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* include/stxxl/bits/containers/deque.h
*
* Part of the STXXL. See http://stxxl.sourceforge.net
*
* Copyright (C) 2006 Roman Dementiev <dementiev@ira.uka.de>
* Copyright (C) 2008, 2009 Andreas Beckmann <beckmann@cs.uni-frankfurt.de>
*
* Distributed under the Boost Software License, Version 1.0.
* (See accompanying file LICENSE_1_0.txt or copy at
* http://www.boost.org/LICENSE_1_0.txt)
**************************************************************************/
#ifndef _STXXL_DEQUE_H
#define _STXXL_DEQUE_H
#include <limits>
#include <stxxl/vector>
__STXXL_BEGIN_NAMESPACE
template <class T, class VectorType>
class deque;
template <class DequeType>
class const_deque_iterator;
template <class DequeType>
class deque_iterator
{
typedef typename DequeType::size_type size_type;
typedef typename DequeType::vector_type vector_type;
typedef deque_iterator<DequeType> _Self;
DequeType * Deque;
size_type Offset;
deque_iterator(DequeType * Deque_, size_type Offset_) :
Deque(Deque_), Offset(Offset_)
{ }
friend class const_deque_iterator<DequeType>;
public:
typedef typename DequeType::value_type value_type;
typedef typename DequeType::pointer pointer;
typedef typename DequeType::const_pointer const_pointer;
typedef typename DequeType::reference reference;
typedef typename DequeType::const_reference const_reference;
typedef deque_iterator<DequeType> iterator;
typedef const_deque_iterator<DequeType> const_iterator;
friend class deque<value_type, vector_type>;
typedef std::random_access_iterator_tag iterator_category;
typedef typename DequeType::difference_type difference_type;
deque_iterator() : Deque(NULL), Offset(0) { }
difference_type operator - (const _Self & a) const
{
size_type SelfAbsOffset = (Offset >= Deque->begin_o) ?
Offset : (Deque->Vector.size() + Offset);
size_type aAbsOffset = (a.Offset >= Deque->begin_o) ?
a.Offset : (Deque->Vector.size() + a.Offset);
return SelfAbsOffset - aAbsOffset;
}
difference_type operator - (const const_iterator & a) const
{
size_type SelfAbsOffset = (Offset >= Deque->begin_o) ?
Offset : (Deque->Vector.size() + Offset);
size_type aAbsOffset = (a.Offset >= Deque->begin_o) ?
a.Offset : (Deque->Vector.size() + a.Offset);
return SelfAbsOffset - aAbsOffset;
}
_Self operator - (size_type op) const
{
return _Self(Deque, (Offset + Deque->Vector.size() - op) % Deque->Vector.size());
}
_Self operator + (size_type op) const
{
return _Self(Deque, (Offset + op) % Deque->Vector.size());
}
_Self & operator -= (size_type op)
{
Offset = (Offset + Deque->Vector.size() - op) % Deque->Vector.size();
return *this;
}
_Self & operator += (size_type op)
{
Offset = (Offset + op) % Deque->Vector.size();
return *this;
}
reference operator * ()
{
return Deque->Vector[Offset];
}
pointer operator -> ()
{
return &(Deque->Vector[Offset]);
}
const_reference operator * () const
{
return Deque->Vector[Offset];
}
const_pointer operator -> () const
{
return &(Deque->Vector[Offset]);
}
reference operator [] (size_type op)
{
return Deque->Vector[(Offset + op) % Deque->Vector.size()];
}
const_reference operator [] (size_type op) const
{
