cc/base/list_container_helper.h - chromium/src - Git at Google

 // Copyright 2015 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef CC_BASE_LIST_CONTAINER_HELPER_H_
 #define CC_BASE_LIST_CONTAINER_HELPER_H_

 #include <stddef.h>

 #include <memory>

 #include "base/macros.h"
 #include "cc/base/base_export.h"

 namespace cc {

 // Helper class for ListContainer non-templated logic. All methods are private,
 // and only exposed to friend classes.
 // For usage, see comments in ListContainer (list_container.h).
 class CC_BASE_EXPORT ListContainerHelper final {
  private:
   template <typename T>
   friend class ListContainer;

   explicit ListContainerHelper(size_t alignment,
                                size_t max_size_for_derived_class,
                                size_t num_of_elements_to_reserve_for);
   ~ListContainerHelper();

   // This class deals only with char* and void*. It does allocation and passing
   // out raw pointers, as well as memory deallocation when being destroyed.
   class CharAllocator;

   // This class points to a certain position inside memory of
   // CharAllocator. It is a base class for ListContainer iterators.
   struct CC_BASE_EXPORT PositionInCharAllocator {
     CharAllocator* ptr_to_container;
     size_t vector_index;
     char* item_iterator;

     PositionInCharAllocator(const PositionInCharAllocator& other);

     PositionInCharAllocator(CharAllocator* container,
                             size_t vector_ind,
                             char* item_iter);

     bool operator==(const PositionInCharAllocator& other) const;
     bool operator!=(const PositionInCharAllocator& other) const;

     PositionInCharAllocator Increment();
     PositionInCharAllocator ReverseIncrement();
   };

   // Iterator classes that can be used to access data.
   /////////////////////////////////////////////////////////////////
   class CC_BASE_EXPORT Iterator : public PositionInCharAllocator {
     // This class is only defined to forward iterate through
     // CharAllocator.
    public:
     Iterator(CharAllocator* container,
              size_t vector_ind,
              char* item_iter,
              size_t index);
     ~Iterator();

     size_t index() const;

    protected:
     // This is used to track how many increment has happened since begin(). It
     // is used to avoid double increment at places an index reference is
     // needed. For iterator this means begin() corresponds to index 0 and end()
     // corresponds to index |size|.
     size_t index_;
   };

   class CC_BASE_EXPORT ConstIterator : public PositionInCharAllocator {
     // This class is only defined to forward iterate through
     // CharAllocator.
    public:
     ConstIterator(CharAllocator* container,
                   size_t vector_ind,
                   char* item_iter,
                   size_t index);
     ConstIterator(const Iterator& other);  // NOLINT
     ~ConstIterator();

     size_t index() const;

    protected:
     // This is used to track how many increment has happened since begin(). It
     // is used to avoid double increment at places an index reference is
     // needed. For iterator this means begin() corresponds to index 0 and end()
     // corresponds to index |size|.
     size_t index_;
   };

   class CC_BASE_EXPORT ReverseIterator : public PositionInCharAllocator {
     // This class is only defined to reverse iterate through
     // CharAllocator.
    public:
     ReverseIterator(CharAllocator* container,
                     size_t vector_ind,
                     char* item_iter,
                     size_t index);
     ~ReverseIterator();

     size_t index() const;

    protected:
     // This is used to track how many increment has happened since rbegin(). It
     // is used to avoid double increment at places an index reference is
     // needed. For reverse iterator this means rbegin() corresponds to index 0
     // and rend() corresponds to index |size|.
     size_t index_;
   };

   class CC_BASE_EXPORT ConstReverseIterator : public PositionInCharAllocator {
     // This class is only defined to reverse iterate through
     // CharAllocator.
    public:
     ConstReverseIterator(CharAllocator* container,
                          size_t vector_ind,
                          char* item_iter,
                          size_t index);
     ConstReverseIterator(const ReverseIterator& other);  // NOLINT
     ~ConstReverseIterator();

     size_t index() const;

    protected:
     // This is used to track how many increment has happened since rbegin(). It
     // is used to avoid double increment at places an index reference is
     // needed. For reverse iterator this means rbegin() corresponds to index 0
     // and rend() corresponds to index |size|.
     size_t index_;
   };

   // Unlike the ListContainer methods, these do not invoke element destructors.
   void RemoveLast();
   void EraseAndInvalidateAllPointers(Iterator* position);
   void InsertBeforeAndInvalidateAllPointers(Iterator* position,
                                             size_t number_of_elements);

   ConstReverseIterator crbegin() const;
   ConstReverseIterator crend() const;
   ReverseIterator rbegin();
   ReverseIterator rend();
   ConstIterator cbegin() const;
   ConstIterator cend() const;
   Iterator begin();
   Iterator end();

   Iterator IteratorAt(size_t index);
   ConstIterator IteratorAt(size_t index) const;

   size_t size() const;
   bool empty() const;

   size_t MaxSizeForDerivedClass() const;

   size_t GetCapacityInBytes() const;

   // Unlike the ListContainer method, this one does not invoke element
   // destructors.
   void clear();

   size_t AvailableSizeWithoutAnotherAllocationForTesting() const;

   // Hands out memory location for an element at the end of data structure.
   void* Allocate(size_t alignment, size_t size_of_actual_element_in_bytes);

   std::unique_ptr<CharAllocator> data_;

   DISALLOW_COPY_AND_ASSIGN(ListContainerHelper);
 };

