/* /////////////////////////////////////////////////////////////////////////
 * File:        rangelib/iterator_range.hpp
 *
 * Purpose:     Iterator range adaptor.
 *
 * Created:     4th November 2003
 * Updated:     10th August 2009
 *
 * Home:        http://stlsoft.org/
 *
 * Copyright (c) 2003-2009, Matthew Wilson and Synesis Software
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 *
 * - Redistributions of source code must retain the above copyright notice, this
 *   list of conditions and the following disclaimer.
 * - Redistributions in binary form must reproduce the above copyright notice,
 *   this list of conditions and the following disclaimer in the documentation
 *   and/or other materials provided with the distribution.
 * - Neither the name(s) of Matthew Wilson and Synesis Software nor the names of
 *   any contributors may be used to endorse or promote products derived from
 *   this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 * POSSIBILITY OF SUCH DAMAGE.
 *
 * ////////////////////////////////////////////////////////////////////// */


/** \file rangelib/iterator_range.hpp Iterator range adaptor */

#ifndef RANGELIB_INCL_RANGELIB_HPP_ITERATOR_RANGE
#define RANGELIB_INCL_RANGELIB_HPP_ITERATOR_RANGE

#ifndef STLSOFT_DOCUMENTATION_SKIP_SECTION
# define RANGELIB_VER_RANGELIB_HPP_ITERATOR_RANGE_MAJOR    2
# define RANGELIB_VER_RANGELIB_HPP_ITERATOR_RANGE_MINOR    6
# define RANGELIB_VER_RANGELIB_HPP_ITERATOR_RANGE_REVISION 4
# define RANGELIB_VER_RANGELIB_HPP_ITERATOR_RANGE_EDIT     43
#endif /* !STLSOFT_DOCUMENTATION_SKIP_SECTION */

/* /////////////////////////////////////////////////////////////////////////
 * Auto-generation and compatibility
 */

/*
[<[STLSOFT-AUTO:NO-UNITTEST]>]
[Incompatibilies-start]
STLSOFT_COMPILER_IS_BORLAND:
STLSOFT_COMPILER_IS_GCC:     __GNUC__ < 3 || (__GNUC__ == 3 && __GNUC_MINOR__ < 4)
STLSOFT_COMPILER_IS_MSVC:     _MSC_VER < 1200
STLSOFT_COMPILER_IS_MWERKS:   (__MWERKS__ & 0xFF00) < 0x3000
[Incompatibilies-end]
 */

/* /////////////////////////////////////////////////////////////////////////
 * Includes
 */

#ifndef RANGELIB_INCL_RANGELIB_HPP_RANGELIB
# include <rangelib/rangelib.hpp>
#endif /* !RANGELIB_INCL_RANGELIB_HPP_RANGELIB */

#ifndef STLSOFT_CF_TEMPLATE_PARTIAL_SPECIALISATION_SUPPORT
# error rangelib/iterator_range.hpp is not compatible with compilers that do not support partial template specialisation
#endif /* !STLSOFT_CF_TEMPLATE_PARTIAL_SPECIALISATION_SUPPORT */

#ifndef RANGELIB_INCL_RANGELIB_HPP_RANGE_CATEGORIES
# include <rangelib/range_categories.hpp>
#endif /* !RANGELIB_INCL_RANGELIB_HPP_RANGE_CATEGORIES */
#ifndef STLSOFT_INCL_STLSOFT_UTIL_HPP_OPERATOR_BOOL
# include <stlsoft/util/operator_bool.hpp>
#endif /* !STLSOFT_INCL_STLSOFT_UTIL_HPP_OPERATOR_BOOL */
#ifndef STLSOFT_INCL_STLSOFT_META_HPP_CAPABILITIES
# include <stlsoft/meta/capabilities.hpp>
#endif /* !STLSOFT_INCL_STLSOFT_META_HPP_CAPABILITIES */
#ifndef STLSOFT_INCL_STLSOFT_META_HPP_BASE_TYPE_TRAITS
# include <stlsoft/meta/base_type_traits.hpp>
#endif /* !STLSOFT_INCL_STLSOFT_META_HPP_BASE_TYPE_TRAITS */
#ifndef STLSOFT_INCL_STLSOFT_UTIL_STD_HPP_ITERATOR_HELPER
# include <stlsoft/util/std/iterator_helper.hpp>
#endif /* !STLSOFT_INCL_STLSOFT_UTIL_STD_HPP_ITERATOR_HELPER */

#ifdef STLSOFT_UNITTEST
# include <algorithm>
# include <deque>
# include <list>
# include <numeric>
# include <vector>
#endif /* STLSOFT_UNITTEST */

