/usr/include/dune/functions/common/reserveddeque.hh is in libdune-functions-dev 2.5.1-1.
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// vi: set et ts=4 sw=2 sts=2:
#ifndef DUNE_FUNCTIONS_COMMON_RESERVEDDEQUE_HH
#define DUNE_FUNCTIONS_COMMON_RESERVEDDEQUE_HH
/** \file
* \brief An stl-compliant double-ended queue which stores everything on the stack
*/
#include <algorithm>
#include <iostream>
#include <cstddef>
#include <initializer_list>
#include <dune/common/genericiterator.hh>
#ifdef CHECK_RESERVEDDEQUE
#define CHECKSIZE(X) assert(X)
#else
#define CHECKSIZE(X) {}
#endif
namespace Dune {
namespace Functions {
/**
\brief A Vector class with statically reserved memory.
\ingroup Utility
ReservedDeque is something between Dune::array and std::deque.
You have a double ended queue which can be extended and shrunk using methods like
push_back and pop_back at the end, or via push_front and pop_front,
but reserved memory is predefined.
This implies that the vector can not grow bigger than the predefined
maximum size.
\tparam T The data type ReservedVector stores.
\tparam n The maximum number of objects the ReservedVector can store.
*/
template<class T, int n>
class ReservedDeque
{
public:
/** @{ Typedefs */
//! The type of object, T, stored in the vector.
typedef T value_type;
//! Pointer to T.
typedef T* pointer;
//! Reference to T
typedef T& reference;
//! Const reference to T
typedef const T& const_reference;
//! An unsigned integral type.
typedef size_t size_type;
//! A signed integral type.
typedef std::ptrdiff_t difference_type;
//! Iterator used to iterate through a vector.
typedef Dune::GenericIterator<ReservedDeque, value_type> iterator;
//! Const iterator used to iterate through a vector.
typedef Dune::GenericIterator<const ReservedDeque, const value_type> const_iterator;
/** @} */
/** @{ Constructors */
//! Constructor
ReservedDeque() :
size_(0),
first_(0)
{}
ReservedDeque(std::initializer_list<T> const &l)
{
assert(l.size() <= n);// Actually, this is not needed any more!
size_ = l.size();
std::copy_n(l.begin(), size_, data_);
}
/** @} */
/** @{ Data access operations */
//! Erases all elements.
void clear()
{
first_ = 0;
size_ = 0;
}
//! Specifies a new size for the vector.
void resize(size_t s)
{
CHECKSIZE(s<=n);
size_ = s;
}
//! Appends an element to the end of a vector, up to the maximum size n, O(1) time.
void push_back(const T& t)
{
CHECKSIZE(size_<n);
data_[size_++ % n] = t;
}
//! Prepends an element to the begin of a deque if size<capacity, O(1) time.
void push_front(const T& t)
{
CHECKSIZE(size_<n);
++size_;
first_ = (first_+(n-1)) % n;
data_[first_] = t;
}
//! Erases the last element of the vector, O(1) time.
void pop_back()
{
if (! empty())
size_--;
}
//! Erases the first element of the vector, O(1) time.
void pop_front()
{
if (! empty())
{
size_--;
first_ = (++first_) % n;
}
}
//! Returns a iterator pointing to the beginning of the vector.
iterator begin(){
return iterator(*this, 0);
}
//! Returns a const_iterator pointing to the beginning of the vector.
const_iterator begin() const {
return const_iterator(*this, 0);
}
//! Returns an iterator pointing to the end of the vector.
iterator end(){
return iterator(*this, size_);
}
//! Returns a const_iterator pointing to the end of the vector.
const_iterator end() const {
return const_iterator(*this, size_);
}
//! Returns reference to the i'th element.
reference operator[] (size_type i)
{
CHECKSIZE(size_>i);
return data_[(first_ + i) % n];
}
//! Returns a const reference to the i'th element.
const_reference operator[] (size_type i) const
{
CHECKSIZE(size_>i);
return data_[(first_ + i) % n];
}
//! Returns reference to first element of vector.
reference front()
{
CHECKSIZE(size_>0);
return data_[first_];
}
//! Returns const reference to first element of vector.
const_reference front() const
{
CHECKSIZE(size_>0);
return data_[first_];
}
//! Returns reference to last element of vector.
reference back()
{
CHECKSIZE(size_>0);
return data_[(first_ + size_-1) % n];
}
//! Returns const reference to last element of vector.
const_reference back() const
{
CHECKSIZE(size_>0);
return data_[(first_ + size_-1) % n];
}
/** @} */
/** @{ Informative Methods */
//! Returns number of elements in the vector.
size_type size () const
{
return size_;
}
//! Returns true if vector has no elements.
bool empty() const
{
return size_==0;
}
//! Returns current capacity (allocated memory) of the vector.
static DUNE_CONSTEXPR size_type capacity()
{
return n;
}
//! Returns the maximum length of the vector.
static DUNE_CONSTEXPR size_type max_size()
{
return n;
}
/** @} */
//! Send ReservedVector to an output stream
friend std::ostream& operator<< (std::ostream& s, const ReservedDeque& v)
{
for (size_t i=0; i<v.size(); i++)
s << v[i] << " ";
return s;
}
private:
T data_[n];
size_type first_;
size_type size_;
};
} // end namespace Functions
} // end namespace Dune
#undef CHECKSIZE
#endif // DUNE_FUNCTIONS_COMMON_RESERVEDDEQUE_HH
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