/usr/include/thrust/host_vector.h is in libthrust-dev 1.6.0-1.
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* Copyright 2008-2012 NVIDIA Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*! \file host_vector.h
* \brief A dynamically-sizable array of elements which reside in the "host" memory space
*/
#pragma once
#include <thrust/detail/config.h>
#include <memory>
#include <thrust/detail/vector_base.h>
#include <vector>
namespace thrust
{
// forward declaration of device_vector
template<typename T, typename Alloc> class device_vector;
/*! \addtogroup container_classes Container Classes
* \addtogroup host_containers Host Containers
* \ingroup container_classes
* \{
*/
/*! A \p host_vector is a container that supports random access to elements,
* constant time removal of elements at the end, and linear time insertion
* and removal of elements at the beginning or in the middle. The number of
* elements in a \p host_vector may vary dynamically; memory management is
* automatic. The memory associated with a \p host_vector resides in the memory
* space of the host associated with a parallel device.
*
* \see http://www.sgi.com/tech/stl/Vector.html
* \see device_vector
*/
template<typename T, typename Alloc = std::allocator<T> >
class host_vector
: public detail::vector_base<T,Alloc>
{
private:
typedef detail::vector_base<T,Alloc> Parent;
public:
/*! \cond */
typedef typename Parent::size_type size_type;
typedef typename Parent::value_type value_type;
/*! \endcond */
/*! This constructor creates an empty \p host_vector.
*/
__host__
host_vector(void)
:Parent() {}
/*! This constructor creates a \p host_vector with copies
* of an exemplar element.
* \param n The number of elements to initially create.
* \param value An element to copy.
*/
__host__
explicit host_vector(size_type n, const value_type &value = value_type())
:Parent(n,value) {}
/*! Copy constructor copies from an exemplar \p host_vector.
* \param v The \p host_vector to copy.
*/
__host__
host_vector(const host_vector &v)
:Parent(v) {}
/*! Assign operator copies from an exemplar \p host_vector.
* \param v The \p host_vector to copy.
*/
__host__
host_vector &operator=(const host_vector &v)
{ Parent::operator=(v); return *this; }
/*! Copy constructor copies from an exemplar \p host_vector with different type.
* \param v The \p host_vector to copy.
*/
template<typename OtherT, typename OtherAlloc>
__host__
host_vector(const host_vector<OtherT,OtherAlloc> &v)
:Parent(v) {}
/*! Assign operator copies from an exemplar \p host_vector with different type.
* \param v The \p host_vector to copy.
*/
template<typename OtherT, typename OtherAlloc>
__host__
host_vector &operator=(const host_vector<OtherT,OtherAlloc> &v)
{ Parent::operator=(v); return *this; }
/*! Copy constructor copies from an exemplar <tt>std::vector</tt>.
* \param v The <tt>std::vector</tt> to copy.
*/
template<typename OtherT, typename OtherAlloc>
__host__
host_vector(const std::vector<OtherT,OtherAlloc> &v)
:Parent(v) {}
/*! Assign operator copies from an exemplar <tt>std::vector</tt>.
* \param v The <tt>std::vector</tt> to copy.
*/
template<typename OtherT, typename OtherAlloc>
__host__
host_vector &operator=(const std::vector<OtherT,OtherAlloc> &v)
{ Parent::operator=(v); return *this;}
/*! Copy constructor copies from an exemplar \p device_vector with possibly different type.
* \param v The \p device_vector to copy.
*/
template<typename OtherT, typename OtherAlloc>
__host__
host_vector(const device_vector<OtherT,OtherAlloc> &v);
/*! This constructor builds a \p host_vector from a range.
* \param first The beginning of the range.
* \param last The end of the range.
*/
template<typename InputIterator>
__host__
host_vector(InputIterator first, InputIterator last)
:Parent(first, last) {}
// declare these members for the purpose of Doxygenating them
// they actually exist in a derived-from class
#if 0
/*! \brief Resizes this vector to the specified number of elements.
* \param new_size Number of elements this vector should contain.
* \param x Data with which new elements should be populated.
* \throw std::length_error If n exceeds max_size().
*
* This method will resize this vector to the specified number of
* elements. If the number is smaller than this vector's current
* size this vector is truncated, otherwise this vector is
* extended and new elements are populated with given data.
*/
void resize(size_type new_size, const value_type &x = value_type());
/*! Returns the number of elements in this vector.
*/
size_type size(void) const;
/*! Returns the size() of the largest possible vector.
* \return The largest possible return value of size().
*/
size_type max_size(void) const;
/*! \brief If n is less than or equal to capacity(), this call has no effect.
* Otherwise, this method is a request for allocation of additional memory. If
* the request is successful, then capacity() is greater than or equal to
* n; otherwise, capacity() is unchanged. In either case, size() is unchanged.
* \throw std::length_error If n exceeds max_size().
*/
void reserve(size_type n);
/*! Returns the number of elements which have been reserved in this
* vector.
*/
size_type capacity(void) const;
/*! This method shrinks the capacity of this vector to exactly
* fit its elements.
*/
void shrink_to_fit(void);
/*! \brief Subscript access to the data contained in this vector_dev.
* \param n The index of the element for which data should be accessed.
* \return Read/write reference to data.
*
* This operator allows for easy, array-style, data access.
* Note that data access with this operator is unchecked and
* out_of_range lookups are not defined.
*/
reference operator[](size_type n);
/*! \brief Subscript read access to the data contained in this vector_dev.
* \param n The index of the element for which data should be accessed.
* \return Read reference to data.
*
* This operator allows for easy, array-style, data access.
* Note that data access with this operator is unchecked and
* out_of_range lookups are not defined.
