include/utils/VectorImpl.h - android_frameworks_native - Gitiles

 /*
  * Copyright (C) 2005 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef ANDROID_VECTOR_IMPL_H
 #define ANDROID_VECTOR_IMPL_H

 #include <assert.h>
 #include <stdint.h>
 #include <sys/types.h>
 #include <utils/Errors.h>

 // ---------------------------------------------------------------------------
 // No user serviceable parts in here...
 // ---------------------------------------------------------------------------

 namespace android {

 /*!
  * Implementation of the guts of the vector<> class
  * this ensures backward binary compatibility and
  * reduces code size.
  * For performance reasons, we expose mStorage and mCount
  * so these fields are set in stone.
  *
  */

 class VectorImpl
 {
 public:
     enum { // flags passed to the ctor
         HAS_TRIVIAL_CTOR    = 0x00000001,
         HAS_TRIVIAL_DTOR    = 0x00000002,
         HAS_TRIVIAL_COPY    = 0x00000004,
     };

                             VectorImpl(size_t itemSize, uint32_t flags);
                             VectorImpl(const VectorImpl& rhs);
     virtual                 ~VectorImpl();

     /*! must be called from subclasses destructor */
             void            finish_vector();

             VectorImpl&     operator = (const VectorImpl& rhs);

     /*! C-style array access */
     inline  const void*     arrayImpl() const       { return mStorage; }
             void*           editArrayImpl();

     /*! vector stats */
     inline  size_t          size() const        { return mCount; }
     inline  bool            isEmpty() const     { return mCount == 0; }
             size_t          capacity() const;
             ssize_t         setCapacity(size_t size);

             /*! append/insert another vector or array */
             ssize_t         insertVectorAt(const VectorImpl& vector, size_t index);
             ssize_t         appendVector(const VectorImpl& vector);
             ssize_t         insertArrayAt(const void* array, size_t index, size_t length);
             ssize_t         appendArray(const void* array, size_t length);

             /*! add/insert/replace items */
             ssize_t         insertAt(size_t where, size_t numItems = 1);
             ssize_t         insertAt(const void* item, size_t where, size_t numItems = 1);
             void            pop();
             void            push();
             void            push(const void* item);
             ssize_t         add();
             ssize_t         add(const void* item);
             ssize_t         replaceAt(size_t index);
             ssize_t         replaceAt(const void* item, size_t index);

             /*! remove items */
             ssize_t         removeItemsAt(size_t index, size_t count = 1);
             void            clear();

             const void*     itemLocation(size_t index) const;
             void*           editItemLocation(size_t index);

             typedef int (*compar_t)(const void* lhs, const void* rhs);
             typedef int (*compar_r_t)(const void* lhs, const void* rhs, void* state);
             status_t        sort(compar_t cmp);
             status_t        sort(compar_r_t cmp, void* state);

 protected:
             size_t          itemSize() const;
             void            release_storage();

     virtual void            do_construct(void* storage, size_t num) const = 0;
     virtual void            do_destroy(void* storage, size_t num) const = 0;
     virtual void            do_copy(void* dest, const void* from, size_t num) const = 0;
     virtual void            do_splat(void* dest, const void* item, size_t num) const = 0;
     virtual void            do_move_forward(void* dest, const void* from, size_t num) const = 0;
     virtual void            do_move_backward(void* dest, const void* from, size_t num) const = 0;

     // take care of FBC...
     virtual void            reservedVectorImpl1();
     virtual void            reservedVectorImpl2();
     virtual void            reservedVectorImpl3();
     virtual void            reservedVectorImpl4();
     virtual void            reservedVectorImpl5();
     virtual void            reservedVectorImpl6();
     virtual void            reservedVectorImpl7();
     virtual void            reservedVectorImpl8();

 private:
         void* _grow(size_t where, size_t amount);
         void  _shrink(size_t where, size_t amount);

         inline void _do_construct(void* storage, size_t num) const;
         inline void _do_destroy(void* storage, size_t num) const;
         inline void _do_copy(void* dest, const void* from, size_t num) const;
         inline void _do_splat(void* dest, const void* item, size_t num) const;
         inline void _do_move_forward(void* dest, const void* from, size_t num) const;
         inline void _do_move_backward(void* dest, const void* from, size_t num) const;