 }  // namespace cc

 #endif  // CC_BASE_LIST_CONTAINER_HELPER_H_
	// Copyright 2015 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef CC_BASE_LIST_CONTAINER_HELPER_H_
	#define CC_BASE_LIST_CONTAINER_HELPER_H_

	#include <stddef.h>

	#include <memory>

	#include "base/macros.h"
	#include "cc/base/base_export.h"

	namespace cc {

	// Helper class for ListContainer non-templated logic. All methods are private,
	// and only exposed to friend classes.
	// For usage, see comments in ListContainer (list_container.h).
	class CC_BASE_EXPORT ListContainerHelper final {
	private:
	template <typename T>
	friend class ListContainer;

	explicit ListContainerHelper(size_t alignment,
	size_t max_size_for_derived_class,
	size_t num_of_elements_to_reserve_for);
	~ListContainerHelper();

	// This class deals only with char* and void*. It does allocation and passing
	// out raw pointers, as well as memory deallocation when being destroyed.
	class CharAllocator;

	// This class points to a certain position inside memory of
	// CharAllocator. It is a base class for ListContainer iterators.
	struct CC_BASE_EXPORT PositionInCharAllocator {
	CharAllocator* ptr_to_container;
	size_t vector_index;
	char* item_iterator;

	PositionInCharAllocator(const PositionInCharAllocator& other);

	PositionInCharAllocator(CharAllocator* container,
	size_t vector_ind,
	char* item_iter);

	bool operator==(const PositionInCharAllocator& other) const;
	bool operator!=(const PositionInCharAllocator& other) const;

	PositionInCharAllocator Increment();
	PositionInCharAllocator ReverseIncrement();
	};

	// Iterator classes that can be used to access data.
	/////////////////////////////////////////////////////////////////
	class CC_BASE_EXPORT Iterator : public PositionInCharAllocator {
	// This class is only defined to forward iterate through
	// CharAllocator.
	public:
	Iterator(CharAllocator* container,
	size_t vector_ind,
	char* item_iter,
	size_t index);
	~Iterator();

	size_t index() const;

	protected:
	// This is used to track how many increment has happened since begin(). It
	// is used to avoid double increment at places an index reference is
	// needed. For iterator this means begin() corresponds to index 0 and end()
	// corresponds to index \|size\|.
	size_t index_;
	};

	class CC_BASE_EXPORT ConstIterator : public PositionInCharAllocator {
	// This class is only defined to forward iterate through
	// CharAllocator.
	public:
	ConstIterator(CharAllocator* container,
	size_t vector_ind,
	char* item_iter,
	size_t index);
	ConstIterator(const Iterator& other); // NOLINT
	~ConstIterator();

	size_t index() const;

	protected:
	// This is used to track how many increment has happened since begin(). It
	// is used to avoid double increment at places an index reference is
	// needed. For iterator this means begin() corresponds to index 0 and end()
	// corresponds to index \|size\|.
	size_t index_;
	};

	class CC_BASE_EXPORT ReverseIterator : public PositionInCharAllocator {
	// This class is only defined to reverse iterate through
	// CharAllocator.
	public:
	ReverseIterator(CharAllocator* container,
	size_t vector_ind,
	char* item_iter,
	size_t index);
	~ReverseIterator();

	size_t index() const;

	protected:
	// This is used to track how many increment has happened since rbegin(). It
	// is used to avoid double increment at places an index reference is
	// needed. For reverse iterator this means rbegin() corresponds to index 0
	// and rend() corresponds to index \|size\|.
	size_t index_;
	};

	class CC_BASE_EXPORT ConstReverseIterator : public PositionInCharAllocator {
	// This class is only defined to reverse iterate through
	// CharAllocator.
	public:
	ConstReverseIterator(CharAllocator* container,
	size_t vector_ind,
	char* item_iter,
	size_t index);
	ConstReverseIterator(const ReverseIterator& other); // NOLINT
	~ConstReverseIterator();

	size_t index() const;

	protected:
	// This is used to track how many increment has happened since rbegin(). It
	// is used to avoid double increment at places an index reference is
	// needed. For reverse iterator this means rbegin() corresponds to index 0
	// and rend() corresponds to index \|size\|.
	size_t index_;
	};

	// Unlike the ListContainer methods, these do not invoke element destructors.
	void RemoveLast();
	void EraseAndInvalidateAllPointers(Iterator* position);
	void InsertBeforeAndInvalidateAllPointers(Iterator* position,
	size_t number_of_elements);

	ConstReverseIterator crbegin() const;
	ConstReverseIterator crend() const;
	ReverseIterator rbegin();
	ReverseIterator rend();
	ConstIterator cbegin() const;
	ConstIterator cend() const;
	Iterator begin();
	Iterator end();

	Iterator IteratorAt(size_t index);
	ConstIterator IteratorAt(size_t index) const;

	size_t size() const;
	bool empty() const;

	size_t MaxSizeForDerivedClass() const;

	size_t GetCapacityInBytes() const;

	// Unlike the ListContainer method, this one does not invoke element
	// destructors.
	void clear();

	size_t AvailableSizeWithoutAnotherAllocationForTesting() const;

	// Hands out memory location for an element at the end of data structure.
	void* Allocate(size_t alignment, size_t size_of_actual_element_in_bytes);

	std::unique_ptr<CharAllocator> data_;

	DISALLOW_COPY_AND_ASSIGN(ListContainerHelper);
	};

	} // namespace cc

	#endif // CC_BASE_LIST_CONTAINER_HELPER_H_