/* /////////////////////////////////////////////////////////////////////////
 * Namespace
 */

#ifndef RANGELIB_NO_NAMESPACE
# if defined(_STLSOFT_NO_NAMESPACE) || \
     defined(STLSOFT_DOCUMENTATION_SKIP_SECTION)
/* There is no stlsoft namespace, so must define ::rangelib */
namespace rangelib
{
# else
/* Define stlsoft::rangelib_project */

namespace stlsoft
{

namespace rangelib_project
{

# endif /* _STLSOFT_NO_NAMESPACE */
#endif /* !RANGELIB_NO_NAMESPACE */

/* /////////////////////////////////////////////////////////////////////////
 * Classes
 */

#ifdef STLSOFT_CF_TEMPLATE_PARTIAL_SPECIALISATION_SUPPORT

/** \brief Traits class for determining the attributes of range-adapted iterator types
 *
 * \ingroup group__library__rangelib
 */
template<   ss_typename_param_k I
        ,   bool                B_CONST
        >
struct iterator_range_traits
{
public:
    /// The iterator type
    typedef I                                                                           iterator_type;
    /// The value type
    typedef ss_typename_type_k I::value_type                                            value_type;
private:
#ifdef STLSOFT_ITERATOR_ITERATOR_FORM2_SUPPORT
    // Use the iterator itself to determine whether the iterator is const
    enum { is_const = base_type_traits<value_type>::is_const };
#else /* ? STLSOFT_ITERATOR_ITERATOR_FORM2_SUPPORT */
    // 1. Use iterator_traits ...
    typedef std::iterator_traits<I>                                                     traits_type_;
    // ... to get the pointer type ...
    typedef ss_typename_type_k traits_type_::pointer                                    pointer_type_;
    // ... to determine whether the iterator is const
    enum { is_const = base_type_traits<pointer_type_>::is_const };
#endif /* !STLSOFT_ITERATOR_ITERATOR_FORM2_SUPPORT */
    // 2. Use Determine the base type of the value_type, which may then be used to create a reference of the appropriate type
    typedef ss_typename_type_k base_type_traits<value_type>::base_type                  base_value_type;
//  enum { is_const = is_const<pointer>::value };
public:
    /// The mutating (non-const) iterator type
    typedef I                                                                           iterator;
    /// The non-mutating (const) iterator type
    typedef ss_typename_type_k base_type_traits<iterator>::base_type const&             const_iterator;
    /// The mutating (non-const) refernce type
    typedef ss_typename_type_k select_first_type_if<base_value_type const&
                                                ,   base_value_type &, is_const>::type  reference;
    /// The non-mutating (const) reference type
    typedef base_value_type const&                                                      const_reference;
// TODO: Stick in the member-finder stuff here, so can assume ptrdiff_t if none found
    /// The difference type
    typedef ss_typename_type_k iterator_type::difference_type                           difference_type;
    /// The size type
    typedef ss_typename_type_k iterator_type::size_type                                 size_type;
};

# ifndef STLSOFT_DOCUMENTATION_SKIP_SECTION

template<   ss_typename_param_k T
        ,   bool                B_CONST
        >
struct iterator_range_traits<T*, B_CONST>
{
    typedef T                   value_type;
    typedef value_type*         iterator;
    typedef value_type const*   const_iterator;
    typedef value_type&         reference;
    typedef value_type const&   const_reference;
};

template<   ss_typename_param_k T
        ,   bool                B_CONST
        >
struct iterator_range_traits<T const*, B_CONST>
{
    typedef T                   value_type;
    typedef value_type const*   iterator;
    typedef value_type const*   const_iterator;
    typedef value_type const&   reference;
    typedef value_type const&   const_reference;
};

# endif /* !STLSOFT_DOCUMENTATION_SKIP_SECTION */

#else /* ? STLSOFT_CF_TEMPLATE_PARTIAL_SPECIALISATION_SUPPORT */

template<   ss_typename_param_k I
        >
struct iterator_range_traits
{
public:
    typedef I                                                       iterator_type;
    typedef ss_typename_type_k iterator_type::value_type            value_type;
    typedef ss_typename_type_k iterator_type::iterator              iterator;
    typedef ss_typename_type_k iterator_type::const_iterator        const_iterator;
    typedef ss_typename_type_k iterator_type::reference             reference;
    typedef ss_typename_type_k iterator_type::const_reference       const_reference;
// TODO: Stick in the member-finder stuff here, so can assume ptrdiff_t if none found
    typedef ss_typename_type_k iterator_type::difference_type       difference_type;
    typedef ss_typename_type_k iterator_type::size_type             size_type;
};

