CPP/Common/MyVector.h - platform/external/lzma - Git at Google

 // Common/Vector.h

 #ifndef __COMMON_VECTOR_H
 #define __COMMON_VECTOR_H

 #include "Defs.h"

 class CBaseRecordVector
 {
   void MoveItems(int destIndex, int srcIndex);
 protected:
   int _capacity;
   int _size;
   void *_items;
   size_t _itemSize;

   void ReserveOnePosition();
   void InsertOneItem(int index);
   void TestIndexAndCorrectNum(int index, int &num) const
     { if (index + num > _size) num = _size - index; }
 public:
   CBaseRecordVector(size_t itemSize): _capacity(0), _size(0), _items(0), _itemSize(itemSize) {}
   virtual ~CBaseRecordVector();
   void ClearAndFree();
   int Size() const { return _size; }
   bool IsEmpty() const { return (_size == 0); }
   void Reserve(int newCapacity);
   void ReserveDown();
   virtual void Delete(int index, int num = 1);
   void Clear();
   void DeleteFrom(int index);
   void DeleteBack();
 };

 template <class T>
 class CRecordVector: public CBaseRecordVector
 {
 public:
   CRecordVector(): CBaseRecordVector(sizeof(T)){};
   CRecordVector(const CRecordVector &v): CBaseRecordVector(sizeof(T)) { *this = v; }
   CRecordVector& operator=(const CRecordVector &v)
   {
     Clear();
     return (*this += v);
   }
   CRecordVector& operator+=(const CRecordVector &v)
   {
     int size = v.Size();
     Reserve(Size() + size);
     for (int i = 0; i < size; i++)
       Add(v[i]);
     return *this;
   }
   int Add(T item)
   {
     ReserveOnePosition();
     ((T *)_items)[_size] = item;
     return _size++;
   }
   void Insert(int index, T item)
   {
     InsertOneItem(index);
     ((T *)_items)[index] = item;
   }
   // T* GetPointer() const { return (T*)_items; }
   // operator const T *() const { return _items; };
   const T& operator[](int index) const { return ((T *)_items)[index]; }
   T& operator[](int index) { return ((T *)_items)[index]; }
   const T& Front() const { return operator[](0); }
   T& Front() { return operator[](0); }
   const T& Back() const { return operator[](_size - 1); }
   T& Back() { return operator[](_size - 1); }

   void Swap(int i, int j)
   {
     T temp = operator[](i);
     operator[](i) = operator[](j);
     operator[](j) = temp;
   }

   int FindInSorted(const T& item, int left, int right) const
   {
     while (left != right)
     {
       int mid = (left + right) / 2;
       const T& midValue = (*this)[mid];
       if (item == midValue)
         return mid;
       if (item < midValue)
         right = mid;
       else
         left = mid + 1;
     }
     return -1;
   }

   int FindInSorted(const T& item) const
   {
     int left = 0, right = Size();
     while (left != right)
     {
       int mid = (left + right) / 2;
       const T& midValue = (*this)[mid];
       if (item == midValue)
         return mid;
       if (item < midValue)
         right = mid;
       else
         left = mid + 1;
     }
     return -1;
   }

   int AddToUniqueSorted(const T& item)
   {
     int left = 0, right = Size();
     while (left != right)
     {
       int mid = (left + right) / 2;
       const T& midValue = (*this)[mid];
       if (item == midValue)
         return mid;
       if (item < midValue)
         right = mid;
       else
         left = mid + 1;
     }
     Insert(right, item);
     return right;
   }

   static void SortRefDown(T* p, int k, int size, int (*compare)(const T*, const T*, void *), void *param)
   {
     T temp = p[k];
     for (;;)
     {
       int s = (k << 1);
       if (s > size)
         break;
       if (s < size && compare(p + s + 1, p + s, param) > 0)
         s++;
       if (compare(&temp, p + s, param) >= 0)
         break;
       p[k] = p[s];
       k = s;
     }
     p[k] = temp;
   }

   void Sort(int (*compare)(const T*, const T*, void *), void *param)
   {
     int size = _size;
     if (size <= 1)
       return;
     T* p = (&Front()) - 1;
     {
       int i = size / 2;
       do
         SortRefDown(p, i, size, compare, param);
       while (--i != 0);
     }
     do
     {
       T temp = p[size];
       p[size--] = p[1];
       p[1] = temp;
       SortRefDown(p, 1, size, compare, param);
     }
     while (size > 1);
   }
 };

 typedef CRecordVector<int> CIntVector;
 typedef CRecordVector<unsigned int> CUIntVector;
 typedef CRecordVector<bool> CBoolVector;
 typedef CRecordVector<unsigned char> CByteVector;
 typedef CRecordVector<void *> CPointerVector;