return Deque->Vector[(Offset + op) % Deque->Vector.size()];
}
_Self & operator ++ ()
{
Offset = (Offset + 1) % Deque->Vector.size();
return *this;
}
_Self operator ++ (int)
{
_Self __tmp = *this;
Offset = (Offset + 1) % Deque->Vector.size();
return __tmp;
}
_Self & operator -- ()
{
Offset = (Offset + Deque->Vector.size() - 1) % Deque->Vector.size();
return *this;
}
_Self operator -- (int)
{
_Self __tmp = *this;
Offset = (Offset + Deque->Vector.size() - 1) % Deque->Vector.size();
return __tmp;
}
bool operator == (const _Self & a) const
{
assert(Deque == a.Deque);
return Offset == a.Offset;
}
bool operator != (const _Self & a) const
{
assert(Deque == a.Deque);
return Offset != a.Offset;
}
bool operator < (const _Self & a) const
{
assert(Deque == a.Deque);
return (a - (*this)) > 0;
}
bool operator > (const _Self & a) const
{
return a < (*this);
}
bool operator <= (const _Self & a) const
{
return !((*this) > a);
}
bool operator >= (const _Self & a) const
{
return !((*this) < a);
}
bool operator == (const const_iterator & a) const
{
assert(Deque == a.Deque);
return Offset == a.Offset;
}
bool operator != (const const_iterator & a) const
{
assert(Deque == a.Deque);
return Offset != a.Offset;
}
bool operator < (const const_iterator & a) const
{
assert(Deque == a.Deque);
return (a - (*this)) > 0;
}
bool operator > (const const_iterator & a) const
{
return a < (*this);
}
bool operator <= (const const_iterator & a) const
{
return !((*this) > a);
}
bool operator >= (const const_iterator & a) const
{
return !((*this) < a);
}
};
template <class DequeType>
class const_deque_iterator
{
typedef const_deque_iterator<DequeType> _Self;
typedef typename DequeType::size_type size_type;
typedef typename DequeType::vector_type vector_type;
const DequeType * Deque;
size_type Offset;
const_deque_iterator(const DequeType * Deque_, size_type Offset_) :
Deque(Deque_), Offset(Offset_)
{ }
public:
typedef typename DequeType::value_type value_type;
typedef typename DequeType::const_pointer pointer;
typedef typename DequeType::const_pointer const_pointer;
typedef typename DequeType::const_reference reference;
typedef typename DequeType::const_reference const_reference;
typedef deque_iterator<DequeType> iterator;
typedef const_deque_iterator<DequeType> const_iterator;
friend class deque<value_type, vector_type>;
friend class deque_iterator<DequeType>;
typedef std::random_access_iterator_tag iterator_category;
typedef typename DequeType::difference_type difference_type;
const_deque_iterator() : Deque(NULL), Offset(0) { }
const_deque_iterator(const deque_iterator<DequeType> & it) :
Deque(it.Deque), Offset(it.Offset)
{ }
difference_type operator - (const _Self & a) const
{
size_type SelfAbsOffset = (Offset >= Deque->begin_o) ?
Offset : (Deque->Vector.size() + Offset);
size_type aAbsOffset = (a.Offset >= Deque->begin_o) ?
a.Offset : (Deque->Vector.size() + a.Offset);
return SelfAbsOffset - aAbsOffset;
}
difference_type operator - (const iterator & a) const
{
size_type SelfAbsOffset = (Offset >= Deque->begin_o) ?
Offset : (Deque->Vector.size() + Offset);
size_type aAbsOffset = (a.Offset >= Deque->begin_o) ?
