boost/gil/concepts/pixel_iterator.hpp
// // Copyright 2005-2007 Adobe Systems Incorporated // // 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 // #ifndef BOOST_GIL_CONCEPTS_PIXEL_ITERATOR_HPP #define BOOST_GIL_CONCEPTS_PIXEL_ITERATOR_HPP #include <boost/gil/concepts/channel.hpp> #include <boost/gil/concepts/color.hpp> #include <boost/gil/concepts/concept_check.hpp> #include <boost/gil/concepts/fwd.hpp> #include <boost/gil/concepts/pixel.hpp> #include <boost/gil/concepts/pixel_based.hpp> #include <boost/iterator/iterator_concepts.hpp> #include <cstddef> #include <iterator> #include <type_traits> #if defined(BOOST_CLANG) #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wunknown-pragmas" #pragma clang diagnostic ignored "-Wunused-local-typedefs" #endif #if defined(BOOST_GCC) && (BOOST_GCC >= 40900) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-local-typedefs" #endif namespace boost { namespace gil { // Forward declarations template <typename It> struct const_iterator_type; template <typename It> struct iterator_is_mutable; template <typename It> struct is_iterator_adaptor; template <typename It, typename NewBaseIt> struct iterator_adaptor_rebind; template <typename It> struct iterator_adaptor_get_base; // These iterator mutability concepts are taken from Boost concept_check.hpp. // Isolating mutability to result in faster compile time namespace detail { // Preconditions: TT Models boost_concepts::ForwardTraversalConcept template <class TT> struct ForwardIteratorIsMutableConcept { void constraints() { auto const tmp = *i; *i++ = tmp; // require postincrement and assignment } TT i; }; // Preconditions: TT Models boost::BidirectionalIteratorConcept template <class TT> struct BidirectionalIteratorIsMutableConcept { void constraints() { gil_function_requires< ForwardIteratorIsMutableConcept<TT>>(); auto const tmp = *i; *i-- = tmp; // require postdecrement and assignment } TT i; }; // Preconditions: TT Models boost_concepts::RandomAccessTraversalConcept template <class TT> struct RandomAccessIteratorIsMutableConcept { void constraints() { gil_function_requires<BidirectionalIteratorIsMutableConcept<TT>>(); typename std::iterator_traits<TT>::difference_type n = 0; ignore_unused_variable_warning(n); i[n] = *i; // require element access and assignment } TT i; }; // Iterators that can be used as the base of memory_based_step_iterator require some additional functions // \tparam Iterator Models boost_concepts::RandomAccessTraversalConcept template <typename Iterator> struct RandomAccessIteratorIsMemoryBasedConcept { void constraints() { std::ptrdiff_t bs = memunit_step(it); ignore_unused_variable_warning(bs); it = memunit_advanced(it, 3); std::ptrdiff_t bd = memunit_distance(it, it); ignore_unused_variable_warning(bd); memunit_advance(it,3); // for performace you may also provide a customized implementation of memunit_advanced_ref } Iterator it; }; /// \tparam Iterator Models PixelIteratorConcept template <typename Iterator> struct PixelIteratorIsMutableConcept { void constraints() { gil_function_requires<detail::RandomAccessIteratorIsMutableConcept<Iterator>>(); using ref_t = typename std::remove_reference < typename std::iterator_traits<Iterator>::reference >::type; using channel_t = typename element_type<ref_t>::type; gil_function_requires<detail::ChannelIsMutableConcept<channel_t>>(); } }; } // namespace detail /// \ingroup PixelLocatorConcept /// \brief Concept for locators and views that can define a type just like the given locator or view, except X and Y is swapped /// \code /// concept HasTransposedTypeConcept<typename T> /// { /// typename transposed_type<T>; /// where Metafunction<transposed_type<T> >; /// }; /// \endcode template <typename T> struct HasTransposedTypeConcept { void constraints() { using type = typename transposed_type<T>::type; ignore_unused_variable_warning(type{}); } }; /// \defgroup PixelIteratorConceptPixelIterator PixelIteratorConcept /// \ingroup PixelIteratorConcept /// \brief STL iterator over pixels /// \ingroup PixelIteratorConceptPixelIterator /// \brief An STL random access traversal iterator over a model of PixelConcept. /// /// GIL's iterators must also provide the following metafunctions: /// - \p const_iterator_type<Iterator>: Returns a read-only equivalent of \p Iterator /// - \p iterator_is_mutable<Iterator>: Returns whether the given iterator is read-only or mutable /// - \p is_iterator_adaptor<Iterator>: Returns whether the given iterator is an adaptor over another iterator. See IteratorAdaptorConcept for additional requirements of adaptors. /// /// \code /// concept PixelIteratorConcept<typename Iterator> /// : boost_concepts::RandomAccessTraversalConcept<Iterator>, PixelBasedConcept<Iterator> /// { /// where PixelValueConcept<value_type>; /// typename const_iterator_type<It>::type; /// where PixelIteratorConcept<const_iterator_type<It>::type>; /// static const bool iterator_is_mutable<It>::value; /// static const bool is_iterator_adaptor<It>::value; // is it an iterator adaptor /// }; /// \endcode template <typename Iterator> struct PixelIteratorConcept { void constraints() { gil_function_requires<boost_concepts::RandomAccessTraversalConcept<Iterator>>(); gil_function_requires<PixelBasedConcept<Iterator>>(); using value_type = typename std::iterator_traits<Iterator>::value_type; gil_function_requires<PixelValueConcept<value_type>>(); using const_t = typename const_iterator_type<Iterator>::type; static bool const is_mutable = iterator_is_mutable<Iterator>::value; ignore_unused_variable_warning(is_mutable); // immutable iterator must be constructible from (possibly mutable) iterator const_t const_it(it); ignore_unused_variable_warning(const_it); check_base(typename is_iterator_adaptor<Iterator>::type()); } void check_base(std::false_type) {} void check_base(std::true_type) { using base_t = typename iterator_adaptor_get_base<Iterator>::type; gil_function_requires<PixelIteratorConcept<base_t>>(); } Iterator it; }; /// \brief Pixel iterator that allows for changing its pixel /// \ingroup PixelIteratorConceptPixelIterator /// \code /// concept MutablePixelIteratorConcept<PixelIteratorConcept Iterator> /// : MutableRandomAccessIteratorConcept<Iterator> {}; /// \endcode template <typename Iterator> struct MutablePixelIteratorConcept { void constraints() { gil_function_requires<PixelIteratorConcept<Iterator>>(); gil_function_requires<detail::PixelIteratorIsMutableConcept<Iterator>>(); } }; /// \defgroup PixelIteratorConceptStepIterator StepIteratorConcept /// \ingroup PixelIteratorConcept /// \brief Iterator that advances by a specified step /// \ingroup PixelIteratorConceptStepIterator /// \brief Concept of a random-access iterator that can be advanced in memory units (bytes or bits) /// \code /// concept MemoryBasedIteratorConcept<boost_concepts::RandomAccessTraversalConcept Iterator> /// { /// typename byte_to_memunit<Iterator>; where metafunction<byte_to_memunit<Iterator> >; /// std::ptrdiff_t memunit_step(const Iterator&); /// std::ptrdiff_t memunit_distance(const Iterator& , const Iterator&); /// void memunit_advance(Iterator&, std::ptrdiff_t diff); /// Iterator memunit_advanced(const Iterator& p, std::ptrdiff_t diff) { Iterator tmp; memunit_advance(tmp,diff); return tmp; } /// Iterator::reference memunit_advanced_ref(const Iterator& p, std::ptrdiff_t diff) { return *memunit_advanced(p,diff); } /// }; /// \endcode template <typename Iterator> struct MemoryBasedIteratorConcept { void