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iterator/include/boost/counting_iterator.hpp
Dave Abrahams 58b56fbabb Initial checkin 
[SVN r8757]
2001-01-24 18:36:52 +00:00

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// (C) Copyright David Abrahams and Jeremy Siek 2000-2001. Permission to copy,
// use, modify, sell and distribute this software is granted provided this
// copyright notice appears in all copies. This software is provided "as is"
// without express or implied warranty, and with no claim as to its suitability
// for any purpose.
//
// See http://www.boost.org for most recent version including documentation.
//
// Supplies:
//
// template <class Incrementable> class counting_iterator_traits;
// template <class Incrementable> class counting_iterator_policies;
//
// Iterator traits and policies for adapted iterators whose dereferenced
// value progresses through consecutive values of Incrementable when the
// iterator is derferenced.
//
// template <class Incrementable>
// iterator_adaptor<Incrementable,
// counting_iterator_policies<Incrementable>,
// counting_iterator_traits<Incrementable> >
// counting_iterator(Incrementable);
//
// A function which produces an adapted counting iterator over values of
// Incrementable.
//
// Revision History
// 24 Jan 2001 initial revision, based on Jeremy Siek's
// boost/pending/integer_range.hpp (David Abrahams)
#ifndef BOOST_COUNTING_ITERATOR_HPP_DWA20000119
# define BOOST_COUNTING_ITERATOR_HPP_DWA20000119
# include <boost/config.hpp>
# include <boost/detail/iterator.hpp>
# include <boost/pending/iterator_adaptors.hpp>
# include <boost/type_traits.hpp>
# include <boost/detail/numeric_traits.hpp>
# ifndef BOOST_NO_LIMITS
# include <limits>
# endif
namespace boost {
namespace detail {
// Template class counting_iterator_traits_select -- choose an
// iterator_category and difference_type for a counting_iterator at
// compile-time based on whether or not it wraps an integer or an iterator,
// using "poor man's partial specialization".
template <bool is_integer> struct counting_iterator_traits_select;
// Incrementable is an iterator type
template <>
struct counting_iterator_traits_select<false>
{
template <class Incrementable>
struct traits
{
private:
typedef boost::detail::iterator_traits<Incrementable> x;
public:
typedef typename x::iterator_category iterator_category;
typedef typename x::difference_type difference_type;
};
};
// Incrementable is a numeric type
template <>
struct counting_iterator_traits_select<true>
{
template <class Incrementable>
struct traits
{
typedef typename
boost::detail::numeric_traits<Incrementable>::difference_type
difference_type;
typedef std::random_access_iterator_tag iterator_category;
};
};
// Template class distance_policy_select -- choose a policy for computing the
// distance between counting_iterators at compile-time based on whether or not
// the iterator wraps an integer or an iterator, using "poor man's partial
// specialization".
template <bool is_integer> struct distance_policy_select;
// A policy for wrapped iterators
template <>
struct distance_policy_select<false>
{
template <class Distance, class Incrementable>
struct policy {
static Distance distance(Incrementable x, Incrementable y)
{ return boost::detail::distance(x, y); }
};
};
// A policy for wrapped numbers
template <>
struct distance_policy_select<true>
{
template <class Distance, class Incrementable>
struct policy {
static Distance distance(Incrementable x, Incrementable y)
{ return numeric_distance(x, y); }
};
};
// Compute the distance over arbitrary numeric and/or iterator types
template <class Distance, class Incrementable>
Distance any_distance(Incrementable start, Incrementable finish, Distance* = 0)
{
return distance_policy_select<
#ifndef BOOST_NO_LIMITS_COMPILE_TIME_CONSTANTS
std::numeric_limits<Incrementable>::is_specialized
#else
// Causes warnings with GCC, but how else can I detect numeric types
// at compile-time?
(boost::is_convertible<int,Incrementable>::value &&
boost::is_convertible<Incrementable,int>::value)
#endif
>::template policy<Distance, Incrementable>::distance(start, finish);
}
} // namespace detail
template <class Incrementable>
struct counting_iterator_traits {
private:
typedef typename detail::counting_iterator_traits_select<(
#ifndef BOOST_NO_LIMITS_COMPILE_TIME_CONSTANTS
std::numeric_limits<Incrementable>::is_specialized
#else
// Causes warnings with GCC, but how else can I detect numeric types at
// compile-time?
(boost::is_convertible<int,Incrementable>::value &&
boost::is_convertible<Incrementable,int>::value)
#endif
)>::template traits<Incrementable> traits;
public:
typedef Incrementable value_type;
typedef const Incrementable& reference;
typedef const value_type* pointer;
typedef typename traits::difference_type difference_type;
typedef typename traits::iterator_category iterator_category;
};
template <class Incrementable>
struct counting_iterator_policies : public default_iterator_policies
{
const Incrementable& dereference(type<const Incrementable&>, const Incrementable& i) const
{ return i; }
template <class Difference, class Iterator1, class Iterator2>
Difference distance(type<Difference>, const Iterator1& x,
const Iterator2& y) const
{
return boost::detail::any_distance<Difference>(x, y);//,(Difference*)());
}
};
// Manufacture a counting iterator for an arbitrary incrementable type
template <class Incrementable>
inline iterator_adaptor<Incrementable,
counting_iterator_policies<Incrementable>,
counting_iterator_traits<Incrementable> >
counting_iterator(Incrementable x)
{
return iterator_adaptor<Incrementable,
counting_iterator_policies<Incrementable>,
counting_iterator_traits<Incrementable> >(x);
}
} // namespace boost
#endif // BOOST_COUNTING_ITERATOR_HPP_DWA20000119
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