boost/compute/iterator/counting_iterator.hpp
//---------------------------------------------------------------------------// // Copyright (c) 2013 Kyle Lutz <kyle.r.lutz@gmail.com> // // 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 // // See http://boostorg.github.com/compute for more information. //---------------------------------------------------------------------------// #ifndef BOOST_COMPUTE_ITERATOR_COUNTING_ITERATOR_HPP #define BOOST_COMPUTE_ITERATOR_COUNTING_ITERATOR_HPP #include <string> #include <cstddef> #include <iterator> #include <boost/config.hpp> #include <boost/iterator/iterator_facade.hpp> #include <boost/compute/detail/meta_kernel.hpp> #include <boost/compute/type_traits/is_device_iterator.hpp> namespace boost { namespace compute { // forward declaration for counting_iterator<T> template<class T> class counting_iterator; namespace detail { // helper class which defines the iterator_facade super-class // type for counting_iterator<T> template<class T> class counting_iterator_base { public: typedef ::boost::iterator_facade< ::boost::compute::counting_iterator<T>, T, ::std::random_access_iterator_tag > type; }; template<class T, class IndexExpr> struct counting_iterator_index_expr { typedef T result_type; counting_iterator_index_expr(const T &init, const IndexExpr &expr) : m_init(init), m_expr(expr) { } const T &m_init; IndexExpr m_expr; }; template<class T, class IndexExpr> inline meta_kernel& operator<<(meta_kernel &kernel, const counting_iterator_index_expr<T, IndexExpr> &expr) { return kernel << '(' << expr.m_init << '+' << expr.m_expr << ')'; } } // end detail namespace /// \class counting_iterator /// \brief The counting_iterator class implements a counting iterator. /// /// A counting iterator returns an internal value (initialized with \p init) /// which is incremented each time the iterator is incremented. /// /// For example, this could be used to implement the iota() algorithm in terms /// of the copy() algorithm by copying from a range of counting iterators: /// /// \snippet test/test_counting_iterator.cpp iota_with_copy /// /// \see make_counting_iterator() template<class T> class counting_iterator : public detail::counting_iterator_base<T>::type { public: typedef typename detail::counting_iterator_base<T>::type super_type; typedef typename super_type::reference reference; typedef typename super_type::difference_type difference_type; counting_iterator(const T &init) : m_init(init) { } counting_iterator(const counting_iterator<T> &other) : m_init(other.m_init) { } counting_iterator<T>& operator=(const counting_iterator<T> &other) { if(this != &other){ m_init = other.m_init; } return *this; } ~counting_iterator() { } size_t get_index() const { return 0; } template<class Expr> detail::counting_iterator_index_expr<T, Expr> operator[](const Expr &expr) const { return detail::counting_iterator_index_expr<T, Expr>(m_init, expr); } private: friend class ::boost::iterator_core_access; reference dereference() const { return m_init; } bool equal(const counting_iterator<T> &other) const { return m_init == other.m_init; } void increment() { m_init++; } void decrement() { m_init--; } void advance(difference_type n) { m_init += static_cast<T>(n); } difference_type distance_to(const counting_iterator<T> &other) const { return difference_type(other.m_init) - difference_type(m_init); } private: T m_init; }; /// Returns a new counting_iterator starting at \p init. /// /// \param init the initial value /// /// \return a counting_iterator with \p init. /// /// For example, to create a counting iterator which returns unsigned integers /// and increments from one: /// \code /// auto iter = make_counting_iterator<uint_>(1); /// \endcode template<class T> inline counting_iterator<T> make_counting_iterator(const T &init) { return counting_iterator<T>(init); } /// \internal_ (is_device_iterator specialization for counting_iterator) template<class T> struct is_device_iterator<counting_iterator<T> > : boost::true_type {}; } // end compute namespace } // end boost namespace #endif // BOOST_COMPUTE_ITERATOR_COUNTING_ITERATOR_HPP