// Common/MyVector.h #ifndef __COMMON_MY_VECTOR_H #define __COMMON_MY_VECTOR_H template class CRecordVector { T *_items; unsigned _size; unsigned _capacity; void MoveItems(unsigned destIndex, unsigned srcIndex) { memmove(_items + destIndex, _items + srcIndex, (size_t)(_size - srcIndex) * (size_t)sizeof(T)); } void ReserveOnePosition() { if (_size == _capacity) { unsigned newCapacity = _capacity + (_capacity >> 2) + 1; T *p = new T[newCapacity]; memcpy(p, _items, (size_t)_size * (size_t)sizeof(T)); delete []_items; _items = p; _capacity = newCapacity; } } public: CRecordVector(): _items(0), _size(0), _capacity(0) {} CRecordVector(const CRecordVector &v): _items(0), _size(0), _capacity(0) { unsigned size = v.Size(); if (size != 0) { _items = new T[size]; _size = size; _capacity = size; memcpy(_items, v._items, (size_t)size * (size_t)sizeof(T)); } } unsigned Size() const { return _size; } bool IsEmpty() const { return _size == 0; } void ConstructReserve(unsigned size) { if (size != 0) { _items = new T[size]; _capacity = size; } } void Reserve(unsigned newCapacity) { if (newCapacity > _capacity) { T *p = new T[newCapacity]; memcpy(p, _items, (size_t)_size * (size_t)sizeof(T)); delete []_items; _items = p; _capacity = newCapacity; } } void ClearAndReserve(unsigned newCapacity) { Clear(); if (newCapacity > _capacity) { delete []_items; _items = NULL; _capacity = 0; _items = new T[newCapacity]; _capacity = newCapacity; } } void ClearAndSetSize(unsigned newSize) { ClearAndReserve(newSize); _size = newSize; } void ChangeSize_KeepData(unsigned newSize) { if (newSize > _capacity) { T *p = new T[newSize]; memcpy(p, _items, (size_t)_size * (size_t)sizeof(T)); delete []_items; _items = p; _capacity = newSize; } _size = newSize; } void ReserveDown() { if (_size == _capacity) return; T *p = NULL; if (_size != 0) { p = new T[_size]; memcpy(p, _items, (size_t)_size * (size_t)sizeof(T)); } delete []_items; _items = p; _capacity = _size; } ~CRecordVector() { delete []_items; } void ClearAndFree() { delete []_items; _items = NULL; _size = 0; _capacity = 0; } void Clear() { _size = 0; } void DeleteBack() { _size--; } void DeleteFrom(unsigned index) { // if (index <= _size) _size = index; } void DeleteFrontal(unsigned num) { if (num != 0) { MoveItems(0, num); _size -= num; } } void Delete(unsigned index) { MoveItems(index, index + 1); _size -= 1; } /* void Delete(unsigned index, unsigned num) { if (num > 0) { MoveItems(index, index + num); _size -= num; } } */ CRecordVector& operator=(const CRecordVector &v) { unsigned size = v.Size(); if (size > _capacity) { delete []_items; _capacity = 0; _size = 0; _items = NULL; _items = new T[size]; _capacity = size; } _size = size; memcpy(_items, v._items, (size_t)size * (size_t)sizeof(T)); return *this; } CRecordVector& operator+=(const CRecordVector &v) { unsigned size = v.Size(); Reserve(_size + size); memcpy(_items + _size, v._items, (size_t)size * (size_t)sizeof(T)); _size += size; return *this; } unsigned Add(const T item) { ReserveOnePosition(); _items[_size] = item; return _size++; } void AddInReserved(const T item) { _items[_size++] = item; } void Insert(unsigned index, const T item) { ReserveOnePosition(); MoveItems(index + 1, index); _items[index] = item; _size++; } void MoveToFront(unsigned index) { if (index != 0) { T temp = _items[index]; memmove(_items + 1, _items, (size_t)index * (size_t)sizeof(T)); _items[0] = temp; } } const T& operator[](unsigned index) const { return _items[index]; } T& operator[](unsigned index) { return _items[index]; } const T& Front() const { return _items[0]; } T& Front() { return _items[0]; } const T& Back() const { return _items[_size - 1]; } T& Back() { return _items[_size - 1]; } /* void Swap(unsigned i, unsigned j) { T temp = _items[i]; _items[i] = _items[j]; _items[j] = temp; } */ int FindInSorted(const T item, unsigned left, unsigned right) const { while (left != right) { unsigned mid = (left + right) / 2; const T midVal = (*this)[mid]; if (item == midVal) return mid; if (item < midVal) right = mid; else left = mid + 1; } return -1; } int FindInSorted2(const T &item, unsigned left, unsigned right) const { while (left != right) { unsigned mid = (left + right) / 2; const T& midVal = (*this)[mid]; int comp = item.Compare(midVal); if (comp == 0) return mid; if (comp < 0) right = mid; else left = mid + 1; } return -1; } int FindInSorted(const T item) const { return FindInSorted(item, 0, _size); } int FindInSorted2(const T &item) const { return FindInSorted2(item, 0, _size); } unsigned AddToUniqueSorted(const T item) { unsigned left = 0, right = _size; while (left != right) { unsigned mid = (left + right) / 2; const T midVal = (*this)[mid]; if (item == midVal) return mid; if (item < midVal) right = mid; else left = mid + 1; } Insert(right, item); return right; } unsigned AddToUniqueSorted2(const T &item) { unsigned left = 0, right = _size; while (left != right) { unsigned mid = (left + right) / 2; const T& midVal = (*this)[mid]; int comp = item.Compare(midVal); if (comp == 0) return mid; if (comp < 