*/
const_reference operator[](size_type n) const;
/*! This method returns an iterator pointing to the beginning of
* this vector.
* \return mStart
*/
iterator begin(void);
/*! This method returns a const_iterator pointing to the beginning
* of this vector.
* \return mStart
*/
const_iterator begin(void) const;
/*! This method returns a const_iterator pointing to the beginning
* of this vector.
* \return mStart
*/
const_iterator cbegin(void) const;
/*! This method returns a reverse_iterator pointing to the beginning of
* this vector's reversed sequence.
* \return A reverse_iterator pointing to the beginning of this
* vector's reversed sequence.
*/
reverse_iterator rbegin(void);
/*! This method returns a const_reverse_iterator pointing to the beginning of
* this vector's reversed sequence.
* \return A const_reverse_iterator pointing to the beginning of this
* vector's reversed sequence.
*/
const_reverse_iterator rbegin(void) const;
/*! This method returns a const_reverse_iterator pointing to the beginning of
* this vector's reversed sequence.
* \return A const_reverse_iterator pointing to the beginning of this
* vector's reversed sequence.
*/
const_reverse_iterator crbegin(void) const;
/*! This method returns an iterator pointing to one element past the
* last of this vector.
* \return begin() + size().
*/
iterator end(void);
/*! This method returns a const_iterator pointing to one element past the
* last of this vector.
* \return begin() + size().
*/
const_iterator end(void) const;
/*! This method returns a const_iterator pointing to one element past the
* last of this vector.
* \return begin() + size().
*/
const_iterator cend(void) const;
/*! This method returns a reverse_iterator pointing to one element past the
* last of this vector's reversed sequence.
* \return rbegin() + size().
*/
reverse_iterator rend(void);
/*! This method returns a const_reverse_iterator pointing to one element past the
* last of this vector's reversed sequence.
* \return rbegin() + size().
*/
const_reverse_iterator rend(void) const;
/*! This method returns a const_reverse_iterator pointing to one element past the
* last of this vector's reversed sequence.
* \return rbegin() + size().
*/
const_reverse_iterator crend(void) const;
/*! This method returns a const_reference referring to the first element of this
* vector.
* \return The first element of this vector.
*/
const_reference front(void) const;
/*! This method returns a reference pointing to the first element of this
* vector.
* \return The first element of this vector.
*/
reference front(void);
/*! This method returns a const reference pointing to the last element of
* this vector.
* \return The last element of this vector.
*/
const_reference back(void) const;
/*! This method returns a reference referring to the last element of
* this vector_dev.
* \return The last element of this vector.
*/
reference back(void);
/*! This method returns a pointer to this vector's first element.
* \return A pointer to the first element of this vector.
*/
pointer data(void);
/*! This method returns a const_pointer to this vector's first element.
* \return a const_pointer to the first element of this vector.
*/
const_pointer data(void) const;
/*! This method resizes this vector to 0.
*/
void clear(void);
/*! This method returns true iff size() == 0.
* \return true if size() == 0; false, otherwise.
*/
bool empty(void) const;
/*! This method appends the given element to the end of this vector.
* \param x The element to append.
*/
void push_back(const value_type &x);
/*! This method erases the last element of this vector, invalidating
* all iterators and references to it.
*/
void pop_back(void);
/*! This method swaps the contents of this vector_base with another vector.
* \param v The vector with which to swap.
*/
void swap(host_vector &v);
/*! This method removes the element at position pos.
* \param pos The position of the element of interest.
* \return An iterator pointing to the new location of the element that followed the element
* at position pos.
*/
iterator erase(iterator pos);
/*! This method removes the range of elements [first,last) from this vector.
* \param first The beginning of the range of elements to remove.
* \param last The end of the range of elements to remove.
* \return An iterator pointing to the new location of the element that followed the last
* element in the sequence [first,last).
*/
iterator erase(iterator first, iterator last);
/*! This method inserts a single copy of a given exemplar value at the
* specified position in this vector.
* \param position The insertion position.
* \param x The exemplar element to copy & insert.
* \return An iterator pointing to the newly inserted element.
*/
iterator insert(iterator position, const T &x);
/*! This method inserts a copy of an exemplar value to a range at the
* specified position in this vector.
* \param position The insertion position
* \param n The number of insertions to perform.
* \param x The value to replicate and insert.
*/
void insert(iterator position, size_type n, const T &x);
/*! This method inserts a copy of an input range at the specified position
* in this vector.
* \param position The insertion position.
* \param first The beginning of the range to copy.
* \param last The end of the range to copy.
*
* \tparam InputIterator is a model of <a href="http://www.sgi.com/tech/stl/InputIterator.html>Input Iterator</a>,
* and \p InputIterator's \c value_type is a model of <a href="http://www.sgi.com/tech/stl/Assignable.html">Assignable</a>.
*/
template<typename InputIterator>
void insert(iterator position, InputIterator first, InputIterator last);
/*! This version of \p assign replicates a given exemplar
* \p n times into this vector.
* \param n The number of times to copy \p x.
* \param x The exemplar element to replicate.
*/
void assign(size_type n, const T &x);
/*! This version of \p assign makes this vector a copy of a given input range.
* \param first The beginning of the range to copy.
* \param last The end of the range to copy.
*
* \tparam InputIterator is a model of <a href="http://www.sgi.com/tech/stl/InputIterator">Input Iterator</a>.
*/
template<typename InputIterator>
void assign(InputIterator first, InputIterator last);
/*! This method returns a copy of this vector's allocator.
* \return A copy of the alloctor used by this vector.
*/
allocator_type get_allocator(void) const;
#endif // end doxygen-only members
}; // end host_vector
/*! \}
*/
} // end thrust
#include <thrust/detail/host_vector.inl>
|