {
       return true;
     }
     iterator = iterator->next_block();
   }
   return false;
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     SetupNextZoneBlock() {
   if (FLAG_trace_handles) {
     OS::PrintErr("***   Handle Counts for (0x%" Px "):Zone = %d,Scoped = %d\n",
                  reinterpret_cast<intptr_t>(this), CountZoneHandles(),
                  CountScopedHandles());
   }
   zone_blocks_ = new HandlesBlock(zone_blocks_);
 }

 #if defined(DEBUG)
 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     VerifyScopedHandleState() {
   HandlesBlock* block = &first_scoped_block_;
   const intptr_t end_index = (kHandleSizeInWords * kHandlesPerChunk);
   do {
     if (scoped_blocks_ == block && block->next_handle_slot() <= end_index) {
       return;
     }
     block = block->next_block();
   } while (block != NULL);
   ASSERT(false);
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     ZapFreeScopedHandles() {
   HandlesBlock* block = scoped_blocks_;
   while (block != NULL) {
     block->ZapFreeHandles();
     block = block->next_block();
   }
 }
 #endif

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 int Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     CountScopedHandles() const {
   int count = 0;
   const HandlesBlock* block = &first_scoped_block_;
   do {
     count += block->HandleCount();
     if (block == scoped_blocks_) {
       return count;
     }
     block = block->next_block();
   } while (block != NULL);
   UNREACHABLE();
   return 0;
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 int Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     CountZoneHandles() const {
   int count = 0;
   const HandlesBlock* block = zone_blocks_;
   while (block != NULL) {
     count += block->HandleCount();
     block = block->next_block();
   }
   return count;
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::HandlesBlock::
     ~HandlesBlock() {
 #if defined(DEBUG)
   ReInit();
 #endif
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     HandlesBlock::ReInit() {
   next_handle_slot_ = 0;
   next_block_ = NULL;
 #if defined(DEBUG)
   ZapFreeHandles();
 #endif
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     HandlesBlock::VisitObjectPointers(ObjectPointerVisitor* visitor) {
   ASSERT(visitor != NULL);
   for (intptr_t i = 0; i < next_handle_slot_; i += kHandleSizeInWords) {
     visitor->VisitPointer(
         reinterpret_cast<ObjectPtr*>(&data_[i + kOffsetOfRawPtr / kWordSize]));
   }
 }

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     HandlesBlock::Visit(HandleVisitor* visitor) {
   ASSERT(visitor != NULL);
   for (intptr_t i = 0; i < next_handle_slot_; i += kHandleSizeInWords) {
     visitor->VisitHandle(reinterpret_cast<uword>(&data_[i]));
   }
 }

 #if defined(DEBUG)
 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     HandlesBlock::ZapFreeHandles() {
   // Reinitialize the handle area to some uninitialized value.
   for (intptr_t i = next_handle_slot_;
        i < (kHandleSizeInWords * kHandlesPerChunk); i++) {
     data_[i] = kZapUninitializedWord;
   }
 }
 #endif

 template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
 int Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
     HandlesBlock::HandleCount() const {
   return (next_handle_slot_ / kHandleSizeInWords);
 }

 }  // namespace dart

 #endif  // RUNTIME_VM_HANDLES_IMPL_H_
	// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef RUNTIME_VM_HANDLES_IMPL_H_
	#define RUNTIME_VM_HANDLES_IMPL_H_

	#include "vm/heap/heap.h"
	#include "vm/thread.h"
	#include "vm/visitor.h"

	namespace dart {

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	VisitObjectPointers(ObjectPointerVisitor* visitor) {
	// Visit all zone handles.
	HandlesBlock* block = zone_blocks_;
	while (block != NULL) {
	block->VisitObjectPointers(visitor);
	block = block->next_block();
	}