template<   ss_typename_param_k I
        >
struct const_iterator_range_traits
{
public:
    typedef I                                                       iterator_type;
    typedef ss_typename_type_k iterator_type::value_type            value_type;
    typedef ss_typename_type_k iterator_type::const_iterator        iterator;
    typedef ss_typename_type_k iterator_type::const_iterator        const_iterator;
    typedef ss_typename_type_k iterator_type::const_reference       reference;
    typedef ss_typename_type_k iterator_type::const_reference       const_reference;
    typedef ss_typename_type_k iterator_type::difference_type       difference_type;
    typedef ss_typename_type_k iterator_type::size_type             size_type;
};

template<   ss_typename_param_k T
        >
struct pointer_iterator_range_traits
{
    typedef T                                                       value_type;
    typedef T*                                                      iterator;
    typedef T const*                                                const_iterator;
    typedef T&                                                      reference;
    typedef T const&                                                const_reference;
    typedef ptrdiff_t                                               difference_type;
    typedef size_t                                                  size_type;
};

template<   ss_typename_param_k T
        >
struct const_pointer_iterator_range_traits
{
    typedef T                                                       value_type;
    typedef T const*                                                iterator;
    typedef T const*                                                const_iterator;
    typedef T const&                                                reference;
    typedef T const&                                                const_reference;
    typedef ptrdiff_t                                               difference_type;
    typedef size_t                                                  size_type;
};

#endif /* STLSOFT_CF_TEMPLATE_PARTIAL_SPECIALISATION_SUPPORT */


/** \brief This class adapts an iterator pair into a Range
 *
 * \ingroup group__library__rangelib
 *
 * \param I The iterator type
 * \param T The iterator range traits, used to deduce the Range's iterator, const_iterator, reference, const_reference and value_type
 *
 * It is categoried as an Iterable Range
 *
 * It could be used as follows
\code
template<typename I>
void dump_elements(I from, I to)
{
  for(iterator_range<I> r(from, to); r; ++r)
  {
    std::cout << &r; // Dump the current value to stdout
  }
}
\endcode
 */
template<   ss_typename_param_k I
#ifdef STLSOFT_CF_TEMPLATE_PARTIAL_SPECIALISATION_SUPPORT
        ,   ss_typename_param_k T = iterator_range_traits<I, is_const_type<I>::value>   // Determines whether the iterator is const
#else /* ? STLSOFT_CF_TEMPLATE_PARTIAL_SPECIALISATION_SUPPORT */
        ,   ss_typename_param_k T
#endif /* STLSOFT_CF_TEMPLATE_PARTIAL_SPECIALISATION_SUPPORT */
        >
class iterator_range
    : public iterable_range_tag
{
/// \name Member Types
/// @{
public:
    /// The iterator type
    typedef I                                                       iterator_type;
    /// The traits type
    typedef T                                                       traits_type;
    /// The range tag type
    typedef iterable_range_tag                                      range_tag_type;
    /// The current instantiation of this type
    typedef iterator_range<I, T>                                    class_type;
    /// The value type
    typedef ss_typename_type_k traits_type::value_type              value_type;
    /// The mutating (non-const) iterator type
    typedef ss_typename_type_k traits_type::iterator                iterator;
    /// The non-mutating (const) iterator type
    typedef ss_typename_type_k traits_type::const_iterator          const_iterator;
    /// The mutating (non-const) refernce type
    typedef ss_typename_type_k traits_type::reference               reference;
    /// The non-mutating (const) reference type
    typedef ss_typename_type_k traits_type::const_reference         const_reference;
/// @}

/// \name Construction
/// @{
public:
#if !defined(STLSOFT_CF_MEMBER_TEMPLATE_CTOR_SUPPORT) || \
    defined(STLSOFT_CF_MEMBER_TEMPLATE_CTOR_OVERLOAD_DISCRIMINATED) || \
    (   defined(STLSOFT_COMPILER_IS_MSVC) && \
        _MSC_VER == 1200)
    /// Constructs from an iterator pair
    iterator_range(iterator first, iterator last)
        : m_position(first)
        , m_last(last)
    {}
#endif /* !STLSOFT_CF_MEMBER_TEMPLATE_CTOR_SUPPORT || STLSOFT_CF_MEMBER_TEMPLATE_CTOR_OVERLOAD_DISCRIMINATED */

#if defined(STLSOFT_CF_MEMBER_TEMPLATE_CTOR_SUPPORT) && \
    (   !defined(STLSOFT_COMPILER_IS_MSVC) || \
        _MSC_VER != 1200)
    /// Constructs from an iterator pair
    template <ss_typename_param_k I2>
    iterator_range(I2 first, I2 last)
        : m_position(first)
        , m_last(last)
    {}
#endif /* STLSOFT_CF_MEMBER_TEMPLATE_CTOR_SUPPORT */

