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small_vector.hh
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small_vector.hh
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#ifndef GSTORE_SMALL_VECTOR_HH
#define GSTORE_SMALL_VECTOR_HH 1
#include "compiler.hh"
#include <memory>
#include <iterator>
#include <assert.h>
template <typename T, unsigned N, typename A = std::allocator<T> >
class small_vector {
public:
typedef bool (small_vector<T, N, A>::*unspecified_bool_type)() const;
typedef T value_type;
typedef value_type* iterator;
typedef const value_type* const_iterator;
typedef std::reverse_iterator<iterator> reverse_iterator;
typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
typedef unsigned size_type;
static constexpr size_type small_capacity = N;
inline small_vector(const A& allocator = A());
small_vector(const small_vector<T, N, A>& x);
template <unsigned NN, typename AA>
small_vector(const small_vector<T, NN, AA>& x);
inline ~small_vector();
inline size_type size() const;
inline size_type capacity() const;
inline bool empty() const;
inline operator unspecified_bool_type() const;
inline bool operator!() const;
inline iterator begin();
inline iterator end();
inline const_iterator begin() const;
inline const_iterator end() const;
inline const_iterator cbegin() const;
inline const_iterator cend() const;
inline reverse_iterator rbegin();
inline reverse_iterator rend();
inline const_reverse_iterator rbegin() const;
inline const_reverse_iterator rend() const;
inline const_reverse_iterator crbegin() const;
inline const_reverse_iterator crend() const;
inline value_type& operator[](size_type i);
inline const value_type& operator[](size_type i) const;
inline value_type& front();
inline const value_type& front() const;
inline value_type& back();
inline const value_type& back() const;
inline void push_back(const value_type& x);
inline void push_back(value_type&& x);
template <typename... Args> inline void emplace_back(Args&&... args);
inline void pop_back();
inline void clear();
inline void resize(size_type n, value_type x = value_type());
iterator erase(iterator position);
iterator erase(iterator first, iterator last);
inline small_vector<T, N, A>& operator=(const small_vector<T, N, A>& x);
template <unsigned NN, typename AA>
inline small_vector<T, N, A>& operator=(const small_vector<T, NN, AA>& x);
private:
struct rep : public A {
T* first_;
T* last_;
T* capacity_;
char lv_[sizeof(T) * N]; // XXX does not obey alignof(T)
inline rep(const A& a);
};
rep r_;
void grow(size_type n = 0);
};
template <typename T, unsigned N, typename A>
inline small_vector<T, N, A>::rep::rep(const A& a)
: A(a), first_(reinterpret_cast<T*>(lv_)),
last_(first_), capacity_(first_ + N) {
}
template <typename T, unsigned N, typename A>
inline small_vector<T, N, A>::small_vector(const A& allocator)
: r_(allocator) {
}
template <typename T, unsigned N, typename A>
small_vector<T, N, A>::small_vector(const small_vector<T, N, A>& x)
: r_(A()) {
for (const T* it = x.r_.first_; it != x.r_.last_; ++it)
push_back(*it);
}
template <typename T, unsigned N, typename A>
template <unsigned NN, typename AA>
small_vector<T, N, A>::small_vector(const small_vector<T, NN, AA>& x)
: r_(A()) {
for (const T* it = x.r_.first_; it != x.r_.last_; ++it)
push_back(*it);
}
template <typename T, unsigned N, typename A>
inline small_vector<T, N, A>::~small_vector() {
for (T* it = r_.first_; it != r_.last_; ++it)
r_.destroy(it);
if (r_.first_ != reinterpret_cast<T*>(r_.lv_))
r_.deallocate(r_.first_, r_.capacity_ - r_.first_);
}
template <typename T, unsigned N, typename A>
inline unsigned small_vector<T, N, A>::size() const {
return r_.last_ - r_.first_;
}
template <typename T, unsigned N, typename A>
inline unsigned small_vector<T, N, A>::capacity() const {
return r_.capacity_ - r_.first_;
}
template <typename T, unsigned N, typename A>
inline bool small_vector<T, N, A>::empty() const {
return r_.first_ == r_.last_;
}
template <typename T, unsigned N, typename A>
inline small_vector<T, N, A>::operator unspecified_bool_type() const {
return empty() ? 0 : &small_vector<T, N, A>::empty;
}
template <typename T, unsigned N, typename A>
inline bool small_vector<T, N, A>::operator!() const {
return empty();
}
template <typename T, unsigned N, typename A>
void small_vector<T, N, A>::grow(size_type n) {
size_t newcap = capacity() * 2;
while (newcap < n)
newcap *= 2;
T* m = r_.allocate(newcap);
for (T* it = r_.first_, *mit = m; it != r_.last_; ++it, ++mit) {
r_.construct(mit, std::move(*it));
r_.destroy(it);
}
if (r_.first_ != reinterpret_cast<T*>(r_.lv_))
r_.deallocate(r_.first_, capacity());
r_.last_ = m + (r_.last_ - r_.first_);
r_.first_ = m;