	// Visit all scoped handles.
	VisitScopedHandles(visitor);
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	VisitScopedHandles(ObjectPointerVisitor* visitor) {
	HandlesBlock* block = &first_scoped_block_;
	do {
	block->VisitObjectPointers(visitor);
	if (block == scoped_blocks_) {
	return;
	}
	block = block->next_block();
	} while (block != NULL);
	UNREACHABLE();
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::Visit(
	HandleVisitor* visitor) {
	// Visit all zone handles.
	HandlesBlock* block = zone_blocks_;
	while (block != NULL) {
	block->Visit(visitor);
	block = block->next_block();
	}

	// Visit all scoped handles.
	block = &first_scoped_block_;
	do {
	block->Visit(visitor);
	block = block->next_block();
	} while (block != NULL);
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::Reset() {
	// Delete all the extra zone handle blocks allocated and reinit the first
	// zone block.
	if (zone_blocks_ != NULL) {
	DeleteHandleBlocks(zone_blocks_->next_block());
	zone_blocks_->ReInit();
	}

	// Delete all the extra scoped handle blocks allocated and reinit the first
	// scoped block.
	DeleteHandleBlocks(first_scoped_block_.next_block());
	first_scoped_block_.ReInit();
	scoped_blocks_ = &first_scoped_block_;
	}

	// Figure out the current handle scope using the current Zone and
	// allocate a handle in that scope. The function assumes that a
	// current handle scope exists. It asserts for this appropriately.
	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	uword Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	AllocateHandle(Zone* zone) {
	#if defined(DEBUG)
	Thread* thread = Thread::Current();
	ASSERT(thread->MayAllocateHandles());
	#endif // DEBUG
	Handles* handles = zone->handles();
	ASSERT(handles != NULL);
	return handles->AllocateScopedHandle();
	}

	// The function assumes that 'zone' is the current zone and asserts for
	// this appropriately.
	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	uword Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	AllocateZoneHandle(Zone* zone) {
	#if defined(DEBUG)
	Thread* thread = Thread::Current();
	ASSERT(zone->ContainsNestedZone(thread->zone()));
	ASSERT(thread->MayAllocateHandles());
	#endif // DEBUG
	Handles* handles = zone->handles();
	ASSERT(handles != NULL);
	uword address = handles->AllocateHandleInZone();
	return address;
	}

	// Figure out the current zone using the current Thread and
	// check if the specified handle has been allocated in this zone.
	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	bool Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	IsZoneHandle(uword handle) {
	// TODO(5411412): Accessing the current thread is a performance problem,
	// consider passing it down as a parameter.
	Thread* thread = Thread::Current();
	ASSERT(thread != NULL);
	ASSERT(thread->zone() != NULL);
	Handles* handles = thread->zone()->handles();
	ASSERT(handles != NULL);
	return handles->IsValidZoneHandle(handle);
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	DeleteAll() {
	// Delete all the zone allocated handle blocks.
	// GCTrace does not need to trace this call to DeleteHandleBlocks,
	// since the individual zone deletions will be caught
	// by instrumentation in the BaseZone destructor.
	DeleteHandleBlocks(zone_blocks_);
	zone_blocks_ = NULL;

	// Delete all the scoped handle blocks.
	scoped_blocks_ = first_scoped_block_.next_block();
	DeleteHandleBlocks(scoped_blocks_);
	first_scoped_block_.ReInit();
	scoped_blocks_ = &first_scoped_block_;
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	DeleteHandleBlocks(HandlesBlock* blocks) {
	while (blocks != NULL) {
	HandlesBlock* block = blocks;
	blocks = blocks->next_block();
	delete block;
	}
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	SetupNextScopeBlock() {
	if (FLAG_trace_handles) {
	OS::PrintErr("*** Handle Counts for (0x%" Px "):Zone = %d,Scoped = %d\n",
	reinterpret_cast<intptr_t>(this), CountZoneHandles(),
	CountScopedHandles());
	}
	if (scoped_blocks_->next_block() == NULL) {
	HandlesBlock* block = new HandlesBlock(NULL);
	scoped_blocks_->set_next_block(block);
	}
	scoped_blocks_ = scoped_blocks_->next_block();
	scoped_blocks_->set_next_handle_slot(0);
	#if defined(DEBUG)
	scoped_blocks_->ZapFreeHandles();
	#endif
	}