a.Offset : (Deque->Vector.size() + a.Offset);
return SelfAbsOffset - aAbsOffset;
}
_Self operator - (size_type op) const
{
return _Self(Deque, (Offset + Deque->Vector.size() - op) % Deque->Vector.size());
}
_Self operator + (size_type op) const
{
return _Self(Deque, (Offset + op) % Deque->Vector.size());
}
_Self & operator -= (size_type op)
{
Offset = (Offset + Deque->Vector.size() - op) % Deque->Vector.size();
return *this;
}
_Self & operator += (size_type op)
{
Offset = (Offset + op) % Deque->Vector.size();
return *this;
}
const_reference operator * () const
{
return Deque->Vector[Offset];
}
const_pointer operator -> () const
{
return &(Deque->Vector[Offset]);
}
const_reference operator [] (size_type op) const
{
return Deque->Vector[(Offset + op) % Deque->Vector.size()];
}
_Self & operator ++ ()
{
Offset = (Offset + 1) % Deque->Vector.size();
return *this;
}
_Self operator ++ (int)
{
_Self __tmp = *this;
Offset = (Offset + 1) % Deque->Vector.size();
return __tmp;
}
_Self & operator -- ()
{
Offset = (Offset + Deque->Vector.size() - 1) % Deque->Vector.size();
return *this;
}
_Self operator -- (int)
{
_Self __tmp = *this;
Offset = (Offset + Deque->Vector.size() - 1) % Deque->Vector.size();
return __tmp;
}
bool operator == (const _Self & a) const
{
assert(Deque == a.Deque);
return Offset == a.Offset;
}
bool operator != (const _Self & a) const
{
assert(Deque == a.Deque);
return Offset != a.Offset;
}
bool operator < (const _Self & a) const
{
assert(Deque == a.Deque);
return (a - (*this)) > 0;
}
bool operator > (const _Self & a) const
{
return a < (*this);
}
bool operator <= (const _Self & a) const
{
return !((*this) > a);
}
bool operator >= (const _Self & a) const
{
return !((*this) < a);
}
bool operator == (const iterator & a) const
{
assert(Deque == a.Deque);
return Offset == a.Offset;
}
bool operator != (const iterator & a) const
{
assert(Deque == a.Deque);
return Offset != a.Offset;
}
bool operator < (const iterator & a) const
{
assert(Deque == a.Deque);
return (a - (*this)) > 0;
}
bool operator > (const iterator & a) const
{
return a < (*this);
}
bool operator <= (const iterator & a) const
{
return !((*this) > a);
}
bool operator >= (const iterator & a) const
{
return !((*this) < a);
}
};
//! \addtogroup stlcont
//! \{
//! \brief A deque container
//!
//! It is an adaptor of the \c VectorType.
//! The implementation wraps the elements around
//! the end of the \c VectorType circularly.
//! \tparam T type of the contained objects (POD with no references to internal memory)
//! \tparam VectorType the type of the underlying vector container,
//! the default is \c stxxl::vector<T>
template <class T, class VectorType = stxxl::vector<T> >
class deque : private noncopyable
{
typedef deque<T, VectorType> Self_;
public:
typedef typename VectorType::size_type size_type;
typedef typename VectorType::difference_type difference_type;
typedef VectorType vector_type;
typedef T value_type;
typedef T * pointer;
typedef const value_type * const_pointer;
typedef T & reference;
typedef const T & const_reference;
typedef deque_iterator<Self_> iterator;
typedef const_deque_iterator<Self_> const_iterator;
typedef std::reverse_iterator<iterator> reverse_iterator;
typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
friend class deque_iterator<Self_>;
friend class const_deque_iterator<Self_>;
private:
VectorType Vector;
size_type begin_o, end_o, size_;
void double_array()
{
const size_type old_size = Vector.size();
Vector.resize(2 * old_size);
if (begin_o > end_o)
{ // copy data to the new end of the vector
const size_type new_begin_o = old_size + begin_o;
std::copy(Vector.begin() + begin_o,
Vector.begin() + old_size,
Vector.begin() + new_begin_o);
begin_o = new_begin_o;
}
}
public:
deque() : Vector((STXXL_DEFAULT_BLOCK_SIZE(T)) / sizeof(T)), begin_o(0), end_o(0), size_(0)