             // These 2 fields are exposed in the inlines below,
             // so they're set in stone.
             void *      mStorage;   // base address of the vector
             size_t      mCount;     // number of items

     const   uint32_t    mFlags;
     const   size_t      mItemSize;
 };


 class SortedVectorImpl : public VectorImpl
 {
 public:
                             SortedVectorImpl(size_t itemSize, uint32_t flags);
                             SortedVectorImpl(const VectorImpl& rhs);
     virtual                 ~SortedVectorImpl();

     SortedVectorImpl&     operator = (const SortedVectorImpl& rhs);

     //! finds the index of an item
             ssize_t         indexOf(const void* item) const;

     //! finds where this item should be inserted
             size_t          orderOf(const void* item) const;

     //! add an item in the right place (or replaces it if there is one)
             ssize_t         add(const void* item);

     //! merges a vector into this one
             ssize_t         merge(const VectorImpl& vector);
             ssize_t         merge(const SortedVectorImpl& vector);

     //! removes an item
             ssize_t         remove(const void* item);

 protected:
     virtual int             do_compare(const void* lhs, const void* rhs) const = 0;

     // take care of FBC...
     virtual void            reservedSortedVectorImpl1();
     virtual void            reservedSortedVectorImpl2();
     virtual void            reservedSortedVectorImpl3();
     virtual void            reservedSortedVectorImpl4();
     virtual void            reservedSortedVectorImpl5();
     virtual void            reservedSortedVectorImpl6();
     virtual void            reservedSortedVectorImpl7();
     virtual void            reservedSortedVectorImpl8();

 private:
             ssize_t         _indexOrderOf(const void* item, size_t* order = 0) const;

             // these are made private, because they can't be used on a SortedVector
             // (they don't have an implementation either)
             ssize_t         add();
             void            pop();
             void            push();
             void            push(const void* item);
             ssize_t         insertVectorAt(const VectorImpl& vector, size_t index);
             ssize_t         appendVector(const VectorImpl& vector);
             ssize_t         insertArrayAt(const void* array, size_t index, size_t length);
             ssize_t         appendArray(const void* array, size_t length);
             ssize_t         insertAt(size_t where, size_t numItems = 1);
             ssize_t         insertAt(const void* item, size_t where, size_t numItems = 1);
             ssize_t         replaceAt(size_t index);
             ssize_t         replaceAt(const void* item, size_t index);
 };

 }; // namespace android


 // ---------------------------------------------------------------------------

 #endif // ANDROID_VECTOR_IMPL_H
	/*
	* Copyright (C) 2005 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef ANDROID_VECTOR_IMPL_H
	#define ANDROID_VECTOR_IMPL_H

	#include <assert.h>
	#include <stdint.h>
	#include <sys/types.h>
	#include <utils/Errors.h>

	// ---------------------------------------------------------------------------
	// No user serviceable parts in here...
	// ---------------------------------------------------------------------------

	namespace android {

	/*!
	* Implementation of the guts of the vector<> class
	* this ensures backward binary compatibility and
	* reduces code size.
	* For performance reasons, we expose mStorage and mCount
	* so these fields are set in stone.
	*
	*/

	class VectorImpl
	{
	public:
	enum { // flags passed to the ctor
	HAS_TRIVIAL_CTOR = 0x00000001,
	HAS_TRIVIAL_DTOR = 0x00000002,
	HAS_TRIVIAL_COPY = 0x00000004,
	};

	VectorImpl(size_t itemSize, uint32_t flags);
	VectorImpl(const VectorImpl& rhs);
	virtual ~VectorImpl();

	/! must be called from subclasses destructor /
	void finish_vector();

	VectorImpl& operator = (const VectorImpl& rhs);

	/! C-style array access /
	inline const void* arrayImpl() const { return mStorage; }
	void* editArrayImpl();

	/! vector stats /
	inline size_t size() const { return mCount; }
	inline bool isEmpty() const { return mCount == 0; }
	size_t capacity() const;
	ssize_t setCapacity(size_t size);

	/! append/insert another vector or array /
	ssize_t insertVectorAt(const VectorImpl& vector, size_t index);
	ssize_t appendVector(const VectorImpl& vector);
	ssize_t insertArrayAt(const void* array, size_t index, size_t length);
	ssize_t appendArray(const void* array, size_t length);

	/! add/insert/replace items /
	ssize_t insertAt(size_t where, size_t numItems = 1);
	ssize_t insertAt(const void* item, size_t where, size_t numItems = 1);
	void pop();
	void push();
	void push(const void* item);
	ssize_t add();
	ssize_t add(const void* item);
	ssize_t replaceAt(size_t index);
	ssize_t replaceAt(const void* item, size_t index);