	// Validation of the handle involves iterating through all the
	// handle blocks to check if the handle is valid, please
	// use this only in ASSERT code for verification purposes.
	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	bool Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	IsValidScopedHandle(uword handle) const {
	const HandlesBlock* iterator = &first_scoped_block_;
	while (iterator != NULL) {
	if (iterator->IsValidHandle(handle)) {
	return true;
	}
	iterator = iterator->next_block();
	}
	return false;
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	bool Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	IsValidZoneHandle(uword handle) const {
	const HandlesBlock* iterator = zone_blocks_;
	while (iterator != NULL) {
	if (iterator->IsValidHandle(handle)) {
	return true;
	}
	iterator = iterator->next_block();
	}
	return false;
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	SetupNextZoneBlock() {
	if (FLAG_trace_handles) {
	OS::PrintErr("*** Handle Counts for (0x%" Px "):Zone = %d,Scoped = %d\n",
	reinterpret_cast<intptr_t>(this), CountZoneHandles(),
	CountScopedHandles());
	}
	zone_blocks_ = new HandlesBlock(zone_blocks_);
	}

	#if defined(DEBUG)
	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	VerifyScopedHandleState() {
	HandlesBlock* block = &first_scoped_block_;
	const intptr_t end_index = (kHandleSizeInWords * kHandlesPerChunk);
	do {
	if (scoped_blocks_ == block && block->next_handle_slot() <= end_index) {
	return;
	}
	block = block->next_block();
	} while (block != NULL);
	ASSERT(false);
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	ZapFreeScopedHandles() {
	HandlesBlock* block = scoped_blocks_;
	while (block != NULL) {
	block->ZapFreeHandles();
	block = block->next_block();
	}
	}
	#endif

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	int Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	CountScopedHandles() const {
	int count = 0;
	const HandlesBlock* block = &first_scoped_block_;
	do {
	count += block->HandleCount();
	if (block == scoped_blocks_) {
	return count;
	}
	block = block->next_block();
	} while (block != NULL);
	UNREACHABLE();
	return 0;
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	int Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	CountZoneHandles() const {
	int count = 0;
	const HandlesBlock* block = zone_blocks_;
	while (block != NULL) {
	count += block->HandleCount();
	block = block->next_block();
	}
	return count;
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::HandlesBlock::
	~HandlesBlock() {
	#if defined(DEBUG)
	ReInit();
	#endif
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	HandlesBlock::ReInit() {
	next_handle_slot_ = 0;
	next_block_ = NULL;
	#if defined(DEBUG)
	ZapFreeHandles();
	#endif
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	HandlesBlock::VisitObjectPointers(ObjectPointerVisitor* visitor) {
	ASSERT(visitor != NULL);
	for (intptr_t i = 0; i < next_handle_slot_; i += kHandleSizeInWords) {
	visitor->VisitPointer(
	reinterpret_cast<ObjectPtr*>(&data_[i + kOffsetOfRawPtr / kWordSize]));
	}
	}

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	HandlesBlock::Visit(HandleVisitor* visitor) {
	ASSERT(visitor != NULL);
	for (intptr_t i = 0; i < next_handle_slot_; i += kHandleSizeInWords) {
	visitor->VisitHandle(reinterpret_cast<uword>(&data_[i]));
	}
	}

	#if defined(DEBUG)
	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	void Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	HandlesBlock::ZapFreeHandles() {
	// Reinitialize the handle area to some uninitialized value.
	for (intptr_t i = next_handle_slot_;
	i < (kHandleSizeInWords * kHandlesPerChunk); i++) {
	data_[i] = kZapUninitializedWord;
	}
	}
	#endif

	template <int kHandleSizeInWords, int kHandlesPerChunk, int kOffsetOfRawPtr>
	int Handles<kHandleSizeInWords, kHandlesPerChunk, kOffsetOfRawPtr>::
	HandlesBlock::HandleCount() const {
	return (next_handle_slot_ / kHandleSizeInWords);
	}

	} // namespace dart

	#endif // RUNTIME_VM_HANDLES_IMPL_H_