libs/gil/example/interleaved_ref.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_EXAMPLE_INTERLEAVED_REF_HPP #define BOOST_GIL_EXAMPLE_INTERLEAVED_REF_HPP #include <boost/gil.hpp> #include <boost/gil/extension/dynamic_image/dynamic_image_all.hpp> #include <type_traits> // Example on how to create a new model of a pixel reference namespace boost { namespace gil { // A model of an interleaved pixel reference. Holds a pointer to the first channel // MODELS: // MutableHomogeneousPixelConcept // MutableHomogeneousColorBaseConcept // MutableColorBaseConcept // HomogeneousColorBaseConcept // ColorBaseConcept // HomogeneousPixelBasedConcept // PixelBasedConcept // // For planar reference proxies to work properly, all of their methods must be const-qualified // and their iterator's reference type must be const-qualified. // Mutability of the reference proxy is part of its type (in this case, depends on the mutability of ChannelReference) /// \tparam ChannelReference - Models ChannelConcept. /// A channel reference, unsigned char& or const unsigned char& /// \tparam Layout - A layout (includes the color space and channel ordering) template <typename ChannelReference, typename Layout> struct interleaved_ref { private: using channel_t = typename channel_traits<ChannelReference>::value_type; using channel_pointer_t = typename channel_traits<ChannelReference>::pointer; using channel_reference_t = typename channel_traits<ChannelReference>::reference; using channel_const_reference_t = typename channel_traits<ChannelReference>::const_reference; public: using layout_t = Layout; // Required by ColorBaseConcept // Copy construction from a compatible type. The copy constructor of references is shallow. The channels themselves are not copied. interleaved_ref(const interleaved_ref& p) : _channels(p._channels) {} template <typename P> interleaved_ref(const P& p) : _channels(p._channels) { check_compatible<P>(); } template <typename P> bool operator==(const P& p) const { check_compatible<P>(); return static_equal(*this,p); } template <typename P> bool operator!=(const P& p) const { return !(*this==p); } // Required by MutableColorBaseConcept // Assignment from a compatible type const interleaved_ref& operator=(const interleaved_ref& p) const { static_copy(p,*this); return *this; } template <typename P> const interleaved_ref& operator=(const P& p) const { check_compatible<P>(); static_copy(p,*this); return *this; } // Required by PixelConcept using value_type = pixel<channel_t, layout_t>; using reference = interleaved_ref; using const_reference = interleaved_ref<channel_const_reference_t, layout_t>; static const bool is_mutable = channel_traits<ChannelReference>::is_mutable; // Required by HomogeneousPixelConcept ChannelReference operator[](std::size_t i) const { return _channels[i]; } // Custom constructor (not part of any concept) explicit interleaved_ref(channel_pointer_t channels) : _channels(channels) {} // This is needed for the reference proxy to work properly const interleaved_ref* operator->() const { return this; } private: channel_pointer_t _channels; template <typename Pixel> static void check_compatible() { gil_function_requires<PixelsCompatibleConcept<Pixel,interleaved_ref>>(); } }; // Required by ColorBaseConcept template <typename ChannelReference, typename Layout, int K> struct kth_element_type<interleaved_ref<ChannelReference, Layout>, K> { using type = ChannelReference; }; template <typename ChannelReference, typename Layout, int K> struct kth_element_reference_type<interleaved_ref<ChannelReference, Layout>, K> { using type = ChannelReference; }; template <typename ChannelReference, typename Layout, int K> struct kth_element_const_reference_type<interleaved_ref<ChannelReference, Layout>, K> { using type = ChannelReference; // XXX: using type = typename channel_traits<ChannelReference>::const_reference; }; // Required by ColorBaseConcept template <int K, typename ChannelReference, typename Layout> typename element_reference_type<interleaved_ref<ChannelReference,Layout>>::type at_c(const interleaved_ref<ChannelReference,Layout>& p) { return p[K]; }; // Required by HomogeneousColorBaseConcept template <typename ChannelReference, typename Layout> typename element_reference_type<interleaved_ref<ChannelReference,Layout>>::type dynamic_at_c(const interleaved_ref<ChannelReference,Layout>& p, std::size_t n) { return p[n]; }; namespace detail { struct swap_fn_t { template <typename T> void operator()(T& x, T& y) const { using std::swap; swap(x,y); } }; } // Required by MutableColorBaseConcept. The default std::swap does not do the right thing for proxy references - it swaps the references, not the values template <typename ChannelReference, typename Layout> void swap(const interleaved_ref<ChannelReference,Layout>& x, const interleaved_ref<ChannelReference,Layout>& y) { static_for_each(x,y,detail::swap_fn_t()); }; // Required by PixelConcept template <typename ChannelReference, typename Layout> struct is_pixel<interleaved_ref<ChannelReference,Layout>> : public std::true_type {}; // Required by PixelBasedConcept template <typename ChannelReference, typename Layout> struct color_space_type<interleaved_ref<ChannelReference, Layout>> { using type = typename Layout::color_space_t; }; // Required by PixelBasedConcept template <typename ChannelReference, typename Layout> struct channel_mapping_type<interleaved_ref<ChannelReference, Layout>> { using type = typename Layout::channel_mapping_t; }; // Required by PixelBasedConcept template <typename ChannelReference, typename Layout> struct is_planar<interleaved_ref<ChannelReference,Layout>> : std::false_type {}; // Required by HomogeneousPixelBasedConcept template <typename ChannelReference, typename Layout> struct channel_type<interleaved_ref<ChannelReference, Layout>> { using type = typename channel_traits<ChannelReference>::value_type; }; } } // namespace boost::gil #endif