r_.capacity_ = m + newcap;
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::begin() -> iterator {
return r_.first_;
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::end() -> iterator {
return r_.last_;
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::begin() const -> const_iterator {
return r_.first_;
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::end() const -> const_iterator {
return r_.last_;
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::cbegin() const -> const_iterator {
return r_.first_;
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::cend() const -> const_iterator {
return r_.last_;
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::rbegin() -> reverse_iterator {
return reverse_iterator(end());
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::rend() -> reverse_iterator {
return reverse_iterator(begin());
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::rbegin() const -> const_reverse_iterator {
return const_reverse_iterator(end());
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::rend() const -> const_reverse_iterator {
return const_reverse_iterator(begin());
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::crbegin() const -> const_reverse_iterator {
return const_reverse_iterator(end());
}
template <typename T, unsigned N, typename A>
inline auto small_vector<T, N, A>::crend() const -> const_reverse_iterator {
return const_reverse_iterator(begin());
}
template <typename T, unsigned N, typename A>
inline T& small_vector<T, N, A>::operator[](size_type i) {
return r_.first_[i];
}
template <typename T, unsigned N, typename A>
inline const T& small_vector<T, N, A>::operator[](size_type i) const {
return r_.first_[i];
}
template <typename T, unsigned N, typename A>
inline T& small_vector<T, N, A>::front() {
return r_.first_[0];
}
template <typename T, unsigned N, typename A>
inline const T& small_vector<T, N, A>::front() const {
return r_.first_[0];
}
template <typename T, unsigned N, typename A>
inline T& small_vector<T, N, A>::back() {
return r_.last_[-1];
}
template <typename T, unsigned N, typename A>
inline const T& small_vector<T, N, A>::back() const {
return r_.last_[-1];
}
template <typename T, unsigned N, typename A>
inline void small_vector<T, N, A>::push_back(const T& x) {
if (r_.last_ == r_.capacity_)
grow();
r_.construct(r_.last_, x);
++r_.last_;
}
template <typename T, unsigned N, typename A>
inline void small_vector<T, N, A>::push_back(T&& x) {
if (r_.last_ == r_.capacity_)
grow();
r_.construct(r_.last_, std::move(x));
++r_.last_;
}
template <typename T, unsigned N, typename A> template <typename... Args>
inline void small_vector<T, N, A>::emplace_back(Args&&... args) {
if (r_.last_ == r_.capacity_)
grow();
r_.construct(r_.last_, std::forward<Args>(args)...);
++r_.last_;
}
template <typename T, unsigned N, typename A>
inline void small_vector<T, N, A>::pop_back() {
assert(r_.first_ != r_.last_);
--r_.last_;
r_.destroy(r_.last_);
}
template <typename T, unsigned N, typename A>
inline void small_vector<T, N, A>::clear() {
for (auto it = r_.first_; it != r_.last_; ++it)
r_.destroy(it);
r_.last_ = r_.first_;
}
template <typename T, unsigned N, typename A>
inline void small_vector<T, N, A>::resize(size_type n, value_type v) {
if (capacity() < n)
grow(n);
auto it = r_.first_ + n;
auto xt = r_.last_;
r_.last_ = it;
for (; it < xt; ++it)
r_.destroy(it);
for (; xt < it; ++xt)
r_.construct(xt, v);
}
template <typename T, unsigned N, typename A>
small_vector<T, N, A>&
small_vector<T, N, A>::operator=(const small_vector<T, N, A>& x) {
if (&x != this) {
clear();
if (capacity() < x.capacity())
grow(x.capacity());
for (auto xit = x.r_.first_; xit != x.r_.last_; ++xit, ++r_.last_)
r_.construct(r_.last_, *xit);
}
return *this;
}
template <typename T, unsigned N, typename A>
template <unsigned NN, typename AA>
small_vector<T, N, A>&
small_vector<T, N, A>::operator=(const small_vector<T, NN, AA>& x) {
clear();
if (capacity() < x.capacity())
grow(x.capacity());
for (auto xit = x.r_.first_; xit != x.r_.last_; ++xit, ++r_.last_)
r_.construct(r_.last_, *xit);
return *this;
}
template <typename T, unsigned N, typename A>
inline T* small_vector<T, N, A>::erase(iterator position) {
return erase(position, position + 1);
}
template <typename T, unsigned N, typename A>
T* small_vector<T, N, A>::erase(iterator first, iterator last) {
if (first != last) {
iterator it = first, xend = end();
for (; last != xend; ++it, ++last)
*it = std::move(*last);
r_.last_ = it;
for (; it != xend; ++it)
r_.destroy(it);
}
return first;
}
template <typename T, unsigned N, typename A>
constexpr typename small_vector<T, N, A>::size_type
small_vector<T, N, A>::small_capacity;
#endif