 template <class T>
 class CObjectVector: public CPointerVector
 {
 public:
   CObjectVector() {};
   ~CObjectVector() { Clear(); };
   CObjectVector(const CObjectVector &v): CPointerVector() { *this = v; }
   CObjectVector& operator=(const CObjectVector &v)
   {
     Clear();
     return (*this += v);
   }
   CObjectVector& operator+=(const CObjectVector &v)
   {
     int size = v.Size();
     Reserve(Size() + size);
     for (int i = 0; i < size; i++)
       Add(v[i]);
     return *this;
   }
   const T& operator[](int index) const { return *((T *)CPointerVector::operator[](index)); }
   T& operator[](int index) { return *((T *)CPointerVector::operator[](index)); }
   T& Front() { return operator[](0); }
   const T& Front() const { return operator[](0); }
   T& Back() { return operator[](_size - 1); }
   const T& Back() const { return operator[](_size - 1); }
   int Add(const T& item) { return CPointerVector::Add(new T(item)); }
   void Insert(int index, const T& item) { CPointerVector::Insert(index, new T(item)); }
   virtual void Delete(int index, int num = 1)
   {
     TestIndexAndCorrectNum(index, num);
     for (int i = 0; i < num; i++)
       delete (T *)(((void **)_items)[index + i]);
     CPointerVector::Delete(index, num);
   }
   int Find(const T& item) const
   {
     for (int i = 0; i < Size(); i++)
       if (item == (*this)[i])
         return i;
     return -1;
   }
   int FindInSorted(const T& item) const
   {
     int left = 0, right = Size();
     while (left != right)
     {
       int mid = (left + right) / 2;
       const T& midValue = (*this)[mid];
       if (item == midValue)
         return mid;
       if (item < midValue)
         right = mid;
       else
         left = mid + 1;
     }
     return -1;
   }
   int AddToSorted(const T& item)
   {
     int left = 0, right = Size();
     while (left != right)
     {
       int mid = (left + right) / 2;
       const T& midValue = (*this)[mid];
       if (item == midValue)
       {
         right = mid + 1;
         break;
       }
       if (item < midValue)
         right = mid;
       else
         left = mid + 1;
     }
     Insert(right, item);
     return right;
   }

   void Sort(int (*compare)(void *const *, void *const *, void *), void *param)
     { CPointerVector::Sort(compare, param); }

   static int CompareObjectItems(void *const *a1, void *const *a2, void * /* param */)
     { return MyCompare(*(*((const T **)a1)), *(*((const T **)a2))); }
   void Sort() { CPointerVector::Sort(CompareObjectItems, 0); }
 };

 #endif
	// Common/Vector.h

	#ifndef __COMMON_VECTOR_H
	#define __COMMON_VECTOR_H

	#include "Defs.h"

	class CBaseRecordVector
	{
	void MoveItems(int destIndex, int srcIndex);
	protected:
	int _capacity;
	int _size;
	void *_items;
	size_t _itemSize;

	void ReserveOnePosition();
	void InsertOneItem(int index);
	void TestIndexAndCorrectNum(int index, int &num) const
	{ if (index + num > _size) num = _size - index; }
	public:
	CBaseRecordVector(size_t itemSize): _capacity(0), _size(0), _items(0), _itemSize(itemSize) {}
	virtual ~CBaseRecordVector();
	void ClearAndFree();
	int Size() const { return _size; }
	bool IsEmpty() const { return (_size == 0); }
	void Reserve(int newCapacity);
	void ReserveDown();
	virtual void Delete(int index, int num = 1);
	void Clear();
	void DeleteFrom(int index);
	void DeleteBack();
	};

	template <class T>
	class CRecordVector: public CBaseRecordVector
	{
	public:
	CRecordVector(): CBaseRecordVector(sizeof(T)){};
	CRecordVector(const CRecordVector &v): CBaseRecordVector(sizeof(T)) { *this = v; }
	CRecordVector& operator=(const CRecordVector &v)
	{
	Clear();
	return (*this += v);
	}
	CRecordVector& operator+=(const CRecordVector &v)
	{
	int size = v.Size();
	Reserve(Size() + size);
	for (int i = 0; i < size; i++)
	Add(v[i]);
	return *this;
	}
	int Add(T item)
	{
	ReserveOnePosition();
	((T *)_items)[_size] = item;
	return _size++;
	}
	void Insert(int index, T item)
	{
	InsertOneItem(index);
	((T *)_items)[index] = item;
	}
	// T* GetPointer() const { return (T*)_items; }
	// operator const T *() const { return _items; };
	const T& operator[](int index) const { return ((T *)_items)[index]; }
	T& operator[](int index) { return ((T *)_items)[index]; }
	const T& Front() const { return operator[](0); }
	T& Front() { return operator[](0); }
	const T& Back() const { return operator[](_size - 1); }
	T& Back() { return operator[](_size - 1); }

	void Swap(int i, int j)
	{
	T temp = operator[](i);
	operator[](i) = operator[](j);
	operator[](j) = temp;
	}