{ }
deque(size_type n)
: Vector(STXXL_MAX<size_type>(STXXL_DEFAULT_BLOCK_SIZE(T) / sizeof(T), 2 * n)),
begin_o(0), end_o(n), size_(n)
{ }
~deque() // empty so far
{ }
iterator begin()
{
return iterator(this, begin_o);
}
iterator end()
{
return iterator(this, end_o);
}
const_iterator begin() const
{
return const_iterator(this, begin_o);
}
const_iterator cbegin() const
{
return begin();
}
const_iterator end() const
{
return const_iterator(this, end_o);
}
const_iterator cend() const
{
return end();
}
reverse_iterator rbegin()
{
return reverse_iterator(end());
}
const_reverse_iterator rbegin() const
{
return const_reverse_iterator(end());
}
const_reverse_iterator crbegin() const
{
return const_reverse_iterator(end());
}
reverse_iterator rend()
{
return reverse_iterator(begin());
}
const_reverse_iterator rend() const
{
return const_reverse_iterator(begin());
}
const_reverse_iterator crend() const
{
return const_reverse_iterator(begin());
}
size_type size() const
{
return size_;
}
size_type max_size() const
{
return (std::numeric_limits<size_type>::max)() / 2 - 1;
}
bool empty() const
{
return size_ == 0;
}
reference operator [] (size_type n)
{
assert(n < size());
return Vector[(begin_o + n) % Vector.size()];
}
const_reference operator [] (size_type n) const
{
assert(n < size());
return Vector[(begin_o + n) % Vector.size()];
}
reference front()
{
assert(!empty());
return Vector[begin_o];
}
const_reference front() const
{
assert(!empty());
return Vector[begin_o];
}
reference back()
{
assert(!empty());
return Vector[(end_o + Vector.size() - 1) % Vector.size()];
}
const_reference back() const
{
assert(!empty());
return Vector[(end_o + Vector.size() - 1) % Vector.size()];
}
void push_front(const T & el)
{
if ((begin_o + Vector.size() - 1) % Vector.size() == end_o)
{
// an overflow will occur: resize the array
double_array();
}
begin_o = (begin_o + Vector.size() - 1) % Vector.size();
Vector[begin_o] = el;
++size_;
}
void push_back(const T & el)
{
if ((end_o + 1) % Vector.size() == begin_o)
{
// an overflow will occur: resize the array
double_array();
}
Vector[end_o] = el;
end_o = (end_o + 1) % Vector.size();
++size_;
}
void pop_front()
{
assert(!empty());
begin_o = (begin_o + 1) % Vector.size();
--size_;
}
void pop_back()
{
assert(!empty());
end_o = (end_o + Vector.size() - 1) % Vector.size();
--size_;
}
void swap(deque & obj)
{
std::swap(Vector, obj.Vector);
std::swap(begin_o, obj.begin_o);
std::swap(end_o, obj.end_o);
std::swap(size_, obj.size_);
}
void clear()
{
Vector.clear();
Vector.resize((STXXL_DEFAULT_BLOCK_SIZE(T)) / sizeof(T));
begin_o = 0;
end_o = 0;
size_ = 0;
}
void resize(size_type n)
{
if (n < size())
{
do
{
pop_back();
} while (n < size());
}
else
{
if (n + 1 > Vector.size())
{ // need to resize
const size_type old_size = Vector.size();
Vector.resize(2 * n);
if (begin_o > end_o)
{ // copy data to the new end of the vector
const size_type new_begin_o = Vector.size() - old_size + begin_o;
std::copy(Vector.begin() + begin_o,
Vector.begin() + old_size,
Vector.begin() + new_begin_o);
begin_o = new_begin_o;
}
}
end_o = (end_o + n - size()) % Vector.size();
size_ = n;
}
}
};
template <class T, class VectorType>
bool operator == (const deque<T, VectorType> & a, const deque<T, VectorType> & b)
{
return std::equal(a.begin(), a.end(), b.begin());
}
template <class T, class VectorType>
bool operator < (const deque<T, VectorType> & a, const deque<T, VectorType> & b)
{
return std::lexicographical_compare(a.begin(), a.end(), b.begin(), b.end());
}
//! \}
__STXXL_END_NAMESPACE
namespace std
{
template <typename T, typename VT>
void swap(stxxl::deque<T, VT> & a,
stxxl::deque<T, VT> & b)
{
a.swap(b);
}
}
#endif /* _STXXL_DEQUE_H */
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