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#pragma once 
 
#include <util/generic/array_ref.h>
#include <util/generic/noncopyable.h> 
#include <util/generic/utility.h>
#include <util/system/yassert.h> 
 
#include <stdlib.h>

template <typename T, class A = std::allocator<T>>
class TVectorSwaps : TNonCopyable {
private: 
    T* Start; 
    T* Finish; 
    T* EndOfStorage; 
 
    void StateCheck() { 
        Y_ASSERT(Start <= Finish);
        Y_ASSERT(Finish <= EndOfStorage);
    } 
 
public: 
    typedef T* iterator; 
    typedef const T* const_iterator; 
 
    typedef std::reverse_iterator<iterator> reverse_iterator;
    typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
 
    TVectorSwaps()
        : Start()
        , Finish()
        , EndOfStorage()
    {
    }
 
    ~TVectorSwaps() { 
        for (size_t i = 0; i < size(); ++i) { 
            Start[i].~T(); 
        } 
        free(Start); 
    } 
 
    operator TArrayRef<const T>() const {
        return MakeArrayRef(data(), size());
    } 
 
    operator TArrayRef<T>() {
        return MakeArrayRef(data(), size());
    } 
 
    size_t capacity() const { 
        return EndOfStorage - Start; 
    } 
 
    size_t size() const { 
        return Finish - Start; 
    } 
 
    bool empty() const { 
        return size() == 0; 
    } 
 
    T* data() { 
        return Start; 
    } 
 
    const T* data() const { 
        return Start; 
    } 
 
    T& operator[](size_t index) { 
        Y_ASSERT(index < size());
        return Start[index]; 
    } 
 
    const T& operator[](size_t index) const { 
        Y_ASSERT(index < size());
        return Start[index]; 
    } 
 
    iterator begin() { 
        return Start; 
    } 
 
    iterator end() { 
        return Finish; 
    } 
 
    const_iterator begin() const { 
        return Start; 
    } 
 
    const_iterator end() const { 
        return Finish; 
    } 
 
    reverse_iterator rbegin() {
        return reverse_iterator(end());
    }
    reverse_iterator rend() {
        return reverse_iterator(begin());
    }
 
    const_reverse_iterator rbegin() const {
        return reverse_iterator(end());
    }
    const_reverse_iterator rend() const {
        return reverse_iterator(begin());
    }
 
    void swap(TVectorSwaps<T>& that) { 
        DoSwap(Start, that.Start); 
        DoSwap(Finish, that.Finish); 
        DoSwap(EndOfStorage, that.EndOfStorage); 
    } 
 
    void reserve(size_t n) { 
        if (n <= capacity()) { 
            return; 
        } 
 
        size_t newCapacity = FastClp2(n); 
        TVectorSwaps<T> tmp; 
        tmp.Start = (T*)malloc(sizeof(T) * newCapacity);
        Y_VERIFY(!!tmp.Start);
 
        tmp.EndOfStorage = tmp.Start + newCapacity; 
 
        for (size_t i = 0; i < size(); ++i) { 
            // TODO: catch exceptions 
            new (tmp.Start + i) T(); 
            DoSwap(Start[i], tmp.Start[i]); 
        } 
 
        tmp.Finish = tmp.Start + size(); 
 
        swap(tmp); 
 
        StateCheck(); 
    } 
 
    void clear() { 
        TVectorSwaps<T> tmp; 
        swap(tmp); 
    } 
 
    template <class TIterator> 
    void insert(iterator pos, TIterator b, TIterator e) { 
        Y_VERIFY(pos == end(), "TODO: only insert at the end is implemented");
 
        size_t count = e - b; 
 
        reserve(size() + count); 
 
        TIterator next = b; 
 
        for (size_t i = 0; i < count; ++i) { 
            new (Start + size() + i) T(); 
            DoSwap(Start[size() + i], *next); 
            ++next; 
        } 
 
        Finish += count; 
 
        StateCheck(); 
    } 
 
    void push_back(T& elem) { 
        insert(end(), &elem, &elem + 1);
    } 
};