	/! remove items /
	ssize_t removeItemsAt(size_t index, size_t count = 1);
	void clear();

	const void* itemLocation(size_t index) const;
	void* editItemLocation(size_t index);

	typedef int (compar_t)(const void lhs, const void* rhs);
	typedef int (compar_r_t)(const void lhs, const void* rhs, void* state);
	status_t sort(compar_t cmp);
	status_t sort(compar_r_t cmp, void* state);

	protected:
	size_t itemSize() const;
	void release_storage();

	virtual void do_construct(void* storage, size_t num) const = 0;
	virtual void do_destroy(void* storage, size_t num) const = 0;
	virtual void do_copy(void* dest, const void* from, size_t num) const = 0;
	virtual void do_splat(void* dest, const void* item, size_t num) const = 0;
	virtual void do_move_forward(void* dest, const void* from, size_t num) const = 0;
	virtual void do_move_backward(void* dest, const void* from, size_t num) const = 0;

	// take care of FBC...
	virtual void reservedVectorImpl1();
	virtual void reservedVectorImpl2();
	virtual void reservedVectorImpl3();
	virtual void reservedVectorImpl4();
	virtual void reservedVectorImpl5();
	virtual void reservedVectorImpl6();
	virtual void reservedVectorImpl7();
	virtual void reservedVectorImpl8();

	private:
	void* _grow(size_t where, size_t amount);
	void _shrink(size_t where, size_t amount);

	inline void _do_construct(void* storage, size_t num) const;
	inline void _do_destroy(void* storage, size_t num) const;
	inline void _do_copy(void* dest, const void* from, size_t num) const;
	inline void _do_splat(void* dest, const void* item, size_t num) const;
	inline void _do_move_forward(void* dest, const void* from, size_t num) const;
	inline void _do_move_backward(void* dest, const void* from, size_t num) const;

	// These 2 fields are exposed in the inlines below,
	// so they're set in stone.
	void * mStorage; // base address of the vector
	size_t mCount; // number of items

	const uint32_t mFlags;
	const size_t mItemSize;
	};



	class SortedVectorImpl : public VectorImpl
	{
	public:
	SortedVectorImpl(size_t itemSize, uint32_t flags);
	SortedVectorImpl(const VectorImpl& rhs);
	virtual ~SortedVectorImpl();

	SortedVectorImpl& operator = (const SortedVectorImpl& rhs);

	//! finds the index of an item
	ssize_t indexOf(const void* item) const;

	//! finds where this item should be inserted
	size_t orderOf(const void* item) const;

	//! add an item in the right place (or replaces it if there is one)
	ssize_t add(const void* item);

	//! merges a vector into this one
	ssize_t merge(const VectorImpl& vector);
	ssize_t merge(const SortedVectorImpl& vector);

	//! removes an item
	ssize_t remove(const void* item);

	protected:
	virtual int do_compare(const void* lhs, const void* rhs) const = 0;

	// take care of FBC...
	virtual void reservedSortedVectorImpl1();
	virtual void reservedSortedVectorImpl2();
	virtual void reservedSortedVectorImpl3();
	virtual void reservedSortedVectorImpl4();
	virtual void reservedSortedVectorImpl5();
	virtual void reservedSortedVectorImpl6();
	virtual void reservedSortedVectorImpl7();
	virtual void reservedSortedVectorImpl8();

	private:
	ssize_t _indexOrderOf(const void* item, size_t* order = 0) const;

	// these are made private, because they can't be used on a SortedVector
	// (they don't have an implementation either)
	ssize_t add();
	void pop();
	void push();
	void push(const void* item);
	ssize_t insertVectorAt(const VectorImpl& vector, size_t index);
	ssize_t appendVector(const VectorImpl& vector);
	ssize_t insertArrayAt(const void* array, size_t index, size_t length);
	ssize_t appendArray(const void* array, size_t length);
	ssize_t insertAt(size_t where, size_t numItems = 1);
	ssize_t insertAt(const void* item, size_t where, size_t numItems = 1);
	ssize_t replaceAt(size_t index);
	ssize_t replaceAt(const void* item, size_t index);
	};

	}; // namespace android


	// ---------------------------------------------------------------------------

	#endif // ANDROID_VECTOR_IMPL_H