#ifndef _RSTL_RESERVED_VECTOR #define _RSTL_RESERVED_VECTOR #include "types.h" #include "rstl/construct.hpp" #include "rstl/pointer_iterator.hpp" class CInputStream; namespace rstl { template < typename T, int N > class reserved_vector { int x0_count; uchar x4_data[N * sizeof(T)]; public: // typedef pointer_iterator< T, reserved_vector< T, N >, void > iterator; // typedef const_pointer_iterator< T, reserved_vector< T, N >, void > const_iterator; typedef T* iterator; typedef const T* const_iterator; typedef T value_type; inline iterator begin() { return iterator(data()); } inline const_iterator begin() const { return const_iterator(data()); } inline iterator end() { return iterator(data() + x0_count); } inline const_iterator end() const { return const_iterator(data() + x0_count); } reserved_vector() : x0_count(0) {} explicit reserved_vector(const T& value) : x0_count(N) { uninitialized_fill_n(data(), N, value); } explicit reserved_vector(int count, const T& value); reserved_vector(const reserved_vector& other) : x0_count(other.x0_count) { uninitialized_copy_n(other.data(), x0_count, data()); } reserved_vector(CInputStream& in); reserved_vector& operator=(const reserved_vector& other) { if (this != &other) { clear(); uninitialized_copy(other.data(), other.data() + other.size(), data()); x0_count = other.x0_count; } return *this; } void clear() { T* ptr = data(); for (int i = 0; i < x0_count; ++i) { destroy(&ptr[i]); } x0_count = 0; } ~reserved_vector() { clear(); } void push_back(const T& in) { construct(&data()[x0_count], in); ++x0_count; } void pop_back() { destroy(&data()[x0_count]); --x0_count; } inline T* data() { return reinterpret_cast< T* >(x4_data); } inline const T* data() const { return reinterpret_cast< const T* >(x4_data); } inline bool empty() const { return size() == 0; } inline int size() const { return x0_count; } inline int capacity() const { return N; } inline T& front() { return data()[0]; } inline const T& front() const { return data()[0]; } inline T& back() { return data()[x0_count - 1]; } inline const T& back() const { return data()[x0_count - 1]; } inline T& operator[](int idx) { return data()[idx]; } inline const T& operator[](int idx) const { return data()[idx]; } iterator erase(iterator it) { if (it >= begin() && it < end()) { for (iterator j = it; j < end() - 1; ++j) { *j = *(j + 1); } --x0_count; return it; } return end(); } void resize(int count, const T& item) { if (size() < count) { uninitialized_fill_n(end(), count - size(), item); x0_count = count; } } }; template < typename T, int N > reserved_vector< T, N >::reserved_vector(int count, const T& value) : x0_count(count) { uninitialized_fill_n(data(), count, value); } } // namespace rstl #endif // _RSTL_RESERVED_VECTOR