#ifdef STLSOFT_CF_STATIC_ARRAY_SIZE_DETERMINATION_SUPPORT
    /// Constructs from an array
    template <ss_typename_param_k T2, ss_size_t N>
    iterator_range(T2 (&ar)[N])
        : m_position(&ar[0])
        , m_last(&ar[N])
    {}
#endif /* STLSOFT_CF_STATIC_ARRAY_SIZE_DETERMINATION_SUPPORT */
/// @}

/// \name Notional Range methods
/// @{
private:
    STLSOFT_DEFINE_OPERATOR_BOOL_TYPES_T(class_type, boolean_generator_type, boolean_type);
public:
    /// Indicates whether the range is open
    ss_bool_t is_open() const
    {
        return m_position != m_last;
    }
    /// Returns the current value in the range
    reference current()
    {
        STLSOFT_ASSERT(is_open());

        return *m_position;
    }
    /// Returns the current value in the range
    const_reference current() const
    {
        STLSOFT_ASSERT(is_open());

        return *m_position;
    }

    /// Indicates whether the range is open
    operator boolean_type() const
    {
        return boolean_generator_type::translate(is_open());
    }
    /// Returns the current value in the range
    reference operator *()
    {
        return current();
    }
    /// Returns the current value in the range
    const_reference operator *() const
    {
        return current();
    }

    /// Advances the current position in the range
    class_type& advance()
    {
        STLSOFT_MESSAGE_ASSERT("Attempting to increment the range past its end point", is_open());

        ++m_position;

        return *this;
    }
    /// Advances the current position in the range
    class_type& operator ++()
    {
        return advance();
    }
    /// Advances the current position in the range, returning a copy of the
    /// range prior to its being advanced
    class_type operator ++(int)
    {
        class_type  ret(*this);

        operator ++();

        return ret;
    }
/// @}

/// \name Iterable Range methods
/// @{
public:
    /// Returns an iterator to the current position of the range
    iterator begin()
    {
        return m_position;
    }
    /// Returns an iterator to the end of the range
    iterator end()
    {
        return m_last;
    }

    /// Returns an iterator to the current position of the range
    const_iterator begin() const
    {
        return m_position;
    }
    /// Returns an iterator to the end of the range
    const_iterator end() const
    {
        return m_last;
    }
/// @}

/// \name Members
/// @{
private:
    iterator  m_position;
    iterator  m_last;
/// @}
};

////////////////////////////////////////////////////////////////////////////
// Functions

#ifdef STLSOFT_CF_TEMPLATE_PARTIAL_SPECIALISATION_SUPPORT

template<ss_typename_param_k I>
inline iterator_range<I> make_iterator_range(I &first, I &last)
{
    return iterator_range<I>(first, last);
}

#else /* ? STLSOFT_CF_TEMPLATE_PARTIAL_SPECIALISATION_SUPPORT */

template<ss_typename_param_k I>
inline iterator_range<I, iterator_range_traits<I> > make_iterator_range(I &first, I &last)
{
    return iterator_range<I, iterator_range_traits<I> >(first, last);
}

#if 0
template<ss_typename_param_k T>
inline iterator_range<T*, iterator_range_traits<T> > make_iterator_range(T *first, T* last)
{
    return iterator_range<T*, iterator_range_traits<T> >(first, last);
}
#endif /* 0 */

template<ss_typename_param_k T>
inline iterator_range<T const*, const_pointer_iterator_range_traits<const T> > make_iterator_range(T const* first, T const* last)
{
    return iterator_range<T const*, const_pointer_iterator_range_traits<const T> >(first, last);
}

#endif /* STLSOFT_CF_TEMPLATE_PARTIAL_SPECIALISATION_SUPPORT */

////////////////////////////////////////////////////////////////////////////
// Unit-testing

#ifdef STLSOFT_UNITTEST
# include "./unittest/iterator_range_unittest_.h"
#endif /* STLSOFT_UNITTEST */

/* ////////////////////////////////////////////////////////////////////// */

#ifndef RANGELIB_NO_NAMESPACE
# if defined(_STLSOFT_NO_NAMESPACE) || \
     defined(STLSOFT_DOCUMENTATION_SKIP_SECTION)
} // namespace rangelib
# else
} // namespace rangelib_project
} // namespace stlsoft
# endif /* _STLSOFT_NO_NAMESPACE */
#endif /* !RANGELIB_NO_NAMESPACE */

/* ////////////////////////////////////////////////////////////////////// */

#endif /* !RANGELIB_INCL_RANGELIB_HPP_ITERATOR_RANGE */

/* ///////////////////////////// end of file //////////////////////////// */