constraints() { gil_function_requires<boost_concepts::RandomAccessTraversalConcept<Iterator>>(); gil_function_requires<detail::RandomAccessIteratorIsMemoryBasedConcept<Iterator>>(); } }; /// \ingroup PixelIteratorConceptStepIterator /// \brief Step iterator concept /// /// Step iterators are iterators that have a set_step method /// \code /// concept StepIteratorConcept<boost_concepts::ForwardTraversalConcept Iterator> /// { /// template <Integral D> /// void Iterator::set_step(D step); /// }; /// \endcode template <typename Iterator> struct StepIteratorConcept { void constraints() { gil_function_requires<boost_concepts::ForwardTraversalConcept<Iterator>>(); it.set_step(0); } Iterator it; }; /// \ingroup PixelIteratorConceptStepIterator /// \brief Step iterator that allows for modifying its current value /// \code /// concept MutableStepIteratorConcept<Mutable_ForwardIteratorConcept Iterator> /// : StepIteratorConcept<Iterator> {}; /// \endcode template <typename Iterator> struct MutableStepIteratorConcept { void constraints() { gil_function_requires<StepIteratorConcept<Iterator>>(); gil_function_requires<detail::ForwardIteratorIsMutableConcept<Iterator>>(); } }; /// \defgroup PixelIteratorConceptIteratorAdaptor IteratorAdaptorConcept /// \ingroup PixelIteratorConcept /// \brief Adaptor over another iterator /// \ingroup PixelIteratorConceptIteratorAdaptor /// \brief Iterator adaptor is a forward iterator adapting another forward iterator. /// /// In addition to GIL iterator requirements, /// GIL iterator adaptors must provide the following metafunctions: /// - \p is_iterator_adaptor<Iterator>: Returns \p std::true_type /// - \p iterator_adaptor_get_base<Iterator>: Returns the base iterator type /// - \p iterator_adaptor_rebind<Iterator,NewBase>: Replaces the base iterator with the new one /// /// The adaptee can be obtained from the iterator via the "base()" method. /// /// \code /// concept IteratorAdaptorConcept<boost_concepts::ForwardTraversalConcept Iterator> /// { /// where SameType<is_iterator_adaptor<Iterator>::type, std::true_type>; /// /// typename iterator_adaptor_get_base<Iterator>; /// where Metafunction<iterator_adaptor_get_base<Iterator> >; /// where boost_concepts::ForwardTraversalConcept<iterator_adaptor_get_base<Iterator>::type>; /// /// typename another_iterator; /// typename iterator_adaptor_rebind<Iterator,another_iterator>::type; /// where boost_concepts::ForwardTraversalConcept<another_iterator>; /// where IteratorAdaptorConcept<iterator_adaptor_rebind<Iterator,another_iterator>::type>; /// /// const iterator_adaptor_get_base<Iterator>::type& Iterator::base() const; /// }; /// \endcode template <typename Iterator> struct IteratorAdaptorConcept { void constraints() { gil_function_requires<boost_concepts::ForwardTraversalConcept<Iterator>>(); using base_t = typename iterator_adaptor_get_base<Iterator>::type; gil_function_requires<boost_concepts::ForwardTraversalConcept<base_t>>(); static_assert(is_iterator_adaptor<Iterator>::value, ""); using rebind_t = typename iterator_adaptor_rebind<Iterator, void*>::type; base_t base = it.base(); ignore_unused_variable_warning(base); } Iterator it; }; /// \brief Iterator adaptor that is mutable /// \ingroup PixelIteratorConceptIteratorAdaptor /// \code /// concept MutableIteratorAdaptorConcept<Mutable_ForwardIteratorConcept Iterator> /// : IteratorAdaptorConcept<Iterator> {}; /// \endcode template <typename Iterator> struct MutableIteratorAdaptorConcept { void constraints() { gil_function_requires<IteratorAdaptorConcept<Iterator>>(); gil_function_requires<detail::ForwardIteratorIsMutableConcept<Iterator>>(); } }; }} // namespace boost::gil #if defined(BOOST_CLANG) #pragma clang diagnostic pop #endif #if defined(BOOST_GCC) && (BOOST_GCC >= 40900) #pragma GCC diagnostic pop #endif #endif