	int FindInSorted(const T& item, int left, int right) const
	{
	while (left != right)
	{
	int mid = (left + right) / 2;
	const T& midValue = (*this)[mid];
	if (item == midValue)
	return mid;
	if (item < midValue)
	right = mid;
	else
	left = mid + 1;
	}
	return -1;
	}

	int FindInSorted(const T& item) const
	{
	int left = 0, right = Size();
	while (left != right)
	{
	int mid = (left + right) / 2;
	const T& midValue = (*this)[mid];
	if (item == midValue)
	return mid;
	if (item < midValue)
	right = mid;
	else
	left = mid + 1;
	}
	return -1;
	}

	int AddToUniqueSorted(const T& item)
	{
	int left = 0, right = Size();
	while (left != right)
	{
	int mid = (left + right) / 2;
	const T& midValue = (*this)[mid];
	if (item == midValue)
	return mid;
	if (item < midValue)
	right = mid;
	else
	left = mid + 1;
	}
	Insert(right, item);
	return right;
	}

	static void SortRefDown(T* p, int k, int size, int (compare)(const T, const T, void ), void *param)
	{
	T temp = p[k];
	for (;;)
	{
	int s = (k << 1);
	if (s > size)
	break;
	if (s < size && compare(p + s + 1, p + s, param) > 0)
	s++;
	if (compare(&temp, p + s, param) >= 0)
	break;
	p[k] = p[s];
	k = s;
	}
	p[k] = temp;
	}

	void Sort(int (compare)(const T, const T, void ), void *param)
	{
	int size = _size;
	if (size <= 1)
	return;
	T* p = (&Front()) - 1;
	{
	int i = size / 2;
	do
	SortRefDown(p, i, size, compare, param);
	while (--i != 0);
	}
	do
	{
	T temp = p[size];
	p[size--] = p[1];
	p[1] = temp;
	SortRefDown(p, 1, size, compare, param);
	}
	while (size > 1);
	}
	};

	typedef CRecordVector<int> CIntVector;
	typedef CRecordVector<unsigned int> CUIntVector;
	typedef CRecordVector<bool> CBoolVector;
	typedef CRecordVector<unsigned char> CByteVector;
	typedef CRecordVector<void *> CPointerVector;

	template <class T>
	class CObjectVector: public CPointerVector
	{
	public:
	CObjectVector() {};
	~CObjectVector() { Clear(); };
	CObjectVector(const CObjectVector &v): CPointerVector() { *this = v; }
	CObjectVector& operator=(const CObjectVector &v)
	{
	Clear();
	return (*this += v);
	}
	CObjectVector& operator+=(const CObjectVector &v)
	{
	int size = v.Size();
	Reserve(Size() + size);
	for (int i = 0; i < size; i++)
	Add(v[i]);
	return *this;
	}
	const T& operator[](int index) const { return ((T )CPointerVector::operator[](index)); }
	T& operator[](int index) { return ((T )CPointerVector::operator[](index)); }
	T& Front() { return operator[](0); }
	const T& Front() const { return operator[](0); }
	T& Back() { return operator[](_size - 1); }
	const T& Back() const { return operator[](_size - 1); }
	int Add(const T& item) { return CPointerVector::Add(new T(item)); }
	void Insert(int index, const T& item) { CPointerVector::Insert(index, new T(item)); }
	virtual void Delete(int index, int num = 1)
	{
	TestIndexAndCorrectNum(index, num);
	for (int i = 0; i < num; i++)
	delete (T )(((void *)_items)[index + i]);
	CPointerVector::Delete(index, num);
	}
	int Find(const T& item) const
	{
	for (int i = 0; i < Size(); i++)
	if (item == (*this)[i])
	return i;
	return -1;
	}
	int FindInSorted(const T& item) const
	{
	int left = 0, right = Size();
	while (left != right)
	{
	int mid = (left + right) / 2;
	const T& midValue = (*this)[mid];
	if (item == midValue)
	return mid;
	if (item < midValue)
	right = mid;
	else
	left = mid + 1;
	}
	return -1;
	}
	int AddToSorted(const T& item)
	{
	int left = 0, right = Size();
	while (left != right)
	{
	int mid = (left + right) / 2;
	const T& midValue = (*this)[mid];
	if (item == midValue)
	{
	right = mid + 1;
	break;
	}
	if (item < midValue)
	right = mid;
	else
	left = mid + 1;
	}
	Insert(right, item);
	return right;
	}

	void Sort(int (compare)(void const , void const , void ), void *param)
	{ CPointerVector::Sort(compare, param); }

	static int CompareObjectItems(void const a1, void const a2, void * /* param */)
	{ return MyCompare((((const T *)a1)), (((const T *)a2))); }
	void Sort() { CPointerVector::Sort(CompareObjectItems, 0); }
	};

	#endif