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[SVN r9444]
This commit is contained in:
Ralf W. Grosse-Kunstleve
2001-03-05 20:01:01 +00:00
parent 3686d02cf6
commit 2126f14227
1 changed files with 73 additions and 36 deletions
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107
include/boost/counting_iterator.hpp
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@ -15,16 +15,35 @@
// value progresses through consecutive values of Incrementable when the
// iterator is derferenced.
//
// template <class Incrementable> struct counting_iterator_generator;
//
// A "type generator" whose nested type "type" is a counting iterator as
// described above.
//
// template <class Incrementable>
// iterator_adaptor<Incrementable,
// counting_iterator_policies<Incrementable>,
// counting_iterator_traits<Incrementable> >
// counting_iterator(Incrementable);
// typename counting_iterator_generator<Incrementable>::type
// make_counting_iterator(Incrementable);
//
// A function which produces an adapted counting iterator over values of
// Incrementable.
//
// Revision History
// 14 Feb 2001 Removed unnecessary typedefs from counting_iterator_traits
// (Jeremy Siek)
// 11 Feb 2001 Use BOOST_STATIC_CONSTANT (Dave Abrahams)
// 11 Feb 2001 Clean up after John Maddocks's (finally effective!) Borland
// fixes (David Abrahams).
// 10 Feb 2001 Use new iterator_adaptor<> interface (David Abrahams)
// 10 Feb 2001 Rolled in supposed Borland fixes from John Maddock, but not
// seeing any improvement yet (David Abrahams)
// 09 Feb 2001 Factored out is_numeric computation. Borland still
// unhappy :( (David Abrahams)
// 08 Feb 2001 Beginning of a failed attempt to appease Borland
// (David Abrahams)
// 07 Feb 2001 rename counting_iterator() -> make_counting_iterator()
// (David Abrahams)
// 04 Feb 2001 Added counting_iterator_generator; updated comments
// (David Abrahams)
// 24 Jan 2001 initial revision, based on Jeremy Siek's
// boost/pending/integer_range.hpp (David Abrahams)
@ -33,9 +52,10 @@
# include <boost/config.hpp>
# include <boost/detail/iterator.hpp>
# include <boost/pending/iterator_adaptors.hpp>
# include <boost/iterator_adaptors.hpp>
# include <boost/type_traits.hpp>
# include <boost/detail/numeric_traits.hpp>
# include <boost/static_assert.hpp>
# ifndef BOOST_NO_LIMITS
# include <limits>
# endif
@ -108,20 +128,32 @@ namespace detail {
};
};
// Try to detect numeric types at compile time in ways compatible with the
// limitations of the compiler and library.
template <class T>
struct is_numeric {
// For a while, this wasn't true, but we rely on it below. This is a regression assert.
BOOST_STATIC_ASSERT(::boost::is_integral<char>::value);
# ifndef BOOST_NO_LIMITS_COMPILE_TIME_CONSTANTS
BOOST_STATIC_CONSTANT(bool, value = std::numeric_limits<T>::is_specialized);
# else
# if !defined(__BORLANDC__)
BOOST_STATIC_CONSTANT(bool, value = (
boost::is_convertible<int,T>::value && boost::is_convertible<T,int>::value));
# else
BOOST_STATIC_CONSTANT(bool, value = ::boost::is_arithmetic<T>::value);
# endif
# endif
};
// 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);
return distance_policy_select<(
is_numeric<Incrementable>::value)>::template
policy<Distance, Incrementable>::distance(start, finish);
}
} // namespace detail
@ -129,20 +161,11 @@ 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;
typedef ::boost::detail::counting_iterator_traits_select<(
::boost::detail::is_numeric<Incrementable>::value
)> binder;
typedef typename binder::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;
};
@ -161,18 +184,32 @@ struct counting_iterator_policies : public default_iterator_policies
}
};
// A type generator for counting iterators
template <class Incrementable>
struct counting_iterator_generator
{
typedef counting_iterator_traits<Incrementable> traits;
typedef iterator_adaptor<Incrementable,
counting_iterator_policies<Incrementable>,
Incrementable,
const Incrementable&,
const Incrementable*,
typename traits::iterator_category,
typename traits::difference_type
> type;
};
// 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)
inline typename counting_iterator_generator<Incrementable>::type
make_counting_iterator(Incrementable x)
{
return iterator_adaptor<Incrementable,
counting_iterator_policies<Incrementable>,
counting_iterator_traits<Incrementable> >(x);
typedef typename counting_iterator_generator<Incrementable>::type result_t;
return result_t(x);
}
} // namespace boost
#endif // BOOST_COUNTING_ITERATOR_HPP_DWA20000119