0) right = mid; else left = mid + 1; } Insert(right, item); return right; } static void SortRefDown(T* p, unsigned k, unsigned size, int (*compare)(const T*, const T*, void *), void *param) { T temp = p[k]; for (;;) { unsigned 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) { unsigned size = _size; if (size <= 1) return; T* p = (&Front()) - 1; { unsigned i = size >> 1; 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); } static void SortRefDown2(T* p, unsigned k, unsigned size) { T temp = p[k]; for (;;) { unsigned s = (k << 1); if (s > size) break; if (s < size && p[s + 1].Compare(p[s]) > 0) s++; if (temp.Compare(p[s]) >= 0) break; p[k] = p[s]; k = s; } p[k] = temp; } void Sort2() { unsigned size = _size; if (size <= 1) return; T* p = (&Front()) - 1; { unsigned i = size >> 1; do SortRefDown2(p, i, size); while (--i != 0); } do { T temp = p[size]; p[size--] = p[1]; p[1] = temp; SortRefDown2(p, 1, size); } while (size > 1); } }; typedef CRecordVector CIntVector; typedef CRecordVector CUIntVector; typedef CRecordVector CBoolVector; typedef CRecordVector CByteVector; typedef CRecordVector CPointerVector; template class CObjectVector { CPointerVector _v; public: unsigned Size() const { return _v.Size(); } bool IsEmpty() const { return _v.IsEmpty(); } void ReserveDown() { _v.ReserveDown(); } // void Reserve(unsigned newCapacity) { _v.Reserve(newCapacity); } void ClearAndReserve(unsigned newCapacity) { Clear(); _v.ClearAndReserve(newCapacity); } CObjectVector() {}; CObjectVector(const CObjectVector &v) { unsigned size = v.Size(); _v.ConstructReserve(size); for (unsigned i = 0; i < size; i++) _v.AddInReserved(new T(v[i])); } CObjectVector& operator=(const CObjectVector &v) { Clear(); unsigned size = v.Size(); _v.Reserve(size); for (unsigned i = 0; i < size; i++) _v.AddInReserved(new T(v[i])); return *this; } CObjectVector& operator+=(const CObjectVector &v) { unsigned size = v.Size(); _v.Reserve(Size() + size); for (unsigned i = 0; i < size; i++) _v.AddInReserved(new T(v[i])); return *this; } const T& operator[](unsigned index) const { return *((T *)_v[index]); } T& operator[](unsigned index) { return *((T *)_v[index]); } const T& Front() const { return operator[](0); } T& Front() { return operator[](0); } const T& Back() const { return operator[](_v.Size() - 1); } T& Back() { return operator[](_v.Size() - 1); } void MoveToFront(unsigned index) { _v.MoveToFront(index); } unsigned Add(const T& item) { return _v.Add(new T(item)); } void AddInReserved(const T& item) { _v.AddInReserved(new T(item)); } T& AddNew() { T *p = new T; _v.Add(p); return *p; } T& AddNewInReserved() { T *p = new T; _v.AddInReserved(p); return *p; } void Insert(unsigned index, const T& item) { _v.Insert(index, new T(item)); } T& InsertNew(unsigned index) { T *p = new T; _v.Insert(index, p); return *p; } ~CObjectVector() { for (unsigned i = _v.Size(); i != 0;) delete (T *)_v[--i]; } void ClearAndFree() { Clear(); _v.ClearAndFree(); } void Clear() { for (unsigned i = _v.Size(); i != 0;) delete (T *)_v[--i]; _v.Clear(); } void DeleteFrom(unsigned index) { unsigned size = _v.Size(); for (unsigned i = index; i < size; i++) delete (T *)_v[i]; _v.DeleteFrom(index); } void DeleteFrontal(unsigned num) { for (unsigned i = 0; i < num; i++) delete (T *)_v[i]; _v.DeleteFrontal(num); } void DeleteBack() { delete (T *)_v[_v.Size() - 1]; _v.DeleteBack(); } void Delete(unsigned index) { delete (T *)_v[index]; _v.Delete(index); } /* void Delete(unsigned index, unsigned num) { for (unsigned i = 0; i < num; i++) delete (T *)_v[index + i]; _v.Delete(index, num); } */ /* int Find(const T& item) const { unsigned size = Size(); for (unsigned i = 0; i < size; i++) if (item == (*this)[i]) return i; return -1; } */ int FindInSorted(const T& item) const { unsigned left = 0, right = Size(); while (left != right) { unsigned mid = (left + right) / 2; const T& midVal = (*this)[mid]; int comp = item.Compare(midVal); if (comp == 0) return mid; if (comp < 0) right = mid; else left = mid + 1; } return -1; } unsigned AddToUniqueSorted(const T& item) { unsigned left = 0, right = Size(); while (left != right) { unsigned mid = (left + right) / 2; const T& midVal = (*this)[mid]; int comp = item.Compare(midVal); if (comp == 0) return mid; if (comp < 0) right = mid; else left = mid + 1; } Insert(right, item); return right; } /* unsigned AddToSorted(const T& item) { unsigned left = 0, right = Size(); while (left != right) { unsigned mid = (left + right) / 2; const T& midVal = (*this)[mid]; int comp = item.Compare(midVal); if (comp == 0) { right = mid + 1; break; } if (comp < 0) right = mid; else left = mid + 1; } Insert(right, item); return right; } */ void Sort(int (*compare)(void *const *, void *const *, void *), void *param) { _v.Sort(compare, param); } static int CompareObjectItems(void *const *a1, void *const *a2, void * /* param */) { return (*(*((const T **)a1))).Compare(*(*((const T **)a2))); } void Sort() { _v.Sort(CompareObjectItems, 0); } }; #define FOR_VECTOR(_i_, _v_) for (unsigned _i_ = 0; _i_ < (_v_).Size(); _i_++) #endif