include/core/SkDeque.h - skia - Git at Google


 /*
  * Copyright 2006 The Android Open Source Project
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #ifndef SkDeque_DEFINED
 #define SkDeque_DEFINED

 #include "../private/SkNoncopyable.h"
 #include "SkTypes.h"

 /*
  * The deque class works by blindly creating memory space of a specified element
  * size. It manages the memory as a doubly linked list of blocks each of which
  * can contain multiple elements. Pushes and pops add/remove blocks from the
  * beginning/end of the list as necessary while each block tracks the used
  * portion of its memory.
  * One behavior to be aware of is that the pops do not immediately remove an
  * empty block from the beginning/end of the list (Presumably so push/pop pairs
  * on the block boundaries don't cause thrashing). This can result in the first/
  * last element not residing in the first/last block.
  */
 class SK_API SkDeque : SkNoncopyable {
 public:
     /**
      * elemSize specifies the size of each individual element in the deque
      * allocCount specifies how many elements are to be allocated as a block
      */
     explicit SkDeque(size_t elemSize, int allocCount = 1);
     SkDeque(size_t elemSize, void* storage, size_t storageSize, int allocCount = 1);
     ~SkDeque();

     bool    empty() const { return 0 == fCount; }
     int     count() const { return fCount; }
     size_t  elemSize() const { return fElemSize; }

     const void* front() const { return fFront; }
     const void* back() const  { return fBack; }

     void* front() {
         return (void*)((const SkDeque*)this)->front();
     }

     void* back() {
         return (void*)((const SkDeque*)this)->back();
     }

     /**
      * push_front and push_back return a pointer to the memory space
      * for the new element
      */
     void* push_front();
     void* push_back();

     void pop_front();
     void pop_back();

 private:
     struct Block;

 public:
     class Iter {
     public:
         enum IterStart {
             kFront_IterStart,
             kBack_IterStart,
         };

         /**
          * Creates an uninitialized iterator. Must be reset()
          */
         Iter();

         Iter(const SkDeque& d, IterStart startLoc);
         void* next();
         void* prev();

         void reset(const SkDeque& d, IterStart startLoc);

     private:
         SkDeque::Block* fCurBlock;
         char*           fPos;
         size_t          fElemSize;
     };

     // Inherit privately from Iter to prevent access to reverse iteration
     class F2BIter : private Iter {
     public:
         F2BIter() {}

         /**
          * Wrap Iter's 2 parameter ctor to force initialization to the
          * beginning of the deque
          */
         F2BIter(const SkDeque& d) : INHERITED(d, kFront_IterStart) {}

         using Iter::next;

         /**
          * Wrap Iter::reset to force initialization to the beginning of the
          * deque
          */
         void reset(const SkDeque& d) {
             this->INHERITED::reset(d, kFront_IterStart);
         }

     private:
         typedef Iter INHERITED;
     };

 private:
     // allow unit test to call numBlocksAllocated
     friend class DequeUnitTestHelper;

     void*   fFront;
     void*   fBack;

     Block*  fFrontBlock;
     Block*  fBackBlock;
     size_t  fElemSize;
     void*   fInitialStorage;
     int     fCount;             // number of elements in the deque
     int     fAllocCount;        // number of elements to allocate per block

     Block*  allocateBlock(int allocCount);
     void    freeBlock(Block* block);

     /**
      * This returns the number of chunk blocks allocated by the deque. It
      * can be used to gauge the effectiveness of the selected allocCount.
      */
     int  numBlocksAllocated() const;
 };

 #endif

	/*
	* Copyright 2006 The Android Open Source Project
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/


	#ifndef SkDeque_DEFINED
	#define SkDeque_DEFINED

	#include "../private/SkNoncopyable.h"
	#include "SkTypes.h"

	/*
	* The deque class works by blindly creating memory space of a specified element
	* size. It manages the memory as a doubly linked list of blocks each of which
	* can contain multiple elements. Pushes and pops add/remove blocks from the
	* beginning/end of the list as necessary while each block tracks the used
	* portion of its memory.
	* One behavior to be aware of is that the pops do not immediately remove an
	* empty block from the beginning/end of the list (Presumably so push/pop pairs
	* on the block boundaries don't cause thrashing). This can result in the first/
	* last element not residing in the first/last block.
	*/
	class SK_API SkDeque : SkNoncopyable {
	public:
	/**
	* elemSize specifies the size of each individual element in the deque
	* allocCount specifies how many elements are to be allocated as a block
	*/
	explicit SkDeque(size_t elemSize, int allocCount = 1);
	SkDeque(size_t elemSize, void* storage, size_t storageSize, int allocCount = 1);
	~SkDeque();

	bool empty() const { return 0 == fCount; }
	int count() const { return fCount; }
	size_t elemSize() const { return fElemSize; }

	const void* front() const { return fFront; }
	const void* back() const { return fBack; }

	void* front() {
	return (void)((const SkDeque)this)->front();
	}

	void* back() {
	return (void)((const SkDeque)this)->back();
	}

	/**
	* push_front and push_back return a pointer to the memory space
	* for the new element
	*/
	void* push_front();
	void* push_back();

	void pop_front();
	void pop_back();

	private:
	struct Block;

	public:
	class Iter {
	public:
	enum IterStart {
	kFront_IterStart,
	kBack_IterStart,
	};

	/**
	* Creates an uninitialized iterator. Must be reset()
	*/
	Iter();

	Iter(const SkDeque& d, IterStart startLoc);
	void* next();
	void* prev();

	void reset(const SkDeque& d, IterStart startLoc);

	private:
	SkDeque::Block* fCurBlock;
	char* fPos;
	size_t fElemSize;
	};

	// Inherit privately from Iter to prevent access to reverse iteration
	class F2BIter : private Iter {
	public:
	F2BIter() {}

	/**
	* Wrap Iter's 2 parameter ctor to force initialization to the
	* beginning of the deque
	*/
	F2BIter(const SkDeque& d) : INHERITED(d, kFront_IterStart) {}

	using Iter::next;

	/**
	* Wrap Iter::reset to force initialization to the beginning of the
	* deque
	*/
	void reset(const SkDeque& d) {
	this->INHERITED::reset(d, kFront_IterStart);
	}

	private:
	typedef Iter INHERITED;
	};

	private:
	// allow unit test to call numBlocksAllocated
	friend class DequeUnitTestHelper;

	void* fFront;
	void* fBack;

	Block* fFrontBlock;
	Block* fBackBlock;
	size_t fElemSize;
	void* fInitialStorage;
	int fCount; // number of elements in the deque
	int fAllocCount; // number of elements to allocate per block

	Block* allocateBlock(int allocCount);
	void freeBlock(Block* block);

	/**
	* This returns the number of chunk blocks allocated by the deque. It
	* can be used to gauge the effectiveness of the selected allocCount.
	*/
	int numBlocksAllocated() const;
	};

	#endif